CN215175844U - Sensor support and air conditioner - Google Patents

Abstract

The utility model discloses a sensor bracket and an air conditioner, wherein the sensor bracket comprises a first fixing piece and a second fixing piece which are connected with each other, and the first fixing piece is used for installing a sensor; the second mounting has the second installation cavity that is used for installing the refrigerant pipe, and the second mounting includes first buckle and the second buckle that sets up along the circumference interval of second installation cavity, is formed with the opening between first buckle and the second buckle, first buckle and second buckle be used for with refrigerant pipe butt. The utility model discloses a set up first buckle and second buckle, form the opening between first buckle and the second buckle, the refrigerant pipe of being convenient for realizes installing fast from the leading-in second installation intracavity of opening to make sensor and sensor support can once install with the refrigerant pipe and target in place, improved the installation effectiveness. Thereby first buckle and second buckle make refrigerant pipe and sensor laminating with refrigerant pipe butt respectively for sensor, sensor support and refrigerant pipe installation are firm, effectively avoid droing.

Description

Sensor support and air conditioner

Technical Field

The utility model relates to an air conditioning equipment technical field, in particular to sensor support and air conditioner.

Background

In the related art, a pipe temperature sensor for sampling electric control data is installed on a refrigerant pipe of an air conditioner. The tube temperature sensor is generally connected with the refrigerant pipe through the fixing clamp, but the fixing clamp is easy to fall off, so that the tube temperature sensor fixing clamp needs to be fixed on the refrigerant pipe in the production process, and then the tightening belt is adopted to perform secondary fixing and falling prevention, and the operation is complex and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a sensor support, it is firm with the refrigerant pipe installation, can effectively avoid droing, can once install in place moreover, the installation effectiveness is high.

The utility model discloses still provide an air conditioner with above-mentioned sensor support.

According to the utility model discloses sensor support of first aspect embodiment includes: the first fixing piece is provided with a first mounting cavity for mounting the sensor; the second fixing part is connected with the first fixing part, the second fixing part is provided with a second mounting cavity used for mounting a refrigerant pipe, the second fixing part comprises a first buckle and a second buckle which are arranged at intervals along the circumferential direction of the second mounting cavity, an opening for guiding the refrigerant pipe into the second mounting cavity is formed between the first buckle and the second buckle, and the first buckle and the second buckle are used for being abutted against the refrigerant pipe so that the refrigerant pipe is attached to the sensor.

According to the utility model discloses sensor support has following beneficial effect at least:

through setting up the first mounting that has first installation cavity and the second mounting that has the second installation cavity, first installation cavity is used for installing the sensor, and the second installation cavity is used for installing the refrigerant pipe, and the second mounting includes first buckle and second buckle, forms the opening between first buckle and the second buckle, and the refrigerant pipe of being convenient for realizes quick installation from the leading-in second installation intracavity of opening to make sensor and sensor support once install in place with the refrigerant pipe, improved the installation effectiveness. Thereby first buckle and second buckle make refrigerant pipe and sensor laminating with refrigerant pipe butt respectively for sensor, sensor support and refrigerant pipe installation are firm, can effectively avoid droing, and sensor and refrigerant pipe closely laminate moreover, have improved the accuracy of the data that the sensor gathered.

According to some embodiments of the present invention, the second fixing member further comprises a first panel and a second panel connected to the first fixing member, the first panel and the second panel form the second mounting cavity, the first buckle is disposed at one end of the first fixing member far away from the first panel, and the second buckle is disposed at one end of the first fixing member far away from the second panel.

According to some embodiments of the present invention, the first buckle includes a first connecting portion and a first abutting portion, the first connecting portion is connected to the first panel and extends toward the second panel, the first abutting portion is connected to the first connecting portion and extends toward the first panel, and the first abutting portion is configured to abut against the refrigerant pipe; the second buckle comprises a second connecting part and a second abutting part, the second connecting part is connected with the second panel and extends towards the first panel, the second abutting part is connected with the second connecting part and extends towards the second panel, and the second abutting part is used for abutting against the refrigerant pipe.

According to some embodiments of the invention, the first connecting portion and the junction of the first abutting portion are rounded transitions, and the second connecting portion and the junction of the second abutting portion are rounded transitions.

According to some embodiments of the utility model, first butt portion with the one end of refrigerant pipe butt is first arcwall face, second butt portion with the one end of refrigerant pipe butt is the second arcwall face, first arcwall face with the second arcwall face all with the outer wall looks adaptation of refrigerant pipe.

