CN114151570A - Temperature control valve capable of avoiding uneven cold and hot water outlet - Google Patents

Abstract

The invention relates to the field of temperature control valves, and discloses a temperature control valve capable of avoiding uneven cold and hot water outlet, which comprises a main valve body, wherein a hot water cavity is arranged on one side of the main valve body, a cold water cavity is arranged on the other side of the main valve body, a mixing cavity is arranged in the middle of the main valve body, an auxiliary valve body is arranged on the lower side of the cold water cavity, the auxiliary valve body comprises a first connecting pipe communicated with the lower side of the cold water cavity, a liquid storage barrel is communicated with the lower side of the first connecting pipe, a liquid storage sliding plate is arranged on the liquid storage barrel in a vertically sliding manner, and compared with a traditional thermostatic valve, the device can utilize the potential energy of a spring to carry out backflow treatment on residual water in a shower pipe by arranging the auxiliary valve body, so that the condition that the temperature of outlet water is too low or too high due to cold water or hot water in the shower pipe can be avoided, the backflow operation can also avoid the condition that the inner wall of the pipeline is rusted and moldy due to accumulated water, compared with the traditional temperature regulation, the device can realize the regulation of the water temperature in the pipeline.

Description

Temperature control valve capable of avoiding uneven cold and hot water outlet

Technical Field

The invention relates to the technical field of temperature control valves, in particular to a temperature control valve capable of avoiding uneven cold and hot water outlet.

Background

According to understanding, when using bathroom shower equipment, traditional temperature control valve is difficult to be adjusted, need be through feeling leaving water temperature, the flow of manual control hot water and cold water, extravagant big water gaging, and scald skin easily, the adjustable leaving water temperature of current thermostatic valve is in certain extent, but because there is certain cold water in the shower pipe, and the initial temperature ratio of hot-water line is lower, even if use thermostatic valve also can appear the water that begins to spray be cold situation, in view of this shortcoming, traditional thermostatic valve has been optimized to this device, this problem has been solved.

Disclosure of Invention

The invention aims to provide a temperature control valve capable of avoiding uneven cooling and heating of outlet water, which is used for overcoming the defects in the prior art.

The invention is realized by the following technical scheme.

The invention relates to a temperature control valve capable of avoiding uneven cold and hot water outlet, which comprises a main valve body, wherein a hot water cavity is arranged on one side of the main valve body, a cold water cavity is arranged on the other side of the main valve body, a mixing cavity is arranged in the middle of the main valve body, an auxiliary valve body is arranged on the lower side of the cold water cavity, the auxiliary valve body comprises a first connecting pipe communicated with the lower side of the cold water cavity, a liquid storage barrel is communicated with the lower side of the first connecting pipe, a liquid storage sliding plate is arranged on the liquid storage barrel in a vertical sliding manner, a return spring is arranged between the liquid storage sliding plate and an upper side wall body in the liquid storage barrel, a flushing check valve is arranged on the side edge of the liquid storage barrel, the flushing check valve is outward in direction, a second connecting pipe is communicated with the upper side of the cavity of the liquid storage barrel, a connecting pipe is communicated with the second connecting pipe, the connecting pipe is communicated with the first connecting pipe, an auxiliary sliding plate is fixedly arranged on the lower side of the liquid storage barrel, a through groove is arranged in the middle of the auxiliary sliding plate, the liquid storage barrel is characterized in that an auxiliary sliding body is arranged on the lower side of the liquid storage barrel, an adjusting cavity with an upward opening is formed in the auxiliary sliding body, the adjusting cavity is slidably provided with the auxiliary sliding plate, a cold water groove is formed in the wall body of the adjusting cavity, a cold water inlet is formed in the lower side of the cold water groove in a communicating mode, and the upper side of the cold water groove is communicated with the wall body of the adjusting cavity.

