CN210154032U - Internal waste heat recycling structure of air conditioner - Google Patents

Abstract

The utility model provides an inside waste heat cycle of air conditioner recycles structure, including heat source collection device, heat source collection device's rear end is connected with heat conduction box device, heat conduction box device one side is the closed loop route and has connected gradually first heat preservation water pipe, first water tank, first current-limiting switch, the insulating tube that intakes, hot-blast output device, play water insulating tube, second current-limiting switch, second water tank and second heat preservation water pipe, just second heat preservation water pipe is kept away from the one end of second water tank with heat conduction box device is connected. The utility model discloses an utilize the inside surplus heat energy of air conditioner to the heating function of supplementary air conditioner behind the water heating, reduced the energy consumption of air conditioner, avoided the waste of the inside heat energy of air conditioner, still prolonged the life of air conditioner simultaneously.

Description

Internal waste heat recycling structure of air conditioner

Technical Field

The utility model mainly relates to a technical field that the air conditioner waste heat was recycled specifically is an inside waste heat recycling structure of air conditioner.

Background

An Air Conditioner (Air Conditioner) is a device that manually adjusts and controls parameters such as temperature, humidity, cleanliness, and flow rate of ambient Air in a building or structure.

Generally comprises a cold source/heat source device, a cold and hot medium delivery and distribution system, a tail end device and other auxiliary devices, and mainly comprises: the system comprises a refrigeration host, a water pump, a fan and a pipeline system. The end device is responsible for specifically processing the air state by utilizing the cold and heat quantity from the transmission and distribution so as to enable the air parameters of the target environment to meet the requirements.

The existing air conditioning equipment can generate heat inside during working, the heat is generally only dissipated to the outside, the heat cannot be used, the working environment temperature inside the air conditioning equipment is increased, and the service lives of parts which are weak in heat resistance are shortened.

Therefore, there is a need to develop a circulation structure capable of intensively utilizing the heat inside the air conditioner, so as to assist the air conditioner to heat the indoor air better and faster in the heating mode and reduce the loss of heat energy.

SUMMERY OF THE UTILITY MODEL

The utility model mainly provides an inside waste heat cycle of air conditioner structure of recycling for solve the technical problem who proposes among the above-mentioned background art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

a heat recycling structure in an air conditioner comprises a heat source collecting device, wherein the rear end of the heat source collecting device is connected with a heat conducting box device, one side of the heat conducting box device is connected with a first heat preservation water pipe, one end, far away from the heat conducting box device, of the first heat preservation water pipe is connected with a first water tank, one end, far away from the first heat preservation water pipe, of the first water tank is connected with a first current limiting switch, the upper end of the first current limiting switch is connected with a water inlet heat preservation pipe, one end, far away from the first current limiting switch, of the water inlet heat preservation pipe is connected with a hot air output device, one end, far away from the water inlet heat preservation pipe, of the hot air output device is provided with a water outlet heat preservation pipe, one end, far away from the hot air output device, of the water outlet heat preservation pipe is connected with a second current limiting switch, one side of the second current limiting switch is connected with a, and one end of the second heat-preservation water pipe, which is far away from the second water tank, is connected with the heat-conducting box device.

Furthermore, an insulation material interlayer is arranged on the inner wall of the heat conduction box device, a preheating water tank is arranged inside the insulation material interlayer, a heat conduction pipe set is connected to the front end of the preheating water tank, and the heat conduction pipe set is connected with the heat source collecting device.

Furthermore, a heat source concentration block is arranged in the preheating water tank, a heat source pipe group is arranged on the heat source concentration block, and the heat source pipe group penetrates through the preheating water tank and is connected with the heat conduction pipe group.

Furthermore, one side of first water tank is equipped with first circulating water pump, first circulating water pump is close to one side of first heat preservation water pipe is equipped with the water quality testing sensor, the lower extreme of water quality testing sensor is equipped with automatic waste fitting discharging, be equipped with automatic drainage switch on the automatic waste fitting discharging, just the water quality testing sensor with automatic waste fitting discharging runs through respectively one side shell of first water tank extends to the inside of first water tank.

Further, hot-blast output device includes fan device, the lower extreme of fan device is fixed with the support frame, the bottom of support frame with hot-blast output device's inner wall is connected, and the connected mode is the bolt fastening.

Furthermore, one end of the fan device is provided with an annular pipe group heat dissipation device, a temperature sensor is arranged at the center of the annular pipe group heat dissipation device, and a damping rubber support piece is fixed on the outer wall of the annular pipe group heat dissipation device.

Furthermore, two damping rubber supporting pieces are arranged, the two damping rubber supporting pieces are symmetrically fixed on two sides of the annular pipe group heat dissipation device, and one ends, far away from the annular pipe group heat dissipation device, of the two damping rubber supporting pieces are respectively fixed on the inner wall of the hot air output device.

