CN210951886U

CN210951886U - Air inlet structure of bidirectional circulating air energy water heater

Info

Publication number: CN210951886U
Application number: CN201921842569.7U
Authority: CN
Inventors: 孔丹
Original assignee: Jieneng Co ltd
Current assignee: Jieneng Co ltd
Priority date: 2019-10-30
Filing date: 2019-10-30
Publication date: 2020-07-07
Anticipated expiration: 2029-10-30

Abstract

The utility model discloses an air inlet structure of a bidirectional circulation type air energy water heater, which comprises an air inlet structure, wherein air is sucked through an air suction cavity, a fan blade and an air suction motor, then the absorbed gas is conveyed into a sealing shell through an air inlet pipe, the sealing shell moves towards the direction of a second sealing slide block under the action of an air cylinder and a push rod to compress the air, the second sealing slide block and a T-shaped slide rod move under the action of air pressure, then the compressed gas is transmitted to the next structure through an air inlet of an evaporator, the evaporator and an air outlet, the arrangement of the air suction structure and the sealing compression structure improves the efficiency of the air energy water heater and the utilization rate of the air, the air exchange effect is increased, the cost is saved, a filter screen is a detachable structure, the fan blade and the air suction motor can be protected, the service life of the device is prolonged, the cost is saved, the air filter can effectively filter dust in the air and kill bacteria, so that the health and cleanness of water are ensured.

Description

Air inlet structure of bidirectional circulating air energy water heater

Technical Field

The utility model relates to an electrical equipment technical field specifically is a two-way circulating air can water heater's inlet structure.

Background

The air energy refers to low-grade heat energy contained in the air, and water energy, wind energy, solar energy, tidal energy and the like belong to one type of clean energy, a device for collecting and utilizing the air energy is called a heat pump, and is called an air energy heat pump technology, and the related fields include an air energy heat pump hot water field, an air energy heat pump heating field, an air energy heat pump drying field and the like. Because the air energy water heater heats through medium exchange heat, an electric heating element is not required to be contacted with water, the electric water heater has no danger of electric leakage, the hidden danger of poisoning and explosion of the gas water heater is eliminated, and air pollution caused by exhaust gas discharged by the fuel water heater is avoided.

The air inlet structure of the traditional air energy water heater is slow in air inlet, so that the air energy water heater is low in efficiency due to poor ventilation effect, and the air inlet structure of the traditional bidirectional circulating air energy water heater cannot well absorb and transfer hot air, so that resources are wasted, and the use cost is high.

Aiming at the problems, in order to improve the efficiency of an air energy water heater and the utilization rate of air, increase the ventilation effect, prolong the service life of the device, save the cost and ensure the health and cleanness of water, the air inlet structure of the bidirectional circulating air energy water heater is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a two-way circulating air can water heater's inlet structure has improved the efficiency of air can water heater and to the utilization ratio of air, has increased the ventilation effect, has prolonged the life of device, practices thrift the cost, has guaranteed the health of water and is clean, has solved the problem among the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the air inlet structure of the bidirectional circulating air energy water heater comprises an air inlet structure, wherein the air inlet structure comprises an air suction structure, a sealing compression structure, an air outlet structure and a buffer structure; the air outlet structure comprises a protective frame, an evaporator, an air outlet and an evaporator air inlet, the evaporator is arranged in an inner cavity of the protective frame, the evaporator air inlet is arranged at one end, close to the sealed compression structure, of the evaporator, and the air outlet is arranged at the other end of the evaporator; the buffer structure comprises a buffer frame, buffer springs and baffle plates, wherein the buffer springs are arranged in the inner cavity of the buffer frame, and the baffle plates are arranged on two side walls of the buffer frame.

Further, the suction structure includes the intake pipe, air cleaner, the chamber of breathing in, movable nut, the fixed block, the filter screen, the suction fan flabellum and the motor that induced drafts, the intake pipe sets up in the one side in the chamber of breathing in, and with the chamber intercommunication of breathing in, air cleaner sets up in the one side of the chamber inner chamber of breathing in and air contact, the fixed block passes through movable nut and is connected with the lateral wall in the chamber of breathing in, the filter screen sets up the inner chamber in the chamber of breathing in, and movable nut sets up the both sides at the filter screen, the suction fan flabellum sets up the one side of keeping away from air cleaner at the filter screen.

Further, the filter screen is of a detachable structure.

Further, sealed compression structure includes cylinder, push rod, first sealed slider, T type slide bar, the sealed slider of second and seal housing, and the cylinder setting is in the one end of push rod, and first sealed slider setting is at the other end of push rod, and first sealed slider setting is in seal housing's inner chamber, and the sealed slider setting of T type is kept away from one side of first sealed slider at the sealed slider of second, and the sealed slider setting of second is in seal housing's inner chamber.

Furthermore, one end, far away from the second sealing sliding block, of the T-shaped sliding rod is connected with a buffer spring.

Further, the air inlet of the evaporator is communicated with the inner cavity of the sealing shell, and the second sealing slide block is arranged on one side, close to the first sealing slide block, of the air inlet of the evaporator.

