CN211695334U - Air conditioning apparatus - Google Patents

Abstract

The utility model discloses an air conditioning device, include: a frame body, an air conditioning unit, an air detection unit, and a panel; wherein the air detection unit includes: the air quality detection device comprises a detection air inlet, a detection part, a detection air inlet and a point detection port, wherein the detection air inlet is used for sucking air to detect the amount of at least one substance in the air; the detection part detects air sucked from the detection air inlet; the detection air outlet discharges the air detected by the detection part; the point inspection port is used for maintaining the detection part; the panel includes: and a spot inspection port partition that closes the spot inspection port in a state where the panel is fixed to the frame. The utility model discloses an air conditioning equipment can prevent that the air from examining the mouth from the point of empty gas detection surveys the unit and being inhaled when making the maintenance to filter screen and empty gas detection surveys the unit more convenient, improves promptly and maintains the convenience and guarantee to reach normal testing result.

Description

Air conditioning apparatus

Technical Field

The utility model relates to an air conditioning device applied to families or business places and the like.

Background

In the prior art, air conditioning apparatuses including an air detection unit that can detect the content of, for example, dust, pollen, or formaldehyde in the air have been widely known.

An air detection unit, generally comprising: by detecting the content of, for example, dust, pollen or formaldehyde in the air and then presenting the detection result to the user, or adjusting the operation mode of the device based on the detection result, etc. In the related art, the air detection unit is box-shaped and is disposed on one surface of the air conditioner. The air detection unit includes, on a surface thereof facing the outside of the apparatus: a detection suction inlet, a detection blow-out outlet and a point inspection port; the interior of the air detection unit includes: a sensing component for analyzing air. Air outside the apparatus is sucked into the air detection unit through the detection suction port, analyzed by the sensor unit, and then discharged to the outside through the detection discharge port.

Since dust and the like in the air may accumulate on the sensing part after a long-term use of the air conditioner and may affect the detection result, the user needs to clean the sensing part through the spot inspection opening using a tool such as a cotton swab.

In addition, during the operation of the air conditioning device, air is sucked into the air detection unit through the detected suction inlet, and then, when the point detection port is arranged at a position near the detected suction inlet, the air can enter the air detection unit through the point detection port, that is, the air can simultaneously enter the air detection unit through the detected suction inlet and the point detection port, so that the air flow in the air detection unit is unstable, and a normal detection result cannot be finally obtained.

In order to prevent this problem, a cover portion for covering the spot inspection opening is provided in the conventional technique. Specifically, the air conditioning device, like the one described above, is generally designed in such a manner that a panel covers a filter and an air detection unit. Meanwhile, in order to prevent air from passing through the spot inspection port of the air detection unit, a covering portion for covering the spot inspection port is additionally provided. Such an air conditioning apparatus requires the operations of replacing the filter and the clean air detecting unit when a user performs maintenance thereon without fail. When changing the filter screen, the user need take off the panel that covers the filter screen earlier, and on the other hand, when clean air detection unit, the user need take off the panel earlier, opens the cover portion that covers the some inspection openings again. That is, when the air conditioning apparatus is maintained, the user must remove the panel and then separately maintain the filter and the air detection unit, which is inconvenient.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Therefore, in order to solve the problem of "when maintaining the air conditioning apparatus provided with the covering portion of the covering point inspection port, the panel and the like must be taken down to cause inconvenience in maintenance", which is proposed by the background art, the utility model discloses an air conditioning apparatus.

(II) technical scheme

The utility model discloses an air conditioning device, include:

a frame body;

an air conditioning unit provided on an air intake surface of the housing and configured to condition air taken in from the air intake surface;

an air detection unit provided on the air intake surface and detecting air taken in from the air intake surface;

a panel including an air inlet detachably provided on the frame body and covering the air conditioning part and the air detecting unit;

wherein the air detection unit includes:

the detecting air inlet is used for sucking air to detect the amount of at least one substance in the air;

a detection unit that detects air sucked from the detection air inlet;

a detection outlet that discharges the air detected by the detection section;

a point inspection port for maintaining the inspection section;

the panel includes:

and a spot inspection port partition that closes the spot inspection port in a state where the panel is fixed to the frame.

