MAGNETIC TYPE EMERGENCY SWITCH MOUNTING STRUCTURE OF TREADMILL

Abstract

The present disclosure discloses a magnetic type emergency switch mounting structure including a carrier in which a ring groove used for placing a magnetic type emergency switch is arranged; magnetic type emergency switch includes a safe lock, a safety rope and a clip; a magnet is mounted inside the safe lock; one end of the safety rope is connected with the safe lock, and the other end of the safety rope is connected with clip; a first magnetic conductive part capable of attracting the magnet is arranged in the ring groove; safe lock is placed in the ring groove and is attractable to the first magnetic conductive part, safety rope is placed in the ring groove in an encircled manner; a second magnetic conductive part capable of attracting, the magnet is arranged on the clip; and the clip is placed in ring groove and is attractable to the safe lock.

Description

TECHNICAL FIELD

The present disclosure belongs to the technical field of treadmills, and specifically relates to a magnetic type emergency switch mounting structure of a treadmill.

BACKGROUND

At present, a magnetic type emergency switch of a treadmill (including a walking machine) includes a safe lock, a rope and a clip. One end of the rope is tied to the safe lock which is attracted to an operation panel, and the other end of the rope is tied to the clip which hangs in the air. This mounting structure is easy to lose by pulling and is unaesthetic.

SUMMARY

In view of the deficiencies of the prior art, the present disclosure is developed to provide a magnetic type emergency switch mounting structure of a treadmill, which solves the problem that a magnetic type emergency switch is easy to lose.

In order to solve the above technical problem, the present disclosure adopts the following technical solution: A magnetic type emergency switch mounting structure of a treadmill includes a carrier in which a ring groove used for placing a magnetic type emergency switch is arranged; the magnetic type emergency switch includes a safe lock, a safety rope and a clip; a magnet is mounted inside the safe lock; one end of the safety rope is connected with the safe lock, and the other end of the safety rope is connected with the clip; a first magnetic conductive part capable of attracting the magnet is arranged in the ring groove; the safe lock is placed in the ring groove and is attractable to the first magnetic conductive part; the safety rope is placed in the ring groove in an encircled manner; a second magnetic conductive part capable of attracting the magnet is arranged on the clip; and the clip is placed in the ring groove and is attractable to the safe lock.

Preferably, the ring groove includes a first groove and a second groove; two ends of the first groove correspondingly connect with two ends of the second groove; the safe lock and the clip are placed in the first groove; and the safety rope is placed in the second groove.

Preferably, the first magnetic conductive part is arranged at an end portion of the safe lock away from the safety rope, and the second magnetic conductive part is arranged at an end portion of the clip away from the safety rope.

Preferably, the second magnetic conductive part is arranged on an end surface of the clip away from the safety rope.

Preferably, the carrier includes a first carrier and a second carrier; the first carrier is mounted on the second carrier; and the ring groove is formed between the periphery of the first carrier and the second carrier.

Preferably, the carrier is a dial plate, an armrest or a motor, cover.

Compared with the prior art, the present disclosure has the following beneficial effects: The ring groove is formed in the carrier, and the magnetic type emergency switch is placed in the ring groove in the encircled manner to achieve a half-hiding purpose, is not likely to lose and is more aesthetic. The first magnetic conductive part is arranged in the ring groove, and the second magnetic conductive part is arranged on the clip, so that the first magnetic conductive part and the second magnetic conductive part are respectively attracted by the magnet arranged in the safe lock to achieve a purpose of fixing the safe lock and the clip, and the switch is not likely to lose.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a structural diagram of an embodiment of the present disclosure.

FIG. 2 is a structural diagram of a first carrier of an embodiment of the present disclosure.

FIG. 3 is a structural diagram of a clip of an embodiment of the present disclosure.

FIG. 4 is a schematic diagram of storage of a magnetic type emergency switch of an embodiment of the present disclosure.

FIG. 5 is a schematic diagram of use of a magnetic type emergency switch of an embodiment of the present disclosure.

Reference signs in drawings: 100: carrier; 101: ring groove; 102: first magnetic conductive part; 103: first groove; 104: second groove: 110: first carrier; 120: second carrier; 200: magnetic type emergency switch; 210: safe lock; 211: magnet; 220: safety rope; 230: clip; 231: second magnetic conductive part.

DESCRIPTION OF THE EMBODIMENTS

In order to make the above-mentioned features and advantages of the present disclosure more apparent and understandable, the following embodiments are specially cited and detailed descriptions are made as follows in, conjunction with the accompanying drawings.

As shown in FIG. 1 to FIG. 5, the present embodiment provides a magnetic type emergency switch mounting structure of a treadmill. The structure includes a carrier 100 in which a ring groove 101 used for placing a magnetic type emergency switch 200 is arranged; the magnetic type emergency switch 200 includes a safe lock 210, a safety rope 220 and a clip 230; a magnet 211 is mounted inside the safe lock 210; one end of the safety rope 220 is connected with the safe lock 210, and the other end of the safety rope 220 is connected with the clip 230; a first magnetic conductive part 102 capable of attracting the magnet 211 is arranged in the ring groove 101; the safe lock 210 is placed in the ring groove 101 and is attractable to the first magnetic conductive part 102, which is conductive to attracting and fixing the safe lock 210; the safety rope 220 is placed in the ring groove 101 in an encircled manner; a second magnetic conductive part 231 capable of attracting the magnet 211 is arranged on the clip 230; and the clip 230 is placed in the ring groove 101 and is attractable to the safe lock 210, which is conductive to attracting and fixing the clip 230.

