TRAINING BENCH
A conventional training bench has a problem in that there is a risk of a user being hurt due to a backrest seat inclining more than necessary against the user's intention. A training bench 10 of the present invention mainly has a leg frame 11, a back frame 12, a movable frame 13, a seat part 14, a back seat 15, an angle adjustment mechanism 16, an operation part 17, and a restriction part 18. The angle adjustment mechanism 16 controls and causes the back frame 12 to transition between a fixed state and an angle adjustment state appropriately, so as to prevent the back seat 15 from inclining too much against the user's intention during training. The training bench 10 thus offers excellent safety.
The present invention relates to a training bench and particularly to a training bench that allows a user sitting on a seat part to adjust a back seat to a desired angle with a simple operation and provides excellent safety by preventing the back seat from inclining too much against the user's intention.
BACKGROUND ARTThe structure shown in
As shown in
The angle adjustment mechanism 107 mainly has a stopper portion 108 for adjustment of the length of the main pillar 105 and a wire 109 coupled to the operation lever 106. The stopper portion 108 has a stopper pin 110 and a spring 111 that allows the stopper pin 110 to be inserted to and removed from the main pillar 105, and the wire 109 is coupled to the stopper pin 110.
In the training bench 100 thus structured, when a user sitting on the sitting seat 103 pulls the operation lever 106, the wire 109 contracts, pulling the stopper pin 110 out of the main pillar 105. Then, after the backrest seat 104 is inclined to a desired inclination angle in this state, the operation lever 106 is returned to its original position, which inserts the stopper pin 110 back into the main pillar 105, securing the backrest seat 104 (see, for example, Patent Literature 1).
CITATION LIST Patent Literature
- Patent Literature 1: Japanese Examined Utility Model Registration Application Publication No. Hei 07-24121
As described above, a user of the training bench 100 can adjust the backrest seat 104 to a desired inclination angle by operating the operation lever 106 while remaining seated on the sitting seat 103. Thus, the user does not have to get out of the training bench 100 every time they adjust the inclination angle of the backrest seat 104 and can carry out the training smoothly.
However, the backrest seat 104 is adjusted with the stopper pin 110 pulled out of the main pillar 105; thus, if the weight of the user is exerted on the backrest seat 104 more than necessary, the backrest seat 104 may incline more than necessary against the user's intention. In such a case, the user may hurt themselves unexpectedly by, e.g., striking the head against the backrest seat 104 that is inclined too much. There is therefore a security issue.
Also, to adjust the angle of the backrest seat 104, the user leans on the backrest seat 104 and pushes the backrest seat 104 using, e.g., their back while turning back on the main pillar 105. Then, the user has to perform the angle adjustment of the backrest seat 104 while being unable to see the positions of lock holes (not shown) on the main pillar 105 into which the stopper pin 110 is to be inserted, and needs to perform minor adjustments of the angle of the backrest seat 104 until the stopper pin 110 is inserted into the lock hole near the desired angle. Thus, there is an issue of poor handleability.
Also, if the stopper pin 110 is inserted into a different lock hole as a result of the minor adjustments of the backrest seat 104, causing the backrest seat 104 not to be at the inclination angle desired by the user, the user has to operate the operation lever 106 and adjust the angle of the backrest seat 104 all over again. Thus, there is an issue of cumbersome operation. Also, in the structure in which the backrest seat 104 is fixed in position using the stopper pin 110, the lock holes need to be spaced away from one another at certain intervals for reasons such as strength, which makes fine angle adjustments of the backrest seat 104 difficult. Thus, there is an issue of inconvenience to the user.
The present invention has been made in view of the above circumstances and provides a training bench that allows a user sitting on a seat part to adjust a back seat to a desired angle with a simple operation and provides excellent safety by preventing the back seat from inclining too much against the user's intention.