According to some embodiments of the present invention, an end of the first panel connected to the first buckle is inclined toward the second mounting cavity to form a first folded plate, and the first folded plate is connected to the first connecting portion; one end of the second panel, which is connected with the second buckle, inclines towards the second mounting cavity to form a second folded plate, and the second folded plate is connected with the second connecting part.

According to some embodiments of the utility model, first buckle is located first panel orientation one side of second panel, first buckle is followed the axial interval of second installation cavity is provided with a plurality ofly, the second buckle is located second panel orientation one side of first panel, the second buckle is followed the axial interval of second installation cavity is provided with a plurality ofly.

According to some embodiments of the present invention, the first buckle and the second buckle are the same in structure and are symmetrically arranged.

According to some embodiments of the utility model, first mounting with the second mounting adopts sheet metal material integrated into one piece.

According to some embodiments of the present invention, a first flange is disposed at an end of the first panel away from the first fixing member, and the first flange is bent toward a side away from the second mounting cavity; and a second flanging is arranged at one end, far away from the first fixing piece, of the second panel, and the second flanging is bent towards one side, far away from the second mounting cavity.

According to some embodiments of the invention, the sensor support is made of stainless steel material.

According to some embodiments of the utility model, first mounting is including being used for enclosing to locate the body of the outer wall of sensor, and connect in the body is followed backstop and joint spare at the axial both ends of first installation cavity, the backstop is used for the location the tip of sensor, joint spare is used for the joint the outer wall of sensor.

According to the utility model discloses air conditioner of second aspect embodiment, including refrigerant pipe and above embodiment the sensor support, the sensor support with refrigerant pipe fixed connection.

According to the utility model discloses air conditioner has following beneficial effect at least:

by adopting the sensor support provided by the embodiment of the first aspect, the sensor support is provided with the first fixing piece with the first mounting cavity and the second fixing piece with the second mounting cavity through the arrangement, the first mounting cavity is used for mounting a sensor, the second mounting cavity is used for mounting a refrigerant pipe, the second fixing piece comprises the first buckle and the second buckle, an opening is formed between the first buckle and the second buckle, the refrigerant pipe can be conveniently and quickly mounted in the second mounting cavity from the opening, and therefore the sensor and the sensor support can be mounted in place with the refrigerant pipe at one time, and the mounting efficiency is improved. Thereby first buckle and second buckle make refrigerant pipe and sensor laminating with refrigerant pipe butt respectively for sensor, sensor support and refrigerant pipe installation are firm, can effectively avoid droing, and sensor and refrigerant pipe closely laminate moreover, have improved the accuracy of the data that the sensor gathered.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The invention will be further described with reference to the following drawings and examples, in which:

fig. 1 is a schematic structural view of an angle of a sensor holder according to an embodiment of the present invention;

fig. 2 is a schematic structural view of another angle of the sensor holder according to an embodiment of the present invention;

fig. 3 is a side view of a sensor holder according to an embodiment of the present invention;

fig. 4 is a schematic view of an angle of a sensor holder according to another embodiment of the present invention;

fig. 5 is a schematic view of another angle of a sensor holder according to another embodiment of the present invention;

fig. 6 is a side view of a sensor holder according to another embodiment of the present invention.

Reference numerals:

a sensor holder 1000;

a first fixing member 100; a first mounting cavity 110; a tube body 120; a stopper 130; a clip 140;

a second fixing member 200; a second mounting cavity 210; a first buckle 220; a first connection portion 221; a first abutting portion 222; a first arcuate surface 223; a second catch 230; the second connection portion 231; a second abutment 232; a second arcuate surface 233; a first panel 240; a first flap 241; a first flange 242; a second panel 250; a second flap 251; a second flange 252; an opening 260;

a sensor 300;

refrigerant pipe 400.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Referring to fig. 1 and 2, a sensor bracket 1000 according to an embodiment of the present invention is applied to an air conditioner such as a wall unit, a cabinet unit, a ducted air conditioner, or a central air conditioner. The sensor holder 1000 of the embodiment is used for mounting the sensor 300 and fixing the sensor 300 to the refrigerant pipe 400, for example, the sensor 300 may be a temperature sensor 300 for detecting a pipe temperature of the refrigerant pipe 400. Traditional sensor support 1000 drops easily from refrigerant pipe 400, influences the automatically controlled data sampling, consequently need in process of production, go into refrigerant pipe 400 with sensor support 1000 card after, uses the lacing tape to carry out the fixed anticreep of secondary again, its complex operation, and assembly efficiency is low. The utility model discloses sensor support 1000 of the embodiment can solve foretell defect.