In a further technical scheme, two switch sliders are arranged in the mixing cavity in a vertically sliding manner, each switch slider is provided with a communicating hole which penetrates through the switch slider from top to bottom, the upper switch slider and the lower switch slider are fixedly connected, a hot water through hole is communicated between the hot water cavity and the mixing cavity, a backflow check valve and a cold water check valve are communicated between the mixing cavity and the cold water cavity, the backflow check valve faces the cold water cavity, the cold water check valve faces the mixing cavity, the opening widths of the hot water through hole, the cold water check valve and the backflow check valve are slightly smaller than the thickness of the switch sliders, the interval between the upper switch slider and the lower switch slider is consistent with the interval between the hot water through hole and the cold water check valve from top to bottom, so that the upper switch slider and the lower switch slider can simultaneously shield the hot water through hole and the cold water check valve, and the backflow check valve is positioned on the upper side of the cold water check valve, the rear side of the mixing cavity is communicated with a water outlet and a water inlet, and the rear side of the switch slider is provided with a water outlet baffle plate.

According to a further technical scheme, the size of the water outlet baffle can cover a water outlet of the mixing cavity, when the switch slider on the upper side is separated from the covering of the hot water through hole, the switch slider on the lower side completely covers an opening of the cold water one-way valve, the water outlet baffle completely covers the water outlet of the mixing cavity at the moment, a water inlet is opened, a one-way valve which is directed to the mixing cavity is arranged in the water inlet, the switch slider on the upper side is separated from the covering of the backflow one-way valve, when the switch slider on the upper side begins to cover the hot water through hole opening, the switch slider on the lower side begins to be separated from the covering of the cold water one-way valve, the water outlet baffle begins to be separated from the covering of a water outlet on the rear side of the mixing cavity, and a water inlet of the mixing cavity is closed.

A further technical scheme, the hybrid chamber upside is equipped with the structure that adjusts the temperature, the structure that adjusts the temperature includes the constant temperature regulation body that main valve body upside was fixed to be equipped with, the constant temperature regulation body is equipped with the decurrent spout that adjusts the temperature of opening, the spout intercommunication that adjusts the temperature the hybrid chamber, it is equipped with the temperature sensing body to slide from top to bottom in the spout that adjusts the temperature, the temperature sensing body is equipped with the decurrent gas chamber of opening, be equipped with in the gas chamber, the gas chamber slides and is equipped with the slide, the fixed action bars that is equipped with of slide downside, the action bars lower extreme with switch slider fixed connection.

According to the technical scheme, a temperature adjusting threaded hole is formed in the upper side of the temperature adjusting sliding groove, a temperature adjusting knob is connected with the temperature adjusting threaded hole in a threaded mode and is located in the temperature adjusting sliding groove and is connected with the upper side of the temperature sensing body in a rotating mode.

According to the technical scheme, the side wall body of the mixing cavity is communicated with a threaded hole, and the threaded hole of the mixing cavity is connected with a switch knob in a threaded mode.

According to the further technical scheme, a hot water joint is communicated with the lower side of the hot water cavity, a switch valve is arranged on the hot water joint, and a switch valve is arranged at the cold water inlet.

The invention has the beneficial effects that:

compared with the traditional thermostatic valve, the device has the advantages that the potential energy of the spring can be used for carrying out backflow treatment on residual water in the shower pipe by arranging the auxiliary valve body, so that the situation that the temperature of outlet water is too low or too high due to cold water or hot water in the shower pipe can be avoided, the backflow operation can also avoid the situation that the inner wall of the pipeline is rusted and mildewed due to accumulated water in the pipeline, and compared with the traditional temperature regulation, the device can realize the regulation of the temperature of the water in the pipeline;

the device realizes the control of the internal temperature of the mixing cavity by arranging the switch slide block, the hot water through hole, the backflow check valve and the cold water check valve in the mixing cavity, when the temperature exceeds the control range, the water flow in the mixing cavity is blocked and flows out of the shower head pipe, the water with the unqualified temperature is stored in the auxiliary valve body, and the water flows out until the temperature in the mixing cavity is up to the standard, so that the condition that the outlet water temperature is not high due to the fact that the front water flow in the hot water pipeline is not high is avoided;

the water inlet temperature keeps certain, rotates the knob that adjusts the temperature and can adjust the temperature, need not to wait for cold water to flow out, energy saving and emission reduction, and this device does not use electromagnetic drive, does not use multiple sensor and control chip, and the power supply derives from water pressure, simple structure, and the cost is lower, and the practicality is strong.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is an enlarged schematic view of the structure at the auxiliary valve body 17 in fig. 1;