According to the utility model discloses an embodiment, some inspection mouth isolation parts include:

the air inlet side isolation rib is located between the point inspection opening and the detection air inlet and protrudes out of the frame body in the state that the panel covers the frame body.

According to the utility model discloses an embodiment, the point is examined the mouth and is located detect the air intake with detect between the air outlet, the point is examined a mouthful isolation part and is included:

and the air outlet side isolation rib is positioned between the point inspection port and the detection air outlet and protrudes out of the frame body in a state that the panel covers the frame body.

According to the utility model discloses an embodiment, the panel covers under the state of framework, the muscle is kept apart to the air inlet side with the tip of the framework side of muscle is kept apart to the air outlet side, with be located the framework side the empty gas detection surveys the unit and contacts.

According to the utility model discloses an embodiment, air conditioning equipment includes:

an air suction inlet for sucking air outside the device into the device;

the air outlet is arranged above the air suction inlet and used for discharging the air in the device to the outside of the device;

the detection air outlet is arranged above the point detection port,

the detection air inlet is arranged below the point detection port.

According to the utility model discloses an embodiment, the muscle is kept apart to the air inlet side with the muscle level is kept apart to the air outlet side and parallel arrangement of each other.

According to the utility model discloses an embodiment, the periphery of some inspection openings to the panel side is outstanding the panel covers under the state of framework, air outlet side isolation muscle with air inlet side isolation muscle is pressed close to and is located the peripheral periphery of some inspection openings.

According to the utility model discloses an embodiment, the empty gas detection surveys the unit and includes:

a protruding portion located on both sides of the air detection unit in a horizontal direction and protruding toward the frame body side in a vertical direction;

the protruding portion includes:

an inner protruding surface facing a center of the air detection unit; and under the state that the panel covers the frame body, the air outlet side isolation rib and the end parts of the two horizontal sides of the air inlet side isolation rib are in contact with the inner side protruding surface.

According to the utility model discloses an embodiment, the panel includes:

a surrounding rib that surrounds the spot check opening partition and protrudes from the panel inner surface toward the frame; the surrounding rib is in contact with the air detection unit and surrounds the air detection unit in a state that the panel covers the frame;

the panel includes:

a detection air supply port for introducing air outside the air conditioning device into the detection air inlet, the detection air supply port being provided opposite to the detection air inlet, an

And a detection exhaust port for discharging air from the detection air port to the outside of the air conditioning device, the detection exhaust port being provided opposite to the detection air port.

According to the utility model discloses an embodiment, the inside empty gas detection survey wind path of empty gas detection surveys unit, with pass through the air-conditioning wind path of air conditioner portion sets up independently of each other.

(III) advantageous effects

The utility model discloses an air conditioning device, include: a frame body, an air conditioning unit, an air detection unit, and a panel; the air conditioning unit is provided on an air intake surface of the housing and is configured to condition air taken in from the air intake surface; the air detection unit is arranged on the air suction surface and is used for detecting air sucked from the air suction surface; the panel comprises an air suction inlet which is detachably arranged on the frame body and covers the air conditioning part and the air detection unit; wherein the air detection unit includes: the air quality detection device comprises a detection air inlet, a detection part, a detection air inlet and a point detection port, wherein the detection air inlet is used for sucking air to detect the amount of at least one substance in the air; the detection part detects air sucked from the detection air inlet; the detection air outlet discharges the air detected by the detection part; the point inspection port is used for maintaining the detection part; the panel includes: and a spot inspection port partition that closes the spot inspection port in a state where the panel is fixed to the frame. The utility model discloses an air conditioning equipment can prevent that the air from examining the mouth from the point of empty gas detection surveys the unit and being inhaled when making the maintenance to filter screen and empty gas detection surveys the unit more convenient, improves promptly and maintains the convenience and guarantee to reach normal testing result.

