CN210373983U - Temperature control probe support wire clamping structure, temperature control probe support and air conditioner - Google Patents

Abstract

The utility model provides a control by temperature change probe support card line structure, control by temperature change probe support and air conditioner belongs to domestic appliance technical field, card line structure include with the mounting groove that control by temperature change probe support assembly structure is connected, the mounting groove has hollow out construction, just the opening part setting of mounting groove is suitable for the wire winding structure that the control by temperature change line passes through with be used for the restriction the location structure that the control by temperature change probe passed through. Compared with the prior art, temperature control probe support card line structure, temperature control probe support and air conditioner simple structure, the card line is efficient and good reliability, and card line structure opens totally basically, and the temperature control probe does not have water to be detained, does not influence temperature control probe temperature measurement, and the temperature measurement is accurate.

Description

Temperature control probe support wire clamping structure, temperature control probe support and air conditioner

Technical Field

The utility model relates to the technical field of household appliances, particularly, relate to a control by temperature change probe bracket card line structure, control by temperature change probe bracket and air conditioner.

Background

The existing temperature control probe bracket has two problems in the process of wire clamping: difficult location, easy pine takes off. In order to avoid the problems, some temperature control supports can adopt a closed structure, and the closed structure can generate the phenomena of accumulated water of the temperature control probe, easy concentration of the temperature in the support and the like, so that the temperature measurement of the temperature control probe is inaccurate.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be among the prior art closed temperature control probe supporting structure can produce phenomena such as temperature control probe ponding, the inside temperature of support is easily concentrated, and then lead to the temperature control probe temperature measurement inaccurate.

In order to solve the problem, the utility model provides a control by temperature change probe holder card line structure for hold control by temperature change probe and control by temperature change line, and be connected with control by temperature change probe holder assembly structure, a serial communication port, card line structure include with the mounting groove that control by temperature change probe holder assembly structure is connected, the mounting groove has hollow out construction, just the opening part setting of mounting groove is suitable for the winding structure that control by temperature change line passes through with be used for the restriction the location structure that control by temperature change probe passed through, just be equipped with a limit structure on the mounting groove.

From this, card line structure simple structure, card line efficiency is high and the good reliability, and card line structure is open totally basically, and the control by temperature change probe does not have water to be detained, does not influence the control by temperature change probe temperature measurement, and the temperature measurement is accurate.

Optionally, the mounting groove includes a first groove side surface connected to the temperature control probe holder assembly structure, and a second groove side surface and a third groove side surface connected to the first groove side surface, respectively.

Thereby defining the specific structure of the mounting groove.

Optionally, the second groove side surface and the third groove side surface have the same structure and are symmetrically arranged on the first groove side surface.

Therefore, the structure is simple due to the symmetrical arrangement.

Optionally, a first limiting structure is disposed on the mounting groove, the first limiting structure includes a first folded edge and/or a second folded edge that are respectively extended along one side edge of the second groove side surface and/or the third groove side surface in a direction parallel to the first groove side surface, and the one side edge is an edge that is not connected to the first groove side surface on the second groove side surface and/or the third groove side surface.

Therefore, the temperature control probe is prevented from falling off from the mounting groove.

Optionally, the first folded edge and the second folded edge have the same structure and are symmetrically disposed on the second groove side and the third groove side, respectively.

From this, inject the concrete structure of first hem and second hem, and the symmetry sets up, and anti-drop is effectual.

Optionally, the hollow-out structures are disposed on the second groove side surface and/or the third groove side surface.

Therefore, the open structure avoids water accumulation in the mounting groove to influence the temperature measurement of the temperature control probe.

Optionally, a groove with an opening facing away from the first groove side surface is disposed on the second groove side surface and/or the third groove side surface.

Therefore, the deformation of the side surface of the second groove and/or the side surface of the third groove is improved, and the temperature control probe can conveniently enter the mounting groove.

Optionally, the opening includes a first opening disposed at an upper end of the mounting groove and a second opening disposed at a lower end of the mounting groove, the winding structure is disposed above the first opening and connected to a side of the first groove, and the positioning structure is disposed above the second opening and connected to a side of the first groove.

From this, the upper and lower opening avoids ponding in the mounting groove, influences the temperature control probe temperature measurement, and the wire winding structure carries out effective spacing to the temperature control line, and location structure prevents that the temperature control probe from droing.