Solution to ProblemA training bench of the present invention includes: a leg frame; a back frame that is supported by the leg frame; a movable frame that has a first end portion turnably disposed relative to the back frame and a second end portion slidably disposed relative to the leg frame; an angle adjustment mechanism that adjusts an inclination angle of the back frame; and an operation part that operates the angle adjustment mechanism, in which the angle adjustment mechanism forms a fixed state in which turning operation of the movable frame relative to the back frame is stopped so that the back frame is positionally fixed and an angle adjustment state in which turning operation of the movable frame relative to the back frame is permitted to make the inclination angle of the back frame adjustable.
Also, in the training bench of the present invention, in conjunction with a single operation of the operation part performed for transition from the fixed state to the angle adjustment state, the angle adjustment mechanism causes the back frame to transition from the angle adjustment state back to the fixed state.
Also, in the training bench of the present invention, the angle adjustment mechanism has an angle adjustment gear that is turnably disposed relative to the back frame, a first arm part that is disposed at the back frame and that engages with or separates from the angle adjustment gear, and a second arm part that is disposed at the back frame and that turns in conjunction with operation of the operation part to cause the first arm part to turn. The first end portion of the movable frame is fixed relative to a support shaft part to which the angle adjustment gear is fixed. In the fixed state, the first arm part is engaged with the angle adjustment gear to stop the support shaft part from performing turning operation relative to the back frame, and in the angle adjustment state, the first arm part separates from the angle adjustment gear to permit the support shaft part to perform the turning operation relative to the back frame.
Also, in the training bench of the present invention, the angle adjustment mechanism further has a protrusion piece part that is disposed at the first arm part and a guide groove that is formed in the second arm part and that guides the protrusion piece part to cause the first arm part to turn. The back frame transitions from the fixed state to the angle adjustment state when the protrusion piece part moves inside the guide groove, and the back frame transitions from the angle adjustment state to the fixed state when the protrusion piece part comes out of the guide groove after moving inside the guide groove.
Also, in the training bench of the present invention, the angle adjustment mechanism further has a movable piece part that is disposed at the second arm part and that performs extension and contraction operation when pressed by the protrusion piece part in one direction, and when the protrusion piece part presses the movable piece part in the one direction after coming out of the guide groove to cause the movable piece part to contract, the protrusion piece part returns back into the guide groove in conjunction with the turning operation of the second arm part.
Also, in the training bench of the present invention, a slide link part that slides relative to the leg frame is disposed at the second end portion of the movable frame, and a restriction part is disposed at the slide link part, the restriction part extending toward the back frame to restrict an inclination range of the back frame.
Effects of the InventionIn the training bench of the present invention, the first end portion of the movable frame is turnably disposed relative to the back frame, while the second end portion of the movable frame is slidably disposed relative to the leg frame. Then, the angle adjustment mechanism controls the turning operation of the movable frame and the back frame, and the user can adjust the angle of the back frame during training by operating the operation part. The convenience is thus improved.
In the training bench of the present invention, in conjunction with an operation of the operation part which causes the back frame to transition from the fixed state to the angle adjustment state, the angle adjustment mechanism causes the back frame to transition from the angle adjustment state back to the fixed state. This structure prevents the back frame from inclining too much against the user's intention, so that the user can adjust the angle of the back frame safely.
In the training bench of the present invention, the angle of the back frame can be adjusted by turning, relative to the back frame, of the support shaft part to which the angle adjustment gear and the first end portion of the movable frame are fixed. This structure enables angle adjustment of the back frame for each span of the tooth profiles of the angle adjustment gear, allowing fine angle adjustments of the back frame according to the user's training menu or the like. The convenience is thus improved.
In the training bench of the present invention, the protrusion piece part is formed at the first arm part, and the guide groove is formed in the second arm part to guide the protrusion piece part. When the protrusion piece part comes out of the guide groove after moving in the guide groove, the first arm part in engagement with the angle adjustment gear separates from the angle adjustment gear and then re-engages the angle adjustment gear in a single operation. This structure of the training bench allows the back frame to return to the fixed state in the end within a single operation, irrespective of the intention of the user, and thus prevents the back frame from inclining too much, enabling the user to use the training bench safely.
