CN208419114U - A kind of temperature probe bracket and air-conditioning - Google Patents

Abstract

The utility model discloses a kind of temperature probe bracket and air-conditioning, including clip assembly and mounting assembly, the mounting assembly includes positioning region and mounting portion, the clip assembly includes variant part, clamping portion and a pair of symmetrically arranged claw ontology, the symmetrically arranged claw ontology is connected by the variant part, the claw ontology is provided with support portion, the clamping portion is arranged on the support portion, the positioning region is fixed so that the variant part keeps deformation state, the mounting portion is connected with the clip assembly, and the mounting portion is for placing temperature probe；The structure setting of temperature probe bracket described in the utility model, convenient for the installation and removal of connection status between the temperature probe and the heat exchanger, it can guarantee the clamping intensity between the temperature probe bracket and finned heat exchanger simultaneously, temperature probe bracket difficult deformation in stress avoided to fall off.

Description

A kind of temperature probe bracket and air-conditioning

Technical field

The utility model relates to air-conditioning equipment fields, and in particular to a kind of temperature probe bracket and air-conditioning.

Background technique

Air-conditioning and like product mainly use finned heat exchanger, and such product needs for environment temperature sensor to be mounted on Finned heat exchanger surface guarantees the accuracy of ambient temperature measurement with this, and environment temperature sensor, which falls off, will affect complete machine operation And product quality.Environment temperature sensor generallys use following manner and fixes at present, and the temperature control of environment temperature sensor is visited Head is fixed in plastic stent, then special-shaped claw is arranged on plastic stent, and special-shaped claw utilizes the force-applied deformation characteristic of plastics It is directly socketed on the copper pipe of finned heat exchanger, to realize that it is finned that environment temperature temperature probe and its plastic stent are fixed on The purpose of heat exchanger side.

But the fixed form of existing this temperature probe bracket is being pacified because of the convenience in view of bracket installation and removal, claw The deflection filled in stroke cannot be excessive；It is simultaneously the clamping intensity for guaranteeing bracket and finned heat exchanger plumbers shed, needs to increase The hardness of claw material is to guarantee that claw difficult deformation in stress falls off；This results in existing temperature probe bracket can not be simultaneously Guarantee stable stationary state and convenient and fast installing and dismounting.

Utility model content

In view of this, the utility model is directed to a kind of temperature probe bracket, with solve existing temperature probe bracket without The problem of method guarantees stable stationary state and convenient and fast installing and dismounting simultaneously.

In order to achieve the above objectives, the technical solution of the utility model is achieved in that

A kind of temperature probe bracket, including clip assembly and mounting assembly, the mounting assembly include positioning region and installation Portion, the clip assembly include variant part, clamping portion and a pair of symmetrically arranged claw ontology, the symmetrically arranged claw sheet Body is connected by the variant part, and the claw ontology is provided with support portion, and the clamping portion is arranged on the support portion, The positioning region is fixed so that the variant part keeps deformation state, and the mounting portion is connected with the clip assembly, the peace Dress portion is for placing temperature probe.

Preferably, the variant part is set as arcwall face close to the end face of the positioning region, the positioning region is close to institute Setting arc-shaped slot at variant part position is stated, the arcwall face and the arc-shaped slot form the mounting portion.

Preferably, the positioning region includes first support and second support, the first support and the second support are divided She Zhi not be on the two claw ontologies, the first support and the second support are correspondingly arranged, and the mounting portion setting exists At the link position of the first support, the second support and the variant part.

Preferably, the first support and the second support include several vertical plates disposed in parallel, described first Stiffening plate is provided between the adjacent vertical plate on frame and the second support, the stiffening plate is vertical with the vertical plate to be connected It connects.

Preferably, limited block is provided in the stiffening plate, the limit of the first support and the second support Block is staggered.

Preferably, the positioning region includes being set to the fixture block of the first support and being correspondingly arranged in described second The card slot of frame can cause the fixture block to match with the card slot by adjusting the position of the first support and the second support It closes.

Preferably, the fixture block includes block tongue and support plate, the block tongue passes through the support plate and the first support The vertical plate connection.

Preferably, the clamping portion is set as arc-shaped slot structure.

Preferably, being provided with several through-holes on the variant part.

Compared with the existing technology, the structure of temperature probe bracket described in the utility model has the advantage that

The structure setting of the temperature probe bracket, convenient for connection status between the temperature probe and the heat exchanger Installation and removal, while can guarantee the clamping intensity between the temperature probe bracket and finned heat exchanger, avoid the temperature control Probe bracket difficult deformation in stress falls off.

The another object of the utility model is to propose a kind of air-conditioning, can not be protected simultaneously with solving existing temperature probe bracket The problem of demonstrate,proving stable stationary state and convenient and fast installing and dismounting.

In order to achieve the above objectives, the technical solution of the utility model is achieved in that

A kind of air-conditioning includes the temperature probe bracket.

Possessed advantage is identical compared with the existing technology with temperature probe bracket described above for the air-conditioning, herein no longer It repeats.