Optionally, the winding structure and the positioning structure have the same shape and are symmetrically arranged on the side surface of the first groove.

Therefore, the upper end and the lower end of the mounting groove do not need to be distinguished in the mounting process, and the mounting is convenient.

Temperature control probe support card line structure, for prior art's advantage lie in, card line structure simple structure, card line efficiency is high and good reliability, and card line structure opens totally basically, the control by temperature change probe does not have water to be detained, does not influence control by temperature change probe temperature measurement, and the temperature measurement is accurate.

In order to solve the technical problem, the utility model provides a control by temperature change probe support, including foretell control by temperature change probe card line structure and with the assembly structure that control by temperature change probe card line structure is connected, assembly structure include with an at least jack catch structure that the mounting groove is connected, jack catch structure is including the first jack catch and the second jack catch that the symmetry set up, just first jack catch with set up the second limit structure that is suitable for condenser copper pipe to pass on the second jack catch.

From this, deformation through the jack catch structure realizes being connected of control by temperature change probe holder and condenser, just control by temperature change probe holder for prior art other advantages with control by temperature change probe holder card line structure is the same for prior art's advantage, no longer gives unnecessary details here.

In order to solve the technical problem, the invention also provides an air conditioner which is characterized by comprising a condenser and the temperature control probe bracket, wherein the temperature control probe bracket is fixedly connected with the condenser.

Air conditioner for prior art other advantages with temperature control probe support is the same for prior art's advantage, no longer give unnecessary details here.

Drawings

FIG. 1 is a schematic structural view of a temperature control probe holder according to the present invention;

FIG. 2 is a front view of the temperature control probe holder of the present invention;

FIG. 3 is a side view of the temperature control probe holder of the present invention;

FIG. 4 is a schematic structural view of the assembled medium temperature probe holder of the present invention;

FIG. 5 is a front view of the assembled medium temperature probe holder of the present invention;

fig. 6 is a side view of the assembled medium temperature control probe holder of the present invention.

Description of reference numerals:

1-temperature control probe bracket, 11-first jaw, 111-first outer jaw, 1111-first limiting part, 112-first inner jaw, 1121-first groove, 12-second jaw, 121-second outer jaw, 1211-second limiting part, 122-second inner jaw, 1221-second groove, 13-mounting groove, 131-first groove side, 132-second groove side, 1321-first folded edge, 1322-third groove, 133-third groove side, 1331-second folded edge, 1332-fourth groove, 134-winding structure, 135-positioning structure, 136-hollowed-out structure, 2-temperature control probe, 3-temperature control line, 4-fin and 5-condenser copper pipe.

Detailed Description

The existing temperature control probe bracket has two problems in the process of wire clamping: difficult location, easy pine takes off. In order to avoid the problems, some temperature control supports can adopt a closed structure, and the closed structure can generate the phenomena of accumulated water of the temperature control probe, easy concentration of the temperature in the support and the like, so that the temperature measurement of the temperature control probe is inaccurate.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings of the specification, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. The terms "first", "second" and "third" are used 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," "second," or "third" may explicitly or implicitly include at least one of the feature. The description of the term "some embodiments" means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. Throughout this specification, the schematic representations of the terms used above do not necessarily refer to the same implementation or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1-6, an embodiment of the present invention provides a temperature control probe support clamping line structure, for holding a temperature control probe 2 and a temperature control line 3, and being connected with a temperature control probe support assembly structure, the clamping line structure includes a mounting groove 13 connected with the temperature control probe support assembly structure, the mounting groove 13 has a hollow structure 136, and an opening of the mounting groove 13 is provided with a winding structure 134 suitable for the temperature control line 3 to pass through and a positioning structure 135 suitable for limiting the temperature control probe 2 to pass through.

From this, card line structure simple structure, card line efficiency is high and the good reliability, and card line structure is open totally basically, and the control by temperature change probe does not have water to be detained, does not influence the control by temperature change probe temperature measurement, and the temperature measurement is accurate.

