CN216384522U - Sensor mounting bracket and air conditioner - Google Patents

Abstract

The utility model discloses a sensor mounting bracket and an air conditioner, wherein the sensor mounting bracket comprises a bracket main body, at least two first rib plates, a first buckle and a second buckle; the bracket main body is provided with mounting grooves, and at least two first rib plates are arranged in the mounting grooves at intervals along a first direction parallel to the bottoms of the mounting grooves so as to limit two sides of the sensor in the first direction; first buckle and second buckle are installed in the mounting groove along first direction interval, and first buckle and second buckle are at least partly set up with the tank bottom interval of mounting groove on the second direction of the tank bottom of perpendicular mounting groove to carry on spacingly to the sensor one side of the tank bottom of mounting groove on the second direction back to. So set up, make things convenient for the installation and the dismantlement of sensor.

Description

Sensor mounting bracket and air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a sensor mounting bracket and an air conditioner

Background

The air conditioner is generally provided with a large number of sensors, such as a temperature sensor, a humidity sensor, and the like, and the sensors in the existing air conditioner are generally fixed on a mounting bracket through screws and then fixed on a shell of the air conditioner or a pipeline inside the air conditioner through the mounting bracket.

However, when the sensor is mounted on the bracket by using the screw, the mounting and dismounting of the sensor require a certain time, which affects the mounting and dismounting efficiency of the sensor.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a sensor mounting bracket, aiming at simplifying the mounting process of a sensor and facilitating the mounting of the sensor.

In order to achieve the above object, the sensor mounting bracket provided by the utility model comprises a bracket main body, at least two first rib plates, a first buckle and a second buckle; wherein the content of the first and second substances,

the bracket main body is provided with mounting grooves, and at least two first rib plates are arranged in the mounting grooves at intervals along a first direction parallel to the bottom of the mounting grooves so as to limit two sides of the sensor in the first direction;

the first buckle with the second buckle is installed in the mounting groove along first direction interval, first buckle with the second buckle is at least partly perpendicular the second direction of the tank bottom of mounting groove on with the tank bottom interval of mounting groove sets up to carry on spacingly to the sensor one side of the tank bottom of mounting groove back to in the second direction.

In some embodiments of the utility model, the first buckle includes a connection fixing section and an elastic limiting section, one end of the connection fixing section is connected with the groove bottom of the installation groove, the other end of the connection fixing section extends along the second direction, one end of the elastic limiting section is connected with the connection fixing section, and the other end of the elastic limiting section extends towards the groove bottom of the installation groove along the second direction to limit one side of the sensor, which faces away from the groove bottom of the installation groove, in the second direction.

In some embodiments of the present invention, the sensor mounting bracket further includes at least two second rib plates, and the at least two second rib plates are disposed in the mounting groove at intervals in a third direction parallel to the groove bottom of the mounting groove and perpendicular to the first direction, so as to limit two sides of the sensor in the third direction.

In some embodiments of the present invention, each of the second rib plates includes a first limiting section and a second limiting section, the first limiting section extends along the third direction and is used for supporting the sensor, and the second limiting section extends along the second direction and limits the sensor in the third direction.

In some embodiments of the present invention, a wire passing hole is formed through a groove wall of the mounting groove, and a wire passing notch is formed through a partial hole wall of the wire passing hole along the second direction.

In some embodiments of the present invention, a wire passing hook is disposed in the mounting groove corresponding to the wire passing hole, and the wire passing hook is used for fixing a wire electrically connected to the sensor.

In some embodiments of the present invention, the bracket body has a first splicing side and a second splicing side which are oppositely arranged in the first direction, the first splicing side is provided with a convex connecting plate, the second splicing side is provided with a concave insertion groove, and the connecting plate of the bracket body is used for being inserted and matched with the insertion groove on the other bracket body and locked by a screw connector.

In some embodiments of the present invention, the bracket main body is further convexly provided with a fixing plate extending along the second direction, and an end of the fixing plate far away from the bracket main body is provided with an assembly notch to be in clamping fit with the tubular structure.

In some embodiments of the present invention, the assembling notch has an assembling section and a guiding section, which are arranged to extend along the second direction to a direction away from the bracket main body, and the assembling section and the guiding section are arranged at an included angle.