Referring to fig. 1 and 2, a sensor holder 1000 according to an embodiment of the present invention includes a first fixing member 100 and a second fixing member 200. The first fixing member 100 is used for installing the sensor 300, the first fixing member 100 is provided with a first installation cavity 110, and the sensor 300 is fixed in the first installation cavity 110, so that stable installation is realized.

Referring to fig. 1 and 2, it can be understood that the first fixing member 100 includes a tube 120 for surrounding and fixing an outer wall of the sensor 300, and an upper end of the tube 120 is open to ensure that the upper end of the sensor 300 can make good contact with the refrigerant tube 400, thereby ensuring accuracy of the sensor 300 for sampling the electronic control data.

First mounting 100 still includes backstop 130 and joint piece 140, and backstop 130 and joint piece 140 are connected respectively in the axial both ends of sensor 300, and backstop 130 can restrict sensor 300 and remove along axial one end, and joint piece 140 can the joint outer wall of sensor 300 to restriction sensor 300 removes along axial other end. Also, the snap 140 can also cooperate with the tube 120 to limit the sensor 300 from moving radially. Therefore, the first fixing member 100 of the present embodiment can restrict the degree of freedom of the sensor 300 in the axial and radial directions, thereby achieving stable connection of the sensor 300 and the first fixing member 100.

It should be noted that the first fixing member 100 may also adopt other fixing structures as long as the sensor 300 can be fixed to the sensor holder 1000, and is not limited in detail here.

Referring to fig. 2 and 3, it can be understood that the second fixing member 200 is fixedly connected to the first fixing member 100, and it should be noted that in the embodiment of the present invention, "fixedly connected" may be interpreted as being connected in a manner that they cannot be displaced relative to each other. The second fixing member 200 may be integrally formed with the first fixing member 100, or may be fixed by welding, clipping, or bonding, and is not particularly limited herein. The second fixing member 200 is used for installing the refrigerant pipe 400, the second fixing member 200 is provided with a second installation cavity 210, the second installation cavity 210 is opened along the two axial ends, and the refrigerant pipe 400 penetrates through and is fixed in the second installation cavity 210, so that stable installation is realized.

The second mounting cavity 210 is communicated with the first mounting cavity 110, so that the sensor 300 can be conveniently installed in the first mounting cavity 110 through the second mounting cavity 210, and the sensor 300 can be installed more conveniently and rapidly.

The second fixing member 200 includes a first catch 220 and a second catch 230, and the first catch 220 and the second catch 230 are disposed along a circumferential direction of the second mounting cavity 210. First buckle 220 and second buckle 230 set up along refrigerant pipe 400's circumference interval, and set up along refrigerant pipe 400's radial symmetry, and the atress is even when making first buckle 220 and second buckle 230 and refrigerant pipe 400 butt, promotes sensor support 1000's installation stability.

For example, the first and second hooks 220 and 230 may be disposed on the left and right sides of the refrigerant pipe 400. In another embodiment, the first and second hooks 220 and 230 may be located at upper and lower sides of the refrigerant pipe 400. In another embodiment, the first and second hooks 220 and 230 may be located at other positions of the refrigerant pipe 400 as long as the sensor holder 1000 can be stably connected to the refrigerant pipe 400.

Form opening 260 between first buckle 220 and the second buckle 230, opening 260 and second installation cavity 210 intercommunication to in the manual work is during the assembly with refrigerant pipe 400 from opening 260 leading-in second installation cavity 210, thereby realize sensor support 1000 rapid Assembly to refrigerant pipe 400 on, thereby make sensor 300 and sensor support 1000 can once install in place with refrigerant pipe 400, improved the installation effectiveness. Moreover, after the refrigerant pipe 400 is inserted into the second mounting cavity 210, the first buckle 220 and the second buckle 230 are abutted to the refrigerant pipe 400 respectively to enable the refrigerant pipe 400 to be attached to the sensor 300, so that the sensor 300, the sensor bracket 1000 and the refrigerant pipe 400 are firmly mounted and can be effectively prevented from falling off, the sensor 300 and the refrigerant pipe 400 are tightly attached to each other, and the accuracy of data collected by the sensor 300 is improved.