Also, in the training bench of the present invention, the movable piece part that repeats extension and contraction operation in one direction is disposed at the second arm part. The extension and contraction operation of the movable piece part performed in the process of the transition from the angle adjustment state to the fixed state causes the protrusion piece part to return into the guide groove, allowing the angle adjustment of the back frame to be repeated consecutively.
Also, in the training bench of the present invention, the restriction part is disposed at the movable frame to restrict the inclination range of the back frame. This structure ensures that even if any of the components constituting the angle adjustment mechanism breaks, the restriction part restricts the inclination range of the back frame to prevent the user from, for example, being hurt during training.
Hereinbelow, a training bench 10 according to an embodiment of the present invention is described in detail based on the drawings. Note that throughout the description of the present embodiment, the same members are basically denoted by the same reference numerals to avoid repetitive description. The up-down direction represents the height direction of the training bench 10, the left-right direction represents the width direction of the training bench 10, and the front-rear direction represents the depth direction of the training bench 10.
As shown in
The leg frame 11 is a frame for the training bench 10 to stand on a floor surface of a training room or the like and is formed from a material with desired rigidity, such as, for example, an iron material or an aluminum material. The leg frame 11 mainly has two main pillar parts 11A, 11B and two leg parts 11C, 11D disposed at the lower ends of the main pillar parts 11B, 11A, respectively. Since their upper end portions are turnably linked, the main pillar parts 11A, 11B can be collapsed for storage when the training bench 10 is not used.
The back frame 12 is turnably linked to a link shaft part 24 of the leg frame 11 (see
The movable frame 13 supports the back frame 12 from below and is formed from a material with desired rigidity like the leg frame 11. An upper end portion of the movable frame 13 is fixed to a support shaft part 22 (see
Specifically, the movable frame 13 mainly has a main pillar part 13A disposed between the leg frame 11 and the back frame 12 and a slide link part 13B that is disposed at the main pillar part 11A of the leg frame 11 and moves guided by the main pillar part 11A.
The slide link part 13B has a publicly-known roller structure (not shown) inside and moves along the main pillar part 11A when the roller structure slides on the surface of the main pillar part 11A. As described above, the upper end portion of the main pillar part 13A turns relative to the back frame 12 integrally with the support shaft part 22, and the slide link part 13B moves along the main pillar part 11A in conjunction with this turning, allowing adjustment of the inclination angle of the back frame 12. This structure allows the back frame 12 to be moved from an upright state which is substantially perpendicular to the mount surface to a substantially horizontal, recumbent state.
The restriction part 18 is a member that restricts the lower limit position of the inclination range of the back frame 12 and moves along the main pillar part 11A integrally with the slide link part 13B. The restriction part 18 is fixed to the upper surface side of the slide link part 13B and extends towards the back seat 15. The back frame 12 abuts the tip end of the restriction part 18 when the back frame 12 comes to a state of being substantially flat with respect to the seat part 14 to prevent the back frame 12 and the back seat 15 from inclining further.
Even if one of components constituting the angle adjustment mechanism 16 breaks to cause the back frame 12 to incline abruptly, the slide link part 13B does not come out of the main pillar part 11A. Even in the above state where a component in the training bench 10 is broken, the mechanical structure in which the back frame 12 abuts the tip end of the restriction part 18 prevents the back frame 12 and the back seat 15 from inclining further than the flat state, ensuring the safety for the user.
The seat part 14 mainly has a sitting seat 14A on which a user sits and support frames 14B, 14C that support the sitting seat 14A from below. As shown, a first end portion of the support frame 14B is fixed to the main pillar part 11B of the leg frame 11, and a first end portion of the support frame 14C is turnably attached to the back frame 12. The support frame 14B itself has a publicly-known extension and contraction mechanism, so that the angle and height of the seat part 14 can be adjusted.