In some embodiments of the present invention, the bracket main body has a first splicing side and a second splicing side which are oppositely arranged in a first direction, two third buckles extending along the first direction are respectively arranged at two ends of the first splicing side, two buckling holes extending along the first direction are respectively concavely arranged at two ends of the second splicing side, and the two third buckles on the bracket main body are respectively used for buckling and matching with the buckling holes at corresponding positions on the other bracket main body.

In some embodiments of the present invention, each of the fastening holes is disposed opposite to a hole wall of another fastening hole, so as to form an abdicating notch.

The utility model also provides an air conditioner, which comprises a sensor and a sensor mounting bracket, wherein the sensor mounting bracket comprises a bracket main body, at least two first rib plates, a first buckle and a second buckle;

the bracket main body is provided with mounting grooves, and at least two first rib plates are arranged in the mounting grooves at intervals along a first direction parallel to the bottom of the mounting grooves so as to limit two sides of the sensor in the first direction;

the first buckle with the second buckle is installed in the mounting groove along first direction interval, first buckle with the second buckle is at least partly perpendicular the second direction of the tank bottom of mounting groove on with the tank bottom interval of mounting groove sets up to carry on spacingly to the sensor one side of the tank bottom of mounting groove back to in the second direction.

According to the utility model, the mounting groove is arranged on the bracket main body, at least two first plate ribs are mounted in the mounting groove at intervals along the first direction, and the first buckle and the second buckle are mounted in the mounting groove at intervals along the first direction. When the sensor is assembled on the sensor mounting support, the sensor is assembled in the mounting groove from the notch of the mounting groove, one side of the sensor in the second direction is abutted against the groove bottom of the mounting groove, the other side of the sensor in the second direction is limited by the first buckle and the second buckle, and meanwhile, the two sides of the sensor in the first direction are limited by the first rib plate, so that the sensor can be positioned and installed in the mounting groove. In addition, the sensor can be designed into a specification according to the sensor mounting bracket, so that the sensor can be conveniently assembled on the sensor mounting bracket, and meanwhile, the universality of the sensor mounting bracket is improved. In addition, the sensor is designed into a specification, the design of a die for manufacturing the sensor mounting bracket can be reduced, and the production cost is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of an embodiment of a sensor mounting bracket and a sensor according to the present invention;

FIG. 2 is a top view of the sensor mounting bracket and sensor assembly of FIG. 1;

FIG. 3 is an enlarged schematic view of detail A of FIG. 1;

FIG. 4 is a side view of the sensor mounting bracket and sensor assembly of FIG. 1;

FIG. 5 is a schematic structural view of a plurality of sensor mounting brackets of the present invention prior to assembly;

FIG. 6 is a schematic view of the assembled multiple sensor mounting brackets of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Sensor mounting bracket	140	Second buckle
110	Support main body	150	Second gusset
				111	Mounting groove	151	First limit section
112	Wire through hole	152	Second limit section
				113	Wire passing gap	160	Wire passing clamping hook
114	Plug-in groove	170	Connecting plate
				115	Threaded hole	180	Fixing plate
116	Buckle hole	181	Assembly notch
				117	Abdication gap	181a	Guide section
120	First gusset plate	181b	Assembly section
				130	First buckle	190	Third buckle
131	Connecting and fixing segment	200	Sensor with a sensor element
				132	Elastic limiting section

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should be considered to be absent and not within the protection scope of the present invention.

The sensor mounting bracket provided by the utility model is convenient for the fixed mounting of the sensors, and meanwhile, the sensor mounting brackets can be mutually spliced and disassembled, so that the sensor mounting brackets can be increased or decreased according to the number of the sensors, and the sensor mounting bracket can be adapted to different assembly working conditions.

Referring to fig. 1 and 2, the mounting bracket 100 for the sensor 200 of the present invention includes a bracket main body 110, at least two first rib plates 120, a first buckle 130 and a second buckle 140, wherein the at least two first rib plates 120, the first buckle 130 and the second buckle 140 are all mounted on the bracket main body 110.

The bracket main body 110 is a bearing structural member in the sensor mounting bracket 100, and is used for bearing the first rib plate 120, the first buckle 130, the second buckle 140 and the sensor 200, the bracket main body 110 also serves as a connecting part of the sensor mounting bracket 100 and other parts of the air conditioner, and the bracket main body 110 can be fixed on the other parts of the air conditioner through screw connection, buckle connection and other ways.

The shape of the bracket main body 110 is various, and it may be a plate shape, a square shape, or other shapes, which are not listed here. In view of the small size of the sensor 200, the bracket body 110 is preferably formed in a plate shape, so that the size of the entire sensor mounting bracket 100 can be reduced.

