CN107836890B

CN107836890B - Intelligent temperature control adjusting seat

Info

Publication number: CN107836890B
Application number: CN201711184426.7A
Authority: CN
Inventors: 谢坤
Original assignee: Guangzhou Shared Energy Technology Co ltd
Current assignee: Guangzhou Shared Energy Technology Co ltd
Priority date: 2017-11-23
Filing date: 2017-11-23
Publication date: 2024-01-12
Anticipated expiration: 2037-11-23
Also published as: CN107836890A

Abstract

The invention discloses an intelligent temperature control adjusting seat which comprises a seat body, a one-way valve, a first ventilation pipeline, a second ventilation pipeline, an inter-pass pipe, a controller, a first temperature sensor, a second temperature sensor, a first electric control on-off valve, a second electric control on-off valve, a third electric control on-off valve and temperature generating equipment for refrigerating or heating gas to form cold air or hot air, wherein the controller controls the on-off of the first electric control on-off valve, the second electric control on-off valve and the third electric control on-off valve to control the working modes of the first ventilation pipeline and the second ventilation pipeline according to the difference between the temperature values measured by the first temperature sensor and the second temperature sensor and the set temperature of the seat body, so that the purposes of energy sharing, mode diversification adjustment and energy saving are realized.

Description

Intelligent temperature control adjusting seat

Technical Field

The invention relates to a seat, in particular to an intelligent temperature control adjusting seat.

Background

Existing seats do not have a temperature regulation function and in hotter or colder environments, people feel uncomfortable even when sitting on seats made of materials with high comfort.

Although the temperature in the environment can be regulated by using household air conditioners, electric blankets and other devices, the temperature regulation devices are controlled by utilizing electric energy, and the temperature regulation devices consume more electric energy, have high use cost and unsafe electricity, and are extremely easy to cause fire accidents.

Therefore, there is a need for an intelligent temperature control adjustment seat with low energy consumption and high safety performance to overcome the above problems in the art.

Disclosure of Invention

The invention aims to provide an intelligent temperature control adjusting seat which is capable of reducing energy loss and high in safety performance.

In order to achieve the above purpose, the intelligent temperature control adjusting seat comprises a seat body, a one-way valve, a first ventilation pipeline, a second ventilation pipeline, a mutual pipe, a controller, a first temperature sensor, a second temperature sensor, a first electric control on-off valve, a second electric control on-off valve, a third electric control on-off valve and temperature generating equipment for refrigerating or heating gas to form cold air or hot air, wherein the first temperature sensor, the second temperature sensor, the first electric control on-off valve, the second electric control on-off valve and the third electric control on-off valve are electrically connected with the controller. The first ventilation pipeline and the second ventilation pipeline are buried in the chair body, are coiled alternately in the length direction of the chair body, and are respectively provided with an external input end and an external output end which extend out of the chair body; the temperature generating device is provided with an air outlet pipeline and an air return pipeline, wherein the air outlet pipeline comprises a main air outlet pipeline, a first branch pipeline and a second branch pipeline which are branched by the main air outlet pipeline, and the air return pipeline comprises a main air return pipeline, a third branch pipeline and a fourth branch pipeline which are branched by the main air return pipeline; the main gas outlet pipeline and the main gas return pipeline are respectively provided with the first electric control on-off valve, the second electric control on-off valve is arranged on the second branch pipeline, the third electric control on-off valve is arranged on the third branch pipeline, the first branch pipeline is communicated with the external input end of the first gas vent pipeline, the third branch pipeline is communicated with the external output end of the first gas vent pipeline, the second branch pipeline is communicated with the external input end of the second gas vent pipeline, the fourth branch pipeline is communicated with the external output end of the second gas vent pipeline, one end of the interconnecting pipeline is communicated with the third branch pipeline or the external output end of the first gas vent pipeline, the other end of the interconnecting pipeline is communicated with the external input end of the second branch pipeline or the second gas vent pipeline, the one-way valve is arranged on the interconnecting pipeline, the first temperature sensor is arranged on the external output end of the first gas vent pipeline, and the second temperature sensor is arranged on the external output end of the second gas vent pipeline.