The utility model discloses in, mounting groove 13 includes first groove side 131 that is connected with control by temperature change probe support assembly structure and second groove side 132 and third groove side 133 that are connected with first groove side 131 respectively, has injectd the concrete structure of mounting groove 13, the utility model discloses in do not limit to the concrete shape of mounting groove 13, can be other arbitrary geometric shapes such as rectangle, square, as long as can hold control by temperature change line 3 and control by temperature change probe 2 can, in some embodiments, second groove side 132 and third groove side 133 the same and symmetry set up in on the first groove side 131, and second groove side 132 and third groove side 133 are connected with first groove side 131 is perpendicular respectively, and the shape of cross section of mounting groove 13 is for having open-ended positive quadrilateral recess promptly, and the symmetry sets up, simple structure, and production efficiency is high.

The utility model discloses in, be equipped with first limit structure on the mounting groove 13, first limit structure includes first hem 1321 and/or the second hem 1331 that extends the setting to the direction parallel with first groove side 131 along a side edge of second groove side 132 and/or third groove side 133 respectively, an edge is the edge that is not connected with first groove side 131 on second groove side 132 and/or third groove side 133, the setting of first hem 1321 and second hem 1331 avoids control by temperature change probe 2 to drop from mounting groove 13. The utility model discloses in do not do the restriction to the specific shape of first hem 1321 and second hem 1331, can be other arbitrary geometric shapes such as rectangle, square, as long as can prevent that temperature control probe 2 from coming off in mounting groove 13 can, in some specific examples, set up first hem 1321 on second groove side 132, and the distance of an edge that keeps away from second groove side 132 on first hem 1321 to third groove side 133 is less than the width of temperature control probe 2, spacing temperature control probe 2, prevent that temperature control probe 2 from coming off in mounting groove 13; in some specific examples, the third groove side surface 133 is provided with a second flange 1331, and a distance from an edge of the second flange 1331 far away from the third groove side surface 133 to the second groove side surface 132 is smaller than the width of the temperature control probe 2, so as to limit the temperature control probe 2 and prevent the temperature control probe 2 from falling off from the mounting groove 13; in some preferred embodiments, the second slot side 132 is provided with a first folding edge 1321, and the third slot side 133 is provided with a second folding edge 1331, but the first folding edge 1321 and the second folding edge 1331 are asymmetrically arranged on the second slot side 132 and the third slot side 133, and a distance from an edge of the first folding edge 1321 away from the second slot side 132 to the third slot side 133 is less than a width of the temperature control probe 2, and a distance from an edge of the second folding edge 1331 away from the third slot side 133 to the second slot side 132 is less than a width of the temperature control probe 2, and after the temperature control probe 2 is arranged in the mounting slot 13, the first folding edge 1321 and the second folding edge 1331 limit the temperature control probe 2 and prevent the temperature control probe 2 from falling out of the mounting slot 13, and in some preferred embodiments, the first folding edge 1321 and the second folding edge 1331 have the same structure and are symmetrically arranged on the second slot side 132 and the third slot side 133, the anti-drop effect is good.

The utility model discloses in, set up on second groove side 132 and/or third groove side 133 hollow out construction 136, open structure avoids mounting groove 13 interior ponding, influences the temperature measurement of temperature control probe. The utility model discloses in do not do the restriction to the concrete shape of first hem 1321 and second hem 1331, can be other arbitrary geometric shapes such as rectangle, square, in some embodiments, hollow out construction 136's shape is rectangle or positive direction, simple structure, and production efficiency is high.

The utility model discloses in, set up the recess that the opening dorsad first groove side 131 on second groove side 132 and/or third groove side 133, set up third recess 1322 on second groove side 132 promptly, and/or set up fourth recess 1332 on the third groove side 133, improve the deflection of second groove side 132 and/or third groove side 133, the control by temperature change probe of being convenient for gets into the mounting groove.

The utility model discloses in, the opening including set up in mounting groove 13 upper end first opening with set up in the second opening of mounting groove 13 lower extreme. Therefore, the upper opening and the lower opening prevent water from accumulating in the mounting groove 13 and influencing the temperature measurement of the temperature control probe 2.

In some embodiments, the routing structure 134 is disposed above the first opening and is connected to the first slot side 131. Therefore, the temperature control wire 3 can be effectively limited before entering the mounting groove 13, and has a guiding function, so that the temperature control wire 3 smoothly enters the mounting groove 13.