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

1. the utility model provides a two-way circulating air can water heater's inlet structure, through air cleaner, the chamber of breathing in, the suction fan flabellum is breathed in with the motor that induced drafts, then the rethread intake pipe conveys absorptive gas among the seal housing, seal housing removes to the direction of second seal slider under the effect of cylinder and push rod this moment, compress the air, second seal slider and T type slide bar remove under the effect of atmospheric pressure, buffer spring and baffle make the buffering to T type slide bar, then gas after the compression is through the evaporimeter air inlet, next structure is transmitted to evaporimeter and gas outlet, the efficiency that air energy water heater was improved and the utilization ratio to the air in setting up of suction structure and sealed compression structure, the ventilation effect has been increased, and the cost is saved.

2. The utility model provides a two-way circulating air can water heater's inlet structure, filter screen are detachable construction, can protect suction fan flabellum and the motor that induced drafts, and the cost is practiced thrift in the life of extension fixture.

3. The utility model provides a two-way circulating air can water heater's inlet structure, air cleaner's setting can effectually filter the dust in the air and eliminate the bacterium, guarantees that the health of water is clean.

Drawings

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

FIG. 2 is a partial structure diagram of the present invention;

FIG. 3 is an enlarged view of the point A of FIG. 2 according to the present invention;

fig. 4 is a schematic view of the air suction structure of the present invention.

In the figure: 1. an air intake structure; 11. a suction structure; 111. an air inlet pipe; 112. an air filter; 113. an air suction cavity; 114. a movable nut; 115. a fixed block; 116. a filter screen; 117. a fan blade of the suction fan; 118. an air suction motor; 12. sealing the compression structure; 121. a cylinder; 122. a push rod; 123. a first sealing slider; 124. a T-shaped slide bar; 125. a second sealing slide block; 126. sealing the housing; 13. an air outlet structure; 131. a protective frame; 132. an evaporator; 133. an air outlet; 134. an evaporator air inlet; 14. a buffer structure; 141. a buffer frame; 142. a buffer spring; 143. and a baffle plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, an air intake structure of a bidirectional circulation type air energy water heater includes an air intake structure 1, the air intake structure 1 includes an air intake structure 11, a sealed compression structure 12, an air outlet structure 13 and a buffer structure 14, the air intake structure 11 is disposed at two sides of the sealed compression structure 12, the air outlet structure 13 is disposed at one side of the air intake structure 11, the buffer structure 14 is disposed at one side of the sealed compression structure 12 close to the air outlet structure 13, the air intake structure 11 includes an air intake pipe 111, an air filter 112, an air intake cavity 113, a movable nut 114, a fixed block 115, a filter screen 116, a suction fan blade 117 and a suction motor 118, the air intake pipe 111 is disposed at one side of the air intake cavity 113 and is communicated with the air intake cavity 113, the air filter 112 is disposed at one side of the air intake cavity 113 contacting with air, the air filter 112 can effectively filter dust and bacteria in the, the water using health and cleanness are ensured, the fixed block 115 is connected with the outer side wall of the air suction cavity 113 through the movable nut 114, the filter screen 116 is arranged in the inner cavity of the air suction cavity 113, the movable nut 114 is arranged on two sides of the filter screen 116, the suction fan blade 117 is arranged on one side of the filter screen 116 far away from the air filter 112, one side of the suction fan blade 117 is connected with the output end of the suction motor 118, the filter screen 116 is of a detachable structure and can protect the suction fan blade 117 and the suction motor 118, the service life of the device is prolonged, the cost is saved, the sealing compression structure 12 comprises an air cylinder 121, a push rod 122, a first sealing slide block 123, a T-shaped slide rod 124, a second sealing slide block 125 and a sealing shell 126, the air cylinder 121 is arranged at one end of the push rod 122, the first sealing slide block 123 is arranged at, the T-shaped sliding rod 124 is disposed on one side of the second sealing slider 125 far from the first sealing slider 123, the second sealing slider 125 is disposed in the inner cavity of the sealing housing 126, one end of the T-shaped sliding rod 124 far from the second sealing slider 125 is connected to the buffer spring 142, the evaporator air inlet 134 is communicated with the inner cavity of the sealing housing 126, the second sealing slider 125 is disposed on one side of the evaporator air inlet 134 near the first sealing slider 123, air is sucked through the air filter 112, the air suction cavity 113, the suction fan blade 117 and the suction motor 118, and then the sucked air is transmitted into the sealing housing 126 through the air inlet pipe 111, at this time, the sealing housing 126 moves towards the second sealing slider 125 under the action of the air cylinder 121 and the push rod 122 to compress the air, the second sealing slider 125 and the T-shaped sliding rod 124 move under the action of air pressure, the buffer spring 142 and the baffle 143 buffer the T-shaped sliding rod 124, then the gas after the compression passes through evaporimeter air inlet 134, evaporimeter 132 and gas outlet 133 transmit for next structure, the setting of inhaling structure 11 and sealed compression structure 12 has improved the efficiency of air energy water heater and to the utilization ratio of air, the ventilation effect has been increased, and the cost is saved, it includes protecting frame 131 to go out gas structure 13, evaporimeter 132, gas outlet 133 and evaporimeter air inlet 134, evaporimeter 132 sets up the inner chamber at protecting frame 131, evaporimeter air inlet 134 sets up the one end that is close to sealed compression structure 12 at evaporimeter 132, and gas outlet 133 sets up the other end at evaporimeter 132, buffer structure 14 includes buffering frame 141, buffer spring 142 and baffle 143, buffer spring 142 sets up the inner chamber at buffering frame 141, baffle 143 sets up on the both sides wall of buffering frame 141.