Detailed description of the invention

Fig. 1 is the front view of two stereochemical structure of temperature probe stent embodiment；

Fig. 2 is the rearview of two stereochemical structure of temperature probe stent embodiment；

Fig. 3 is the partial structurtes front view of the positioning region embodiment two；

Fig. 4 is the partial structurtes rearview of the positioning region embodiment two；

Fig. 5 is the installation view under two active state of temperature probe stent embodiment；

Fig. 6 is the installation view under two stationary state of temperature probe stent embodiment；

Fig. 7 is the perspective view under three active state of temperature probe stent embodiment；

Fig. 8 is the perspective view under three stationary state of temperature probe stent embodiment；

Fig. 9 is the structure sectional view under three active state of claw body embodiments；

Figure 10 is the structure rearview under three stationary state of claw body embodiments；

Figure 11 is the installation view under three active state of temperature probe stent embodiment；

Figure 12 is the installation view under three stationary state of temperature probe stent embodiment；

Figure 13 is the perspective view under four active state of temperature probe stent embodiment；

Figure 14 is the perspective view under four stationary state of temperature probe stent embodiment；

Figure 15 is the structural side view under four active state of claw body embodiments；

Figure 16 is the structural side view under four stationary state of claw body embodiments；

Figure 17 is the installation view under four active state of temperature probe stent embodiment；

Figure 18 is the installation view under four stationary state of temperature probe stent embodiment.

Digital representation in figure:

1- clip assembly；The positioning region 2-；3- mounting portion；4- box body；5- heat exchanger fin；6- copper pipe；11- variant part；12- Clamping portion；13- claw ontology；14- support portion；15- through-hole；16- loose slot；17- movable part；18- sliding part；21- first Frame；22- second support；23- vertical plate；24- stiffening plate；25- limited block；26- fixture block；27- card slot；41- cover board；42- bottom plate； The first groove body of 43-；The second groove body of 44-；45- through hole；46- locating slot；The folding part 111-；The connecting pin 112-；113- folded slot； The first linkage section of 114-；The second linkage section of 115-；141- deforms pawl；161- guide section；162- transition；261- block tongue；262- Support plate；431- gusset part；432- fixing muscle.

Specific embodiment

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can To be combined with each other.

In addition, the directionality instruction being previously mentioned in the embodiments of the present invention, then directionality instruction are only used for solving It releases in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, if this is specific When posture changes, then directionality instruction also correspondingly changes correspondingly.

The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

Embodiment one

The temperature probe bracket includes clip assembly 1 and mounting assembly, and the mounting assembly includes positioning region 2 and installation Portion 3, the positioning region 2 and the clip assembly 1 connect, and the clip assembly 1 includes variant part 11 and clamping portion 12, is passed through The deformation of the variant part 11 causes the movement of the clamping portion 12 to realize consolidating for the clip assembly 1 and finned heat exchanger It is fixed；The positioning region 2 guarantees the deformation state of the variant part 11, guarantees the clamping portion 12 and the finned heat exchanger It is stably connected with；The mounting portion 3 is arranged on the clip assembly 1, and the mounting portion 3 is for placing temperature probe.

After installing the temperature probe on the temperature probe bracket, user applies external force to the clip assembly 1 It causes the mechanical movement of the clip assembly 1 and the mechanical movement is transferred to 11 position of variant part so that the variant part 11 occur the elastic deformation of controllability, to replace the elastic deformation structure of special-shaped card pawl described in the prior art.The temperature control is visited Head bracket is equipped with the positioning region 2, prevents the variant part 11 stress after deformation occurs from restoring to cause the clamping portion 12 fail with the clamping of the finned heat exchanger.When artificially releasing the position and lock of the positioning region 2, the variant part 11 Original state can be reverted to, convenient for the disassembly of the temperature probe bracket.

Air-conditioning with the temperature probe bracket is convenient under temperature probe bracket Demountable setting The installation and removal of connection status between the temperature probe and the heat exchanger, at the same can guarantee the temperature probe bracket with Clamping intensity between finned heat exchanger avoids temperature probe bracket difficult deformation in stress from falling off；Have described The air-conditioning of temperature probe bracket can guarantee stationary state stable between the temperature probe and the heat exchanger and convenient simultaneously Installing and dismounting.

Embodiment two

As depicted in figs. 1 and 2, Fig. 1 is the front view of temperature probe bracket stereochemical structure described in the present embodiment, and Fig. 2 is this The rearview of temperature probe bracket stereochemical structure described in embodiment.

The clip assembly 1 includes a pair of symmetrically arranged claw ontology 13, and the claw ontology 13 passes through the deformation Portion 11 connects, and the claw ontology 13 is provided with support portion 14, and the support portion 14 is provided with the clamping portion 12, in this reality It applies in example, the clamping portion 12 is set as arc clamping groove.

It is provided with the clamping portion 12 on the symmetrically arranged claw ontology 13, passes through the elasticity of the variant part 11 Deformation causes the distance between the clamping portion 12 on two claw ontologies 13 size to change, and works as the claw The clamping portion 12 on ontology 13 temperature probe when being respectively engaged on copper pipe 6 adjacent on the finned heat exchanger Bracket and the finned heat exchanger are in stationary state.