Drawings

Fig. 1 is a configuration diagram of an air conditioning apparatus according to an embodiment of the present invention;

fig. 2 is a view showing the structure of an air-conditioning unit (with a panel removed) of an air-conditioning apparatus according to an embodiment of the present invention;

fig. 3 is a cross-sectional oblique view of an air detecting unit of an air conditioner in an embodiment of the present invention, cut along a vertical direction;

fig. 4 is a cross-sectional view of an air detecting unit of an air conditioner according to an embodiment of the present invention, cut along a horizontal direction;

fig. 5 is an oblique view of a panel from the perspective of a frame of an air conditioner according to an embodiment of the present invention;

fig. 6 is a schematic view illustrating a flow direction of an air flow inside an air detecting unit of an air conditioner according to an embodiment of the present invention;

fig. 7 is a cross-sectional view of an air detection unit and a panel (in a covered state) of an air conditioner according to an embodiment of the present invention, the cross-sectional view being cut in a horizontal direction.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings.

First, the structure of the air conditioning apparatus will be described with reference to fig. 1. Fig. 1 is an oblique view of an air conditioner according to an embodiment of the present invention.

As shown in fig. 1, the air conditioning device 100 includes: frame 110, panel 120.

The frame body 110 has an elliptic cylindrical shape and includes: a lower side 111, an upper side 112 and a peripheral side 113.

The lower surface 111 is a surface that faces vertically downward in the installed state of the air-conditioning apparatus 100. For example, when the air conditioning device 100 is placed on the floor, the lower side 111 is a surface that contacts the floor.

The upper surface 112 is a surface facing the lower surface 111, i.e., a surface facing vertically upward in the installed state of the air-conditioning apparatus 100. The upper side 112 includes an input button or a liquid crystal panel for inputting instructions to the air conditioning device 100. Meanwhile, the upper side 112 includes an air outlet 130.

The air outlet 130 is an opening that is formed in a grid shape and discharges the air conditioned in the air conditioning apparatus 100 to the outside of the apparatus.

The peripheral surface 113 is a curved surface sandwiched between the upper surface 112 and the lower surface 111. The peripheral surface 113 is composed of a front half peripheral surface 1131 and a rear half peripheral surface 1132.

The front half-circumferential side surface 1131 generally includes a front surface facing the user in the installed state of the air-conditioning apparatus 100. The first half-peripheral side surface 1131 is a surface that is most frequently seen by the user, and therefore includes a configuration such as a screen displayed to the user, and may include an input button or a liquid crystal panel for inputting a command.

The rear half peripheral surface 1132 is a rear surface that is generally less visible to a user when the air-conditioning apparatus 100 is installed. The rear half peripheral side 1132 includes a face plate.

The panel 120 is used to cover the air conditioning part and the air detection unit. Details regarding the panel will be described below.

Next, the air conditioning unit will be described with reference to fig. 2. Fig. 2 is a front side oblique view of the air conditioner 100 with the panel removed.

The air conditioning unit 200 is an air filter housed in the housing 110 and provided on the downstream side of the air inlet, covered with the panel 120. The air filter screen is used to purify air sucked from the air suction port by itself. The airstrainer is composed of one or more filter screens with one or more filtering effects, such as a dust collecting filter screen, a deodorizing filter screen, a dust collecting deodorizing filter screen or a combination thereof. The air conditioning unit 200 may include functions such as air humidification, heating, dehumidification, and cooling.

Next, the air detection unit 300 will be described with reference to fig. 2, 3, and 4. Fig. 3 is a cross-sectional oblique view of the air detection unit 300 cut in the vertical direction. Fig. 4 is a sectional view of the air detection unit 300 taken along the horizontal direction.