Furthermore, a first one-way throttle valve and a second one-way throttle valve are respectively arranged on the first heat-preservation water pipe and the second heat-preservation water pipe.

Further, a water level detection sensor is arranged at the upper end of the first water tank, and the lower end of the water level detection sensor penetrates through the upper end shell of the first water tank and extends to the inside of the first water tank.

Furthermore, one side of the second water tank is provided with a second circulating water pump.

Compared with the prior art, the beneficial effects of the utility model are that:

firstly, when the air conditioner operates in a heating mode, the heat source collecting device is used for collecting heat energy in the air conditioner, so that the loss of heat energy is avoided;

when the air conditioner operates in a heating mode, the collected heat energy heats the water in the preheating water tank through the heat conduction tank device to enable the temperature of the water to rise to a certain temperature, then the heated water is conveyed to the annular tube group heat dissipation device in the hot air output device, and then the heat dissipated by the annular tube group heat dissipation device is blown out into a room through the fan device in the hot air output device, so that the time required by the air conditioner during heating is shortened, and the energy consumption generated when the set temperature is reached is further reduced;

thirdly, after the air conditioner completes the heating process, the compressor of the air conditioner stops working temporarily, the indoor temperature can be reduced, the hot water stored in the heat conducting box device can be used for continuously circulating to provide heat for the indoor temperature, the standby time of the air conditioner is longer, the energy consumption required by the work is further reduced, the service life of parts of the air conditioner is prolonged, and meanwhile, the pollution of the air conditioner to the environment is reduced.

The present invention will be explained in detail with reference to the drawings and specific embodiments.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the heat conduction box device of the present invention;

FIG. 3 is a schematic structural view of the hot air output device of the present invention;

FIG. 4 is a schematic structural view of the heat dissipation device of the ring tube assembly of the present invention;

fig. 5 is an enlarged view of region a in fig. 1.

Reference numerals: 1-heat source collecting device, 2-heat conducting box device, 2 a-preheating water tank, 2 b-heat conducting pipe set, 2 c-heat source concentrating block, 2 c-1-heat source pipe set, 2 d-heat insulating material interlayer, 21-first heat-preserving water pipe, 21 a-first one-way throttle valve, 22-second heat-preserving water pipe, 22 a-second one-way throttle valve, 3-first water tank, 31-first circulating water pump, 32-water level detection sensor, 33-water quality detection sensor, 34-automatic blowdown device, 34 a-automatic drain switch, 4-first current-limiting switch, 5-hot air output device, 5 a-annular pipe set heat radiating device, 5 a-1-damping rubber supporting piece, 5 b-temperature sensor, 51-water inlet heat preservation pipe, 52-water outlet heat preservation pipe, 53-fan device, 53 a-support frame, 6-second flow limiting switch, 7-second water tank and 71-second circulating water pump.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the accompanying drawings, in which several embodiments of the present invention are shown, but the present invention can be implemented in different forms, and is not limited to the embodiments described in the text, but rather, these embodiments are provided to make the disclosure of the present invention more thorough and comprehensive.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of the term knowledge in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Please refer to fig. 1-5 heavily, which illustrates a recycling structure of internal waste heat of an air conditioner, comprising a heat source collecting device 1, a heat conducting box device 2 is connected to the rear end of the heat source collecting device 1, a first heat preserving pipe 21 is connected to one side of the heat conducting box device 2, a first water tank 3 is connected to one end of the first heat preserving pipe 21 far away from the heat conducting box device 2, a first current limiting switch 4 is connected to one end of the first water tank 3 far away from the first heat preserving pipe 21, a water inlet heat preserving pipe 51 is connected to the upper end of the first current limiting switch 4, a hot air output device 5 is connected to one end of the water inlet heat preserving pipe 51 far away from the first current limiting switch 4, a water outlet heat preserving pipe 52 is arranged at one end of the hot air output device 5 far away from the water inlet heat preserving pipe 51, and a second current limiting switch 6 is connected to one end of the water outlet heat preserving, one side of second current-limiting switch 6 is connected with second water tank 7, second water tank 7 keeps away from the one end of second current-limiting switch 6 is connected with second heat preservation water pipe 22, just second heat preservation water pipe 22 keeps away from the one end of second water tank 7 with heat conduction box device 2 is connected, one side of second water tank 7 is equipped with second circulating water pump 71, first heat preservation water pipe 21 with be equipped with first one-way throttle valve 21a and second one-way throttle valve 22a on the second heat preservation water pipe 22 respectively. In this embodiment, the heat source collecting device 1 collects heat to heat water in the heat conducting box device 2, and then the water is conveyed to the hot air output device 5 along a single direction to output heat energy, so that the heat energy generated during the operation of the air conditioner is recycled, the waste of heat energy is avoided, the heating effect of the air conditioner is assisted, and the energy consumption is reduced.