In the present embodiment, the ring groove 101 includes a first groove 103 and a second groove 104; two ends of the first groove 103 correspondingly communicate with two ends of the second groove 104, the safe lock 210 and the clip 230 are placed in the first groove 103 which is wider and shorter; and the safety rope 220 is placed in the second groove 104 which is narrower and longer.

In the present embodiment, the first magnetic conductive part 102 is arranged at an, end portion of the safe lock 210 away from the safety rope 220, and the second magnetic conductive part 231 is arranged at an end portion of the clip 230 away from the safety rope 220, and can be specifically, but not limited to, arranged on one end surface of the clip 230 away from the safety rope 220 (of course, it can also be arranged inside the clip 230). For example, the front end surfaces of two half clips of the clip 230 are both provided with the second magnetic conductive parts 231. The second magnetic conductive part 231 may be fixed on one end surface of the clip 230 away from the safety rope 220 through adhesion, or may be a magnetic conductive coating layer and the like.

In the present embodiment, the carrier 100 includes a first carrier 110 (such as an operation panel) and a second carrier 120 (such as a dial plate). The first carrier 110 is mounted on the second carrier 120. The ring groove 101 is faulted between the periphery of the first carrier 110 and the second carrier 120. The carrier 100 is preferably, but is not limited to, a dial plate, an armrest or a motor cover and the like. such as a treadmill dial plate a treadmill second armrest, and a walking machine motor cover.

The principle of the present embodiment is as follows: During storage, the safe lock 210 is firstly placed in the first groove 103 of the ring groove 101; the magnet 211 in the safe lock 210 attracts and is fixed with the first magnetic conductive part 102 on the carrier 100; the safety rope 220 then surrounds one circle along the second groove 104 of the ring groove 101, and the clip 230 is placed in the first groove 103 of the ring groove 101; and the end surface of the clip 230 away from the safety rope 220 is in contact with the end surface away from the safe lock 210. Since the second magnetic conductive part 231 on the clip 230 attracts and is fixed with the magnet 211 in the safe lock 210, the whole magnetic type emergency switch 200 is fixedly mounted in the ring groove 101. During use, the clip 230 is removed and clamped on the clothes of a user, and the user can feel at ease with exercises. The safety rope 220 can be removed or not. When the user slips accidentally, or other accidents occur, and the body deviates from the scope of a belt, the safety rope 220 clamped on the clothes would pull and open the safe lock 210, and a magnetic reed sensor mounted on the inner side of the carrier 100 determines whether the safe lock 210 falls off by sensing a magnetic force; and the operation of the machine is interrupted in emergency if the safe lock 210 falls off to protect the safety of the user.

The above descriptions are only preferred embodiments of the present disclosure, and do not impose any formal restrictions on the present disclosure. Any simple alterations, equivalent changes and modifications that are made to the above embodiments by those skilled in the art according to the technical essence of the present disclosure without departing from the content of the technical solution of the present disclosure shall all fall within the scope of the present disclosure.

Claims

1. A magnetic type emergency switch mounting structure of a treadmill, comprising a carrier in which a ring groove used for placing a magnetic type emergency switch is arranged, wherein the magnetic type emergency switch comprises a safe lock, a safety rope and a clip; a magnet is mounted inside the safe lock; one end of the safety rope is connected with the safe lock, and the other end of the safety rope is connected with the clip; a first magnetic conductive part capable of attracting the magnet is arranged in the ring groove; the safe lock is placed in the ring groove and is attractable to the first magnetic conductive part; the safety rope is placed in the ring groove in an encircled manner; a second magnetic conductive part capable of attracting the magnet is arranged on the clip; and, the clip is placed in the ring groove and is attractable to the safe lock.

2. The magnetic type emergency switch mounting structure of the treadmill according to claim 1, wherein the ring groove comprises a first groove and a second groove; two ends of the first groove correspondingly connect with two ends of the second groove; the safe lock and the clip are placed in the first groove; and the safety rope is placed in the second groove.

3. The magnetic type emergency switch mounting structure of the treadmill according to claim 1, wherein the first magnetic conductive part is arranged at an end portion of the safe lock away from the safety rope, and the second magnetic conductive part is arranged at an end portion of the clip away from the safety rope.

4. The magnetic type emergency switch mounting structure of the treadmill according to claim 1, wherein the second magnetic conductive part is arranged on an end surface of the clip away from the safety rope.

5. The magnetic type emergency switch mounting structure of the treadmill according to claim 3, wherein the second magnetic conductive part is arranged on an end surface of the clip away from the safety rope.

6. The magnetic type emergency switch mounting structure of the treadmill according to claim 1, wherein the carrier comprises a first carrier and a second carrier; the first carrier is mounted on the second carrier; and the ring groove is formed between the periphery of the first carrier and the second carrier.

7. The magnetic type emergency switch mounting structure of the treadmill according to claim 1, wherein the carrier is a dial plate, an armrest or a motor cover.

8. The magnetic type emergency switch mounting structure of the treadmill according to claim 6, wherein the carrier is a dial plate, an armrest or a motor cover.