The bracket main body 110 is formed of various materials, such as metal, plastic, and other materials, and in consideration of heat generated during operation of the sensor 200, the bracket main body 110 is preferably formed of a metal material having a good thermal conductivity, which is advantageous for heat dissipation of the sensor 200.

The bracket main body 110 is concavely provided with a mounting groove 111, the shape of the cross section of the mounting groove 111 is various, and the mounting groove 111 can be arranged in a quadrangle shape, a circle shape, a regular hexagon shape and other shapes, as long as the cross section area of the mounting groove 111 is ensured to be larger than that of the sensor 200, so that the sensor 200 can be ensured to be loaded in or taken out from the notch of the mounting groove 111.

For convenience of the subsequent description, in the following embodiments, one direction parallel to the groove bottom of the mounting groove 111 is taken as a first direction, one direction perpendicular to the groove bottom of the mounting groove 111 is taken as a second direction, and one direction parallel to the groove bottom of the mounting groove 111 and perpendicular to the first direction is taken as a third direction.

At least two first rib plates 120 are arranged in the mounting groove 111 at intervals along the first direction, the first rib plates 120 may be fixedly connected with the groove bottom of the mounting groove 111, and the first rib plates 120 may be connected with the groove wall of the mounting groove 111 in the first direction, which is not limited in this respect.

The first rib plate 120 can be fixed in various manners, the first rib plate 120 and the groove bottom and/or the groove wall of the mounting groove 111 can be integrally formed, the first rib plate 120 and the groove bottom and/or the groove wall of the mounting groove 111 can be connected by screws, and the first rib plate 120 and the groove bottom and/or the groove wall of the mounting groove 111 can be adhered by glue, which is not listed here.

The number of the first rib plates 120 may be set according to actual conditions, the number of the first rib plates 120 located on the same side may be one, in this case, the first rib plates 120 may be a plate-shaped structure extending along the third direction, the number of the first rib plates 120 located on the same side may be two or more, and in this case, the two first rib plates 120 may be arranged at intervals along the third direction.

The first clip 130 and the second clip 140 are spaced apart from each other in the first direction in the mounting groove 111, the first clip 130 and the second clip 140 can be connected to the bottom of the mounting groove 111, the first clip 130 and the second clip 140 can be connected to the wall of the mounting groove 111, and the first clip 130 and the second clip 140 can be connected to the bottom and the wall of the mounting groove 111 at the same time, which is not listed here.

The first clip 130 and the second clip 140 are at least partially spaced from the bottom of the mounting groove 111 in the second direction, it is understood that the first clip 130 and the second clip 140 may be both connected to the bottom of the mounting groove 111 and spaced from the bottom of the mounting groove 111, and it is also understood that the first clip 130 and the second clip 140 are both connected to the bottom of the mounting groove 111 and the first clip 130 and the second clip 140 are at least partially spaced from the bottom of the mounting groove 111 in the third direction.

The number of the first buckles 130 and the number of the second buckles 140 may be set according to actual situations, the first buckles 130 and the second buckles 140 may both be one, and the first buckles 130 and the second buckles 140 may both be two or more, it should be noted that the number of the first buckles 130 and the number of the second buckles 140 may be the same or different, and are not limited specifically herein.

When the sensor 200 is assembled on the sensor mounting bracket 100, the sensor 200 is assembled in the mounting groove 111 from the notch of the mounting groove 111, one side of the sensor 200 in the second direction is abutted against the groove bottom of the mounting groove 111, the other side of the sensor 200 in the second direction is limited by the first buckle 130 and the second buckle 140, and meanwhile, two sides of the sensor 200 in the first direction are limited by the first rib plate 120, so that the sensor 200 can be positioned and mounted in the mounting groove 111.

In addition, the sensor 200 can be designed to a specification according to the sensor mounting bracket 100, which facilitates the assembly of the sensor 200 to the sensor mounting bracket 100 and also facilitates the versatility of the sensor mounting bracket 100. In addition, designing the sensor 200 to one specification can also reduce the design of a mold for manufacturing the sensor mounting bracket 100, which is advantageous to save production cost.

It should be noted that the structure of the first latch 130 and the structure of the second latch 140 may be the same, and the structure of the first latch 130 and the structure of the second latch 140 may be different, in some embodiments of the present invention, the structure of the first latch 130 and the structure of the second latch 140 are different, so that the first latch 130 can be elastically deformed when being subjected to an external force, and the second latch 140 cannot be elastically deformed when being subjected to the external force.