Preferably, the cold/hot gas generated by the temperature generating device flows in the first ventilation pipeline in the opposite direction to the flow direction in the second ventilation pipeline.

Preferably, an opposite-insertion structure is arranged between the first branch pipe and the external input end of the first ventilation pipeline and between the third branch pipe and the external output end of the first ventilation pipeline.

Preferably, an opposite-insertion structure is arranged between the second branch pipeline and the external input end of the second ventilation pipeline and between the fourth branch pipeline and the external output end of the second ventilation pipeline.

Preferably, the first to third electrically controlled on-off valves are solenoid valves.

Preferably, the first ventilation pipeline and the second ventilation pipeline are coiled into a comb-shaped loop respectively.

Preferably, the external output end of the first ventilation pipeline and the external input end of the first ventilation pipeline are arranged in parallel and adjacently, and the external output end of the second ventilation pipeline and the external input end of the second ventilation pipeline are arranged in parallel and adjacently.

Preferably, the chair body is a sofa.

Compared with the prior art, the intelligent temperature control adjusting seat further comprises a one-way valve, a first ventilation pipeline, a second ventilation pipeline, an interconnecting pipe, a controller, a first temperature sensor, a second temperature sensor, a first electric control on-off valve, a second electric control on-off valve, a third electric control on-off valve and temperature generating equipment for refrigerating or heating gas to form cold air or hot air, wherein the first electric control on-off valve, the second electric control on-off valve and the third electric control on-off valve are controlled by the controller according to the difference between the temperature values measured by the first temperature sensor and the second temperature sensor and the set temperature of the seat body; when the temperature value measured by the first temperature sensor and the second temperature sensor is larger than the set temperature difference of the chair body, the controller controls the first electric control on-off valve, the second electric control on-off valve and the third electric control on-off valve to be in a communication state, so that cold air or hot air generated by the temperature generating equipment is simultaneously regulated in temperature by the first ventilation pipeline and the second ventilation pipeline, and the aim of quickly regulating the temperature of the chair body by the first ventilation pipeline and the second ventilation pipeline side by side is fulfilled; when the difference between the temperature of the chair body and the set temperature is smaller, the controller enables the second electric control on-off valve and the third electric control on-off valve to be in an off state, so that cold air or hot air generated by the temperature generating equipment flows into the temperature generating equipment sequentially from the main air outlet pipeline, the first branch pipeline, the first air outlet pipeline, the interconnecting pipe, the second air outlet pipeline, the fourth branch pipeline and the main air return pipeline, the first air outlet pipeline and the second air outlet pipeline are converted into a serial working mode by the side-by-side working mode, and the purposes of energy sharing, mode diversification adjustment and energy saving are achieved.

Drawings

Fig. 1 is a schematic structural view of an intelligent temperature control adjusting seat of the invention.

Fig. 2 is a schematic perspective view of an intelligent temperature control seat hiding temperature generating device.

Detailed Description

In order to describe the technical content, the constructional features, the achieved objects and effects of the present invention in detail, the following description is made in connection with the embodiments and the accompanying drawings.