In some embodiments, a positioning structure 135 is disposed over the second opening and is connected to the first slot side 131. Therefore, after the temperature control probe 2 enters the mounting groove 13, the positioning structure 135 can prevent the temperature control probe 2 from continuously falling, and the temperature control probe 2 is prevented from falling off.

The utility model discloses in do not do the restriction to the concrete shape of location structure 135 and wire winding structure 134, can be arbitrary geometric shape, in some embodiments, location structure 135 is the same with wire winding structure 134 structure, and the symmetry sets up in the first opening and the second opening part of mounting groove 13 for whole card line structure is symmetrical structure, need not consider direction problem, simple structure. In some preferred embodiments, the cross sections of the positioning structure 135 and the wire winding structure 134 are triangular, and the triangular tip of the positioning structure 135 contacts with the temperature control probe 2, so that water is not accumulated in the temperature control probe 2, and the temperature measurement is accurate.

Therefore, control by temperature change probe support card line structure simple structure, card line is efficient and good reliability, and card line structure is open totally basically, the control by temperature change probe does not have water to be detained, does not influence 2 temperature measurement of control by temperature change probe, and the temperature measurement is accurate.

In order to solve the technical problem, the utility model provides a control by temperature change probe support, including foretell control by temperature change probe card line structure and with the assembly structure that control by temperature change probe card line structure is connected, assembly structure include with an at least jack catch structure that mounting groove 13 is connected, jack catch structure is including the first jack catch and the second jack catch that the symmetry set up, just first jack catch with set up the second limit structure who is suitable for condenser copper pipe 5 to pass on the second jack catch.

From this, through the deformation of jack catch structure, realize the fixed connection of temperature control probe support 1 and different model condensers, the commonality is strong, and is compatible good, improves production efficiency.

The utility model discloses in, first jack catch 11 includes interconnect's first outside jack catch 111 and first inboard jack catch 112, and first outside jack catch 111 sets up and has the clearance between first inboard jack catch 112's top and first outside jack catch 111 and first inboard jack catch 112. Thereby, the specific structure of the first jaw 11 is defined. The first outer jaw 111 and the first inner jaw 112 have a gap therebetween, increasing elasticity, so that the first outer jaw 111 and the first inner jaw 112 are easily deformed.

The utility model discloses in, second jack catch 12 includes interconnect's the outside jack catch 121 of second and the inboard jack catch 122 of second, and the outside jack catch 121 of second sets up and has the clearance between the below of the inboard jack catch 122 of second and the outside jack catch 121 of second and the inboard jack catch 122 of second. Thereby, the specific structure of the second jaw 12 is defined. A gap is formed between the second outside jaw 121 and the second inside jaw 122 to increase elasticity, so that the second outside jaw 121 and the second inside jaw 122 are easily deformed.

The utility model discloses in, second limit structure includes along the outside edge on first outside jack catch 111 upper portion to the first spacing portion 1111 of inside sunken that is close to the direction setting of first inboard jack catch 112, and the shape phase-match of the shape of first spacing portion 1111 and condenser copper pipe 5. In some embodiments, the condenser copper tube 5 is cylindrical, and accordingly, the first limiting portion 1111 is arc-shaped, so that the connection is firmer, the fixing effect is good, and the structure is simple.

The utility model discloses in, second limit structure still includes along the outside edge of second outside jack catch 121 lower part to the spacing portion 1211 of the inside sunken second that is close to the direction setting of the inboard jack catch 122 of second, and the shape phase-match of the spacing portion 1211 of second and condenser copper pipe 5. In some embodiments, the condenser copper tube 5 is cylindrical, and accordingly, the second position-limiting portion 1211 is arc-shaped, so that the connection is firmer, the fixing effect is good, and the structure is simple.

