CN107044688B

CN107044688B - Integrated air conditioner

Info

Publication number: CN107044688B
Application number: CN201710161899.9A
Authority: CN
Inventors: 陈国豪; 张进; 高洪涛; 景阳阳; 黄维川
Original assignee: Shenzhen Skyworth Air Conditioning Technology Co Ltd
Current assignee: Skyworth Air Conditioning Technology Anhui Co ltd; Shenzhen Skyworth Air Conditioning Technology Co Ltd
Priority date: 2017-03-17
Filing date: 2017-03-17
Publication date: 2020-01-14
Anticipated expiration: 2037-03-17
Also published as: CN107044688A

Abstract

The invention discloses an integrated air conditioner, comprising: the air conditioner comprises a shell, an indoor air outlet arranged on the front side of the shell, an indoor air inlet arranged on the top surface of the shell, an outdoor air inlet and an outdoor air outlet arranged on the rear side of the shell, and a partition plate assembly arranged in the shell; the partition plate assembly divides the shell into an upper chamber and a lower chamber; an indoor heat exchange device is arranged in the upper chamber; an outdoor heat exchange device is arranged in the lower chamber; the indoor air outlet and the indoor air inlet are communicated with the upper chamber; the outdoor air inlet and the outdoor air outlet are communicated with the lower chamber; the indoor heat exchange device is connected with the outdoor heat exchange device. The outdoor heat exchange device and the indoor heat exchange device are arranged in a shell in a centralized way, and an outdoor unit does not need to be arranged separately; the outdoor air inlet and the outdoor air outlet are arranged on the same plane, and the integrated air conditioner is installed indoors and can exchange air with the outside through the air vents in the wall body, so that outdoor high-altitude operation is avoided, and the appearance of a building is not influenced.

Description

Integrated air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to an integrated air conditioner.

Background

The air conditioner needs to be communicated with the outside to exchange air, the outdoor unit of the existing split air conditioner is arranged on the outer side of a wall, an indoor unit and the outdoor unit are connected through a pipeline after holes are formed in the wall, the outdoor unit is integrally hung on the outer side of the wall, the attractiveness of a building is greatly influenced, and high-altitude operation is needed when the outdoor unit is installed, so that the split air conditioner is unsafe; the existing integrated air conditioners such as window air conditioners do not need to be installed in outdoor high-altitude operation, but still part of the air conditioners need to extend out of a window and are positioned outside a building, so that the attractiveness of the building is greatly influenced.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The invention aims to solve the technical problem that the air conditioner is partially installed outside a building to influence the appearance of the building in the prior art.

The technical scheme adopted by the invention for solving the technical problem is as follows:

an integrated air conditioner comprising an integrated air conditioner body, wherein the integrated air conditioner body comprises: the indoor air outlet is arranged on the front side of the shell, the indoor air inlet is arranged on the top surface of the shell, the outdoor air inlet and the outdoor air outlet are arranged on the rear side of the shell, and the partition plate assembly is arranged in the shell; the baffle plate assembly divides the shell into an upper chamber and a lower chamber; an indoor heat exchange device is arranged in the upper chamber; an outdoor heat exchange device is arranged in the lower chamber; the indoor air outlet and the indoor air inlet are communicated with the upper chamber; the outdoor air inlet and the outdoor air outlet are communicated with the lower chamber; the indoor heat exchange device is connected with the outdoor heat exchange device.

The integrated air conditioner, wherein the indoor heat exchanging apparatus includes: the evaporator comprises an electrical box for mounting a main control board, an evaporator assembly and an air duct assembly arranged below the evaporator assembly; the evaporator assembly and the air duct assembly are connected with the electrical box.

The integrated air conditioner, wherein the outdoor heat exchange device comprises: the centrifugal fan blade, drive device which is connected with the centrifugal fan blade and drives the centrifugal fan blade to rotate, condenser assembly which is arranged in parallel with the centrifugal fan blade, and compressor which is connected with the condenser assembly; the compressor is connected with the evaporator assembly.

The integral type air conditioner, wherein, it still includes: and the air pipe device is arranged on the wall body and is used for ventilating the outdoor air inlet, the outdoor air outlet and the outdoor air.

