CN208846673U - Opposite opened sliding door motion structure and air conditioner - Google Patents

Abstract

Opposite opened sliding door motion structure and air conditioner provided by the utility model, are related to air-conditioning technical field.It includes front panel liner plate, driving assembly and two sliding door assemblies.Air outlet is offered in the middle part of front panel liner plate, and coiling cavity is offered in the two sides of air outlet, two sliding door assemblies are respectively arranged at the two sides of air outlet, and sliding door assembly is provided with conducting wire and wears portion, and the top of two sliding door assemblies is rolled with the top of front panel liner plate respectively to be cooperated.Driving assembly is installed on front panel liner plate, each sliding door assembly is connect with driving assembly respectively, driving assembly is for driving two sliding door assemblies to move toward one another to close air outlet, or backwards to movement to open air outlet, and conducting wire can be made to swing in coiling cavity, in sliding door assembly relative in front panel liner plate sliding process, conducting wire wears portion and coiling cavity is at least partly corresponding.The opposite opened sliding door motion structure structure is simple, convenient for assembly, and sliding door assembly operation is smooth.

Description

Opposite opened sliding door motion structure and air conditioner

Technical field

The utility model relates to air-conditioning technical field, in particular to a kind of opposite opened sliding door motion structure and air conditioner.

Background technique

With the raising of social progress and living standards of the people, the use degree of air-conditioning is higher and higher.In order to facilitate use, And prevent from air-conditioning from falling into dust etc. from air outlet under unused state influencing the service life of air-conditioning, the prior art generallys use Driving mechanism drives sliding door assembly to facilitate outlet air, and prevent to be opened and closed the air outlet on panel with respect to the mode that panel slides Dust is fallen into.

But the prior art generally existing driving mechanism assembly is complicated, and the larger driving mechanism abnormal sound that be easy to cause of load Problem, and influence the service life of driving mechanism.

Utility model content

In view of this, the utility model is directed to a kind of opposite opened sliding door motion structure, structure is simple, facilitates dress Match, and sliding door assembly operation is smooth.

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

A kind of opposite opened sliding door motion structure provided by the utility model includes front panel liner plate, driving assembly and two Sliding door assembly；

Air outlet is offered in the middle part of the front panel liner plate, and offers coiling cavity in the two sides of the air outlet, Two sliding door assemblies are respectively arranged at the two sides of the air outlet, and the sliding door assembly is provided with conducting wire and wears portion, The top of two sliding door assemblies is rolled with the top of the front panel liner plate respectively to be cooperated；The driving component is installed on On the front panel liner plate, each sliding door assembly is connect with the driving component respectively, and the driving component is for driving Dynamic two sliding door assemblies are moved toward one another to close the air outlet, alternatively, two sliding door assemblies of driving are backwards Movement is to open the air outlet, further, it is possible to swing conducting wire in the coiling cavity, also, in the sliding door group Part is relative in the front panel liner plate sliding process, and the conducting wire wears portion and the coiling cavity is at least partly corresponding.

Further, the opposite opened sliding door motion structure further includes the second driving member, and second driving member includes Driving section and linkage portion, the driving section is corresponding to be driven with the driving component, and is slidingly arranged at the front panel liner plate On, the linkage portion and the driving section are arranged side by side, also, the linkage portion is embedded at the sliding door assembly, the drive Dynamic component drives the relatively described front panel liner plate sliding in the driving section, and the linkage portion drives the sliding door assembly with respect to institute State the sliding of front panel liner plate.

Further, the linkage portion includes loading plate and the first hangers, and the loading plate is convexly equipped in the driving section, institute It states the first hangers and is set to the loading plate；The first driving groove, and first transmission are provided on the sliding door assembly The notch of slot is arranged towards one end of the sliding door assembly, and first hangers is embedded at first driving groove.

Further, the driving component includes mounting structure, and the mounting structure is installed on the front panel liner plate, It is provided with slide guide wall on the mounting structure, forms guide runner between the driving section and the linkage portion, the slide guide wall is stretched Enter the guide runner, and is slidably matched with the guide runner.

Further, the mounting structure includes pedestal and footstock, and the pedestal is detachably connected with the footstock, and point It is not installed on the front panel liner plate；The driving component further includes actuator and the first driving member, first driving member It is set between the footstock and the pedestal, the actuator passes through the pedestal and connect with first driving member, institute It states the first driving member and the driving section cooperates.