Referring to fig. 3, in the sensor bracket 1000 of the embodiment, the first fastener 220 and the second fastener 230 are respectively located at the left side and the right side of the refrigerant pipe 400, and due to the arrangement, the stress is more uniform when the sensor bracket 1000 and the refrigerant pipe 400 are installed, and the sensor bracket 1000 can be smoothly inserted into and fixed to the refrigerant pipe 400, so that the assembly efficiency is improved.

The second mount 200 further includes a first panel 240 and a second panel 250. The first panel 240 and the second panel 250 are attached to the first fixture 100. The first panel 240 and the second panel 250 are respectively disposed at left and right ends of the refrigerant pipe 400. The first panel 240 and the second panel 250 form the second mounting cavity 210, and the first panel 240 and the second panel 250 are respectively abutted against the outer wall of the refrigerant pipe 400 to limit the degree of freedom of the refrigerant pipe 400 in the left-right direction.

Referring to fig. 3, it can be understood that one end of the first panel 240 is connected to the first fixing member 100, and the other end of the first panel 240 is connected to the first clip 220, so that the first clip 220 can be stably connected to the second fixing member 200 and fixed to the outer wall of the refrigerant pipe 400.

The first clip 220 includes a first connecting portion 221 and a first abutting portion 222 that are connected to each other in a bent manner. The first connection portion 221 is connected to the first panel 240, and the first connection portion 221 may be formed by bending the first panel 240, and the first connection portion 221 may be bent in a direction toward the second panel 250.

The first abutting portion 222 is connected to the first connecting portion 221, and the first abutting portion 222 and the first connecting portion 221 may be formed by bending a sheet metal member, so that the first clip 220 may be formed by bending the first panel 240.

The first abutting portion 222 extends in a bent manner in the direction of the first panel 240. Such that the first catch 220 is formed in the space between the first panel 240 and the second panel 250.

The first abutting portion 222 is spaced apart from the first panel 240, so that the first latch 220 has sufficient elasticity, and can deform when the refrigerant pipe 400 passes through the opening 260, so that the refrigerant pipe 400 can smoothly enter the second mounting cavity 210.

The first contact portion 222 is configured to contact the refrigerant pipe 400, thereby fixing the refrigerant pipe 400 to the second mounting chamber 210.

Referring to fig. 3, it can be understood that one end of the second panel 250 is connected to the first fixing member 100, and the other end of the second panel 250 is connected to the second clip 230, so that the second clip 230 can be stably connected to the second fixing member 200 and fixed to the outer wall of the refrigerant pipe 400.

The second latch 230 includes a second connecting portion 231 and a second abutting portion 232 that are connected to each other in a bent manner. The second connection portion 231 is connected to the second panel 250, and the second connection portion 231 may be formed by bending the second panel 250, and the second connection portion 231 may be bent in a direction toward the first panel 240.

The second abutting portion 232 is connected to the second connecting portion 231, and the second abutting portion 232 and the second connecting portion 231 may be formed by bending a sheet metal member, so that the second clip 230 may be formed by bending the second panel 250.

The second abutting portion 232 is bent toward the second panel 250, so that the second catch 230 is formed in the space between the first panel 240 and the second panel 250.

The second abutting portion 232 and the second panel 250 are spaced apart from each other, so that the second clip 230 has sufficient elasticity, and can deform when the refrigerant pipe 400 passes through the opening 260, so that the refrigerant pipe 400 can smoothly enter the second mounting cavity 210.

The second contact portion 232 is configured to contact the refrigerant pipe 400, thereby fixing the refrigerant pipe 400 to the second mounting chamber 210.

Referring to fig. 3, it can be understood that the joint between the first connecting portion 221 and the first abutting portion 222 is in a rounded transition, so that the sensor bracket 1000 has a guiding function when being clamped into the refrigerant pipe 400, thereby reducing the friction force when the sensor bracket 1000 is installed, reducing the installation difficulty of the sensor bracket 1000, and improving the installation efficiency of the sensor bracket 1000. Correspondingly, the joint of the second connecting portion 231 and the second abutting portion 232 is in fillet transition, so that the sensor support 1000 has a guiding effect when being clamped into the refrigerant pipe 400, the friction force when the sensor support 1000 is installed is reduced, the installation difficulty of the sensor support 1000 is reduced, and the installation efficiency of the sensor support 1000 is improved.