The integrated air conditioner, wherein, the air duct device includes: a flange, a check valve, a pipe, and a connection portion passing through the pipe; the two ends of the connecting part are respectively detachably connected with the flange and the check valve; the flange and the check valve are respectively connected with two ends of the pipeline in a clamping manner; the check valve includes: the valve comprises a foldable annular valve body, a mandrel, a first valve and a second valve, wherein the mandrel, the first valve and the second valve are positioned in a ring of the annular valve body, and the first valve and the second valve are rotationally connected with the mandrel; the annular valve body can penetrate through the pipeline after being folded.

The integrated air conditioner, wherein the check valve further comprises: the limiting parts are arranged on the annular valve body, and the torsion spring is arranged on the mandrel; the first valve and the second valve are both positioned on the same side of the limiting part; the torsion spring is provided with two pins which are respectively connected with the first valve and the second valve; the limiting parts are located on the same plane.

The integrated air conditioner is characterized in that the annular valve body consists of a first semicircular valve body and a second semicircular valve body; the first semicircular valve body comprises a first valve body, a flange arranged on the first valve body and buckles symmetrically arranged at two ends of the flange; the flange is located on a side of the first valve body facing the conduit; the inner surface of the flange is flush with the inner surface of the first valve body; the second semicircular valve body comprises a second valve body, protruding blocks arranged at two ends of the second valve body respectively, and through holes arranged on the protruding blocks and matched with the buckles.

The integrated air conditioner is characterized in that the buckle comprises a first shaft body, a second shaft body and a limit buckle positioned on the second shaft body; the first shaft body is in contact with the flange; when the through hole is matched and connected with the buckle, the lug is positioned between the limiting buckle and the flange.

The integrated air conditioner is characterized in that a plurality of first protruding parts are arranged on the first valve at intervals; a mandrel through hole is formed in the first boss; a plurality of second convex parts are arranged on the second valve at intervals; the second boss is identical in structure to the first boss; the mandrel via hole is matched with the mandrel; when the first protruding part and the second protruding part are both connected with the mandrel, the first protruding part and the second protruding part are alternately arranged.

The integral type air conditioner, wherein, the dabber via hole with buckle clearance fit.

Has the advantages that: the outdoor heat exchange device and the indoor heat exchange device are arranged in a shell in a centralized way, and an outdoor unit does not need to be arranged separately; outdoor air intake with outdoor air outlet sets up on the coplanar, only needs to set up two ventilation holes on the wall body, and with two ventilation holes respectively with outdoor air intake with outdoor air outlet is corresponding, alright realize outdoor heat exchange device carries out the air exchange through ventilation hole and outdoor, consequently the integral type air conditioner install indoor can, need not to install in the wall body outside, both avoided outdoor high altitude construction, do not influence the architectural appearance again. The air pipe device has a non-return function, a ventilation pipeline capable of following is provided for indoor and outdoor air flow, the unidirectional conduction and reverse non-conduction directions can be set according to the ventilation requirement, the original appearance of a building can be kept by attaching the air pipe device to the outer side of a wall body after installation, and meanwhile, the installation of the air pipe device can be completed indoors without operation on the outer wall of the building.

Drawings

Fig. 1 is a schematic structural view of an integrated air conditioner body according to the present invention;

fig. 2 is an exploded view of the integrated air conditioner body according to the present invention;

FIG. 3 is an exploded view of the air duct assembly of the present invention;

FIG. 4 is a reference view illustrating a state in which the air duct assembly of the present invention is installed on a wall;

FIG. 5 is a reference view showing a state in which the check valve is folded in use according to the present invention;

FIG. 6 is an exploded view of the check valve of the present invention;

FIG. 7 is a schematic view of the structure of the buckle of the present invention;

FIG. 8 is a cross-sectional view of the check valve of the air duct assembly of the present invention shown in use with left-to-right ventilation;

FIG. 9 is a cross-sectional view of the check valve of the air duct assembly of the present invention shown in use with right-to-left ventilation;

FIG. 10 is a schematic view of the first valve of the present invention;

FIG. 11 is a schematic view showing the overall structure of the check valve according to the present invention;

FIG. 12 is a sectional view taken along line A-A of FIG. 11;

FIG. 13 is an enlarged view of a portion of FIG. 12 at B;

FIG. 14 is a schematic view of the construction of the joint in the present invention;

FIG. 15 is a partial cross-sectional view of the connection portion of the present invention in connection with the snap;

FIG. 16 is a reference view showing a state in which the chain is used in the present invention in connection with the flange;