The utility model discloses in, second limit structure still includes the first spacing buckle that is suitable for condenser copper pipe 5 to pass that forms between first jack catch 11 and the second jack catch 12, first spacing buckle including set up in first recess 1121 on the first inboard jack catch 112 with set up in second recess 1221 on the second inboard jack catch 122, just first recess 1121 is followed the bottom edge of first inboard jack catch 112 is to being close to the direction undercut setting of first outside jack catch 111, second recess 1221 is followed the upper portion edge of second inboard jack catch 122 is to being close to the direction undercut setting of second outside jack catch 121. Because the first jaw 11 and the second jaw 12 are symmetrically arranged, that is, the first inner jaw 112 and the second inner jaw 122 are symmetrically arranged, and the first outer jaw 111 and the second outer jaw 121 are symmetrically arranged, the first groove 1121 on the first inner jaw 112 and the second groove 1221 on the second inner jaw 122 form the first limiting buckle, which is suitable for the condenser copper tube 5 to pass through, and has firm connection and simple structure.

In some preferred embodiments, the width of the first inner jaw 112 and/or the second inner jaw 122 is greater than the width of the first outer jaw 111 and/or the second outer jaw 121, so that the first limit buckle formed by the first groove 1121 on the first inner jaw 112 and the second groove 1221 on the second inner jaw 122 has good reliability, high strength and firm connection.

The utility model discloses in, the deflection of first inboard jack catch 112, first outside jack catch 111, the inboard jack catch 122 of second and the outside jack catch 121 of second is 3-5mm, and in some better implementation modes, the deflection of first inboard jack catch 112, first outside jack catch 111, the inboard jack catch 122 of second and the outside jack catch 121 of second is 4mm, and the deformation effect is better. It should be noted here that the deformation directions of the first inner jaw 112, the first outer jaw 111, the second inner jaw 122 and the second outer jaw 121 are from outside to inside or from inside to outside. The deformation quantity is set, so that the deformation requirements of the first clamping jaw 11 and the second clamping jaw 12 can be met, the fixing device is more suitable for being fixed with the condenser copper pipe 5, and the assembly of the temperature control probe support 1 and the condenser is realized.

Therefore, the utility model discloses assembly structure's assembly principle lies in:

when the diameter of the condenser copper pipe 5 is smaller than the fastening hole of the first limiting buckle, because a gap exists between the first outer-side claw 111 and/or the second outer-side claw 121 and the assembly structure, the strength of the joint of the first outer-side claw 111 and/or the second outer-side claw 121 and the assembly structure is lower, so that the first outer-side claw 111 and/or the second outer-side claw 121 is easy to deform inwards, and simultaneously the first outer-side claw and/or the second inner-side claw 122 is pressed, because a gap exists between the first inner-side claw 112 and the second inner-side claw, the first outer-side claw and/or the second inner-side claw 122 correspondingly deforms inwards under the pressing condition, so that the three condenser copper pipes 5 respectively passing through the first limiting part 1111, the first limiting buckle and the second limiting part 1211 are in contact with the arc surfaces of the corresponding first limiting part 1111, the first limiting buckle and the second limiting part 1211, so that the connection is firm;

when the diameter of the condenser copper pipe 5 is equal to the fastening hole of the first limiting buckle, the first inner side clamping jaw 112 and/or the second inner side clamping jaw 122 are/is unchanged, the first outer side clamping jaw 111 and/or the second outer side clamping jaw 121 are/is slightly deformed inwards, and the three condenser copper pipes 5 respectively passing through the first limiting part 1111, the first limiting buckle and the second limiting part 1211 are in contact with the arc surfaces of the corresponding first limiting part 1111, the first limiting buckle and the second limiting part 1211 to be firmly connected;

when the diameter of the condenser copper tube 5 is larger than the fastening hole of the first limiting buckle, because a gap exists between the first inner side claw 112 and the second inner side claw, the first outer inner side claw and/or the second inner side claw 122 correspondingly deforms outwards under the extrusion condition, and drives the first outer side claw 111 and/or the second outer side claw 121 to deform outwards, so that the three condenser copper tubes 5 respectively passing through the first limiting portion 1111, the first limiting buckle and the second limiting portion 1211 are in contact with the arc surfaces of the corresponding first limiting portion 1111, the first limiting buckle and the second limiting portion 1211, and the connection is firm.

The existing condenser copper pipe 5 is inserted into a condenser with fins 4, the diameter of the condenser copper pipe 5 is between phi 5 and phi 10, the gap between the condenser copper pipe 5 and the copper pipe is between 13mm and 15mm, the claw structure is designed according to the size ranges, and the fixed connection between the temperature control probe support 1 and condensers of different models is realized through the deformation of the claw structure. Just the utility model discloses in do not do the restriction to the quantity of jack catch structure, can be according to condenser copper pipe 5's quantity and to joint strength's requirement customization as required, as long as satisfy foretell symmetric position relation can, in some preferred embodiments, assembly structure includes a jack catch structure, links firmly and save material, and assembly efficiency is high.