FIG. 3 is an enlarged schematic view of the temperature conditioning structure 43 of FIG. 1;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 5 is a front-to-rear sectional view of the mixing chamber 13 of FIG. 1;

FIG. 6 is a perspective view of the switch slide 24 of the present invention;

fig. 7 is a perspective view of the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

The temperature control valve capable of avoiding uneven cold and hot water outlet as shown in fig. 1-7 comprises a main valve body 10, a hot water cavity 12 is arranged on one side of the main valve body 10, a cold water cavity 11 is arranged on the other side of the main valve body 10, a mixing cavity 13 is arranged in the middle of the main valve body 10, an auxiliary valve body 17 is arranged on the lower side of the cold water cavity 11, the auxiliary valve body 17 comprises a first connecting pipe 40 communicated with the lower side of the cold water cavity 11, a liquid storage barrel 36 is communicated with the lower side of the first connecting pipe 40, a liquid storage sliding plate 37 is arranged on the liquid storage barrel 36 in a vertical sliding manner, a return spring 42 is arranged between the liquid storage sliding plate 37 and the upper side wall body in the liquid storage barrel 36, a flushing check valve 41 is arranged on the side of the liquid storage barrel 36, the flushing check valve 41 is directed outwards, a second connecting pipe 39 is communicated with the upper side of the cavity of the liquid storage barrel 36, and a connecting pipe 38 is communicated with the second connecting pipe 39, the connecting pipe 38 is communicated with the first connecting pipe 40, an auxiliary sliding plate 34 is fixedly arranged on the lower side of the liquid storage barrel 36, a through groove 35 is formed in the middle of the auxiliary sliding plate 34, an auxiliary sliding body 30 is arranged on the lower side of the liquid storage barrel 36, an adjusting cavity 33 with an upward opening is formed in the auxiliary sliding body 30, the adjusting cavity 33 is slidably arranged on the auxiliary sliding plate 34, a cold water groove 32 is formed in the wall body of the adjusting cavity 33, a cold water inlet 31 is formed in the lower side of the cold water groove 32 in a communicating mode, and the upper side of the cold water groove 32 is communicated with the upper side wall body of the adjusting cavity 33.

Preferably, two switch sliders 24 are slidably arranged in the mixing chamber 13 up and down, each switch slider 24 is provided with a through hole 25 which penetrates through the upper and lower switch sliders 24, the upper and lower switch sliders 24 are fixedly connected, a hot water through hole 44 is communicated between the hot water chamber 12 and the mixing chamber 13, a backflow check valve 28 and a cold water check valve 29 are communicated between the mixing chamber 13 and the cold water chamber 11, the backflow check valve 28 faces the cold water chamber 11, the cold water check valve 29 faces the mixing chamber 13, the opening widths of the hot water through hole 44, the cold water check valve 29 and the backflow check valve 28 are slightly smaller than the thickness of the switch slider 24, the interval between the upper and lower switch sliders 24 is consistent with the interval between the hot water through hole 44 and the cold water check valve 29, so that the upper and lower switch sliders 24 can simultaneously shield the hot water through hole 44 and the cold water check valve 29, the backflow check valve 28 is located on the upper side of the cold water check valve 29, a water outlet and a water inlet are communicated with the rear side of the mixing cavity 13, and a water outlet baffle 26 is arranged on the rear side of the switch slider 24.