FIG. 17 is a reference diagram of the air duct device, the integrated air conditioner body and the wall body in the present invention;

FIG. 18 is a schematic view of the structure of the outer side of the wall body when the air duct device, the integrated air conditioner body and the wall body are installed in a matched manner according to the present invention;

FIG. 19 is a sectional view taken along line C-C of FIG. 18;

fig. 20 is a schematic structural view of the inner side of the wall body when the air duct device, the integrated air conditioner body and the wall body are installed in a matching manner according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Please refer to fig. 1-20. The present invention provides an integrated air conditioner, which comprises an integrated air conditioner body 10, as shown in fig. 1-2, the integrated air conditioner body 10 comprises: the air conditioner comprises a shell 1, an indoor air inlet 11 arranged on the top surface of the shell 1, an indoor air outlet 12 arranged on the front side of the shell 1, an outdoor air inlet 13 and an outdoor air outlet 14 arranged on the rear side of the shell 1, and a partition plate assembly 15 arranged in the shell 1; the diaphragm assembly 15 divides the housing 1 into an upper chamber 16 and a lower chamber 17; an indoor heat exchange device is arranged in the upper chamber 16; an outdoor heat exchange device is arranged in the lower chamber 17; the indoor air outlet 12 and the indoor air inlet 11 are both communicated with the upper chamber 16; the outdoor air inlet 13 and the outdoor air outlet 14 are both communicated with the lower chamber 17; the indoor heat exchange device is connected with the outdoor heat exchange device.

The outdoor heat exchange device and the indoor heat exchange device are arranged in a shell 1 in a centralized way, and an outdoor unit does not need to be arranged separately; go up room 16 with room 17 is down and arranges side by side, makes indoor heat exchange device with outdoor heat exchange device is about arranging side by side, outdoor air intake 13 with outdoor air outlet 14 can set up on the coplanar, will when the integral type air conditioner is installed on the wall body, only need set up two ventilation holes on the wall body to with two ventilation holes respectively with outdoor air intake 13 with outdoor air outlet 14 is corresponding, alright realize outdoor heat exchange device carries out the air exchange through the ventilation hole with outdoor, the integral type air conditioner install indoor can, need not to install in the wall body outside, both avoided outdoor high altitude construction, do not influence building appearance again.

The indoor heat exchange device includes: the electric appliance box 18 is used for installing a main control panel, the evaporator assembly 19 and the air duct assembly 110 is arranged below the evaporator assembly 19; the evaporator assembly 19 and the air duct assembly 110 are both connected to the electrical box 18. The evaporator assembly 19 comprises an evaporator body 191, a first water pan 192 arranged below the evaporator body 191, and a filter screen 111 and an air inlet grille 112 arranged above the evaporator body 191; an air deflector 113 is further arranged in the upper compartment 16, and the air deflector 113 is positioned at an air outlet of the air duct assembly 110; the air deflector 113 is matched with the indoor air outlet 12.

The outdoor heat exchange apparatus includes: the centrifugal fan blade 114, a driving device 115 which is connected with the centrifugal fan blade 114 and drives the centrifugal fan blade 114 to rotate, a condenser assembly which is arranged in parallel with the centrifugal fan blade 114, and a compressor 116 which is connected with the condenser assembly; the compressor 116 is connected to the evaporator assembly 19. The condenser assembly comprises a condenser body 117 and a second water pan 118 arranged below the condenser body 117; the compressor is arranged side by side with the condenser assembly. Still be provided with the connecting pipe via hole on the baffle subassembly 15, the connecting pipe is worn to establish the connecting pipe in the via hole, the connecting pipe be used for with the condenser subassembly with evaporator subassembly 19 is connected.

Indoor air is sucked into the shell 1 by the air duct assembly 110 through the air inlet grille, flows through the evaporator assembly 19, exchanges heat and is sent out from the air deflector; outdoor air is sucked into the shell 1 by the centrifugal fan blades 114 through the ventilation holes in the wall 101 and the outdoor air inlet 13, flows through the condenser assembly, is subjected to heat exchange, and is discharged out of the room through the outdoor air outlet 14 and the ventilation holes.

The integrated air conditioner further includes: and the air pipe device is arranged on the wall 101 and is used for ventilating the outdoor air inlet 13, the outdoor air outlet 14 and the outdoor air.