Specifically, first buckle 130 is including connecting fixed segment 131 and the spacing section of elasticity 132, and the one end of this connection fixed segment 131 is connected with the tank bottom of mounting groove 111, and the other end of this connection fixed segment 131 extends the setting along the second direction, and the one end of this spacing section of elasticity 132 is connected with the tank bottom that the fixed segment 131 kept away from mounting groove 111, and the other end of this spacing section of elasticity 132 extends the setting towards the tank bottom of mounting groove 111 along the second direction to make this first buckle 130 be U type or V type setting.

When the sensor 200 is assembled in the mounting groove 111, one side of the sensor 200 is placed between the second buckle 140 and the groove bottom of the mounting groove 111, and then the elastic limiting section 132 of the first buckle 130 or the elastic limiting section 132 and the connection fixing section 131 are elastically deformed by applying an acting force to the elastic limiting section 132 of the first buckle 130, so that the other side of the sensor 200 is located at the groove bottoms of the elastic limiting section 132 and the mounting groove 111. So set up, have and be convenient for sensor 200 to assemble to mounting groove 111 in, also make things convenient for sensor 200 to take out from mounting groove 111 simultaneously.

Considering that the sensor 200 is not constrained in the third direction, which results in that the sensor 200 is easily displaced in the third direction, in some embodiments of the present invention, referring to fig. 1, the mounting bracket of the sensor 200 further includes at least two second rib plates 150, the at least two second rib plates 150 are mounted in the mounting groove 111 at intervals in the third direction, and the at least two second rib plates 150 limit the position of the sensor 200 in the third direction, so that the position of the sensor 200 is more stable.

It should be noted that the second rib plate 150 and the groove bottom and/or the groove wall of the installation groove 111 may be integrally formed, the second rib plate 150 and the groove bottom and/or the groove wall of the installation groove 111 may be connected by screws, and the second rib plate 150 and the groove bottom and/or the groove wall of the installation groove 111 may be adhered by glue, which is not listed here.

The number of the second rib plates 150 may be set according to actual conditions, the number of the second rib plates 150 located on the same side may be one, at this time, the second rib plates 150 may be a plate-shaped structure extending along the third direction, the number of the first rib plates 120 located on the same side may be two or more, and at this time, the two second rib plates 150 may be arranged at intervals along the first direction.

Further, referring to fig. 3, the second rib plate 150 includes a first limiting section 151 and a second limiting section 152, the first limiting section 151 extends along the third direction and is used for supporting the sensor 200, one end of the second limiting section 152 is connected to the first limiting section 151, the other end of the second limiting section 152 extends along the second direction and is away from the mounting groove 111, and the second limiting section 152 limits the sensor 200 in the third direction. So set up, can also set up sensor 200 and the tank bottom interval of mounting groove 111, so there is the heat dissipation of being convenient for the sensor.

Furthermore, a plurality of ventilation holes can be arranged at the bottom of the installation groove 111 in a penetrating manner, and the ventilation of air can be accelerated by the arrangement of the ventilation holes, so that the air between the bottom of the installation groove 111 and the sensor can be discharged through the ventilation holes, and the heat dissipation efficiency of the sensor 200 is further facilitated.

Considering that the sensor 200 is usually electrically connected to the controller of the air conditioner or other electronic devices through a wire, which results in that the wire electrically connected to the sensor 200 needs to extend into the mounting groove 111 through the notch of the mounting groove 111, which is not beneficial to the arrangement of the wire, in some embodiments of the present invention, referring to fig. 1, a wire passing hole 112 is penetratingly disposed on a wall of the mounting groove 111, and a portion of a wall of the wire passing hole 112 penetratingly forms a wire passing notch 113 along a third direction.

With the arrangement, on one hand, the wires electrically connected with the sensor 200 can be arranged laterally, so that the problem that the wires are wound and knotted due to the fact that the wires passing through the notches of the mounting grooves 111 are too many is avoided, on the other hand, the wires can be directly guided into the wire passing holes 112 through the wire passing notches 113, and therefore the wires can be conveniently fed into the wire passing holes 112.

It should be noted that the number of the wire through holes 112 may be one or more, that is, the wire through holes 112 may be disposed through a groove wall of the mounting groove 111 in the first direction, and the wire through holes 112 may also be disposed through a groove wall of the mounting groove 111 in the second direction, which is not limited herein.