The mounting portion 3 is arranged between the positioning region 2 and the support portion 14, preferably, the mounting portion 3 is arranged At 11 position of variant part.The variant part 11 is set as arcwall face close to an end face of the positioning region 2, corresponding, Arc-shaped slot is being arranged in the positioning region 2 at 11 position of variant part, and the arcwall face and the arc-shaped slot are formed The mounting portion 3, the temperature probe may be provided in the mounting portion 3.

The positioning region 2 includes first support 21 and second support 22, the first support 21 and the second support 22 It is separately positioned on the two claw ontologies 13, the first support 21 and the second support 22 are correspondingly arranged, the arc Notch is arranged in the first support 21 and the second support 22；In the first support 21 and the second support 22 In relative movement, being separately positioned in the first support 21 and the second support 22 can shape between the arc-shaped slot At opened portion；Specifically, the opened portion is closed when the first support 21 and the second support 22 are in connection status It closes, the temperature probe is fixed in the mounting portion 3；When the first support 21 and the second support 22 are in separation shape When state, the opened portion is opened, and the temperature probe can be put into the mounting portion 3 by the opened portion or from the installation It is taken out in portion 3.

Preferably, the first support 21 and the second support 22 are respectively provided with several vertical plates disposed in parallel 23, it is described Stiffening plate 24, the stiffening plate 24 are provided between the adjacent vertical plate 23 in first support 21 and the second support 22 It connect with the vertical plate 23 and is vertically arranged with the vertical plate 23 of connection.The stiffening plate 24 is tangential on the arc-shaped slot and sets It sets, when the arc-shaped slot being caused to fix the temperature probe, the stiffening plate 24 is connected with the temperature probe, thus Limit fixed effect is realized to the temperature probe.The stiffening plate 24 increases the structural strength of the vertical plate 23 simultaneously, avoids 11 flexible deformation of variant part reduces the structural strength of the vertical plate 23.

Limited block 25 is provided in the stiffening plate 24, the limited block 25 improves institute for fixing the temperature probe State stability of the temperature probe in the mounting portion 3.Preferably, the first support 21 and the second support 22 is described Limited block 25 is staggered, and avoids during the variant part 11 generates flexible deformation, the first support 21 and described The limited block 25 in second support 22 mutually collides interference.The limited block 25 is close to the end face of the mounting portion 3 It is preferably arranged to arcwall face, guarantees to improve the limited block when limited block 25 and the temperature probe contact for face contact 25 pairs of temperature probes limit fixed effect.

The variant part 11 is provided with several through-holes 15, in the state of the elastic deformation of the variant part 11, close to institute The some materials of claw ontology 13 are stated because of tension-thining, close to some materials extrusion of the vertical plate 23, the through-hole 15 deformation for being convenient for the variant part 11 to be squeezed some materials under deformed state that is arranged is assembled, and the variant part 11 is avoided Generate irreversible plastic deformation or fracture；The setting of the through-hole 15 simultaneously, described in being arranged in the mounting portion 3 Contact of the temperature probe with external environment improves the accuracy of the temperature probe measurement temperature.

The positioning region 2 includes being set to the fixture block 26 of the vertical plate 23 in the first support 21 and being correspondingly arranged in The card slot 27 of the vertical plate 23 in the second support 22, by the position for adjusting the first support 21 and the second support 22 It sets, the fixture block 26 can be caused to be clamped in the card slot 27, to realize the first support 21 and the second support 22 Be detachably fixed, to realize that the positioning of the first support 21 and the second support 22 limitation is made in the positioning region 2 With.

As shown in Figure 3 and Figure 4, Fig. 3 is the partial structurtes front view of the positioning region, and Fig. 4 is the part of the positioning region Structure rearview.

The fixture block 26 includes block tongue 261 and support plate 262, and the block tongue 261 passes through the support plate 262 and described the The vertical plate 23 of one bracket 21 connects, and the support plate 262 makes the block tongue 261 far from the described vertical of the first support 21 Plate 23, the support plate 262 can elastic bending, guarantee the first support 21 and the second support 22 the vertical plate 23 it Between when connecting, the block tongue 261 can be smoothly moved in the card slot 27, to realize the fixture block 26 and the card slot 27 Clamping.

In the present embodiment, only setting is a pair of disposed in parallel described in the first support 21 and the second support 22 Vertical plate 23.Preferably, the block tongue 261 of the first support 21 is separately positioned on the outside of the vertical plate 23, the vertical plate 23 outside is the side end face that two vertical plates 23 are relatively distant from, the distance between described vertical plate 23 ruler in the first support 21 It is very little to be slightly less than the distance between described vertical plate 23 setting size in the second support 22, it is clamped convenient for the fixture block 26 into described In card slot 27.

The temperature probe is put into after the mounting portion 3 and squeezes the vertical plate 23 and makes the fixture block 26 and the card slot 27 Closure, 3 inner space of mounting portion become smaller, the arc-shaped slot and the variant part 11 at the arc-shaped slot position Arc surface forms position limiting structure, guarantees that the temperature probe is fixed under the action of the position limiting structure；The variant part simultaneously 11 is relatively thin in the side close to the claw ontology 13, and outer Zhang Yundong, i.e., the described claw sheet are carried out between the claw ontology 13 Angle between body 13 becomes larger, until the fixture block 26 is clamped in the card slot 27, realizes the positioning of the vertical plate 23, thus The relative position between the claw ontology 13 is caused to fix.