As shown in fig. 3, the air duct device includes: a flange 2, a pipe 3, a connection 4 passing through the pipe 3, and a check valve 5; two ends of the connecting part 4 are respectively detachably connected with the flange 2 and the check valve 5; the flange 2 and the check valve 5 are respectively connected with two ends of the pipeline 3 in a clamping manner; the check valve 5 includes: a collapsible annular valve body 50, a mandrel 6, a first valve 61, and a second valve 62 located within the ring of the annular valve body 50; the first valve 61 and the second valve 62 are both rotationally connected with the mandrel 6; the annular valve body 50 can penetrate through the pipeline 3 after being folded in half; the outer diameter of the annular valve body 50 is larger than the outer diameter of the pipe.

As shown in fig. 4, after a vent hole is formed in a wall 101, the pipeline 3 is placed in the vent hole, the check valve 5 is located on the outer side of the wall 101, the flange 2 is located on the inner side of the wall 101, and the connecting portion 4 is located in the pipeline 3 and connects the check valve 5 and the flange 2. After the air pipe device is arranged on the wall body 101, air exchange can be carried out between the air conditioner, the smoke exhaust ventilator and other equipment through the air pipe device, and the air conditioner, the smoke exhaust ventilator and other electronic equipment do not need to be arranged outside the wall body 101, so that high-altitude operation outside a building is avoided.

The process of installing the air duct device on the wall 101 is as follows: first connecting the connection 4 with the non-return valve 5; since the annular valve body 50 can be folded in half, and both the first valve 61 and the second valve 62 can rotate around the mandrel 6, when the pipe 3 is installed in the ventilation hole on the wall 101, the annular valve body 50 is folded in half, and the first valve 61 and the second valve 62 are rotated around the mandrel 6, so that the maximum distance between the first valve 61 and the second valve 62 is smaller than the inner diameter of the pipe 3, the check valve 5 can be inserted through the pipe 3 and the check valve 5 can be placed on the outer side of the wall 101 (when the check valve 5 is folded to pass through the pipe 3, the use state of the check valve 5 is shown in fig. 5); then, the connecting part 4 is tightened, so that the annular valve body 50 is flattened under the tension of the connecting part 4 and the acting force of the wall body 101 and is clamped with the pipeline 3, and the check valve 5 is installed on the outer side of the wall body 101; next, the connection portion 4 is connected to the flange 2, and the flange 2 is engaged with the duct 3, thereby mounting the duct device on the wall 101. The air pipe device enables a user to finish the installation of the check valve 5 on the outer side of the wall body 101 indoors, and does not need screws or perform high-altitude operation outside a building.

As shown in fig. 6, the check valve 5 further includes: a plurality of limiting parts 63 arranged on the annular valve body 50 and positioned on the same plane, and a torsion spring 64 arranged on the mandrel 6; the first valve 61 and the second valve 62 are both positioned on the same side of the limiting part 63; the torsion spring 64 has two legs 65 and 66, and the two legs 65 and 66 are connected to the first valve 61 and the second valve 62, respectively.

When the air pipe device works, under the action of wind power, the first valve 61 and the second valve 62 are pushed away around the mandrel 6 along the wind direction, so that the check valve 5 is opened for ventilation; when the ventilation is stopped, the two pins 65 and 66 of the torsion spring 64 push the first valve 61 and the second valve 62 to unfold around the spindle 6 until the first valve 61 and the second valve 62 are both in contact with the limiting portion 63. The limiting portion 63 limits the first valve 61 and the second valve 62, and prevents the first valve 61 and the second valve 62 from opening in opposite directions. In the process of mounting the air duct device on the wall 101, the annular valve body 50 is folded in half, the first valve 61 and the second valve 62 are rotated around the mandrel 6 to pass the check valve 5 through the duct 3, then the connecting part 4 is tensioned, so that after the annular valve body 50 is flattened under the tension of the connecting part 4 and the acting force of the wall 101, the first valve 61 and the second valve 62 can be unfolded under the acting force of the torsion spring 64 until the first valve 61 and the second valve are in contact with the limiting part 63, thereby ensuring that the first valve 61 and the second valve 62 can be automatically unfolded to shield the vent hole after the check valve 5 is mounted on the outer side of the wall 101.