Referring to fig. 1 and 2, an intelligent temperature control adjusting seat 100 of the present invention includes a seat body 10, a check valve 1, a first ventilation pipeline 2, a second ventilation pipeline 3, an intercommunication pipe 4, a controller (not shown), a first temperature sensor 5, a second temperature sensor 6, a first electrically controlled on-off valve, a second electrically controlled on-off valve 8, a third electrically controlled on-off valve 9, and a temperature generating device 11 for cooling or heating gas to form cool air or hot air. The first ventilation pipeline 2 and the second ventilation pipeline 3 are buried in the chair body 10, the first ventilation pipeline 2 and the second ventilation pipeline 3 are coiled alternately in the length direction of the chair body 10, the first ventilation pipeline 2 is provided with an external input end 21 and an external output end 22 which extend out of the chair body 10, and the second ventilation pipeline 3 is provided with an external input end 31 and an external output end 32 which extend out of the chair body 10; the temperature generating apparatus 11 has an air outlet pipe 11a and an air return pipe 11b, the air outlet pipe 11a including a main air outlet pipe 111 and first and second branch pipes 112 and 113 branched from the main air outlet pipe 111, the air return pipe 11b including a main air return pipe 114 and third and fourth branch pipes 115 and 116 branched from the main air return pipe 114; the main air outlet pipeline 111 and the main air return pipeline 114 are respectively provided with a first electric control on-off valve, for convenience in description, the first electric control on-off valve arranged on the main air outlet pipeline 111 uses the symbol 7a, and the first electric control on-off valve arranged on the main air return pipeline 114 uses the symbol 7b; the second electrically controlled on-off valve 8 is installed on the second branch pipe 113, and the third electrically controlled on-off valve 9 is installed on the third branch pipe 115, specifically, in this embodiment, the first to third electrically controlled on-off valves 9 are each electromagnetic valves, but not limited thereto.

The first branch pipe 112 is communicated with the external input end 21 of the first ventilation pipeline 2, the third branch pipe 115 is communicated with the external output end 22 of the first ventilation pipeline 2, the second branch pipe 113 is communicated with the external input end 31 of the second ventilation pipeline 3, and the fourth branch pipe 116 is communicated with the external output end 32 of the second ventilation pipeline 3; specifically, in the present embodiment, the flow direction of the cold/hot air generated by the temperature generating device 11 in the first ventilation pipeline 2 is opposite to the flow direction of the cold/hot air in the second ventilation pipeline 3, i.e. the cold/hot air is input from two ends of the chair body 10, so that the chair body 10 is cooled/heated more uniformly, and the temperature control adjustment is faster, but not limited thereto.

One end of the interconnecting pipe 4 is communicated with the external output end 22 of the first ventilation pipeline 2, and of course, the interconnecting pipe can also be communicated with the third branch pipeline 115; the other end of the interconnecting pipe 4 is connected to the external input end 31 of the second communication pipe 3, and of course, may also be connected to the second branch pipe 113, which is not limited thereto. The one-way valve 1 is arranged on the through pipe 4, the first temperature sensor 5 is arranged on the external output end 22 of the first ventilation pipeline 2, and the second temperature sensor 6 is arranged on the external output end 32 of the second ventilation pipeline 3; the first temperature sensor 5 measures the temperature of the external output end 22 of the first ventilation pipeline 2 and transmits temperature information to the controller, the second temperature sensor 6 measures the temperature of the external output end 32 of the second ventilation pipeline 3 and transmits temperature information to the controller, and the controller controls the coordination of the first electric control on-off valves 7a and 7b, the second electric control on-off valve 8 and the third electric control on-off valve 9 according to the temperature information so as to realize the switching between the first ventilation pipeline 2 and the second ventilation pipeline 3 in parallel and in series. More specifically, the following is:

with continued reference to fig. 1 and 2, an inserting structure 20 is provided between the first branch pipe 112 and the external input end 21 of the first ventilation pipe 2 and between the third branch pipe 115 and the external output end 22 of the first ventilation pipe 2, so as to facilitate the assembly and disassembly of the first ventilation pipe 2 with the first branch pipe 112 and the third branch pipe 115 respectively; an inserting structure 30 is disposed between the second branch pipe 113 and the external input end 31 of the second air passage pipe 3 and between the fourth branch pipe 116 and the external output end 32 of the second air passage pipe 3, so as to facilitate the assembly and disassembly of the second air passage pipe 3 and the second branch pipe 113 and the fourth branch pipe 116, but not limited thereto. Specifically, in the present embodiment, the interposition structure 20 includes the first interposition part 23 on the side of the first branch pipe 112 and the second interposition part 24 on the side of the first ventilation pipe 2, and similarly, the interposition structure 30 includes the first interposition part 33 on the side of the second branch pipe 113 and the second interposition part 34 on the side of the second ventilation pipe 3, but is not limited thereto.