Further, considering that the cross-sectional area of the mounting groove 111 is larger than that of the sensor 200, in view of this, the wire passing hook 160 is disposed in the mounting groove 111, and the wire passing hook 160 is disposed corresponding to the wire passing hole 112, that is, the wire passing through the wire passing hole 112 is also constrained by the wire passing hook 160, so that the positioning of the wire in the mounting groove 111 is facilitated, and further the problem of knotting and winding caused by the overlong length of the wire in the mounting groove 111 is avoided.

It should be noted that the number of the wire passing hooks 160 may be one or more, and the number of the wire passing hooks 160 may be set according to actual situations, for example, the distance between the wire connecting part of the sensor 200 and the wire passing hole 112 is small, at this time, one wire passing hook 160 may be provided, and if the distance between the wire connecting part of the sensor 200 and the wire passing hole 112 is large, at this time, two or more than two hooks may be provided.

It should be further noted that when the first rib plate 120 or the second rib plate 150 affects the arrangement of the wires, the wires can be avoided by providing the first avoiding gap on the first rib plate 120 and the second avoiding gap on the second rib plate 150, so that the arrangement of the wires in the installation groove 111 is facilitated.

It should be noted that the number of the sensors 200 in the air conditioner is usually large, so that a plurality of sensor mounting brackets 100 are required to be arranged to assemble a plurality of sensors 200, and when the number of the sensor mounting brackets 100 is large, each sensor mounting bracket 100 needs to be fixedly mounted, which results in troublesome mounting, and in view of this, a splicing structure is arranged on the sensor mounting brackets 100, so that the sensor mounting brackets 100 can be spliced to form a whole to facilitate mounting.

In some embodiments of the present invention, referring to fig. 1, 5 and 6, the bracket body 110 has a first splicing side and a second splicing side opposite to each other in a first direction, the first splicing side is provided with a convex connecting plate 170, the connecting plate 170 is provided with a through hole in a penetrating manner, the second splicing side is provided with a concave insertion groove 114 in a penetrating manner, and two groove walls of the insertion groove 114 in a second direction are provided with a threaded hole 115 in a penetrating manner.

When the two sensor mounting brackets 100 are spliced with each other, the connecting plate 170 on one sensor mounting bracket 100 is spliced into the splicing groove 114 of the other sensor mounting bracket 100, the through holes in the connecting plate 170 are aligned with the threaded holes 115 in the groove wall of the splicing groove 114 by adjusting the positions of the two sensor mounting brackets 100, and finally the connecting plate 170 is locked through the screw connectors, so that the splicing of the two sensor mounting brackets 100 is completed.

It should be noted that, if two sensor mounting brackets 100 are fixed by one screw, the two sensor mounting brackets 100 are prone to relative rotation, and in view of this, referring to fig. 4 together, the bracket main body 110 of each sensor mounting bracket 100 is provided with a fixing plate 180 extending along the second direction, one end of the fixing plate 180 away from the bracket main body 110 is provided with an assembling notch 181 extending along the first direction, and the assembling notch 181 can be matched with a tubular structure in an air conditioner, so that the problem of relative rotation between two adjacent sensor mounting brackets 100 can be limited.

Further, this assembly breach 181 includes guide section 181a and assembly section 181b, and this guide section 181a and assembly section 181b are the contained angle setting, so set up, can avoid assembling to the problem that the tubular structure in the assembly section 181b slides in the guide section 181a and drops from fixed plate 180 to appear.

In another embodiment of the present invention, referring to fig. 1, 5 and 6, the bracket main body 110 has a first splicing side and a second splicing side which are oppositely arranged in a first direction, both ends of the first splicing side are convexly provided with third fasteners 190 extending towards the first direction, both ends of the second splicing side of the bracket main body 110 are concavely provided with fastener holes 116, such arrangement is that the two third fasteners 190 on the bracket main body 110 of one sensor mounting bracket 100 are in fastening fit with the two fastener holes 116 on the bracket main body 110 of the other sensor mounting bracket 100, so as to realize the connection of the bracket main bodies 110 of the two sensor mounting brackets 100.

Furthermore, each buckling hole 116 is back to the hole wall of another buckling hole 116 to be penetrated and arranged, and a yielding notch 117 is formed, so that the third buckle 190 can be conveniently taken out from the corresponding buckling hole 116, the two sensor mounting brackets 100 can be conveniently detached, and the sensor mounting brackets 100 can be conveniently recycled.

