INSTANT WATER HEATER

Abstract

Provided is an instant water heater. The instant water heater includes a housing, a water inlet pipe, a water outlet pipe, a mounting member, and an electric controller. The housing has a heating container inside. The heating container includes a cap and a water tank detachably connected to the cap. A heating pipe is disposed within the water tank. The water inlet pipe is in communication with a first side of the cap. The water outlet pipe is in communication with a second side of the cap. The water inlet pipe and the water outlet pipe are connected to two sides of the housing, respectively. The mounting member is configured for securing the water tank to the housing. The electric controller is configured for controlling the heating pipe. By providing stability of the heating container, the provided instant water heater can optimize distribution and installation of components.

Description

FIELD OF THE DISCLOSURE

The disclosure relates to water heater, in particularly to an instant water heater.

BACKGROUND OF THE DISCLOSURE

A water heater refers to a device that capable of increasing the temperature of cold water and make the cold water become warm water or hot water within a certain period of time through various physical principles. According to different principles, it can be divided into electric water heaters, gas water heaters, solar water heaters, magnetic energy water heaters, air energy water heaters, heating water heaters, etc.

At present, there are two types of electric water heaters: storage electric water heaters and instant electric water heaters. The instant electric water heater heats the water flowing through the water tank through a heating pipe arranged in the water tank, thereby effectively outputting hot water, and has the characteristics of stable outlet water temperature. In order to facilitate the installation of the heating pipe, the existing heating container for instant water heaters is generally composed of one end of the water tank being sealed and connected to the cover. In order to ensure the assembly stability, at least two sets of locking parts are required to fix the tank and the cover respectively. This not only leads to an increase in the number of components and the complexity of the assembly, but also leads to an increase in the space occupancy rate, which has a negative impact on the distribution and assembly of other components of the water heater.

SUMMARY OF THE DISCLOSURE

Accordingly, in view of the above problems, on the basis of ensuring the installation stability of the heating container, it is an object of the present disclosure to provide an instant water heater with simplified structure, installation friendly, and enough space for distribution and assembly of other components.

The instant water heater includes a housing, a water inlet pipe, a water outlet pipe, a mounting member, and an electric controller.

The housing has a heating container inside. The heating container includes a cap and a water tank detachably connected to the cap. A heating pipe is disposed within the water tank.

The water inlet pipe is in communication with a first side of the cap.

The water outlet pipe is in communication with a second side of the cap. The water inlet pipe and the water outlet pipe are connected to two sides of the housing, respectively.

The mounting member is configured for securing the water tank to the housing.

The electric controller is configured for controlling work process of the heating pipe.

In some embodiments, an outflow end the water inlet pipe extends into a middle part of the cap and bends downward. A bend portion of the water inlet pipe connected to a conduit downwardly. A bottom of the conduit is fitted into a secure seat; one end of the secure seat distal from the conduit is securely abutted against a tank bottom of the water tank, and a water outflow port is provided on the secure seat to communicate with the conduit.

In some embodiments, a water inflow end of the water inlet pipe is connected to a joint pipe. The housing includes polygon connection holes respectively located at positions corresponding to the joint pipe and the water outlet pipe. Polygon connection blocks adapted for the polygon connection holes are respectively arranged on the joint pipe and the water outlet pipe. The cooperation of the polygon connection hole and the polygon connection blocks allows the join pipe and the water outlet pipe to connected to the two sides of the housing.

In some embodiments, the heating pipe is connected to the electric controller via a SCR (silicon controlled rectifier), and an over-temperature protector. External power supply provides electricity to the electric controller. Terminal blocks are arranged between each two of the heating pipe, the SCR, the over-temperature protector, and the electric controller for connection. The over-temperature is secured on a side wall of the water tank. The SCR and the terminal blocks are arranged on a second side of the housing opposite to a first side thereof which accommodates the heating container.

In some embodiments, the join pipe is made of metal. An installation platform for heat dissipation is located on the join pipe at a position corresponding to the SCR. The SCR is secured on the installation platform.

In some embodiments, a secure bracket arranged on the housing for supporting the water tank. An mounting groove is located on the water tank at a position corresponding to the secure bracket, so that the cooperation of the secure bracket and the mounting groove allows the water tank to be connected to the secure bracket. The mounting member is abutted around an external side of the mounting groove on the water tank, and both ends of the mounting member are secured to the secure bracket via locking screws.

In some embodiments, the mounting member is arc-shaped; the water outlet pipe extends to outside of the housing and is attached to a joint.

In some embodiments, the water tank is made of metal. The cap, the water inlet pipe, and the water outlet pipe are made of plastic material by integral molding, respectively. The water tank and the cap are connected by flange connection. A sealing ring is located and squeezed between the water tank and the cap.