The back seat 15 is formed mainly of a cushion part on which a user leans and is fixed to the back frame 12, so that the back seat 15 turns relative to the leg frame 11 integrally with the back frame 12. The back seat 15 is adjusted to an inclination angle desired by the user when the user operates the operation part 17 and inclines the back frame 12 via the angle adjustment mechanism 16 and the like.
The operation part 17 is an operation lever substantially in the shape of the letter U and has a pair of handle portions 17A disposed near the left and right edge portions of the back seat 15, respectively. As will be detailed later, part of the operation part 17 is fixed to a second arm part 33 (see
As shown in
The main pillar parts 12A, 12B are disposed near the left and right edge portions of the back seat 15 to extend in the longitudinal direction, supporting the back seat 15 from its back surface side. The bridge parts 12C, 12D are disposed near both end portions of the main pillar parts 12A, 12B in the height direction, respectively, and are fixed by welding to the main pillar parts 12A, 12B, so that desired rigidity and strength of the back frame 12 is achieved.
As shown, the support shaft parts 21, 22, 23 are disposed substantially at the center portions of the main pillar parts 12A, 12B in the height direction. The support shaft parts 21, 22, 23 are disposed to bridge the pair of link plates 41 fixed by welding to the main pillar parts 12A, 12B.
As shown also in
In this structure, the support shaft part 21 is fixed relative to the link plates 41, while the support shaft parts 22, 23 turn relative to the link plates 41 via the hollow cylindrical shafts 22B, 23B. As will be detailed later, when the angle adjustment gear 31 (see
The operation part 17 is fixed relative to the second arm part 33, and the pair of handle portions 17A are disposed at heights substantially one third of the main pillar parts 12A, 12B in the height direction. With this structure, when a user sitting on the seat part 14 (see
As shown in
The angle adjustment gear 31 is substantially fan-shaped and is formed from a material with desired rigidity, such as, for example, an iron material or an aluminum material. In the arc region of the angle adjustment gear 31, a plurality of tooth profiles 31A are formed, arranged at certain intervals. The angle adjustment gear 31 is fixed by welding to a substantially center area of the support shaft part 22. The angle adjustment gear 31 does not perform turning operation solely, but performs turning operation integrally with the support shaft part 22 relative to the back frame 12.
The first arm part 32 is formed from, for example, the same material as the angle adjustment gear 31 and is disposed such that at least part thereof faces the plurality of tooth profiles 31A in the arc region of the angle adjustment gear 31. A first end portion 32A of the first arm part 32 is pivotally and turnably supported by the support shaft part 21. A second end portion 32B of the first arm part 32 has a plurality of tooth profiles 32C formed and arranged at certain intervals in a region opposing the arc region of the angle adjustment gear 31, the tooth profiles 32C having substantially the same shapes as the tooth profiles 31A. The region of the first arm part 32 where the tooth profiles 32C are formed is arc-shaped having substantially the same radius of curvature as the region of the angle adjustment gear 31 where the tooth profiles 31A are formed.
With this structure, the tooth profiles 32C of the first arm part 32 and the tooth profiles 31A of the angle adjustment gear 31 engage with each other, and when the first arm part 32 and the angle adjustment gear 31 are in the engaged state, the support shaft part 22 is fixed relative to the back frame 12 and stops turning. As a result, the movable frame 13 fixed to the support shaft part 22 is also in a fixed state relative to the back frame 12 and supporting the back frame 12 from behind. In other words, when the first arm part 32 and the angle adjustment gear 31 are in the engaged state, the inclination angle of the back frame 12 cannot be adjusted, and the back frame 12 is in a fixed state where the back frame 12 is positionally fixed.
The pair of protrusion piece parts 38 are disposed on the respective side surfaces of the second end portion 32B of the first arm part 32. Each of the protrusion piece parts 38 is, for example, a columnar bar-shaped body made of the same material as the first arm part 32. The first elastic part 34 is, for example, a coil spring and has a first end portion fixed to the support shaft part 21 and a second end portion fixed to the first arm part 32, so that the first arm part 32 is biased by the first elastic part 34 toward the angle adjustment gear 31.