With continued reference to fig. 1 and 2, the first ventilation pipeline 2 and the second ventilation pipeline 3 are coiled into comb-shaped loops, so as to prolong the working time of cold air or hot air in the first ventilation pipeline 2 and the second ventilation pipeline 3, and effectively improve the temperature exchange effect; specifically, in the present embodiment, the external output end 22 of the first ventilation pipeline 2 and the external input end 21 of the first ventilation pipeline 2 are arranged in a side-by-side adjacent manner, and the external output end 32 of the second ventilation pipeline 3 and the external input end 31 of the second ventilation pipeline 3 are arranged in a side-by-side adjacent manner, so as to be convenient for being detached from the temperature generating device 11, but not limited thereto.

The working principle of the intelligent temperature control adjustment seat 100 according to the present invention will be described with reference to fig. 1 and 2: when the temperature values measured by the first temperature sensor 5 and the second temperature sensor 6 are greatly different from the set temperature of the chair body 10, the controller controls the temperature generating device 11 to work at the moment, the first electric control on-off valve 7a, the first electric control on-off valve 7b, the second electric control on-off valve 8 and the third electric control on-off valve 9 are in a communication state, and the gas generated by the temperature generating device 11 at the moment is shunted into the first ventilation pipeline 2 and the second ventilation pipeline 3 through the gas outlet pipeline 11a and then flows back through the gas return pipeline 11b, so that the aim of quickly adjusting the temperature of the chair body 10 is fulfilled; when the temperature difference is smaller or the preset temperature is reached, the controller enables the second electric control on-off valve 8 on the second branch pipeline 113 and the third electric control on-off valve 9 on the third branch pipeline 115 to be disconnected, so that the generated cold air or hot air is prevented from flowing into the second air passage pipeline 3 through the second branch pipeline 113, meanwhile, the cold air or hot air in the first air passage pipeline 2 is prevented from flowing into the third branch pipeline 115 through the external output end 22 of the first air passage pipeline 2, at the moment, the cold air or hot air in the first air passage pipeline 2 flows into the second air passage pipeline 3 through the one-way valve 1 arranged on the interactive pipeline 4, the cold air or hot air is returned into the fourth branch pipeline 116 through the external output end 32 of the second air passage pipeline 3, and then flows into the temperature generating device 11 through the main air return pipeline 114 through the fourth branch pipeline 116, and the purpose of energy sharing is achieved.

Compared with the prior art, the intelligent temperature control adjusting seat 100 further comprises the one-way valve 1, the first ventilation pipeline 2, the second ventilation pipeline 3, the communicating pipe 4, the controller, the first temperature sensor 5, the second temperature sensor 6, the first electric control on-off valves 7a and 7b, the second electric control on-off valve 8, the third electric control on-off valve 9 and the temperature generating equipment 11 for refrigerating or heating the gas to form cold air or hot air, wherein the controller controls the on-off of the first electric control on-off valves 7a and 7b, the second electric control on-off valve 8 and the third electric control on-off valve 9 according to the difference between the temperature values measured by the first temperature sensor 5 and the second temperature sensor 6 and the set temperature of the seat body 10; when the temperature value measured by the first temperature sensor 5 and the second temperature sensor 6 is larger than the set temperature difference of the chair body 10, the controller controls the first electric control on-off valves 7a and 7b, the second electric control on-off valve 8 and the third electric control on-off valve 9 to be in a communication state, so that cold air or hot air generated by the temperature generating equipment 11 is simultaneously regulated to the chair body 10 through the first ventilation pipeline 2 and the second ventilation pipeline 3, and the purpose that the first ventilation pipeline 2 and the second ventilation pipeline 3 are used for regulating the temperature of the chair body 10 side by side is realized; when the difference between the temperature of the chair body 10 and the set temperature is smaller, the controller enables the second electric control on-off valve 8 and the third electric control on-off valve 9 to be in an off state, so that cold air or hot air generated by the temperature generating device 11 flows into the temperature generating device 11 sequentially through the main air outlet pipeline 111, the first branch pipeline 112, the first ventilation pipeline 2, the intercommunication pipe 4, the second ventilation pipeline 3, the fourth branch pipeline 116 and the main air return pipeline 114, and the purpose of energy sharing, mode diversification regulation and energy saving is achieved by converting a side-by-side working mode between the first ventilation pipeline 2 and the second ventilation pipeline 3 into a serial working mode.