It should be noted that, since the plurality of sensor mounting brackets 100 are spliced along the first direction, the wire passing hole 112 of the bracket main body 110 of each sensor mounting bracket 100 can be disposed through the groove wall of the mounting groove 111 in the first direction, so that the wires on the plurality of sensor mounting brackets 100 can be arranged along the first direction, thereby facilitating the arrangement of the wires for receiving the sensor 200.

The utility model further provides an air conditioner, which includes a sensor 200 and a sensor mounting bracket 100, wherein the sensor 200 is fixedly mounted on the sensor mounting bracket 100, the specific structure of the sensor mounting bracket 100 refers to the above embodiments, and since the sensor 200 module adopts all technical solutions of all the above embodiments, the air conditioner at least has all beneficial effects brought by the technical solutions of the above embodiments, and details are not repeated herein.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the technical solutions of the present invention, which are made by using the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (12)

1. A sensor mounting bracket is characterized by comprising a bracket main body, at least two first rib plates, a first buckle and a second buckle; wherein the content of the first and second substances,

the bracket main body is provided with mounting grooves, and at least two first rib plates are arranged in the mounting grooves at intervals along a first direction parallel to the bottom of the mounting grooves so as to limit two sides of the sensor in the first direction;

the first buckle with the second buckle is installed in the mounting groove along first direction interval, first buckle with the second buckle is at least partly perpendicular the second direction of the tank bottom of mounting groove on with the tank bottom interval of mounting groove sets up to carry on spacingly to the sensor one side of the tank bottom of mounting groove back to in the second direction.

2. The sensor mounting bracket of claim 1, wherein the first clip includes a connection fixing section and a resilient limiting section, one end of the connection fixing section is connected to the bottom of the mounting groove, the other end of the connection fixing section extends along the second direction, one end of the resilient limiting section is connected to the connection fixing section, and the other end of the resilient limiting section extends along the second direction toward the bottom of the mounting groove to limit a side of the sensor facing away from the bottom of the mounting groove in the second direction.

3. The sensor mounting bracket of claim 1, further comprising at least two second rib plates, the at least two second rib plates being spaced apart in a third direction parallel to a bottom of the mounting groove and perpendicular to the first direction, within the mounting groove, to limit two sides of the sensor in the third direction.

4. The sensor-mounting bracket of claim 3, wherein each of the second ribs includes a first rib section extending in the third direction for supporting the sensor and a second rib section extending in the second direction for limiting the sensor in the third direction.

5. The sensor mounting bracket of claim 1, wherein a wire passing hole is formed through a wall of the mounting groove, and a wire passing notch is formed through a part of a hole wall of the wire passing hole along the second direction.

6. The sensor mounting bracket of claim 5, wherein a wire passing hook is disposed in the mounting groove corresponding to the wire passing hole, and the wire passing hook is used for fixing a wire electrically connected with the sensor.

7. The sensor mounting bracket of claim 1, wherein the bracket body has a first mating side and a second mating side opposite to each other in the first direction, the first mating side has a connection plate protruding thereon, the second mating side has a mating groove recessed therein, and the connection plate of the bracket body is adapted to mate with the mating groove of the other bracket body and be locked thereto by a screw.

8. The sensor mounting bracket of claim 7, wherein the bracket body further comprises a fixing plate protruding in the second direction, and an end of the fixing plate away from the bracket body is provided with an assembly notch for snap-fit engagement with the tubular structure.

9. The sensor mounting bracket of claim 8, wherein the mounting notch has a mounting section and a guide section extending in the second direction away from the bracket body, the mounting section and the guide section being angled.

10. The sensor mounting bracket of claim 1, wherein the bracket body has a first splicing side and a second splicing side opposite to each other in the first direction, two third fasteners extending along the first direction are disposed at two ends of the first splicing side, two fastening holes extending along the first direction are recessed at two ends of the second splicing side, and the two third fasteners on the bracket body are respectively used for being in snap-fit with the fastening holes at corresponding positions on the other bracket body.

11. The sensor-mounting bracket of claim 10, wherein the wall of each said snap-fit hole opposite the wall of the other said snap-fit hole extends therethrough to form an abduction notch.

12. An air conditioner comprising a sensor and a sensor mounting bracket as claimed in any one of claims 1 to 11, wherein the sensor module is fixedly mounted to the sensor mounting bracket.

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