As shown in fig. 6, the annular valve body 50 is composed of a first semicircular valve body 51 and a second semicircular valve body 52; the first semicircular valve body 51 comprises a first valve body 53, a flange 54 arranged on the first valve body 53, and buckles 7 symmetrically arranged at two ends of the flange 54; the flange 54 is located on the first valve body 53 on the side toward the pipe 3; the inner surface of the flange 54 (i.e., the surface of the flange 54 facing the center of the circle) is flush with the inner surface of the first valve body 53 (i.e., the surface of the first valve body 53 facing the center of the circle). The outer diameter of the flange 54 is matched with the inner diameter of the pipeline 3, when the check valve 5 is installed on the outer side of the wall 101, the flange 54 is clamped in the pipeline 3, the outer wall of the flange 54 is in contact with the inner wall of the pipeline 3, and one side, provided with the flange 54, of the first valve body 53 is attached to the wall 101. The stopper 63 is provided on the flange 54; the clip 7 is located on the circle center-facing side of the flange 54.

As shown in fig. 6, the second semicircular valve body 52 includes a second valve body 55, protrusions 56 respectively disposed at both ends of the second valve body 55, and through holes 57 disposed on the protrusions 56 to be engaged with the catches 7. The second valve body 55 is identical in structure to the first valve body 53; the projection 56 is located on a face of the second valve body 55 facing the center of the circle.

As shown in fig. 7, the buckle 7 includes a first shaft 71, a second shaft 72, and a limit buckle 73 located on the second shaft 72. The first shaft body 71 is in contact with the flange 54; when the through hole 57 is connected with the buckle 7 in a matching manner, the projection 56 is located between the limit buckle 73 and the flange 54. Preferably, the diameter of the first shaft 71 is larger than that of the second shaft 72, when the first semicircular valve body 51 is connected to the second semicircular valve body 52, the second shaft 72 passes through the through hole 57, and then the protrusion 56 is pressed towards the first shaft 71, so that the limit buckle 73 passes through the through hole 57 until the through hole 57 contacts the first shaft 71, and the protrusion 56 is located between the limit buckle 73 and the flange 54, so that the first semicircular valve body 51 and the second semicircular valve body 52 are connected to form the annular valve body 50.

The annular valve body 50 can be folded towards one side of the pipeline 3, in the preferred embodiment, when the first valve 61 and the second valve 62 are installed in the ring of the annular valve body 50, and both the first valve 61 and the second valve 62 are in contact with the right side of the limiting part 63 in the unfolded state, the air duct device is used for ventilating from left to right, as shown in fig. 8; when the first valve 61 and the second valve 62 are both in contact with the left side of the position-limiting portion 63 in the unfolded state, the air duct device is used for ventilating from right to left, as shown in fig. 9.

As shown in fig. 10, a plurality of first protrusions 611 are arranged on the first valve 61 at intervals; the lengths of the first protrusions 611 may be equal or unequal; the first boss 611 has a mandrel via 612; a clamping groove 67 is formed in the first valve 61; the locking slot 67 is used to receive the leg of the torsion spring 64. As shown in fig. 6, a plurality of second protrusions 621 are disposed on the second valve 62 at intervals; the second protrusion 621 has the same structure as the first protrusion 611, and the second protrusion 621 also has a mandrel via 612; the mandrel via hole 612 mates with the mandrel 6. A clamping groove 67 is also formed in the second valve 62; the locking slot 67 is used to receive the leg of the torsion spring 64. When the first valve 61 and the second valve 62 are both connected to the mandrel 6, the first protrusions 611 and the second protrusions 621 are alternately disposed.

As shown in fig. 11-13, after the mandrel 6 passes through the mandrel through holes 612 on the first protruding portion 611 and the second protruding portion 621 in sequence, both the first valve 61 and the second valve 62 can rotate around the mandrel 6. The torsion spring 64 is located at the center of the spindle 6; the mandrel through hole 612 is in clearance fit with the snap 7, and preferably, the second shaft body 72 is in clearance fit with the mandrel through hole 612, so that the first valve 61 and the second valve 62 are fixed in the ring of the annular valve body 50 through the clearance fit of the mandrel through hole 612 and the second shaft body 72. Further, the clips 7 at both ends of the flange 54 are respectively connected with the first protruding portion 611 and the second protruding portion 621.