Therefore, control by temperature change probe bracket 1 realizes the fixed connection of control by temperature change probe bracket 1 and different model condensers through the deformation of jack catch structure, and the commonality is strong, and is compatible good, improves production efficiency. Just temperature control probe support for prior art other advantages with temperature control probe support card line structure is the same for prior art's advantage, no longer gives unnecessary details here.

The invention also provides an air conditioner, which comprises a condenser and the temperature control probe bracket 1, wherein the temperature control probe bracket 1 is fixedly connected with the condenser.

Air conditioner for prior art other advantages with control by temperature change probe bracket 1 is the same for prior art's advantage, no longer describe herein.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (11)

1. The utility model provides a control by temperature change probe support card line structure for hold control by temperature change probe (2) and control by temperature change line (3), and be connected with control by temperature change probe support assembly structure, its characterized in that, card line structure include with mounting groove (13) that control by temperature change probe support assembly structure is connected, mounting groove (13) have hollow out construction (136), just the opening part setting of mounting groove (13) is suitable for wire winding structure (134) that control by temperature change line (3) pass through with be used for the restriction location structure (135) that control by temperature change probe (2) pass through.

2. The temperature controlled probe carrier wire clamping structure according to claim 1, wherein the mounting groove (13) comprises a first groove side (131) connected to the temperature controlled probe carrier mounting structure and a second groove side (132) and a third groove side (133) connected to the first groove side (131), respectively.

3. The temperature controlled probe carrier wire trap configuration of claim 2, wherein the second slot side (132) and the third slot side (133) are identical in configuration and are symmetrically disposed on the first slot side (131).

4. The temperature control probe holder wire clamping structure according to claim 2 or 3, wherein a first limiting structure is arranged on the mounting groove (13), and the first limiting structure comprises a first folded edge (1321) and/or a second folded edge (1331) which are respectively arranged along one side edge of the second groove side surface (132) and/or the third groove side surface (133) in an extending manner in a direction parallel to the first groove side surface (131), and the one side edge is an edge which is not connected with the first groove side surface (131) on the second groove side surface (132) and/or the third groove side surface (133).

5. The temperature controlled probe holder wire clamping structure according to claim 4, wherein the first flange (1321) and the second flange (1331) are identical in structure and are symmetrically arranged on the second groove side surface (132) and the third groove side surface (133), respectively.

6. The temperature controlled probe holder wire clamping structure according to claim 2, wherein the hollowed-out structure (136) is provided on the second groove side (132) and/or the third groove side (133).

7. Temperature controlled probe carrier wire clamping structure according to claim 2, characterized in that the second slot side (132) and/or the third slot side (133) is provided with a recess with an opening facing away from the first slot side (131).

8. The temperature controlled probe carrier wire clamping structure according to claim 2, wherein the openings comprise a first opening arranged at the upper end of the mounting groove (13) and a second opening arranged at the lower end of the mounting groove (13), the wire winding structure (134) is arranged above the first opening and connected with the first groove side surface (131), and the positioning structure (135) is arranged below the second opening and connected with the first groove side surface (131).

9. The temperature controlled probe carrier wire clamping structure according to claim 8, wherein the wire winding structure (134) and the positioning structure (135) are identical in shape and symmetrically arranged on the first slot side (131).

10. A temperature control probe carrier comprising a temperature control probe card wire structure as claimed in any one of claims 1 to 9 and an assembly structure connected to the temperature control probe card wire structure, wherein the assembly structure comprises at least one jaw structure connected to the mounting groove, the jaw structure comprises a first jaw (11) and a second jaw (12) which are symmetrically arranged, and a second limiting structure suitable for a condenser copper tube (5) to pass through is arranged on the first jaw (11) and the second jaw (12).

11. An air conditioner, characterized in that it comprises a condenser and a temperature-controlled probe holder (1) according to claim 10, said temperature-controlled probe holder (1) being fixedly connected to said condenser.

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