Please refer to fig. 2, a heat insulating material interlayer 2d is disposed on an inner wall of the heat conducting box device 2, a preheating water tank 2a is disposed inside the heat insulating material interlayer 2d, a heat conducting pipe set 2b is connected to a front end of the preheating water tank 2a, the heat conducting pipe set 2b is connected to the heat source collecting device 1, a heat source concentrating block 2c is disposed inside the preheating water tank 2a, a heat source pipe set 2c-1 is disposed on the heat source concentrating block 2c, and the heat source pipe set 2c-1 penetrates through the preheating water tank 2a and is connected to the heat conducting pipe set 2 b. In this embodiment, heat energy is introduced into the heat source concentration block 2c in the water tank of the preheating water tank 2a through the heat conduction pipe set 2b to heat water, so that the process of heating water by air conditioner heat energy is realized, a first resource is provided for cyclic utilization of heat energy, and the heat energy is locked by the heat insulation material interlayer 2d to prevent rapid loss of the heat energy.

Please refer to fig. 1 and 5, wherein a first circulating water pump 31 is disposed on one side of the first water tank 3, a water quality detecting sensor 33 is disposed on one side of the first circulating water pump 31 close to the first heat-preserving water pipe 21, an automatic sewage discharging device 34 is disposed at a lower end of the water quality detecting sensor 33, an automatic drainage switch 34a is disposed on the automatic sewage discharging device 34, and the water quality detecting sensor 33 and the automatic sewage discharging device 34 respectively penetrate through a housing on one side of the first water tank 3 and extend into the first water tank 3. In this embodiment, the first circulation water pump 31 makes the hot water flow more smoothly, and the automatic sewage draining device 34 is further used to drain the sewage by controlling the automatic drainage switch 34a under the condition that the water quality detection sensor 33 gives a water quality alarm, and the water tank is refilled with high-quality water, so that the condition that the circulation water channel is not blocked by the sewage is realized.

Please refer to fig. 1, fig. 3 and fig. 4, wherein the hot air output device 5 includes a fan device 53, a support frame 53a is fixed at a lower end of the fan device 53, a bottom of the support frame 53a is connected to an inner wall of the hot air output device 5 in a bolt manner, an annular tube set heat sink 5a is disposed at one end of the fan device 53, a temperature sensor 5b is disposed at a center of the annular tube set heat sink 5a, a damping rubber support member 5a-1 is fixed on an outer wall of the annular tube set heat sink 5a, two damping rubber support members 5a-1 are disposed, the two damping rubber support members 5a-1 are symmetrically fixed at two sides of the annular tube set heat sink 5a, and ends of the two damping rubber support members 5a-1 far away from the annular tube set heat sink 5a are respectively fixed on the inner wall of the hot air output device 5. In this embodiment, a large amount of hot water is collected by the heat sink 5a of the annular tube group, and the hot water is slowly flowed by the first and second current limit switches 4 and 6, so that the fan device 53 outputs more hot air to maintain the indoor temperature, and the standby time of the air conditioner main equipment is prolonged.

Referring to the drawings again, a water level detection sensor 32 is disposed at an upper end of the first water tank 3, and a lower end of the water level detection sensor 32 penetrates through an upper end housing of the first water tank 3 and extends into the first water tank 3. In this embodiment, the water level detection sensor 32 monitors the water level in the water tank in real time, so that the water level in the water tank can be known in real time, and the damage of the device caused by insufficient water is avoided.

The utility model discloses a concrete operation as follows:

when the air conditioner transmits hot air to the indoor in a heating mode, redundant heat inside the air conditioner is collected by the heat source collecting device 1, then the heat is transmitted into the heat conducting box device 2, the heat conducting box device 2 enables the heat source concentration block 2c to heat water in the preheating water tank 2a through the heat conducting pipe group 2b, then the heated water is subjected to stable flow rate through the first one-way throttle valve 21a on the first heat preservation water pipe 21 and is transmitted into the first water tank 3, hot water in the first water tank 3 is subjected to auxiliary transmission through the first circulating water pump 31 and is transmitted into the water inlet heat preservation pipe 51 after reaching the first flow limiting switch 4, the water inlet heat preservation pipe 51 transmits the hot water to the annular pipe group heat dissipation device 5a in the hot air output device 5, then the first flow limiting switch 4 and the second flow limiting switch 6 are subjected to flow rate reduction, so that the heat dissipated by the annular pipe group heat dissipation device 5a is better transmitted to the indoor through the fan device 53 at the rear end, when the temperature sensor monitors that the water temperature is insufficient, the retarding effect of the first current limiting switch 4 and the second current limiting switch 6 is turned off to accelerate the water flow, the water flow starts to flow to the second water tank 7 along the water outlet heat preservation pipe 52, the water flow is assisted by the second circulating pump 71 on the second water tank 7 to return to the heat conduction tank device 2 through the second heat preservation pipe 22 to be heated again, and the hot water of the heat conduction tank device 2 is conveyed out for repeated process, so that the recycling of the heat energy after the water is heated is formed.