The second arm part 33 is formed from, for example, the same material as the angle adjustment gear 31 and is disposed below the angle adjustment gear 31 and the first arm part 32. A first end portion 33A of the second arm part 33 is fixed by welding to a substantially center area of the support shaft part 23. The second arm part 33 does not perform turning operation solely, but performs turning operation integrally with the support shaft part 23 relative to the back frame 12. The second arm part 33 is a box-shaped body having a hollow portion inside, and in the engaged state described above, accommodates part of the angle adjustment gear 31 and the first arm part 32 in the hollow portion and supports these members from below.
The pair of guide grooves 39 are formed at a second end portion 33B of the second arm part 33 to engage with the protrusion piece parts 38 of the first arm part 32 and guide the protrusion piece parts 38 in conjunction with the movement of the protrusion piece parts 38. As will be detailed later, the movable piece parts 40 capable of extension and contraction operation in one direction are formed on side surfaces of the second arm part 33, near the guide grooves 39. For example, the third elastic part 36 (see
The second elastic part 35 is, for example, a coil spring and has a first end portion fixed to the support shaft part 21 and a second end portion fixed to the second arm part 33, so that the second arm part 33 is biased by the second elastic part 35 toward the angle adjustment gear 31 and the first arm part 32.
The spiral spring 37 is a member for biasing the back frame 12 frontward and has a first end 37A which is a spiral start point fixed to the support shaft part 22 and a second end 37B which is a spiral end point fixed to the support shaft part 21. With this structure, when the support shaft part 22 turns to cause the back frame 12 to incline rearward, the spiral spring 37 wraps around the support shaft part 22 in a direction to tighten the support shaft part 22, biasing the back frame 12 frontward.
The first arm part 32 is pivotally and turnably supported by the support shaft part 21 as described above, but is unlikely to be displaced in the left-right direction due to a structure such that the first arm part 32 is disposed inside a recessed portion 21B at a substantially center area of the support shaft part 21. Further, the second arm part 33 is fixed by welding to the support shaft part 23 and is thereby fixed in position, while the first arm part 32 turns guided inside the second arm part 33. This structure makes it difficult for the first arm part 32 to be displaced from the recessed portion 21B of the support shaft part 21.
Next,
First,
As shown, the third elastic part 36 is, for example, a coil spring and has a first end portion fixed to the movable piece part 40 and a second end portion fixed to the second arm part 33. With this structure, the movable piece parts 40 perform extension and contraction operation when pressed by the protrusion piece parts 38 in a direction to contract the third elastic parts 36 (hereinafter referred to as “one direction”). When pressed by the protrusion piece parts 38 in directions other than the one direction (hereinafter referred to as “other directions”), the movable piece parts 40 do not perform the extension and contraction operation and guide the protrusion piece parts 38 along their outer perimeters.
Next, as shown in
When the first arm part 32 and the angle adjustment gear 31 separate from each other as described above, the support shaft part 22 is now in a state of being turnable relative to the back frame 12, and the inclination angle of the back frame 12 can be adjusted when the user pushes the back seat 15 rearward with their back. In other words, the back frame 12 is in an angle adjustment state. Note that the movable piece parts 40 are not pressed by the protrusion piece parts 38 and are therefore in a most extended state.
Next, as shown in
As described above, when the first arm part 32 and the angle adjustment gear 31 are in engagement with each other, the support shaft part 22 is fixed to the back frame 12 and is in an unturnable state. In this engaged state, the back frame 12 does not turn even if the user pushes the back seat 15 rearward with their back, and the back frame 12 is thus in a fixed state.