As shown in Figure 5 and Figure 6, Fig. 5 is the installation view under temperature probe bracket active state described in the present embodiment, Fig. 6 For the installation view under temperature probe bracket stationary state described in the present embodiment.

The present embodiment is in actual installation, the temperature probe bracket is inserted into wing in the finned heat exchanger 6 gap of copper pipe between piece after being put into the temperature probe in the mounting portion 3, squeezes the temperature probe branch up and down respectively The vertical plate 23 of frame is clamped the fixture block 26 into the card slot 27, and 2 clamping of the positioning region closure visits the temperature control Head is fixed in the mounting portion 3 of the temperature probe internal stent.The claw ontology 13 is due to the variant part simultaneously 11 tortuous deformation and carry out opening movement, be bonded the clamping portion 12 on the claw ontology 13 and the extruding of copper pipe 6, cause Keep the temperature probe bracket whole and heat exchanger fixation.

Equally when the fixture block 26 is detached from the card slot 27, and the positioning region 2 is in disengaged condition, the mounting portion 3 Interior space size restores, and the opened portion opening can take out the temperature probe, while 11 tortuous deformation of the variant part disappears It loses, the claw ontology 13 distinguishes upward and downward contract, is detached from copper pipe 6, can be by the temperature probe bracket from heat exchanger It removes, completes disassembly process.

Embodiment three

If Fig. 7 and Fig. 8, Fig. 7 are the perspective view under temperature probe bracket the present embodiment active state；Fig. 8 is described Perspective view under temperature probe bracket the present embodiment stationary state.

In the present embodiment, the temperature probe bracket includes box body 4, and the mounting portion 3 and the setting of the positioning region 2 exist On the box body 4, the box body 4 includes cover board 41 and bottom plate 42, and the cover board 41 and the bottom plate 42 are flexibly connected, and described Cover board 41 and the bottom plate 42 can be freely rotated at the link position with realize the cover board 41 and the bottom plate 42 it Between be closed and open.

The fixture block 26 and the card slot 27 of the positioning region 2 are separately positioned on the cover board 41 and the bottom plate 42 On, and the fixture block 26 and the card slot 27 are correspondingly arranged.By the way that the cover board 41 and the bottom plate 42 to be closed, institute can be caused It states fixture block 26 to be clamped in the card slot 27, so that being detachably fixed for the cover board 41 and the bottom plate 42 is realized, thus real Positioning restriction effect of the existing positioning region 2 to 42 closed state of the cover board 41 and the bottom plate.

The block tongue 261 of the fixture block 26 is connect by the support plate 262 with the upper surface of the bottom plate 42, The support plate 262 makes the block tongue 261 far from the upper surface of the bottom plate 42, the support plate 262 can elastic bending, guarantee When the cover board 41 and the bottom plate 42 are closed, the block tongue 261 can be smoothly moved in the card slot 27, to realize the card The clamping of block 26 and the card slot 27.

The bottom plate 42 is provided with the first groove body 43, and the cover board 41 is provided with the second groove body 44, first groove body 43 It is correspondingly arranged with second groove body 44, when the cover board 41 and the bottom plate 42 are closed, first groove body 43 and described The connection of second groove body 44 forms the mounting portion 3.

Preferably, first groove body 43 includes two curvilinear gusset parts 431, the gusset part 431 is fixed on described The upper surface of bottom plate 42 is formed with symmetrical first groove body, 43 structure in 42 center of bottom plate, first groove body 43 Cross section is gradually reduced with the increase away from the 42 center line distance of bottom plate, is placed on guaranteeing that the temperature probe can be stablized In first groove body 43, and it is in the center of the bottom plate 42, the detection convenient for the temperature probe to environment temperature. Be preferably provided with fixing muscle 432 inside first groove body 43, the fixing muscle 432 be arranged perpendicular to the gusset part 431 and It is fixedly connected with the bottom plate 42, it is right by the fixing muscle 432 while guaranteeing 43 overall stability of the first groove body The temperature probe being placed in first groove body 43 carries out further position and fixes, and prevents the temperature probe described Shaking in first groove body 43, the fixing muscle 432 can be configured according to the specification of the different temperature probes, solid to guarantee Determine the fitting of muscle 432 and the temperature probe outer surface.

Second groove body 44 is set as concave inward structure, i.e., the described cover board 41 is close to the end of the bottom plate 42 away from institute The direction for stating bottom plate 42 is recessed second groove body 44,44 geomery of the second groove body and 43 shape of the first groove body Shape size is correspondingly arranged, when realizing that the cover board 41 and the bottom plate 42 are closed, the gusset part of first groove body 43 431 are located at the mounting portion 3 that an internal cavity structure is formed in second groove body 44, pass through 43 He of the first groove body Second groove body 44 guarantees that stabilization of the temperature probe in the mounting portion 3 is solid to the position limitation of the temperature probe It is fixed；And the cavity body structure both ends of the mounting portion 3 are in communication with the outside, and guarantee that the temperature probe and the smooth of external circuit connect It connects.