In some embodiments, a water inlet temperature sensor and a water outlet temperature sensor are arranged within the water inlet pipe and the water outlet pipe, respectively. The water inlet temperature sensor and the water outlet temperature sensor are connected to the electric controller, respectively.

In some embodiments, the water heater further includes a water flow sensor. The water flow sensor is connected to the electric controller. The water flow sensor is located on within the water inlet pipe or the water outlet pipe.

The advantage of the present disclosure is as follows.

• • 1) The heating container of the present disclosure is formed by detachably connecting a cap to an upper part of the water tank. The heating pipe is installed in the water tank. The water inlet pipe and the water outlet pipe are respectively arranged on both sides of the cap. The water tank is fixed to the housing by the mounting member, and then the water inlet pipe and the water outlet pipe are connected to the two sides of the housing respectively. By this arrangement, a three-point stable fixation is formed for the water tank and the cap without using other locking parts. On this basis, stability of the heating container effectively ensures the distribution and installation of components in the instant water heater.
  • 2) The water outflow end of the water inlet pipe of the present disclosure extends to the middle of the top cover and is bent downwards. On this basis and with the assistance of the conduit and secure seat, the cold water introduced by the water inlet pipe can be fully led to the tank bottom. As such, the introduced cold water can be fully heated and then output. Furthermore, this design also improves the installation stability between the water tank and the cap.
  • 3) The housing of the present disclosure is provided with polygonal connection holes at the positions corresponding to the joint pipe and the water outlet pipe, respectively. The joint pipe and the water outlet pipe are respectively provided with polygonal connecting blocks which are adapted to the polygonal connecting holes. Corresponding polygonal connection holes are matched to connect the joint pipe and the water outlet pipe to the two sides of the housing respectively. Through the matching arrangement of the polygonal connection blocks and the polygonal connection holes, it effectively ensures that the assembled joint pipe and the water outlet pipe are always in a fixed and anti-rotation state. This can not only further improve the installation stability of the cap, but also prevent the stability of the join pipe and the water outlet pipe from being influenced by connections of external cold water pipeline or the hot water pipeline.
  • 4) On the basis that the water inlet pipe and the water outlet pipe of the present disclosure are respectively connected to both sides of the housing, the present disclosure further provides an over-temperature protector on the side wall of the water tank, and arranges the SCR and the terminal blocks together on a side opposite to the heating container. Accordingly, the rationality and compactness of the overall layout of each component of the present disclosure are effectively and greatly improved.
  • 5) The connecting pipe of the present disclosure is made of metal material. The joint pipe is provided with a heat dissipation installation platform at a position corresponding to the SCR. The SCR is mounted on the heat dissipation installation platform. Due to the improvement of the assembly layout of each component of the present disclosure, the SCR is located on a lower side of the joint pipe. Therefore, the installation platform for heat dissipation can be arranged on the joint pipe, so as to form a heat dissipation installation for the SCR. On the basis of being compact and reasonable, the practical effect of the present disclosure is further improved.
  • 6) The housing of the present disclosure is provided with a secure bracket for supporting the water tank. The water tank is provided with a corresponding mounting groove at a position corresponding to the secure bracket. The water tank is assembled on the secure bracket. Then the mounting member arranged in the shape of an arc plate is clamped to the outside of the mounting groove of the water tank, so that the water tank of the present disclosure can be effectively, quickly and conveniently secured.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic diagram of the instant water heater according to the present disclosure.

FIG. 2 is a schematic diagram of the water heater with a cover of the housing hidden according to the present disclosure.

FIG. 3 is a front view of FIG. 2 according to the present disclosure.

FIG. 4 is a partly exploded view of the instant water heater according to the present disclosure.

FIG. 5 is a schematic diagram showing the heating container according to the present disclosure.

FIG. 6 is a cross-sectional view of the heating container in FIG. 5 according to the present disclosure.

DETAILED DESCRIPTION OF THE DISCLOSURE

The specific implements of the present disclosure will be further described below in conjunction with the accompanying drawings and embodiments. The following embodiments are only used to illustrate the technical solutions of the present disclosure more clearly and cannot be used to limit the protection scope of the present disclosure.

Referring to FIGS. 1-6, the instant water heater includes a housing 1, a water inlet pipe 2021, a water outlet pipe 2022, a mounting member 5, and an electric controller 6.

The housing 1 has a heating container 2 inside. The heating container 2 includes a cap 202 and a water tank 201 detachably connected to the cap 201. As shown in FIG. 2, the upper part of the water tank 201 is detachably connected to the cap 201. A heating pipe 3 is located within the water tank 201.

The water inlet pipe 2021 is in communication with a first side of the cap 202.

The water outlet pipe 2022 is in communication with a second side of the cap 202. The water inlet pipe 2021 and the water outlet pipe 2022 are connected to two sides of the housing 1, respectively.

The mounting member 5 is configured for securing the water tank 201 to the housing 1.