In this state, as shown, the protrusion piece parts 38 out of the guide grooves 39 move to the tip end portions of the movable piece parts 40 and press the movable piece parts 40 in the one direction; thus, the movable piece parts 40 are in a slightly contracted state. Note that, as mentioned earlier,
Next, as shown in
Specifically, when the second arm part 33 turns in the direction indicated by the arrow 49 in conjunction with the movement of the operation part 17, the protrusion piece parts 38 further press the movable piece parts 40 in the one direction, causing the movable piece parts 40 to contract. As a result, the protrusion piece parts 38 return back into the guide grooves 39 which have returned integrally with the second arm part 33. Note that the operation part 17 is biased in the direction indicated by an arrow 48 by an elastic part (not shown) such as a coil spring, and the handle portions 17A return to the position shown in
After the handle portions 17A of the operation part 17 return to the pre-operation state shown in
In the present embodiment, as described above, during a single operation of the user pulling the handle portions 17A of the operation part 17 frontward for adjustment of the angle of the back frame 12, the first arm part 32 and the angle adjustment gear 31 transition from the engaged state shown in
This structure prevents the back frame 12 from inclining too much against the user's intention because the back frame 12 transitions from the angle adjustment state to the fixed state using a mechanical mechanism not dependent on the user's intention. Specifically, the angle adjustment state lasts approximately one second although it depends on the speed at which the user operates the operation part 17, and for this reason, the back frame 12 is prevented from inclining too much against the user's intention during that state. As a result, although the user usually adjusts the angle of the back seat 15 without looking at the angle adjustment mechanism 16, the user is prevented from hurting themselves unexpectedly during that operation. Thus, the training bench 10 offers excellent safety.
Further, in the training bench 10, the angle of the back seat 15 can be adjusted within substantially 90° from the substantially upright state to the substantially flat state relative to the seat part 14. The angle adjustment mechanism 16 allows angle adjustment for each span of the tooth profiles 31A, 32C, making possible fine adjustments in, for example, 16 stages or the like within the above substantially 90°. As a result, the user can easily adjust the back seat 15 to a desired angle according to the training menu, and therefore the convenience is improved.
Depending on the amount of turning of the back seat 15, the tooth profiles 31A, 32C may not mesh with each other perfectly at the transition from the non-engaged state to the engaged state. However, the tooth profiles 31A, 32C come into the engaged state immediately because the tooth profiles 31A, 32C have a short span. As a result, the amount by which the back seat 15 slides rearward against the user's intention is small, and therefore the training bench 10 offers excellent safety. Further, unlike a locking structure using a lock pin, the tooth profiles 31A, 32C always come to engage with each other. Thus, the user is freed from the subtle angle adjustment for aligning the lock pin with the lock hole, which is required by the conventional structure, and therefore, the handleability is improved.
In the present embodiment described above, the back frame 12 is prevented from inclining too much because the mechanical mechanism of the angle adjustment mechanism 16 forces the first arm part 32 and the angle adjustment gear 31 to return from the separate state to the engaged state in a single operation of pulling the operation part 17 frontward for adjustment of the angle of the back frame 12. However, the present invention is not limited to this case. For example, an operation restriction mechanism (not shown) may be disposed near the operation part 17 so that the amount of turning of the operation part 17 may be smaller than the amount of movement of the protrusion piece parts 38 inside the guide grooves 39. In this case, when the user keeps the state where the operation part 17 is pulled frontward, the first arm part 32 and the angle adjustment gear 31 stay in the separate state. Then, when the movable frame 13 turns relative to the back frame 12 with the back frame 12 staying in the angle adjustment state, the user can freely adjust the angle of the back frame 12. In other words, the training bench 10 may be provided with the operation restriction mechanism and used to switch between a mode where the first arm part 32 and the angle adjustment gear 31 are forced to return from the separate state to the engaged state and a mode where the separate state is maintained. Various other modifications can also be made without departing from the gist of the present invention.