Further, sliding groove is provided on the front panel liner plate, the side wall of the sliding groove forms loading end；It is described Opposite opened sliding door motion structure further includes load-bearing slide guide part, and the load-bearing slide guide part is installed on the interior table of the sliding door assembly Face, and it is embedded in the sliding groove, the load-bearing slide guide part is slidably matched with the loading end.

Further, the opposite opened sliding door motion structure further includes upper guide plate, the upper guide plate and it is described before Panel liner plate is detachably connected, and forms the sliding groove between the upper guide plate and the front panel liner plate, before described The end face of panel liner plate forms the loading end.

Further, the end face of the front panel liner plate is provided with installation part, and the upper guide plate includes interconnecting piece and leads Cunning portion offers mounting hole on the interconnecting piece, and the installation part and the mounting hole cooperate, the guide sliding part and the front The end face of plate liner plate forms the sliding groove.

Further, accommodation groove is offered on the inner wall of the sliding door assembly, and abrasionproof is installed in the accommodation groove and is led Saddle, the abrasionproof slide guide part are used to be slidably matched with the outer surface of the front panel liner plate.

Further, it is provided with first fixed structure on the inside of the front panel liner plate, the conducting wire portion of the wearing setting the Two fixed structures and wire guide, second fixed structure are adjacent with the wire guide；

The first fixed structure and second fixed structure are used to fixed conducting wire, and the first end of the conducting wire is used for It is connected with electric-controlled box, for the second end of the conducting wire for connecting with control switch plate, the first fixed structure is located at described lead The first end of line；Second fixed structure is located at the second end of the conducting wire.

Compared with the existing technology, opposite opened sliding door motion structure described in the utility model has the advantage that

Opposite opened sliding door motion structure described in the utility model drives two sliding door assembly phases by driving assembly To perhaps realizing closing or opening to air outlet backwards to movement, also, the top of two sliding door assemblies respectively with front The top slide of plate liner plate cooperates, and enables to the operation of sliding door assembly much smoother, also, this opposite opened sliding door moves Structure, structure is simple, convenient for assembly.

The another object of the utility model is to propose a kind of air conditioner, uses opposite opened provided by the utility model sliding Dynamic door motion structure, structure is simple, easy to assembly, and sliding door assembly operation is smooth.

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

A kind of air conditioner provided by the utility model, including rear panel and the opposite opened sliding door motion structure.Institute Front panel liner plate is stated to connect with the rear panel.

Compared with the existing technology, air conditioner described in the utility model has the advantage that

Air conditioner described in the utility model uses opposite opened sliding door motion structure provided by the utility model, knot Structure is simple, convenient for assembly, and two sliding door assemblies can be driven opposite by driving assembly or moved backwards, realization pair The closing or opening of air outlet, also, the top of two sliding door assemblies cooperates with the top slide of front panel liner plate respectively, Enable to the operation of sliding door assembly much smoother, customer experience sense is good.

Detailed description of the invention

The attached drawing for constituting a part of the utility model is used to provide a further understanding of the present invention, this is practical new The illustrative embodiments and their description of type are not constituteed improper limits to the present invention for explaining the utility model.? In attached drawing:

Fig. 1 is that the structure at the first visual angle of opposite opened sliding door motion structure described in the utility model first embodiment is shown It is intended to.

Fig. 2 is the structural schematic diagram of front panel liner plate described in the utility model first embodiment.

Fig. 3 is the enlarged drawing in Fig. 2 at A.

Fig. 4 is the enlarged drawing in Fig. 2 at B.

Fig. 5 is the part dress of front panel liner plate, upper guide plate and driving assembly described in the utility model first embodiment Distribution structure schematic diagram.

Fig. 6 is the enlarged drawing in Fig. 5 at C.

Fig. 7 is the structural schematic diagram at the first visual angle of upper guide plate described in the utility model first embodiment.

Fig. 8 is the structural schematic diagram at the second visual angle of upper guide plate described in the utility model first embodiment.

Fig. 9 is the enlarged drawing in Fig. 5 at D.

Figure 10 is the enlarged drawing in Fig. 5 at E.

Figure 11 is the decomposition texture schematic diagram of driving assembly described in the utility model first embodiment.

Figure 12 is the assembling structure schematic diagram of driving assembly described in the utility model first embodiment.

Figure 13 is the structural schematic diagram of the second driving member described in the utility model first embodiment.