The electric controller 6 is configured for controlling work process of the heating pipe 3.

When in use, the electric controller 6 controls the on/off state of the heating pipe 3. External water (e.g., cold water or the like) comes from external and is introduced into the water inlet pipe 2021. The external water enters the heating container 2 through the water inlet pipe 2021. The water which entered the heating container 2 can be heated up by the heating pipe 3 and then output for use. In the present disclosure, the mounting member 5 secures the water tank 201 to the housing 1. The water inlet pipe 2021 and the water outlet pipe 2022 are connected to two sides of the housing 1. By this design, the water tank 201 and the cap 202 can be secured at three points, ensuring the assembly stability of the heating container 2 without using extra locking components. The instant water heater as provided, therefore, has more space for distribution and installation of other components including the SCR 10, the over-temperature protector 11, and the terminal blocks 12.

As shown in FIG. 2, an outflow end the water inlet pipe 2021 extends into a middle part of the cap 202 and bends downward. A bend portion of the water inlet pipe 2021 is connected to a conduit 7 downwardly. A bottom of the conduit 7 is fitted into a secure seat 8. One end of the secure seat 8 distal from the conduit 7 is securely abutted against a tank bottom of the water tank 201. A water outflow port is provided on the secure seat 8 to communicate with the conduit 7. In this embodiment, the conduit 7 is coated with catalyst material layer 19 on the inner wall for preventing scaling.

The arrangement of the conduit 7 and the secure seat 8 allows the introduced water to be guided into the tank bottom of the water tank 201, so that the external water (e.g., cold water) can be fully heated up and then output. This also can further improve the assembly stability of the water tank 201 and the cap 202.

A water inflow end of the water inlet pipe 2021 is connected to a joint pipe 4. The housing 1 includes polygon connection holes 101 respectively located at positions corresponding to the joint pipe 4 and the water outlet pipe 2022. Polygon connection blocks 9 adapted for the polygon connection holes 101 are respectively arranged on the joint pipe 4 and the water outlet pipe 2022. The cooperation of the polygon connection hole 101 and the polygon connection blocks 9 allows the join pipe 4 and the water outlet pipe 2022 to be connected to the two sides of the housing 1.

The cooperation of the polygon connection hole 101 and the polygon connection blocks 9 allows the join pipe 4 and the water outlet pipe 2022 to be connected in a steady and anti-rotation state. This not only improves the assembly stability of the cap 202, but also prevents the influences caused by connections of external cold water pipeline or the hot water pipeline.

The heating pipe 3 is connected to the electric controller 6 via a SCR 10 (silicon controlled rectifier), and an over-temperature protector 11. External power supply may be used to provide electricity to the electric controller 6. Terminal blocks 12 are arranged between each two of the heating pipe 3, the SCR 10, the over-temperature protector 11, and the electric controller 6 for connection. The over-temperature protector 11 is secured on a side wall of the water tank 201. The SCR 10 and the terminal blocks 12 are arranged on a second side of the housing 1 opposite to a first side thereof which accommodates the heating container 2.

On basis of the water inlet pipe 2021 and the water outlet pipe 2022 connecting to the two sides of the housing 1, the over-temperature protector 11 of the present disclosure may also be secured to a side wall of the water tank 201. The SCR 10 and the terminal blocks 12 are arranged on a second side of the housing 1 opposite to a first side thereof which accommodates the heating container 2. As shown in FIG. 2, the SCR 10 is located above the terminal blocks 12.

The join pipe may be made of metal material. An installation platform for heat dissipation is located on the join pipe 4 at a position corresponding to the SCR 10. The SCR 10 is secured on the installation platform.

Due to the improvement of the assembly layout of each component of the present disclosure, the SCR 10 is located on a lower side of the joint pipe 4. Therefore, the installation platform for heat dissipation can be arranged on the joint pipe 4, so as to create heat dissipation for the SCR 10. On the basis of being compact and reasonable, the practical effect of the present disclosure is further improved.

A secure bracket 102 is arranged on the housing 1 for supporting the water tank 201. An mounting groove 2011 is located on the water tank 201 at a position corresponding to the secure bracket 102, so that the cooperation of the secure bracket 102 and the mounting groove 2011 allows the water tank 201 to be connected to the secure bracket 102. The mounting member 5 is abutted around an external side of the mounting groove 2011 on the water tank 201, and both ends of the mounting member 5 are secured to the secure bracket 102 via locking screws 13. The mounting member 5 is arc-shaped. The water outlet pipe 2022 extends to outside of the housing 1 and is attached to a joint 14.

The mounting groove 2011 and the secure bracket 102 cooperates to assemble the water tank 201 to the secure bracket 102, then the arc-shaped mounting member 5 clamps the external side of the mounting groove 2011 of the water tank 201 to form a steady fixation for the water tank 201 of the present disclosure.