The position of corresponding first groove body 43 of the bottom plate 42 and the cover board 41 it is corresponding the first groove body 43 position It sets and is provided with several through holes 45, the temperature probe convenient for being arranged in the mounting portion 3 passes through the through hole 45 Contact with external environment improves the accuracy of the temperature probe measurement temperature.

The clip assembly 1 includes a pair of symmetrically arranged claw ontology 13, the branch of the claw ontology 13 Support part 14 is fixed on the lower end surface of the bottom plate 42, loose slot 16 is arranged inside the support portion 14, the claw ontology 13 is also Including movable part 17, the movable part 17 is arranged in the loose slot 16, and the movable part 17 includes movable end and fixation End, the movable end pass through the hole being arranged on the bottom plate 42 and are placed on the upper surface of the bottom plate 42, i.e., the described activity The upper surface certain distance of the bottom plate 42 is stretched out in portion 17；The fixing end is fixedly connected with the loose slot 16.

The movable part 17 includes the variant part 11 and sliding part 18, and the sliding part 18 and the variant part 11 connect It connecing, the sliding part 18 slides up and down in the loose slot 16 along the loose slot 16, when the sliding part 18 glides, institute It states the generation elastic deformation of variant part 11 to be formed to the bulge-structure on the inside of the claw ontology 13, the bulge-structure is changed with described The fin 5 of hot device squeezes fitting, causes the temperature probe bracket whole and the heat exchanger fixation.

Preferably, the movable end of the corresponding movable part 17 of the cover board 41 is provided with locating slot 46, in the lid In 42 closing course of plate 41 and the bottom plate, the movable end be placed in the locating slot 46 and with 46 inner surface of locating slot Contact, the locating slot 46 apply pressure vertically downward to the movable end with the closed action of the cover board 41.It is described fixed Position slot 46 guarantees that the movable end by pressure vertically downward, stablizes the motion state of the movable end, avoids the movable end It is generated in moving process and shakes to cause adverse effect to the variant part 11, such as the variant part 11 is because of unbalance stress Caused by irregular deformation and the fracture of the variant part 11.

As shown in Figure 9 and Figure 10, Fig. 9 is the structure sectional view under claw ontology the present embodiment active state；Figure 10 For the structure rearview under claw ontology the present embodiment stationary state.

The variant part 11 includes several folding parts 111, and the folding part 111 is connected with each other, in the present embodiment, described Variant part 11 includes two folding parts 111, and the folding part 111 is setting up and down in the loose slot 16, the folding 111 upper and lower ends of portion are set as connecting pin 112, and the folding part 111 is connected with each other by the connecting pin 112, are in top The folding part 111 connect with the sliding part 18 by the connecting pin 112, the folding part 111 in lower part Connect with the loose slot 16 by the connecting pin 112.

The connecting pin 112 of the folding part 111 is set as incline structure, i.e., with close to reduction of the link position apart from size 112 cross section of connecting pin is gradually reduced, and guarantees that cross section is minimum at the link position between the folding part 111, in institute When stating the generation folding deformation of variant part 11, the link position between the folding part 111 is the generation elasticity of the variant part 11 The position of deformation guarantees that the variant part 11 forms bulge-structure in the link position folding deformation.

The connecting pin 112 forms the folded slot 113 with certain angle in the link position, preferably, the folding The outside of the variant part 11 is arranged in folded slot 113, guarantees the controllable of the 11 folded deformation direction of variant part, makes the folding Portion 111 can form bulge-structure inwardly.

Preferably, 14 width dimensions of support portion are gradually reduced along the direction far from the bottom plate 42, and the support 14 greatest width dimension of portion is greater than the adjacent copper pipe 6 of the heat exchanger apart from size.The corresponding adjacent copper pipe 6 of the support portion 14 The clamping portion 12 is arranged in position, and the clamping portion 12 is used to fix the opposite position of the temperature probe bracket Yu the copper pipe 6 It sets.The clamping of the clamping portion 12 and copper pipe 6 acts on and the bulge-structure with the extruding of the heat exchanger fin 5 is bonded work With realizing being fixedly connected for the temperature probe bracket and the heat exchanger.

The claw ontology 13 be equipped with the variant part 11 and be located at 11 top of variant part and with the variant part The sliding part 18 of 11 connections.The cover board 41 and the bottom plate 42 are equipped with the positioning region 2.The temperature probe is put into The cover board 41 is closed after first groove body 43 and makes the positioning region 2 clamping closure, first groove body 43 and described the Temperature probe described in two groove bodies, 44 corresponding region clamping, the temperature probe is clamped in the mounting portion 3.Institute simultaneously Stating causes the sliding part 18 on the claw ontology 13 to push in 41 closing course of cover board, lead to 18 lower part of sliding part The variant part 11 wall thickness it is relatively thin place occur tortuous deformation, the relatively thin place of the wall thickness is the folding part 111 112 position of the connecting pin, to form bulge-structure inwardly.