Figure 14 is the decomposition texture schematic diagram of sliding door assembly described in the utility model first embodiment.

Figure 15 is the enlarged drawing in Figure 14 at F.

Figure 16 is the enlarged drawing in Figure 14 at G.

Figure 17 is the enlarged drawing in Figure 14 at H.

Figure 18 is the enlarged drawing in Figure 14 at M.

Figure 19 is the structure at the second visual angle of opposite opened sliding door motion structure described in the utility model first embodiment Schematic diagram.

Figure 20 is the part of the decomposition texture of opposite opened sliding door motion structure described in the utility model first embodiment Structural schematic diagram.

Figure 21 is the enlarged drawing in Figure 20 at X.

Figure 22 is the enlarged drawing in Figure 20 at Y.

Figure 23 is the partial structural diagram for the sliding door assembly that preferred embodiment provides.

Figure 24 is the partial structural diagram for the sliding door assembly that the utility model first embodiment provides.

Figure 25 is the decomposition texture schematic diagram of opposite opened sliding door motion structure described in the utility model first embodiment.

Figure 26 is the structural schematic diagram of air conditioner described in the utility model second embodiment.

Description of symbols:

1- open type sliding door motion structure；2- front panel liner plate；3- driving assembly；4- sliding door assembly；5- air outlet；7- Mounting groove；8- upper guide plate；9- sliding groove；10- installation part；The first positioning column of 11-；12- holding part；13- positive stop strip；14- connects Socket part；15- guide sliding part；16- recess；17- first positioning hole；18- mounting hole；19- holding hole；20- mounting base；21- slide guide part； The second driving member of 22-；23- actuator；24- mounting structure；The first driving member of 25-；26- pedestal；27- footstock；28- clamping is convex It rises；29- buckle；30- fixed ear；31- slide guide wall；32- slide guide muscle；33- stop block；The driving section 34-；35- linkage portion；36- is held Support plate；The first hangers of 37-；The second hangers of 38-；39- guide runner；The first limited block of 40-；41- loading end；42- sliding door；43- Slide door lining；44- clamping button；45- bayonet；46- accommodation groove；47- abrasionproof slide guide part；48- load-bearing slide guide part；49- fixing axle； The first driving groove of 50-；The second driving groove of 51-；52- limiting slot；53- conducting wire wears portion；54- coiling cavity；The first fixed knot of 55- Structure；56- hook；57- card line part；The second fixed structure of 58-；59- wire guide；60- switchboard embedding part；61- air conditioner；62- Rear panel；63- lamina tecti.

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 term " first " being previously mentioned in the embodiments of the present invention, " second " etc. are only used for distinguishing description, It is not understood to indicate or imply relative importance.

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

First embodiment

Please refer to Fig. 1, a kind of opposite opened sliding door motion structure 1 disclosed in the present embodiment includes front panel liner plate 2, driving Component 3 and two sliding door assemblies 4.

The middle part of front panel liner plate 2 offers air outlet 5, and air outlet 5 is opened in the middle part of front panel liner plate 2, and along preceding The extending direction of panel liner plate 2 is arranged, for divulging information.The two sides of air outlet 5 are used for and sliding door assembly 4 cooperates, driving assembly 3 It being forward-mounted on plate liner plate 2, two sliding door assemblies 4 are respectively arranged at the two sides of air outlet 5, and connect with driving assembly 3, To move toward one another under the driving effect of driving assembly 3 to close air outlet 5, alternatively, backwards to movement to open air outlet 5.

It should be noted that concealing the part-structure of one of sliding door assembly 4 in Fig. 1.

Incorporated by reference to referring to Fig. 2 and Fig. 3, in the present embodiment, the two sides of air outlet 5 offer two mounting grooves 7 up and down respectively, For installing driving assembly 3.

Incorporated by reference to referring to Fig. 2 and Fig. 4, in the present embodiment, opposite opened sliding door motion structure 1 further includes upper guide plate 8, on Guide-rail plate 8 is detachably connected with front panel liner plate 2, and between upper guide plate 8 and front panel liner plate 2 formed sliding groove 9, with Cooperation is rolled in the top with sliding door assembly 4.

Incorporated by reference to referring to figure 5 and figure 6, in the present embodiment, the quantity of upper guide plate 8 is two, and two upper guide plates 8 are distinguished Be set to the two sides of air outlet 5, and connect respectively with the top side detachable of front panel liner plate 2, form two sliding grooves 9, with Cooperate in being rolled with two sliding door assemblies 4.