REFERENCE SIGNS LIST
- 10 training bench
- 11 leg frame
- 12 back frame
- 13 movable frame
- 14 seat part
- 15 back seat
- 16 angle adjustment mechanism
- 17 operation part
- 18 restriction part
- 21, 22, 23 support shaft part
- 31 angle adjustment gear
- 32 first arm part
- 33 second arm part
- 34 first elastic part
- 35 second elastic part
- 36 third elastic part
- 38 protrusion piece part
- 39 guide groove
- 40 movable piece part
Claims
1. A training bench comprising:
- a leg frame;
- a back frame that is supported by the leg frame;
- a movable frame that has a first end portion turnably disposed relative to the back frame and a second end portion slidably disposed relative to the leg frame;
- an angle adjustment mechanism that adjusts an inclination angle of the back frame; and
- an operation part that operates the angle adjustment mechanism, wherein
- the angle adjustment mechanism forms a fixed state in which turning operation of the movable frame relative to the back frame is stopped so that the back frame is positionally fixed and an angle adjustment state in which turning operation of the movable frame relative to the back frame is permitted to make the inclination angle of the back frame adjustable.
2. The training bench according to claim 1, wherein
- in conjunction with a single operation of the operation part performed for transition from the fixed state to the angle adjustment state, the angle adjustment mechanism causes the back frame to transition from the angle adjustment state back to the fixed state.
3. The training bench according to claim 2, wherein
- the angle adjustment mechanism has an angle adjustment gear that is turnably disposed relative to the back frame, a first arm part that is disposed at the back frame and that engages with or separates from the angle adjustment gear, and a second arm part that is disposed at the back frame and that turns in conjunction with operation of the operation part to cause the first arm part to turn,
- the first end portion of the movable frame is fixed relative to a support shaft part to which the angle adjustment gear is fixed,
- in the fixed state, the first arm part is engaged with the angle adjustment gear to stop the support shaft part from performing turning operation relative to the back frame, and
- in the angle adjustment state, the first arm part separates from the angle adjustment gear to permit the support shaft part to perform the turning operation relative to the back frame.
4. The training bench according to claim 3, wherein
- the angle adjustment mechanism further has a protrusion piece part that is disposed at the first arm part and a guide groove that is formed in the second arm part and that guides the protrusion piece part to cause the first arm part to turn,
- the back frame transitions from the fixed state to the angle adjustment state when the protrusion piece part moves inside the guide groove, and
- the back frame transitions from the angle adjustment state to the fixed state when the protrusion piece part comes out of the guide groove after moving inside the guide groove.
5. The training bench according to claim 4, wherein
- the angle adjustment mechanism further has a movable piece part that is disposed at the second arm part and that performs extension and contraction operation when pressed by the protrusion piece part in one direction, and
- when the protrusion piece part presses the movable piece part in the one direction after coming out of the guide groove to cause the movable piece part to contract, the protrusion piece part returns back into the guide groove in conjunction with the turning operation of the second arm part.
6. The training bench according to claim 1, wherein
- a slide link part that slides relative to the leg frame is disposed at the second end portion of the movable frame, and
- a restriction part is disposed at the slide link part, the restriction part extending toward the back frame to restrict an inclination range of the back frame.
7. The training bench according to claim 2, wherein
- a slide link part that slides relative to the leg frame is disposed at the second end portion of the movable frame, and
- a restriction part is disposed at the slide link part, the restriction part extending toward the back frame to restrict an inclination range of the back frame.
8. The training bench according to claim 3, wherein
- a slide link part that slides relative to the leg frame is disposed at the second end portion of the movable frame, and
- a restriction part is disposed at the slide link part, the restriction part extending toward the back frame to restrict an inclination range of the back frame.
9. The training bench according to claim 4, wherein
- a slide link part that slides relative to the leg frame is disposed at the second end portion of the movable frame, and
- a restriction part is disposed at the slide link part, the restriction part extending toward the back frame to restrict an inclination range of the back frame.
10. The training bench according to claim 5, wherein
- a slide link part that slides relative to the leg frame is disposed at the second end portion of the movable frame, and
- a restriction part is disposed at the slide link part, the restriction part extending toward the back frame to restrict an inclination range of the back frame.
Type: Application
Filed: Oct 8, 2020
Publication Date: Oct 27, 2022
Applicant: HAIGE INDUSTRY CO., LTD. (Ora-gun, Gunma)
Inventor: Li Qiang Zhao (Ora-gun, Gunma)
Application Number: 17/438,052