The water tank 201 is made of metal material. The cap 202, the water inlet pipe 2021, and the water outlet pipe 2022 are made of plastic material by integral molding, respectively. The water tank 201 and the cap 202 are connected by flange connection. A sealing ring 15 may be located and squeezed between the water tank 201 and the cap 202. This arrangement allows the assembly sealing between the water tank 201 and the cap 202, and also effectively reduces the manufacture cost. Moreover, this arrangement further optimizes the assembly convenience of the water tank 201 and the cap 202.

A water inlet temperature sensor 16 and a water outlet temperature sensor 17 are arranged within the water inlet pipe 2021 and the water outlet pipe 2022, respectively. The water inlet temperature sensor 16 and the water outlet temperature sensor 17 are connected to the electric controller 6, respectively. The instant water heater further includes a water flow sensor 18. The water flow sensor 18 is connected to the electric controller 6. The water flow sensor 18 is located on within the water inlet pipe 2021 or the water outlet pipe 2022. With the use of the water inlet temperature sensor 16, the water outlet temperature sensor 17, and the water flow sensor 18, the work state of the instant water heater can be monitored, and the intelligence control of the instant water heater can be improved.

The above descriptions are only preferred embodiments of the present disclosure and are not intended to limit the present disclosure. For those skilled in the art, the present disclosure may have various modifications and changes. Any modification, equivalent replacement, improvement, or the like, made within the spirit and principle of the present disclosure shall be included in the protection scope of the present disclosure.

Claims

1. An instant water heater, comprising:

a housing, the housing having a heating container inside, wherein the heating container comprises a cap and a water tank detachably connected to the cap; a heating pipe is disposed within the water tank;

a water inlet pipe, in communication with a first side of the cap;

a water outlet pipe, in communication with a second side of the cap, wherein the water inlet pipe and the water outlet pipe are connected to two sides of the housing, respectively;

a mounting member, configured for securing the water tank to the housing; and

an electric controller, configured for controlling work process of the heating pipe.

2. The instant water heater according to claim 1, wherein an outflow end the water inlet pipe extends into a middle part of the cap and bends downward; a bend portion of the water inlet pipe connected to a conduit downwardly; a bottom of the conduit is fitted into a secure seat; one end of the secure seat distal from the conduit is securely abutted against a tank bottom of the water tank, and the a water outflow port is provided on the secure seat to communicate with the conduit.

3. The instant water heater according to claim 1, wherein a water inflow end of the water inlet pipe is connected to a joint pipe; the housing comprises polygon connection holes respectively located at positions corresponding to the joint pipe and the water outlet pipe; polygon connection blocks adapted for the polygon connection holes are respectively arranged on the joint pipe and the water outlet pipe; the cooperation of the polygon connection hole and the polygon connection blocks allows the join pipe and the water outlet pipe to connected to the two sides of the housing.

4. The instant water heater according to claim 3, wherein the heating pipe is connected to the electric controller via a SCR (silicon controlled rectifier), and an over-temperature protector; external power supply provides electricity to the electric controller; terminal blocks are arranged between each two of the heating pipe, the SCR, the over-temperature protector, and the electric controller for connection; the over-temperature is secured on a side wall of the water tank; the SCR and the terminal blocks are arranged on a second side of the housing opposite to a first side thereof which accommodates the heating container.

5. The instant water heater according to claim 4, wherein the join pipe is made of metal; an installation platform for heat dissipation is located on the join pipe at a position corresponding to the SCR; and the SCR is secured on the installation platform.

6. The instant water heater according to claim 1, wherein a secure bracket arranged on the housing for supporting the water tank; an mounting groove is located on the water tank at a position corresponding to the secure bracket, so that the cooperation of the secure bracket and the mounting groove allows the water tank to be connected to the secure bracket; the mounting member is abutted around an external side of the mounting groove on the water tank, and both ends of the mounting member are secured to the secure bracket via locking screws.

7. The instant water heater according to claim 6, wherein the mounting member is arc-shaped; the water outlet pipe extends to outside of the housing and is attached to a joint.

8. The instant water heater according to claim 1, wherein the water tank is made of metal; the cap, the water inlet pipe, and the water outlet pipe are made of plastic material by integral molding, respectively; the water tank and the cap are connected by flange connection; a sealing ring is located and squeezed between the water tank and the cap.

9. The instant water heater according to claim 1, wherein a water inlet temperature sensor and a water outlet temperature sensor are arranged within the water inlet pipe and the water outlet pipe, respectively; the water inlet temperature sensor and the water outlet temperature sensor are connected to the electric controller, respectively.

10. The instant water heater according to claim 1, wherein the water heater further comprises a water flow sensor; the water flow sensor is connected to the electric controller; the water flow sensor is located on within the water inlet pipe or the water outlet pipe.