As is illustrated by figs. 11 and 12, Figure 11 is the installation view under temperature probe bracket the present embodiment active state； Figure 12 is the installation view under temperature probe bracket the present embodiment stationary state.

The present embodiment actual installation situation is as follows, the temperature probe bracket is inserted into 6 gap of copper pipe between fin, in institute It states after being put into the temperature probe in mounting portion 3, close the cover board 41 and is clamped the positioning region 2,41 He of cover board The bottom plate 42 is closed, and the temperature probe is fixed in the mounting portion 3 of the temperature control internal stent；The lid simultaneously The closure of plate 41 depresses the sliding part 18 on the claw ontology 13, and the sliding part 18 moves downward the institute so that lower part It states variant part 11 and tortuous deformation occurs, form bulge-structure inwardly, the fin 5 of the bulge-structure and the heat exchanger squeezes Conjunction is overlayed, causes the temperature probe bracket whole and the heat exchanger fixation.

Equally when the positioning region 2 disengages, the cover board 41 and the bottom plate 42 are opened, can by the temperature probe from Taken out in first groove body 43, at the same the sliding part 18 make upwards under the action of the elastic recoil of the variant part 11 it is extensive Multiple movement, 11 tortuous deformation of variant part disappear, and the inside protrusions structure disappears, and are detached from the heat exchanger fin 5, can The temperature probe bracket is removed from the heat exchanger, completes disassembly process.

Example IV

As shown in Figure 13 and Figure 14, Figure 13 is the perspective view under temperature probe bracket the present embodiment active state；Figure 14 be the perspective view under temperature probe bracket the present embodiment stationary state.

In the present embodiment, the temperature probe bracket includes the box body 4, and the mounting portion 3 and the positioning region 2 are arranged On the box body 4, the box body 4 includes the cover board 41 and the bottom plate 42,42 activity of the cover board 41 and the bottom plate Connection, and the cover board 41 and the bottom plate 42 can be freely rotated to realize the cover board 41 and described at the link position Closure and opening between bottom plate 42.

The fixture block 26 and the card slot 27 of the positioning region 2 are separately positioned on the cover board 41 and the bottom plate 42 On, and the fixture block 26 and the card slot 27 are correspondingly arranged.By the way that the cover board 41 and the bottom plate 42 to be closed, institute can be caused It states fixture block 26 to be clamped in the card slot 27, so that being detachably fixed for the cover board 41 and the bottom plate 42 is realized, thus real Positioning restriction effect of the existing positioning region 2 to 42 closed state of the cover board 41 and the bottom plate.

The block tongue 261 of the fixture block 26 is connect by the support plate 262 with the upper surface of the bottom plate 42, The support plate 262 makes the block tongue 261 far from the upper surface of the bottom plate 42, the support plate 262 can elastic bending, guarantee When the cover board 41 and the bottom plate 42 are closed, the block tongue 261 can be smoothly moved in the card slot 27, to realize the card The clamping of block 26 and the card slot 27.

The bottom plate 42 is provided with first groove body 43, and the cover board 41 is provided with second groove body 44, and described One groove body 43 and second groove body 44 are correspondingly arranged, when the cover board 41 and the closure of the bottom plate 42, first groove body 43 and second groove body 44 connection form the mounting portion 3.

Preferably, first groove body 43 includes two curvilinear gusset parts 431, the gusset part 431 is fixed on described The upper surface of bottom plate 42 is formed with symmetrical first groove body, 43 structure in 42 center of bottom plate, first groove body 43 Cross section is gradually reduced with the increase away from the 42 center line distance of bottom plate, is placed on guaranteeing that the temperature probe can be stablized In first groove body 43, and it is in the center of the bottom plate 42, the detection convenient for the temperature probe to environment temperature. Be preferably provided with fixing muscle 432 inside first groove body 43, the fixing muscle 432 be arranged perpendicular to the gusset part 431 and It is fixedly connected with the bottom plate 42, it is right by the fixing muscle 432 while guaranteeing 43 overall stability of the first groove body The temperature probe being placed in first groove body 43 carries out further position and fixes, and prevents the temperature probe described Shaking in first groove body 43, the fixing muscle 432 can be configured according to the specification of the different temperature probes, solid to guarantee Determine the fitting of muscle 432 and the temperature probe outer surface.

Second groove body 44 is set as concave inward structure, i.e., the described cover board 41 is close to the end of the bottom plate 42 away from institute The direction for stating bottom plate 42 is recessed second groove body 44,44 geomery of the second groove body and 43 shape of the first groove body Shape size is correspondingly arranged, when realizing that the cover board 41 and the bottom plate 42 are closed, the gusset part of first groove body 43 431 are located at the mounting portion 3 that an internal cavity structure is formed in second groove body 44, pass through 43 He of the first groove body Second groove body 44 guarantees that stabilization of the temperature probe in the mounting portion 3 is solid to the position limitation of the temperature probe It is fixed；And the cavity body structure both ends of the mounting portion 3 are in communication with the outside, and guarantee that the temperature probe and the smooth of external circuit connect It connects.