The above description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and the method and the technical solution of the present invention are not substantially improved or directly applied to other occasions without improvement, and are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides an inside waste heat cycle of air conditioner recycles structure, includes heat source collection device (1), its characterized in that: the rear end of the heat source collecting device (1) is connected with a heat conducting box device (2), one side of the heat conducting box device (2) is connected with a first heat-insulating water pipe (21), one end, far away from the heat conducting box device (2), of the first heat-insulating water pipe (21) is connected with a first water tank (3), one end, far away from the first heat-insulating water pipe (21), of the first water tank (3) is connected with a first current-limiting switch (4), the upper end of the first current-limiting switch (4) is connected with a water inlet heat-insulating pipe (51), one end, far away from the first current-limiting switch (4), of the water inlet heat-insulating pipe (51) is connected with a hot air output device (5), one end, far away from the water inlet heat-insulating pipe (51), of the hot air output device (5) is provided with a water outlet heat-insulating pipe (52), one end, far away from the hot air output device (, one side of the second current-limiting switch (6) is connected with a second water tank (7), one end, far away from the second current-limiting switch (6), of the second water tank (7) is connected with a second heat-preservation water pipe (22), and one end, far away from the second water tank (7), of the second heat-preservation water pipe (22) is connected with the heat-conducting box device (2).

2. The internal waste heat recycling structure of the air conditioner as claimed in claim 1, wherein: the heat conduction box device is characterized in that a heat insulation material interlayer (2 d) is arranged on the inner wall of the heat conduction box device (2), a preheating water tank (2 a) is arranged inside the heat insulation material interlayer (2 d), a heat conduction pipe set (2 b) is connected to the front end of the preheating water tank (2 a), and the heat conduction pipe set (2 b) is connected with the heat source collecting device (1).

3. The internal waste heat recycling structure of the air conditioner as claimed in claim 2, wherein: the heat source concentrating block (2 c) is arranged in the preheating water tank (2 a), a heat source pipe group (2 c-1) is arranged on the heat source concentrating block (2 c), and the heat source pipe group (2 c-1) penetrates through the preheating water tank (2 a) and is connected with the heat conduction pipe group (2 b).

4. The internal waste heat recycling structure of the air conditioner as claimed in claim 1, wherein: one side of first water tank (3) is equipped with first circulating water pump (31), first circulating water pump (31) are close to one side of first heat preservation water pipe (21) is equipped with water quality testing sensor (33), the lower extreme of water quality testing sensor (33) is equipped with automatic waste fitting discharging (34), be equipped with automatic drainage switch (34 a) on automatic waste fitting discharging (34), just water quality testing sensor (33) with automatic waste fitting discharging (34) run through respectively one side shell of first water tank (3) extends to the inside of first water tank (3).

5. The internal waste heat recycling structure of the air conditioner as claimed in claim 1, wherein: the hot air output device (5) comprises a fan device (53), a support frame (53 a) is fixed at the lower end of the fan device (53), the bottom of the support frame (53 a) is connected with the inner wall of the hot air output device (5), and the connection mode is bolt fixing.

6. The internal waste heat recycling structure of the air conditioner as claimed in claim 5, wherein: one end of the fan device (53) is provided with an annular pipe group heat dissipation device (5 a), the center of the annular pipe group heat dissipation device (5 a) is provided with a temperature sensor (5 b), and a damping rubber support piece (5 a-1) is fixed on the outer wall of the annular pipe group heat dissipation device (5 a).

7. The internal waste heat recycling structure of the air conditioner as claimed in claim 6, wherein: the two damping rubber supporting pieces (5 a-1) are symmetrically fixed on two sides of the annular pipe group heat dissipation device (5 a), and one ends, far away from the annular pipe group heat dissipation device (5 a), of the two damping rubber supporting pieces (5 a-1) are respectively fixed on the inner wall of the hot air output device (5).

8. The internal waste heat recycling structure of the air conditioner as claimed in claim 1, wherein: and a first one-way throttle valve (21 a) and a second one-way throttle valve (22 a) are respectively arranged on the first heat-preservation water pipe (21) and the second heat-preservation water pipe (22).

9. The internal waste heat recycling structure of the air conditioner as claimed in claim 1, wherein: the upper end of first water tank (3) is equipped with water level detection sensor (32), the lower extreme of water level detection sensor (32) pierces through the upper end casing of first water tank (3) extends to the inside of first water tank (3).

10. The internal waste heat recycling structure of the air conditioner as claimed in claim 4, wherein: and a second circulating water pump (71) is arranged on one side of the second water tank (7).

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