The air detection unit 300 is a device for detecting a substance in the air, which is covered by the panel 120. The air detection unit 300 detects the concentration of one or more substances such as dust (pm2.5), pollen, formaldehyde, etc. in the air. The air detection unit 300 has a cubic structure located on the rear half peripheral surface 1132 and disposed above the air conditioning unit 200. One side surface of the cubic structure is exposed to the outside of the air-conditioning apparatus 100 from the rear half peripheral side surface 1132, and the remaining side surfaces are hidden inside the apparatus. The air detection unit 300 includes: a detection surface 310, a heat generation portion 320, and an air detection portion 330.

The detection surface 310 is a side surface of the cubic structure exposed to the outside of the device. The detection surface 310 includes thereon: a detection air inlet 311, a detection air outlet 312, a point detection outlet 313 and a protrusion 314.

The detection air inlet 311 is an opening for introducing air outside the air detection unit 300 into the air detection unit 300, and the number of the detection air inlets is 2 in the present embodiment.

The detection air opening 312 is an opening for guiding out the air inside the air detection unit 300 to the outside of the air detection unit 300, and the present embodiment includes 2 openings. The detection air outlet 312 is disposed above the detection air inlet.

The spot check port 313 is an opening provided between the detection intake opening 311 and the detection air opening 312 for cleaning an air detection portion mentioned below, and the present embodiment includes 1. That is, the user can clean the below-mentioned sensor inside the air detection unit 300 through the spot check port 313 by means of a cotton swab or the like. The spot check port 313 includes a peripheral edge 3131 protruding toward the outside of the air conditioner 100, i.e., the side of the panel 120.

The protruding portion 314 is provided in a vertical column shape so that both left and right sides of the detection surface 310 protrude toward the frame body 110. The protruding portion 314 protrudes to a height identical to that of the peripheral edge 3131. The protrusion 314 includes an inner protrusion face 3141.

The inner protruding surface 3141 is a surface facing the center of the air detection unit 300, that is, a surface facing the spot inspection port 313.

The air detection unit 330 is a sensor unit that is provided in the internal space of the air detection unit 300 and detects the amount of one or more substances in the air. For example, the sensor may be a pollen detection sensor, a formaldehyde detection sensor, a dust detection sensor, a smell detection sensor, or a combination of these sensors. In the present embodiment, a sensor for detecting particulate matter (PM2.5) in the air is mounted. The air detection unit 330 is provided to face the spot check port 313, that is, the user can directly view the air detection unit 330 located in the internal space thereof through the spot check port 313.

The heat generating portion 320 is provided at a lower position of the internal space of the air detecting unit 300, and generates a component of the air flow flowing from the detection air inlet 311 to the detection air outlet 312 by heating the air inside the air detecting unit 300. In this embodiment, a thermistor is mounted.

Next, the panel 120 will be described with reference to fig. 1 and 5. Fig. 5 is an oblique view of the panel 120 from the perspective of the frame 110.

The panel 120 is formed in a curved plate shape to detachably cover a part of the rear half peripheral surface 1132. The curvature of the front half circumferential surface 1131 and the curvature of the rear half circumferential surface 1132 are matched with each other so that the panel 120 is integrated in appearance. The panel 120 includes: air inlet 410, detection air inlet 420, detection air outlet 430, point detection port isolation portion 440 and surrounding rib 450.

The air intake port 410 is a plurality of openings penetrating the panel 120 for taking in air outside the air-conditioning apparatus 100 into the air-conditioning apparatus 100.

The detection air supply port 420 is an opening provided above the air intake port 410 and configured to introduce air from outside the air conditioning apparatus 100 into the detection intake port 311. The detection air inlet 420 is disposed opposite to the detection air inlet 311.

The detection air outlet 430 is an opening provided above the detection air inlet 420 and configured to guide the air discharged from the detection air outlet 312 to the outside of the air-conditioning apparatus 100. The detection exhaust port 430 is provided opposite to the detection air port 312.

The spot check port isolation unit 440 is provided on the panel back surface 121 facing the housing 110. The spot check port isolation portion 440 includes: an air inlet side barrier rib 441 and an air outlet side barrier rib 442.