The position of corresponding first groove body 43 of the bottom plate 42 and the cover board 41 correspond to first groove body 43 Position is provided with several through holes 45, and the temperature probe convenient for being arranged in the mounting portion 3 passes through the through hole 45 contact with external environment improves the accuracy of the temperature probe measurement temperature.

As shown in Figure 15 and Figure 16, Figure 15 is the structural side view under claw ontology the present embodiment active state；Figure 16 be the structural side view under claw ontology the present embodiment stationary state.

The clip assembly 1 includes a pair of symmetrically arranged claw ontology 13, the branch of the claw ontology 13 Support part 14 is fixed on the lower end surface of the bottom plate 42, and the support portion 14 is set as symmetrically arranged deformation pawl 141, the deformation The loose slot 16 is formed between pawl 141, the movable part 17 is arranged in the loose slot 16, and the movable part 17 includes Movable end and fixing end, the movable end pass through the upper surface that the hole being arranged on the bottom plate 42 is placed in the bottom plate 42 On, i.e., the described movable part 17 stretches out the upper surface certain distance of the bottom plate 42；The fixing end is connect with the variant part 11, The variant part 11 is set as herringbone structure, and 11 upper end of variant part is connect with the fixing end, under the variant part 11 End is set as symmetrically arranged first linkage section 114 and the second linkage section 115, and first linkage section 114 and described second connect Section 115 is connect to connect with symmetrically arranged 141 lower end of deformation pawl respectively.

The loose slot 16 includes guide section 161, and the width dimensions of the guide section 161 are equal or slightly larger than the activity The width dimensions in portion 17, preferably, the width dimensions of the guide section 161 it is bigger by 2 than the width dimensions of the movable part 17~ 3mm.The variant part 11 due to will drive herringbone structure when the movable part 17 moves down carry out deformation cause it is described Variant part 11 simultaneously realizes outside the stress of deformation 141 lower part of pawl the symmetrical deformation 141 lower end applied force of pawl, therefore To guarantee the variant part 11 to symmetrical two 141 lower end of the deformation pawl balance forces, under needing the movable part 17 to stablize It moves；The setting of the size of the guide section 161 and the movable part 17, guarantees shifting of the guide section 161 to the movable part 17 It is dynamic that there is preferable guiding role, the mobile stability of the movable part 17 is improved, to realize the clip assembly 1 to described The preferable fixed effect of heat exchanger.

The loose slot 16 further includes transition 162, and the lower part of the guide section 161, institute is arranged in the transition 162 The width dimensions for stating transition 162 start to become larger downwards in the lower end position of the guide section 161, are convenient for the variant part 11 deformation in the transition 162.

Preferably, 14 width dimensions of support portion are along far from described when the support portion 14 is under force-free state The direction of bottom plate 42 is consistent；And 14 width dimensions of support portion are slightly larger than the range arm of the adjacent copper pipe 6 of the heat exchanger It is very little.The clamping portion 12 is arranged in the position of the corresponding adjacent copper pipe 6 of the support portion 14, and the clamping portion 12 is for fixing the temperature Control the relative position of probe bracket and the copper pipe 6.Due to the setting of the transition 162, described in the correspondence of deformation pawl 141 The position material thickness of transition 162 is relatively thin, and the relatively thin position of material thickness is most also easy to produce deformation when by external force；When described When variant part 11 is to the 141 lower end applied force of deformation pawl, the deformation pawl 141 generates shape in the relatively thin position of the material thickness Become, to realize outer of deformation 141 lower end of pawl or shrink, the lower width of the support portion 14 is caused to change.

Specifically, deformation occurs in the transition 162 for the variant part 11, institute when the movable part 17 moves up It states deformation pawl 141 and generates the deformation shunk to the transition 162, the deformation pawl 141 in the relatively thin position of the material thickness Lower end is shunk, and the lower width of the support portion 14 becomes smaller, convenient for the support portion 14 be inserted into the adjacent copper pipe 6 of the heat exchanger it Between gap；When the movable part 17 moves down, deformation occurs in the transition 162 for the variant part 11, the deformation The deformation that pawl 141 generates outside the transition 162 in the relatively thin position of the material thickness, outside 141 lower end of deformation pawl , the lower width of the support portion 14 becomes larger, and fits closely convenient for the clamping portion 12 and copper pipe 6, guarantees the support portion 14 and the position of copper pipe 6 fix, realize being fixedly connected for the temperature probe bracket and the heat exchanger.

Preferably, locating slot 46 is arranged in the movable end of the corresponding movable part 17 of the cover board 41, in the cover board 41 and 42 closing course of the bottom plate in, the movable end is placed in the locating slot 46 and connects with 46 inner surface of locating slot Touching, the locating slot 46 apply pressure vertically downward to the movable end with the closed action of the cover board 41.The positioning Slot 46 guarantees that the movable end by pressure vertically downward, stablizes the motion state of the movable end, the movable end is avoided to exist It is generated in moving process and shakes to cause the adverse effect to the variant part 11, such as variant part 11 is made because of unbalance stress At irregular deformation and the variant part 11 fracture.