Preferably, the water outlet baffle 26 is sized to cover the water outlet of the mixing chamber 13, when the upper switch slider 24 is separated from the hot water through hole 44, the lower switch slider 24 completely covers the opening of the cold water check valve 29, at this time, the water outlet baffle 26 completely covers the water outlet of the mixing chamber 13, the water inlet is open, the check valve to the mixing chamber 13 is provided in the water inlet, the upper switch slider 24 is separated from the backflow check valve 28, when the upper switch slider 24 starts to cover the hot water through hole 44, the lower switch slider 24 starts to separate from the cold water check valve 29, the water outlet baffle 26 starts to separate from the covering of the water outlet at the rear side of the mixing chamber 13, and the water outlet of the mixing chamber 13 is closed.

Preferably, the mixing chamber 13 upside is equipped with the structure 43 of adjusting the temperature, the structure 43 that adjusts the temperature includes the fixed constant temperature regulation body 14 that is equipped with of main valve body 10 upside, constant temperature regulation body 14 is equipped with the decurrent spout 15 that adjusts the temperature of opening, spout 15 intercommunication that adjusts the temperature the mixing chamber 13, it is equipped with temperature sensing body 18 to slide from top to bottom in the spout 15 that adjusts the temperature, temperature sensing body 18 is equipped with the decurrent gaseous chamber 19 of opening, gaseous chamber 19 slides and is equipped with slide 20, the fixed action bars 45 that is equipped with of slide 20 downside, action bars 45 lower extreme with switch slider 24 fixed connection.

Preferably, a temperature adjusting threaded hole 23 is formed in the upper side of the temperature adjusting sliding groove 15, a temperature adjusting knob 22 is connected to the temperature adjusting threaded hole 23 in a threaded manner, and the temperature adjusting knob 22 is located in the temperature adjusting sliding groove 15 and is rotatably connected with the upper side of the temperature sensing body 18.

Preferably, a threaded hole is formed in the lower side wall body of the mixing cavity 13 in a communicating manner, and a switch knob 27 is connected to the threaded hole in the lower side of the mixing cavity 13 in a threaded manner.

Preferably, a hot water joint 16 is communicated with the lower side of the hot water cavity 12, a switch valve is installed on the hot water joint 16, and a switch valve is installed on the cold water inlet 31.

The specific use method of the equipment comprises the following steps:

a hot water pipe is arranged on a hot water joint 16 of the device, a cold water pipe is arranged on a cold water inlet 31 of the device, an opening at the rear side of a mixing cavity 13 is communicated with a shower water pipe, the device is fixed at a specified position, and the installation is finished;

the switch valves of the hot water joint 16 and the cold water inlet 31 are opened, the switch knob 27 is rotated, the switch knob 27 moves downwards for a certain distance, the lower switch slide block 24 is separated from the contact with the switch knob 27, the temperature adjusting knob 22 is rotated, and the temperature is set;

cold water enters the cold water tank 32 through the cold water inlet 31, the water flow extrudes the auxiliary sliding plate 34 to move downwards, the auxiliary sliding plate 34 moves downwards to extrude and drive the flushing check valve 41 to move into the adjusting cavity 33, the water flow in the adjusting cavity 33 enters the cavity on the lower side of the liquid storage sliding plate 37 through the groove 35, the liquid storage sliding plate 37 moves upwards relative to the liquid storage barrel 36 due to the fact that the cross section of the cavity of the liquid storage barrel 36 is smaller than that of the adjusting cavity 33 until the liquid storage sliding plate 37 moves to the upper side of the second connecting pipe 39, the water on the upper side of the liquid storage sliding plate 37 flows into the cold water cavity 11 through the first connecting pipe 40, and the cold water flows to the lower side of the liquid storage sliding plate 37 through the flushing check valve 41 and flows into the first connecting pipe 40 through the second connecting pipe 39 and the connecting pipe 38 and finally flows into the cold water cavity 11;