The intake side barrier rib 441 is a rib having a linear tip end portion, which protrudes horizontally from the panel back surface 121 toward the frame 110. When the panel 120 is attached to the housing 110, that is, when the panel 120 covers the rear circumferential surface 1132 of the housing 110 (hereinafter, referred to as a "covered state"), the inlet-side barrier rib 441 is positioned between the detection inlet 311 and the point detection inlet 313. In the covered state, the front end portion of the intake side partitioning rib 441 contacts the detection surface 310, and both left and right end portions of the intake side partitioning rib 441 contact the protruding portions 314. In the covered state, the intake port-side barrier rib 441 is positioned immediately below the spot check port 313.

The outlet-side isolation rib 442 is provided in the same manner as the inlet-side isolation rib 441. That is, the outlet-side partitioning rib 442 is positioned above the inlet-side partitioning rib 441, and is a rib horizontally provided from the panel back surface 121 to the frame 110 side and having a linear tip end portion. In the covered state, the outlet-side partition rib 442 is located between the inspection outlet 312 and the point inspection outlet 313. In the covered state, the tip end portion of the outlet-side barrier rib 442 contacts the detection surface 310, and both left and right end portions of the outlet-side barrier rib 442 contact the protruding portions 314. In the covered state, the outlet-side barrier rib 442 is positioned immediately above the spot check port 313. Therefore, the inlet-side barrier rib 441, the outlet-side barrier rib 442, and the protruding portion 314 together surround the spot check port 313, that is, the spot check port barrier 440 blocks the spot check port 313.

The surrounding rib 450 is a rib that protrudes from the panel back surface 121 toward the frame 110, surrounds the inlet-side barrier rib 441 and the outlet-side barrier rib 442, and is formed in a ring shape. The tip portions of the surrounding ribs 450 are located on the same plane. In the covered state, the tip end portions of the surrounding ribs 450 are in contact.

The above description is directed to the configuration of each part of the air conditioner.

Next, the air flow inside the air detection unit will be described with reference to fig. 6. Fig. 6 is a cross-sectional oblique view of the air detection unit 300 and the panel 120 in a covered state, cut along a vertical direction.

When the air detecting unit 300 is operated, the heat generating portion 320 inside the air detecting unit 300 generates heat, so that the air around the heat generating portion 320 is heated. The heated air rises to form an air flow flowing from below to above. That is, the air outside the air conditioning apparatus 100 flows into the air detection unit 300 through the detection air inlet port 420 and the detection air inlet 311 in this order. The air flows upward below the inside of the air detection unit 300, and is then discharged to the outside of the air conditioning apparatus 100 through the detection air opening 312 and the detection air outlet 430 in this order.

Next, the function of the spot check port isolation unit 440 will be described with reference to fig. 6 and 7. Fig. 7 is a cross-sectional view of the air detection unit 300 and the panel 120 cut in the horizontal direction in the covered state.

The spot check port isolating part 440 is provided on the panel 120, so that the user can install and remove the spot check port isolating part 440 together when installing and removing the panel 120. Further, since the panel 120 covers the air-conditioning part 200, the user can view the air-conditioning part 200 and the spot check port 313 directly and simultaneously by removing the panel 120. That is, the user can maintain the air conditioning part 200 and the air detecting unit 300 by simply removing the panel 120.

Then, in the covered state, the spot check port partition 440 closes the spot check port 313, so that air outside the air detection unit 300 cannot be sucked into the air detection unit 300 through the spot check port 313. The term "closed" as used herein means that the spot check opening partition 440, the panel back surface 121, and the detection surface 310 of the air detection unit 300 surround the spot check opening 313, i.e., the air passage connected to the spot check opening 313 is cut off. Therefore, when air is sucked into the detection air inlet 311, the air is not simultaneously sucked into the spot check port 313. When the air is blown out from the detection air port 312, the air is not sucked into the spot detection port 313. Therefore, it is not necessary to provide a cover for covering the spot inspection port 313.