As shown in fig. 14, the connecting portion 4 includes an elastic member 41, a chain 42, and a hook ring 43. One end of the elastic element 41 is connected with the buckle 7, and the other end is connected with the chain 42; one end of the chain 42 is connected with the elastic element 41, and the other end is connected with the flange 2; the hook ring 43 is connected to the elastic member 41. Preferably, the elastic member 41 is a spring; after the check valve 5 is folded to penetrate through the pipeline 3, the check valve 5 is abutted against the wall 101 and the connecting part 4 is pulled indoors, so that the annular valve body 50 is unfolded, the chain 42 is connected with the flange 2, and the elastic part 41 enables the connecting part 4 to be suitable for pipelines 3 with various lengths and the thickness of the wall 101. As shown in fig. 15, the hook ring 43 is engaged with the buckle 7; when the hook ring 43 is connected with the buckle 7 in a matching manner, the hook ring 43 is located between the bump 56 and the limit buckle 73; further, a clamp spring 44 is further arranged between the hook ring 43 and the limit buckle 73, and the clamp spring 44 is used for preventing the first valve 61, the second valve 62 and the hook ring 43 from generating axial displacement. As shown in fig. 16, the flange 2 includes a flange body 21 and hooks 22 symmetrically disposed on the flange body 21, the hooks 22 are L-shaped, and the hooks 22 cooperate with the chain 42 to fix the chain 42.

Preferably, the air duct devices of the present invention include an air inlet duct device 201 and an air outlet duct device 202, as shown in fig. 17-20, two

air vents

203 and 204 are disposed on the wall 101, the air vent 203 is used for outdoor air inlet, and the air vent 204 is used for outdoor air outlet; the air inlet pipe device 201 is arranged in the ventilation hole and is opposite to the outdoor air inlet 13; the air outlet pipe device 202 is arranged in the ventilation hole and opposite to the outdoor air outlet 14. In the air inlet duct device 201 opposite to the outdoor air inlet 13, the first valve and the second valve are both contacted with one surface of the limiting part facing to the inner side of the wall body 101 in an unfolded state, when the integrated air conditioner body 10 works, the first valve and the second valve rotate around the core shaft to the inner side of the wall body 101, allow outdoor air to pass through the check valve and be sucked into the shell, and send the outdoor air to the condenser assembly for heat exchange; in the air outlet duct device 202 opposite to the outdoor air outlet 14, the first valve and the second valve are in contact with one surface of the limiting part facing to the outer side of the wall body 101 in the unfolded state, outdoor air is sucked into the shell 1 through the check valve 5 and is sent through the condenser assembly for heat exchange, and in the air outlet duct device 202 opposite to the outdoor air outlet 14, the first valve and the second valve rotate around the core shaft to the outer side of the wall body 101 to allow air subjected to heat exchange by the condenser assembly to be discharged to the outdoor, so that the heat exchange between the condenser assembly and the outdoor air is realized. When the integrated air conditioner body 10 stops working, in the air inlet pipe device 201 opposite to the air inlet of the condenser, the first valve and the second valve are unfolded towards the outer side direction of the wall body 101 under the elastic force action of the torsion spring until the first valve and the second valve are contacted with the limiting part; in the air outlet pipe device 202 opposite to the air outlet of the condenser, the first valve and the second valve are unfolded towards the inner side direction of the wall 101 under the elastic force of the torsion spring until contacting with the limiting part, so that the pipeline is closed, foreign objects are blocked, and the first valve and the second valve are prevented from being opened in the opposite directions.

In summary, the present invention provides an integrated air conditioner, which includes an integrated air conditioner body, wherein the integrated air conditioner body includes: the air conditioner comprises a shell, an indoor air outlet arranged on the front side of the shell, an indoor air inlet arranged on the top surface of the shell, an outdoor air inlet and an outdoor air outlet arranged on the rear side of the shell, and a partition plate assembly arranged in the shell; the baffle plate assembly divides the shell into an upper chamber and a lower chamber; an indoor heat exchange device is arranged in the upper chamber; an outdoor heat exchange device is arranged in the lower chamber; the indoor air outlet and the indoor air inlet are communicated with the upper chamber; the outdoor air inlet and the outdoor air outlet are communicated with the lower chamber; the indoor heat exchange device is connected with the outdoor heat exchange device. The outdoor heat exchange device and the indoor heat exchange device are arranged in a shell in a centralized way, and an outdoor unit does not need to be arranged separately; outdoor air intake with outdoor air outlet sets up on the coplanar, only needs to set up two ventilation holes on the wall body, and with two ventilation holes respectively with outdoor air intake with outdoor air outlet is corresponding, alright realize outdoor heat exchange device carries out the air exchange through ventilation hole and outdoor, consequently the integral type air conditioner install indoor can, need not to install in the wall body outside, both avoided outdoor high altitude construction, do not influence the architectural appearance again. The air pipe device has a non-return function, a ventilation pipeline capable of following is provided for indoor and outdoor air flow, the unidirectional conduction and reverse non-conduction directions can be set according to the ventilation requirement, the original appearance of a building can be kept by attaching the air pipe device to the outer side of a wall body after installation, and meanwhile, the installation of the air pipe device can be completed indoors without operation on the outer wall of the building.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims

1. The utility model provides an integral type air conditioner, its includes integral type air conditioner body, its characterized in that, integral type air conditioner body includes: the indoor air outlet is arranged on the front side of the shell, the indoor air inlet is arranged on the top surface of the shell, the outdoor air inlet and the outdoor air outlet are arranged on the rear side of the shell, and the partition plate assembly is arranged in the shell; the baffle plate assembly divides the shell into an upper chamber and a lower chamber; an indoor heat exchange device is arranged in the upper chamber; an outdoor heat exchange device is arranged in the lower chamber; the indoor air outlet and the indoor air inlet are communicated with the upper chamber; the outdoor air inlet and the outdoor air outlet are communicated with the lower chamber; the indoor heat exchange device is connected with the outdoor heat exchange device; it still includes: the air pipe device is arranged on the wall body and is used for ventilating the outdoor air inlet, the outdoor air outlet and the outdoor air; the air duct device comprises: a flange, a check valve, a pipe, and a connection portion passing through the pipe; the two ends of the connecting part are respectively detachably connected with the flange and the check valve; the flange and the check valve are respectively connected with two ends of the pipeline in a clamping manner; the check valve includes: the valve comprises a foldable annular valve body, a mandrel, a first valve and a second valve which are positioned in a ring of the annular valve body, and a plurality of limiting parts arranged on the annular valve body, wherein the first valve and the second valve are positioned on the same side of the limiting parts; the first valve and the second valve are both rotationally connected with the mandrel; the annular valve body can penetrate through the pipeline after being folded.

2. The integrated air conditioner according to claim 1, wherein the indoor heat exchanging apparatus comprises: the evaporator comprises an electrical box for mounting a main control board, an evaporator assembly and an air duct assembly arranged below the evaporator assembly; the evaporator assembly and the air duct assembly are connected with the electrical box.

3. The integrated air conditioner according to claim 2, wherein the outdoor heat exchanging device includes: the centrifugal fan blade, drive device which is connected with the centrifugal fan blade and drives the centrifugal fan blade to rotate, condenser assembly which is arranged in parallel with the centrifugal fan blade, and compressor which is connected with the condenser assembly; the compressor is connected with the evaporator assembly.

4. The integrated air conditioner according to claim 1, wherein the check valve further comprises: a torsion spring disposed on the spindle; the torsion spring is provided with two pins which are respectively connected with the first valve and the second valve; the limiting parts are located on the same plane.

5. The integrated air conditioner according to claim 1, wherein the annular valve body is composed of a first semicircular valve body and a second semicircular valve body; the first semicircular valve body comprises a first valve body, a flange arranged on the first valve body and buckles symmetrically arranged at two ends of the flange; the flange is located on a side of the first valve body facing the conduit; the inner surface of the flange is flush with the inner surface of the first valve body; the second semicircular valve body comprises a second valve body, protruding blocks arranged at two ends of the second valve body respectively, and through holes arranged on the protruding blocks and matched with the buckles.

6. The integrated air conditioner according to claim 5, wherein the buckle comprises a first shaft body, a second shaft body, and a limit buckle on the second shaft body; the first shaft body is in contact with the flange; when the through hole is matched and connected with the buckle, the lug is positioned between the limiting buckle and the flange.

7. The integrated air conditioner according to claim 5, wherein a plurality of first protrusions are provided at intervals on the first valve; a mandrel through hole is formed in the first boss; a plurality of second convex parts are arranged on the second valve at intervals; the second boss is identical in structure to the first boss; the mandrel via hole is matched with the mandrel; when the first protruding part and the second protruding part are both connected with the mandrel, the first protruding part and the second protruding part are alternately arranged.

8. The integrated air conditioner according to claim 7, wherein said spindle through hole is clearance-fitted with said snap.