The support portion 14 is set as the symmetrically arranged deformation pawl 141, forms the work between the deformation pawl 141 Dynamic slot 16, the movable part 17 are arranged in the loose slot 16.The cover board 41 and the bottom plate 42 are equipped with the positioning region 2.The temperature probe is put into after first groove body 43 and closes the cover board 41 and makes the clamping of positioning region 2 closure, institute The first groove body 43 and temperature probe described in the 44 corresponding region clamping of the second groove body are stated, the temperature probe is clamped to In the mounting portion 3；The closure of cover board 41 pushes the movable part 17 simultaneously, leads to the variant part of herringbone structure 11 generate the deformation squeezed outward, open outside the 141 lower outside stress of deformation pawl.

As shown in Figure 17 and Figure 18, Figure 17 is the installation view under temperature probe bracket the present embodiment active state； Figure 18 is the installation view under temperature probe bracket the present embodiment stationary state.

Situation is as follows when the actual installation of the present embodiment, the support portion 14 is inserted into 6 gap of copper pipe between fin, in institute It states after being put into the temperature probe in mounting portion 3, close the cover board 41 and is clamped the positioning region 2,41 He of cover board The bottom plate 42 is closed, and the temperature probe is fixed in the mounting portion 3 of the temperature control internal stent；The lid simultaneously The closure of plate 41 depresses the sliding part 18 on the claw ontology 13, and the sliding part 18 moves downward so that with the cunning The variant part 11 of dynamic 18 lower end of portion connection deforms, and opens outside the 141 lower outside stress of deformation pawl, squeezes and paste with copper pipe 6 It closes, causes the temperature probe bracket whole and the heat exchanger fixation.

Equally when the positioning region 2 disengages, the cover board 41 and the bottom plate 42 are opened, can by the temperature probe from Taken out in first groove body 43, at the same the sliding part 18 make upwards under the action of the elastic recoil of the variant part 11 it is extensive Multiple movement, 11 tortuous deformation of variant part disappear, 141 lower part of deformation pawl to contract, cause the deformation pawl 141 and The state contacts that the heat exchanger copper pipe 6 fits closely can remove the temperature probe bracket from the heat exchanger, complete Disassembly process.

The above is only the preferred embodiment of the present invention, is merely illustrative for the utility model, and It is unrestricted.Those skilled in the art understand that can be to it in the spirit and scope defined by the utility model claims Many changes, modifications, and even equivalents are carried out, but all will fall within the protection scope of the utility model.

Claims (10)

1. a kind of temperature probe bracket, which is characterized in that including clip assembly (1) and mounting assembly, the mounting assembly includes Positioning region (2) and mounting portion (3), the clip assembly (1) include that variant part (11), clamping portion (12) and a pair are symmetrically arranged Claw ontology (13), the symmetrically arranged claw ontology (13) are connected by the variant part (11), the claw ontology (13) it is provided with support portion (14), the clamping portion (12) is arranged on the support portion (14), and the positioning region (2) is fixed So that the variant part (11) keeps deformation state, the mounting portion (3) and the clip assembly (1) connection, the mounting portion (3) for placing temperature probe.

2. temperature probe bracket as described in claim 1, which is characterized in that the variant part (11) is close to the positioning region (2) end face is set as arcwall face, and arc-shaped slot, institute is being arranged in the positioning region (2) at the variant part (11) position It states arcwall face and the arc-shaped slot forms the mounting portion (3).

3. temperature probe bracket as described in claim 1, which is characterized in that the positioning region (2) includes first support (21) With second support (22), the first support (21) and the second support (22) are separately positioned on the two claw ontologies (13) On, the first support (21) and the second support (22) are correspondingly arranged, and the mounting portion (3) is arranged in the first support (21), at the link position of the second support (22) and the variant part (11).

4. temperature probe bracket as claimed in claim 3, which is characterized in that the first support (21) and the second support It (22) include several vertical plates (23) disposed in parallel, the adjacent institute on the first support (21) and the second support (22) It states and is provided between vertical plate (23) stiffening plate (24), the stiffening plate (24) is vertical with the vertical plate (23) to be connect.

5. temperature probe bracket as claimed in claim 4, which is characterized in that be provided with limited block on the stiffening plate (24) (25), the first support (21) and the limited block (25) of the second support (22) are staggered.

6. temperature probe bracket as claimed in claim 4, which is characterized in that the positioning region (2) includes being set to described the The fixture block (26) of one bracket (21) and the card slot (27) for being correspondingly arranged in the second support (22), by adjusting described first The position of bracket (21) and the second support (22) can cause the fixture block (26) and the card slot (27) to cooperate.

7. temperature probe bracket as claimed in claim 6, which is characterized in that the fixture block (26) includes block tongue (261) and branch Fagging (262), the block tongue (261) are connected by the vertical plate (23) of the support plate (262) and the first support (21) It connects.

8. temperature probe bracket as described in claim 1, which is characterized in that the clamping portion (12) is set as arc-shaped slot knot Structure.

9. temperature probe bracket as described in claim 1, which is characterized in that be provided with several through-holes on the variant part (11) (15)。

10. a kind of air-conditioning, which is characterized in that including any temperature probe bracket of claim 1-9.