Referring to fig. 3, the joint of the first panel 240 and the first connection portion 221 is in fillet transition, and the joint of the second panel 250 and the second connection portion 231 is in fillet transition, so that when the sensor bracket 1000 is installed on the refrigerant pipe 400, a worker can conveniently center the sensor bracket 1000 and the refrigerant pipe 400, and then the sensor bracket 1000 and the refrigerant pipe 400 are clamped to be aligned quickly, and the installation efficiency of the sensor bracket 1000 is improved.

As can be appreciated with reference to fig. 3, the first abutment 222 is provided with a first arcuate surface 223. The first arc surface 223 is disposed at one end of the first abutting portion 222 abutting against the refrigerant pipe 400. First arcwall face 223 and refrigerant pipe 400's outer wall looks adaptation, first arcwall face 223 closely laminates with refrigerant pipe 400's outer wall promptly to make first butt portion 222 and refrigerant pipe 400 realize more stable being connected, further improved the fixed effect of first buckle 220 to refrigerant pipe 400, make refrigerant pipe 400 more reliable with being connected of second installation cavity 210.

As can be appreciated with reference to fig. 3, the second abutment 232 is provided with a second arcuate surface 233. The second arc surface 233 is disposed at one end of the second abutting portion 232 abutting against the refrigerant pipe 400. The second arc surface 233 is matched with the outer wall of the refrigerant pipe 400, that is, the second arc surface 233 is tightly attached to the outer wall of the refrigerant pipe 400, so that the second abutting portion 232 is more stably connected with the refrigerant pipe 400, the fixing effect of the second buckle 230 on the refrigerant pipe 400 is further improved, and the connection between the refrigerant pipe 400 and the second installation cavity 210 is more reliable.

Referring to fig. 3, it can be understood that the end of the first panel 240 connected to the first catch 220 is provided with a first flap 241, and the first flap 241 is formed to be inclined toward the second mounting cavity 210. The first folding plate 241 is connected with the first connecting portion 221, so that the strength of the joint of the first buckle 220 and the first panel 240 can be improved, the structural strength of the first buckle 220 is higher, and the service life is longer.

Referring to fig. 3, it can be understood that the end of the second panel 250 connected to the second catch 230 is provided with a second flap 251, and the second flap 251 is formed to be inclined toward the second mounting cavity 210. The second flap 251 is connected to the second connection portion 231, so that the strength of the connection portion between the second buckle 230 and the second panel 250 can be improved, the structural strength of the second buckle 230 is higher, and the service life is longer.

Referring to fig. 2 and 3, it can be appreciated that the first catch 220 is identical in structure to the second catch 230. And the first catch 220 and the second catch 230 are symmetrically arranged. Therefore, when the sensor holder 1000 is clamped into the refrigerant pipe 400, the refrigerant pipe 400 can be more easily aligned with the opening 260; thereby enabling the sensor holder 1000 to be more smoothly snap-fitted.

Moreover, after the sensor bracket 1000 and the refrigerant pipe 400 are installed, the stress of the sensor bracket 1000 is more uniform, so that the installation of the sensor bracket 1000 is firmer.

Referring to fig. 4, 5 and 6, a sensor holder 1000 according to another embodiment of the present invention includes a first fixing member 100 and a second fixing member 200. The structure of the first fixing member 100 of this embodiment is the same as the structure of the first fixing member 100 of the above embodiment, and it can be understood by referring to the above embodiment appropriately, so that repeated descriptions are omitted herein for the sake of avoiding redundancy.

Referring to fig. 5 and 6, the second fixing member 200 of the present embodiment includes a first panel 240, a second panel 250, a first catch 220, and a second catch 230.

The first latch 220 is disposed on an inner side of the first panel 240, i.e., a side of the first panel 240 facing the second panel 250. It is understood that the first clip 220 can be fixed to the first panel 240 by welding or the like; may also be formed in the first panel 240, for example, by stamping the first panel 240; the specific mounting manner is not limited herein.

The number of the first fasteners 220 is two, and the two first fasteners 220 are arranged at intervals along the axial direction of the refrigerant pipe 400, it should be noted that the number of the first fasteners 220 may also be three, four or more, and the specific number is not limited herein. The plurality of first fasteners 220 are arranged to be axially fixed along the refrigerant pipe 400 and abut against the refrigerant pipe 400, so that the sensor holder 1000 is more reliably connected with the refrigerant pipe 400. The specific structure of the first buckle 220 is substantially the same as the structure of the first buckle 220 in the above embodiments, and it can be understood by referring to the above embodiments appropriately, and therefore, for avoiding redundancy, a description thereof is not repeated.