hot water enters the hot water cavity 12 through the hot water joint 16, cold water enters the cold water cavity 11 through the auxiliary valve body 17, the cold water cavity 11 enters the mixing cavity 13 through the cold water one-way valve 29, the two are mixed, the switch sliding block 24 transmits the temperature at the moment to the gas cavity 19 through the operating rod 45, the gas cavity 19 expands with heat and contracts with cold, the sliding plate 20 is driven to move up and down, and the sliding plate 20 drives the upper switch sliding block 24 and the lower switch sliding block 24 to move simultaneously through the operating rod 45;

when the temperature in the mixing cavity 13 is too low, the upper and lower switch sliders 24 move upwards, the opening area of the hot water through hole 44 is increased, the opening area of the cold water one-way valve 29 is reduced, the hot water inflow is increased, the cold water inflow is reduced, and the water in the mixing cavity 13 is heated;

when the temperature of the water in the hot water chamber 12 does not reach the standard, the temperature in the mixing chamber 13 is still insufficient even if the switch slider 24 moves to the uppermost position, at this moment, the cold water check valve 29 is closed by the lower switch slider 24, the backflow check valve 28 is completely opened, the water in the hot water chamber 12 flows into the mixing chamber 13 and flows into the cold water chamber 11 through the backflow check valve 28, the water flow flows into the inner cavity of the liquid storage barrel 36 through the first connecting pipe 40, the water flow pushes the liquid storage sliding plate 37 to move downwards, the redundant water flow is stored in the cavity on the upper side of the liquid storage sliding plate 37 until the temperature in the mixing cavity 13 rises again, the switch sliding block 24 moves downwards, the cold water check valve 29 is opened again, the opening on the rear side of the mixing cavity 13 is opened again, the water in the cold water cavity 11 flows back into the mixing cavity 13 again, and flows out through an opening at the rear side of the mixing cavity 13, so that the result of low outlet water temperature caused by low temperature in the hot water pipe is avoided;

after the use is finished, the switch valve in the hot water connector 16 is closed, the switch valve in the cold water inlet 31 is closed, the switch knob 27 is rotated, the switch knob 27 pushes the switch slider 24 to move upwards, the switch slider 24 moves to the upper side, the switch slider 24 blocks the cold water one-way valve 29, after the pressure in the cold water cavity 11 is released, the return spring 42 pushes the liquid storage sliding plate 37 to move downwards, the auxiliary sliding body 30 moves downwards relative to the liquid storage barrel 36, water in the shower pipe reversely flows back to the mixing cavity 13 through the water inlet after passing through the mixing cavity 13 and flows back to the cavity on the upper side of the liquid storage sliding plate 37 through the backflow one-way valve 28 and the cold water cavity 11, and cold water in the shower pipe is prevented from being sprayed out when the lower side is opened.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides a can avoid going out cold and hot uneven temperature control valve of water, includes the main valve body, its characterized in that: a hot water cavity is arranged on one side of the main valve body, a cold water cavity is arranged on the other side of the main valve body, a mixing cavity is arranged in the middle of the main valve body, an auxiliary valve body is arranged on the lower side of the cold water cavity and comprises a first connecting pipe communicated with the lower side of the cold water cavity, a liquid storage barrel is communicated with the lower side of the first connecting pipe and is provided with a liquid storage sliding plate in a vertical sliding manner, a reset spring is arranged between the liquid storage sliding plate and the upper side wall body in the liquid storage barrel, a flushing check valve is arranged on the side edge of the liquid storage barrel, the direction of the flushing check valve is outward, a second connecting pipe is communicated with the upper side of the cavity body of the liquid storage barrel, the second connecting pipe is communicated with a connecting pipe, the connecting pipe is communicated with the first connecting pipe, an auxiliary sliding plate is fixedly arranged on the lower side of the liquid storage barrel, a through groove is arranged in the middle of the auxiliary sliding plate, an auxiliary sliding body is arranged on the lower side of the liquid storage barrel, and is provided with an adjusting cavity with an upward opening, the adjusting cavity is provided with the auxiliary sliding plate in a sliding mode, the wall body of the adjusting cavity is provided with a cold water tank, the lower side of the cold water tank is communicated with a cold water inlet, and the upper side of the cold water tank is communicated with the wall body of the adjusting cavity.