The foregoing description of the preferred embodiments of the present invention is not intended to limit the scope of the claims, which follow, as defined in the claims.

Claims

1. The intelligent temperature control adjusting seat comprises a seat body, and is characterized by further comprising a one-way valve, a first ventilation pipeline, a second ventilation pipeline, a communicating pipe, a controller, a first temperature sensor, a second temperature sensor, a first electric control on-off valve, a second electric control on-off valve, a third electric control on-off valve and temperature generating equipment for refrigerating or heating gas to form cold air or hot air, wherein the first ventilation pipeline and the second ventilation pipeline are buried in the seat body, the first ventilation pipeline and the second ventilation pipeline are alternately coiled in the length direction of the seat body and are respectively provided with an external input end and an external output end which extend out of the seat body, the temperature generating equipment is provided with an air outlet pipeline and a return pipeline, the air outlet pipeline comprises a main air outlet pipeline, a first branch pipeline and a second branch pipeline which are branched by the main air outlet pipeline, a third branch pipeline and a fourth branch pipeline which are branched by the main air return pipeline, the main air return pipeline is provided with the third electric control on-off valve, the second electric control on-off pipeline is provided with the second branch valve, the first ventilation pipeline is connected with the second ventilation pipeline, the second ventilation pipeline is connected with the first ventilation pipeline and the second ventilation pipeline is connected with the external input end, the second ventilation pipeline is connected with the external connection end, the second ventilation pipeline is connected with the second ventilation pipeline, one end of the interconnecting pipe is communicated with the external output end of the third branch pipeline or the first ventilation pipeline, the other end of the interconnecting pipe is communicated with the external input end of the second branch pipeline or the second ventilation pipeline, the one-way valve is arranged on the interconnecting pipe, the first temperature sensor is arranged on the external output end of the first ventilation pipeline, and the second temperature sensor is arranged on the external output end of the second ventilation pipeline;

the first to third electric control on-off valves are electromagnetic valves, and the first ventilation pipeline and the second ventilation pipeline are coiled into comb-shaped loops.

2. The intelligent temperature-controlled adjustment seat according to claim 1, wherein the flow direction of the cold/hot gas generated by the temperature generating device in the first ventilation line is opposite to the flow direction in the second ventilation line.

3. The intelligent temperature-controlled adjusting seat as set forth in claim 1, wherein an inter-inserting structure is provided between the first branch pipe and the external input end of the first ventilation pipe and between the third branch pipe and the external output end of the first ventilation pipe.

4. The intelligent temperature-controlled adjusting seat according to claim 1, wherein an inserting structure is provided between the second branch pipe and the external input end of the second ventilation pipe and between the fourth branch pipe and the external output end of the second ventilation pipe.

5. The intelligent temperature-control adjusting seat according to claim 1, wherein the external output end of the first ventilation pipeline and the external input end of the first ventilation pipeline are arranged in parallel and adjacently, and the external output end of the second ventilation pipeline and the external input end of the second ventilation pipeline are arranged in parallel and adjacently.

6. The intelligent temperature-controlled adjusting seat according to claim 1, wherein the seat body is a sofa.