It is understood that the second clip 230 can be fixed to the second panel 250 by welding or the like. The second clasp 230 can also be formed in the second panel 250, for example, by profiling the second panel 250; the specific mounting manner is not limited herein.

The number of the second fasteners 230 is two, and the two second fasteners 230 are arranged at intervals along the axial direction of the refrigerant pipe 400, it should be noted that the number of the second fasteners 230 may also be three, four or more, and the specific number is not limited herein. The plurality of second fasteners 230 are arranged to be axially fixed along the refrigerant pipe 400 and abut against the refrigerant pipe 400, so that the sensor holder 1000 is more reliably connected with the refrigerant pipe 400. The specific structure of the second latch 230 is substantially the same as the structure of the second latch 230 of the above-mentioned embodiment, and it can be understood by referring to the above-mentioned embodiment appropriately, so that descriptions thereof are not repeated herein to avoid redundancy.

It should be noted that the two first fasteners 220 and the two second fasteners 230 may be symmetrically arranged along the axial direction of the refrigerant pipe 400. The two first fasteners 220 and the two second fasteners 230 may also be disposed along the refrigerant pipe 400 at intervals in the axial direction, and both of them may realize stable connection between the sensor holder 1000 and the refrigerant pipe 400.

When the two first buckles 220 and the two second buckles 230 are symmetrically arranged along the axial direction of the refrigerant pipe 400, and the first buckles 220 and the second buckles 230 have the same structure, the resistance born by a worker when the sensor bracket 1000 is clamped into the refrigerant pipe 400 is smaller, and the refrigerant pipe 400 can be more easily aligned with the opening 260, so that the sensor bracket 1000 can be more smoothly clamped and installed.

In addition, after the sensor bracket 1000 and the refrigerant pipe 400 are installed, the stress of the sensor bracket 1000 is more uniform, so that the installation of the sensor bracket 1000 is firmer.

Referring to fig. 6, it will be appreciated that the first panel 240 is provided with a first flange 242. The first flange 242 is disposed at an end of the first panel 240 away from the first fixing member 100, and the first flange 242 may be formed by bending the first panel 240. The first flange 242 is bent toward the outer side of the first panel 240, that is, the first flange is away from one side of the second panel 250, so that the strength of the first panel 240 can be improved, the mounting stability of the first buckle 220 can be improved, and the strength of the first buckle 220 can be increased, so that the sensor bracket 1000 can be more stably connected with the refrigerant pipe 400; and interference can be prevented during the process of inserting the refrigerant pipe 400 into the opening 260.

The second panel 250 is provided with a second flange 252. The second flange 252 is disposed at an end of the second panel 250 away from the second fixing element 200, and the second flange 252 may be formed by bending the second panel 250. The second flange 252 is bent toward the outer side of the second panel 250, that is, away from one side of the first panel 240, so that the strength of the second panel 250 can be improved, the mounting stability of the second clip 230 can be improved, and the strength of the second clip 230 can be increased, so that the sensor bracket 1000 can be more stably connected with the refrigerant pipe 400; and interference can be prevented during the process of inserting the refrigerant pipe 400 into the opening 260.

Referring to fig. 1 to 6, it can be understood that, in the sensor holder 1000 of the two embodiments, the first fixing member 100 and the second fixing member 200 can be integrally manufactured and molded by using a sheet metal material. For example, the sheet metal material may be a stainless steel material, an aluminum alloy material, or the like, which is not particularly limited herein. Therefore, the sensor holder 1000 may be manufactured by performing one or more sheet metal working methods such as bending, profiling, and drawing on a sheet metal material. The integrally formed sensor holder 1000 has a more stable structure, higher strength and longer service life.

The utility model relates to an air conditioner of embodiment can be for hanging machine, cabinet-type air conditioner, window machine, board house air conditioner, mobile air conditioner, tuber pipe machine or central air conditioning etc.. The air conditioner of the embodiment includes a refrigerant pipe 400 and the sensor bracket 1000 of the above embodiments, and the sensor bracket 1000 is fixedly connected to the refrigerant pipe 400. It is understood that the sensor bracket 1000 may be installed on any refrigerant pipe 400 that needs to acquire electrical control parameters, i.e., not limited to being installed in an outdoor unit or an indoor unit of an air conditioner.