In summary, the following steps: the utility model provides an air inlet structure of two-way circulating air energy water heater, including air inlet structure 1, through air cleaner 112, inhale chamber 113, suction fan flabellum 117 and induced draft motor 118 and inhale, then convey the absorbed gas to among the seal shell 126 through intake pipe 111, seal shell 126 moves to the direction of second seal slider 125 under the effect of cylinder 121 and push rod 122 this moment, compress the air, second seal slider 125 and T type slide bar 124 move under the effect of atmospheric pressure, buffer spring 142 and baffle 143 make the buffering to T type slide bar 124, then the gas after the compression passes through evaporimeter air inlet 134, evaporimeter 132 and gas outlet 133 transmit next structure, air suction structure 11 and seal compression structure 12 set up the efficiency that has improved the air energy water heater and to the utilization ratio of air, the ventilation effect has been increased, save cost, filter screen 116 is detachable construction, can protect suction fan flabellum 117 and air suction motor 118, and the life of extension fixture practices thrift the cost, and air cleaner 112's setting can effectually filter the dust in the air and eliminate the bacterium, guarantees that the health of water is clean.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a two-way circulating air can water heater's inlet structure, includes inlet structure (1), its characterized in that: the air inlet structure (1) comprises an air suction structure (11), a sealed compression structure (12), an air outlet structure (13) and a buffer structure (14), wherein the air suction structure (11) is arranged on two sides of the sealed compression structure (12), the air outlet structure (13) is arranged on one side of the air suction structure (11), and the buffer structure (14) is arranged on one side, close to the air outlet structure (13), of the sealed compression structure (12); the air outlet structure (13) comprises a protective frame (131), an evaporator (132), an air outlet (133) and an evaporator air inlet (134), the evaporator (132) is arranged in an inner cavity of the protective frame (131), the evaporator air inlet (134) is arranged at one end, close to the sealed compression structure (12), of the evaporator (132), and the air outlet (133) is arranged at the other end of the evaporator (132); the buffer structure (14) comprises a buffer frame (141), buffer springs (142) and baffle plates (143), wherein the buffer springs (142) are arranged in an inner cavity of the buffer frame (141), and the baffle plates (143) are arranged on two side walls of the buffer frame (141).

2. The air inlet structure of the bidirectional circulating air energy water heater as claimed in claim 1, wherein: the air suction structure (11) comprises an air inlet pipe (111), an air filter (112), an air suction cavity (113), a movable nut (114), a fixed block (115), a filter screen (116), a suction fan blade (117) and an air suction motor (118), the air inlet pipe (111) is arranged on one side of the air suction cavity (113), and is communicated with the air suction cavity (113), the air filter (112) is arranged at one side of the inner cavity of the air suction cavity (113) contacted with air, the fixed block (115) is connected with the outer side wall of the air suction cavity (113) through a movable nut (114), the filter screen (116) is arranged in the inner cavity of the air suction cavity (113), and the movable nuts (114) are arranged on two sides of the filter screen (116), the fan blades (117) of the suction fan are arranged on one side of the filter screen (116) far away from the air filter (112), and one side of the fan blades (117) of the suction fan is connected with the output end of the suction motor (118).

3. The air inlet structure of the bidirectional circulating air energy water heater as claimed in claim 2, wherein: the filter screen (116) is of a detachable structure.

4. The air inlet structure of the bidirectional circulating air energy water heater as claimed in claim 1, wherein: the sealing compression structure (12) comprises an air cylinder (121), a push rod (122), a first sealing sliding block (123), a T-shaped sliding rod (124), a second sealing sliding block (125) and a sealing shell (126), wherein the air cylinder (121) is arranged at one end of the push rod (122), the first sealing sliding block (123) is arranged at the other end of the push rod (122), the first sealing sliding block (123) is arranged in an inner cavity of the sealing shell (126), the T-shaped sliding rod (124) is arranged on one side, far away from the first sealing sliding block (123), of the second sealing sliding block (125) is arranged in the inner cavity of the sealing shell (126).

5. The air inlet structure of the bidirectional circulating air energy water heater as claimed in claim 4, wherein: one end of the T-shaped sliding rod (124), which is far away from the second sealing sliding block (125), is connected with a buffer spring (142).

6. The air inlet structure of the bidirectional circulating air energy water heater as claimed in claim 4, wherein: the evaporator air inlet (134) is communicated with the inner cavity of the sealing shell (126), and the second sealing sliding block (125) is arranged on one side, close to the first sealing sliding block (123), of the evaporator air inlet (134).