2. The temperature control valve capable of avoiding uneven cold and hot water outlet according to claim 1, characterized in that: two switch sliding blocks are arranged in the mixing cavity in an up-and-down sliding manner, the switch sliding blocks are provided with communicating holes which penetrate through up and down, the upper switch sliding block and the lower switch sliding block are fixedly connected, a hot water through hole is communicated between the hot water cavity and the mixing cavity, a backflow check valve and a cold water check valve are communicated between the mixing cavity and the cold water cavity, the backflow check valve faces the cold water cavity, the cold water check valve faces the mixing cavity, the opening widths of the hot water through hole, the cold water check valve and the backflow check valve are slightly smaller than the thickness of the switch sliding block, the interval between the upper switch sliding block and the lower switch sliding block is consistent with the interval between the hot water through hole and the upper cold water check valve, the backflow check valve is positioned on the upper side of the cold water check valve, the rear side of the mixing cavity is communicated with a water outlet and a water inlet, and the rear side of the switch slider is provided with a water outlet baffle.

3. The temperature control valve capable of avoiding uneven cold and hot water outlet according to claim 2, characterized in that: the size of the water outlet baffle plate can cover a water outlet of the mixing cavity, when the switch slide block on the upper side is separated from the covering of the hot water through hole, the switch slide block on the lower side completely covers an opening of the cold water one-way valve, at the moment, the water outlet baffle plate completely covers the water outlet of the mixing cavity, the water inlet is opened, a one-way valve which is directed to the mixing cavity is arranged in the water inlet, the switch slide block on the upper side is separated from the covering of the backflow one-way valve, when the switch slide block on the upper side begins to cover the opening of the hot water through hole, the switch slide block on the lower side begins to be separated from the covering of the cold water one-way valve, the water outlet baffle plate begins to be separated from the covering of a water outlet on the rear side of the mixing cavity, and the water inlet of the mixing cavity is closed.

4. The temperature control valve capable of avoiding uneven cold and hot water outlet according to claim 1, characterized in that: the hybrid chamber upside is equipped with the structure that adjusts the temperature, the structure that adjusts the temperature includes the constant temperature regulation body that main valve body upside was fixed to be equipped with, the constant temperature regulation body is equipped with the decurrent spout that adjusts the temperature of opening, the spout intercommunication that adjusts the temperature the hybrid chamber, it is equipped with the temperature sensing body to slide from top to bottom in the spout that adjusts the temperature, the temperature sensing body is equipped with the decurrent gaseous chamber of opening, the gaseous chamber slides and is equipped with the slide, the fixed action bars that is equipped with of slide downside, the action bars lower extreme with switch slider fixed connection.

5. The thermostatic valve capable of avoiding uneven cooling and heating of outlet water as claimed in any one of claims 1 to 4, wherein: the upper side of the temperature adjusting chute is provided with a temperature adjusting threaded hole, the temperature adjusting threaded hole is connected with a temperature adjusting knob in a threaded manner, and the temperature adjusting knob is positioned in the temperature adjusting chute and is rotatably connected with the upper side of the temperature sensing body.

6. The thermostatic valve capable of avoiding uneven cooling and heating of outlet water as claimed in any one of claims 1 to 4, wherein: the lateral wall body intercommunication is equipped with the screw hole under the hybrid chamber, the screw hole threaded connection of hybrid chamber downside is equipped with switch knob.

7. The thermostatic valve capable of avoiding uneven cooling and heating of outlet water as claimed in any one of claims 1 to 4, wherein: the hot water cavity lower side intercommunication is equipped with the hot water and connects, the hot water connects the installation and is equipped with the ooff valve, the cold water inlet installation is equipped with the ooff valve.

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