Further, the air inlet side barrier rib 441 is located between the spot check port 313 and the detection air inlet 311, that is, when air is sucked by the detection air inlet 311, the air is prevented from being sucked by the spot check port 313 located beside due to the blocking of the air inlet side barrier rib 441. Similarly, the outlet-side spacer 442 is positioned between the spot check port 313 and the check port 312. That is, when air is blown out from the detection air port 312, the air is prevented from being sucked into the spot check port 313 located beside the detection air port by the blocking of the air outlet side barrier rib 442. Substantially, the function of the inlet-side barrier ribs 441 is the same as that of the outlet-side barrier ribs 442, and both are for preventing air from being sucked into the air detection unit 300 through the spot check port 313. The difference is that the inlet-side barrier ribs 441 prevent air on the inlet side from being sucked into the spot check port 313, and the outlet-side barrier ribs 442 prevent air on the outlet side from being sucked into the spot check port 313. Therefore, it is possible to prevent the air flow in the air detection unit 300 from being unstable and failing to obtain a normal detection result.

The linear distal end portions of the inlet-side barrier rib 441 and the outlet-side barrier rib 442 contact the detection surface 310, and the left and right sides contact the protruding portions 314. Therefore, air can be prevented from being sucked into the spot inspection port 313 from a gap between the distal end portion and the inspection surface 310 or a gap between the left and right sides and the protruding portion 314. The term "contact" is not limited to absolute contact, and a certain distance is allowed, and this distance is not limited to the present embodiment.

In the covered state, both the outlet-side barrier rib 442 and the inlet-side barrier rib 441 are located close to the outer periphery 3131 of the spot check port 313. That is, the outlet-side barrier rib 442 is located immediately above the inspection opening 313, and the inlet-side barrier rib 441 is located immediately below the inspection opening 313, so that in the covered state, the air is blocked by the barrier ribs, and is also blocked by the peripheral edge 3131 of the inspection opening 313. That is, even if air breaks through the barrier rib, it is blocked by the protruding spot check port periphery 3131. Therefore, the function of preventing air from being sucked into the spot check port 313 can be further enhanced.

In the covered state, the left and right ends of the outlet-side barrier rib 442 and the inlet-side barrier rib 441 contact the inner projecting surface 3141 of the projecting portion 314. Accordingly, air is blocked by the inner protruding surfaces 3141 at both left and right ends of the two barrier ribs and cannot pass through. Therefore, the function of preventing air from being sucked into the spot check port 313 can be further enhanced.

On the other hand, in the covered state, the surrounding rib 450 surrounds the air detector unit 300, and therefore the air path (air detection air path) of the air detector unit 300 and the air path (air-conditioning air path) of the air-conditioning apparatus 100 are separated from each other. The air detection unit 300 detects the air sucked into the outside of the apparatus through the air inlet 420 and discharges the air to the outside of the apparatus through the detection air outlet 430, that is, the air path of the air detection unit 300 and the adjustment air path of the apparatus are independent of each other to form an air path for detecting the air, so that the air path is more stable and a normal detection result can be recognized.

As another embodiment of the present invention, since the inspection opening 313 is an opening provided on the air detecting unit 300, the outer edge of the inspection opening 313 forms an inspection opening periphery 3131 corresponding to the opening.

Accordingly, the spot check port isolation portion 440 is disposed on the panel 120, and the spot check port isolation portion 440 further includes a closed loop rib corresponding to the shape of the spot check port peripheral edge 3131 and located between the inlet side isolation rib 441 and the outlet side isolation rib 442, and the closed loop rib can seal the whole spot check port 313 along the spot check port peripheral edge 3131 in the covering state of the panel 120, so as to further improve the function of preventing air from being sucked into the spot check port 313. The height dimension of the closed-loop rib may be the same as the height dimensions of the intake side isolation rib 441 and the outlet side isolation rib 442.