The utility model discloses the air conditioner adopts the sensor support 1000 of first aspect embodiment, sensor support 1000 is through setting up first mounting 100 that has first installation cavity 110 and the second mounting 200 that has second installation cavity 210, first installation cavity 110 is used for installing sensor 300, second installation cavity 210 is used for installing refrigerant pipe 400, second installation cavity 210 and first installation cavity 110 intercommunication to in being convenient for sensor 300 packs into first installation cavity 110 through second installation cavity 210, the installation is convenient and fast more. The second fixing member 200 includes a first fastener 220 and a second fastener 230, and an opening 260 is formed between the first fastener 220 and the second fastener 230, so that the refrigerant pipe 400 is guided into the second mounting cavity 210 from the opening 260 to be rapidly mounted, and thus the sensor 300 and the sensor bracket 1000 can be mounted in place with the refrigerant pipe 400 at one time, and the mounting efficiency is improved. Thereby first buckle 220 and second buckle 230 make refrigerant pipe 400 and sensor 300 laminating with refrigerant pipe 400 butt respectively for sensor 300, sensor support 1000 and refrigerant pipe 400 installation are firm, can effectively avoid droing, and sensor 300 and refrigerant pipe 400 closely laminate moreover, have improved the accuracy of the data that sensor 300 gathered.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. A sensor holder, comprising:

the first fixing piece is provided with a first mounting cavity for mounting the sensor;

the second fixing part is connected with the first fixing part, the second fixing part is provided with a second mounting cavity used for mounting a refrigerant pipe, the second fixing part comprises a first buckle and a second buckle which are arranged at intervals along the circumferential direction of the second mounting cavity, an opening for guiding the refrigerant pipe into the second mounting cavity is formed between the first buckle and the second buckle, and the first buckle and the second buckle are used for being abutted against the refrigerant pipe so that the refrigerant pipe is attached to the sensor.

2. The sensor holder of claim 1, wherein: the second fixing piece further comprises a first panel and a second panel which are connected to the first fixing piece, the first panel and the second panel form the second mounting cavity, the first buckle is arranged at one end, far away from the first fixing piece, of the first panel, and the second buckle is arranged at one end, far away from the first fixing piece, of the second panel.

3. The sensor holder of claim 2, wherein: the first buckle comprises a first connecting part and a first abutting part, the first connecting part is connected with the first panel and extends towards the direction of the second panel, the first abutting part is connected with the first connecting part and extends towards the direction of the first panel, and the first abutting part is used for abutting against the refrigerant pipe; the second buckle comprises a second connecting part and a second abutting part, the second connecting part is connected with the second panel and extends towards the first panel, the second abutting part is connected with the second connecting part and extends towards the second panel, and the second abutting part is used for abutting against the refrigerant pipe.

4. The sensor holder of claim 3, wherein: the first connecting portion with the junction of first butt portion is the fillet transition, the second connecting portion with the junction of second butt portion is the fillet transition.

5. The sensor holder of claim 3, wherein: the first butt joint with the one end of refrigerant pipe butt is first arcwall face, the second butt joint with the one end of refrigerant pipe butt is the second arcwall face, first arcwall face with the second arcwall face all with the outer wall looks adaptation of refrigerant pipe.

6. The sensor holder of claim 3, wherein: one end of the first panel, which is connected with the first buckle, inclines towards the second mounting cavity to form a first folded plate, and the first folded plate is connected with the first connecting part; one end of the second panel, which is connected with the second buckle, inclines towards the second mounting cavity to form a second folded plate, and the second folded plate is connected with the second connecting part.

7. The sensor holder of claim 2, wherein: first buckle is located first panel orientation one side of second panel, first buckle is followed the axial interval of second installation cavity is provided with a plurality ofly, the second buckle is located the second panel orientation one side of first panel, the second buckle is followed the axial interval of second installation cavity is provided with a plurality ofly.

8. The sensor holder according to any one of claims 1 to 7, wherein: the first buckle and the second buckle are identical in structure and are symmetrically arranged.

9. The sensor holder of claim 1, wherein: the first fixing piece and the second fixing piece are integrally manufactured and formed by sheet metal materials.

10. An air conditioner, characterized in that: the sensor support comprises a refrigerant pipe and the sensor support as claimed in any one of claims 1 to 9, and the sensor support is fixedly connected with the refrigerant pipe.

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