As another embodiment of the present invention, the ring-closing rib may be replaced with a sealing plug which matches the shape of the inspection opening 313 and whose outer periphery is fitted to the periphery 3131 of the inspection opening. The sealing plug can seal the entire spot check port 313 from the inside of the spot check port 313 in a state where the panel 120 is covered, so as to further enhance the function of preventing air from being sucked into the spot check port 313, and prevent dust and the like passing through the air detection unit 330 from entering the inner surface of the panel 120 between the inlet-side barrier rib 441 and the outlet-side barrier rib 442 through the spot check port 313. The sealing size of the sealing plug is consistent with the length size of the point inspection opening 313, and the sealing plug can be made of a plastic material with certain hardness, so that the sealing plug can slide into the point inspection opening 313 when the point inspection opening 313 is sealed.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. An air conditioning device comprising:

a frame body;

an air conditioning unit provided on an air intake surface of the housing and configured to condition air taken in from the air intake surface;

an air detection unit provided on the air intake surface and detecting air taken in from the air intake surface;

a panel including an air inlet detachably provided on the frame body and covering the air conditioning part and the air detecting unit;

characterized in that, the air detection unit includes:

the detecting air inlet is used for sucking air to detect the amount of at least one substance in the air;

a detection unit that detects air sucked from the detection air inlet;

a detection outlet that discharges the air detected by the detection section;

a point inspection port for maintaining the inspection section;

the panel includes:

and a spot inspection port partition that closes the spot inspection port in a state where the panel is fixed to the frame.

2. The air conditioning device according to claim 1, wherein the spot check port partition includes:

the air inlet side isolation rib is located between the point inspection opening and the detection air inlet and protrudes out of the frame body in the state that the panel covers the frame body.

3. The air conditioning unit according to claim 2, wherein the spot check port is located between the detection air inlet and the detection air outlet, and the spot check port isolation portion includes:

and the air outlet side isolation rib is positioned between the point inspection port and the detection air outlet and protrudes out of the frame body in a state that the panel covers the frame body.

4. The air conditioning apparatus according to claim 3, wherein, in a state in which the panel covers the housing, end portions of the inlet-side spacer and the outlet-side spacer on the housing side are in contact with the air detection unit located on the housing side.

5. The air conditioning device according to claim 3, characterized by comprising:

an air suction inlet for sucking air outside the device into the device;

the air outlet is arranged above the air suction inlet and used for discharging the air in the device to the outside of the device;

the detection air outlet is arranged above the point detection port,

the detection air inlet is arranged below the point detection port.

6. The air conditioning device according to claim 5, wherein the air inlet-side partitioning rib and the air outlet-side partitioning rib are provided horizontally and in parallel with each other.

7. The air conditioning apparatus according to claim 6, wherein a peripheral edge of the spot check port protrudes toward the panel side, and the outlet-side barrier rib and the inlet-side barrier rib are positioned close to each other on an outer periphery of the peripheral edge of the spot check port in a state where the panel covers the frame.

8. The air conditioning device according to claim 7, characterized in that the air detection unit includes:

a protruding portion located on both sides of the air detection unit in a horizontal direction and protruding toward the frame body side in a vertical direction;

the protruding portion includes:

an inner protruding surface facing a center of the air detection unit; the air outlet side isolation rib and the end parts on two sides of the air inlet side isolation rib in the horizontal direction are in contact with the inner side protruding surface in the state that the panel covers the frame body.

9. The air conditioning unit of claim 8, wherein the panel comprises:

a surrounding rib that surrounds the spot check opening partition and protrudes from the panel inner surface toward the frame; the surrounding rib is in contact with the frame body close to the periphery of the air detection unit and surrounds the air detection unit in a state that the panel covers the frame body;

the panel includes:

a detection air supply port for introducing air outside the air conditioning device into the detection air inlet, the detection air supply port being provided opposite to the detection air inlet, an

And a detection exhaust port for discharging air from the detection air port to the outside of the air conditioning device, the detection exhaust port being provided opposite to the detection air port.

10. The air conditioner according to claim 9, wherein the air detection air passage in the air detection unit and the air-conditioning air passage passing through the air conditioner are provided independently of each other.

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