It should be appreciated that the quantity of sliding groove 9 can only be arranged one in other preferred embodiments, to correspond to and one Sliding door assembly 4 rolls cooperation.

As an implementation, in the present embodiment, the top end face of front panel liner plate 2 is plane, as loading end 41. Installation part 10, the first positioning column 11 and holding part 12 are arranged at intervals on the top end face of front panel liner plate 2.

Preferably, installation part 10 is threaded post, the quantity of threaded post is two, two threaded post intervals settings, with It is threadedly engaged in upper guide plate 8, facilitates connection and disassembly.

First positioning column 11 is cylindrical, and is disposed therein the side of an installation part 10, for upper guide plate 8 It plays the role of positioning.

Holding part 12 is set to the side of another installation part 10, for being fixed temporarily with upper guide plate 8.

It should be noted that in other preferred embodiments, it, can also be in the position of holding part 12 to guarantee positioning and fool proof Set or the another location on 2 top of front panel liner plate be arranged the second positioning column, and the second positioning column can be set to square column or Person's other shapes, for cooperating with upper guide plate 8.

In the present embodiment, positive stop strip 13 is additionally provided on the end face of front panel liner plate 2.It should be noted that positive stop strip 13 It is arranged along the outer peripheral edge of end face, and is located at the notch of sliding groove 9, plays position-limiting action.

Incorporated by reference to referring to Fig. 7 and Fig. 8, in the present embodiment, upper guide plate 8 is arc-shaped, with for and front panel liner plate 2 match It closes.

Upper guide plate 8 includes integrally formed interconnecting piece 14 and guide sliding part 15.Interconnecting piece 14 and guide sliding part 15 press diagram side It is distributed to the left and right, and is respectively used to cooperate with the end face of front panel liner plate 2.Wherein, interconnecting piece 14 is used for and front panel liner plate 2 can Dismantling connection, guide sliding part 15 is used for and the end face of front panel liner plate 2 forms sliding groove 9.

In the present embodiment, guide sliding part 15 is provided with the L-shaped recess 16 in section.It is understood that when upper guide plate 8 with When front panel liner plate 2 connects, L-shaped recess 16 and the end face of front panel liner plate 2 form sliding groove 9.Also, L-shaped recess 16 Form the bottom wall and another side wall of sliding groove 9.

In the present embodiment, mounting hole 18 is offered on interconnecting piece 14, the quantity of mounting hole 18 is two, two mounting holes 18 It is arranged corresponding to two installation parts 10, and for being threadedly engaged with installation part 10.

The side of one of mounting hole 18 offers first positioning hole 17, and first positioning hole 17 and the first positioning column 11 are right It should be arranged, the first positioning column 11 protrudes into first positioning hole 17.

The side of another mounting hole 18 offers holding hole 19, and holding hole 19 is correspondingly arranged with shackle member, holding part 12 It is clamped with holding hole 19.

It should be noted that wherein, first positioning hole 17 is provided in round, and blocked hole is square.It should be appreciated that at other In preferred embodiment, holding hole 19 can be also used for playing the role of positioning.

It is understood that two upper guide plates 8 are set to front panel when front panel liner plate 2 and upper guide plate 8 are assembled On two loading ends 41 at 2 top of liner plate, also, the first positioning column 11 protrudes into first positioning hole 17, holding hole 19 and holding part 12 clampings, and it is fixed further by screw to pass through mounting hole 18 and installation part 10, in guide sliding part 15 between loading end 41 shape At sliding groove 9.

It should be appreciated that front panel liner plate 2 may be arranged as top and be provided with loading end 41 in other preferred embodiments Front panel liner plate 2, and upper guide plate 8 is no longer set.

Incorporated by reference to referring to Fig. 5 and Fig. 9, in the present embodiment, the two sides of the air outlet 5 of front panel liner plate 2 are respectively along front panel The extending direction of liner plate 2 is arranged at intervals with multiple mounting bases 20, is provided with slide guide part 21 in each mounting base 20, with for and Sliding door assembly 4 is slidably matched.

To guarantee the smooth of operation, in the present embodiment, the axis direction of slide guide part 21 is parallel with front panel liner plate 2.As A kind of embodiment is provided with installation axle in each mounting base 20, and slide guide part 21 and installation axle rotation connect, also, install The axis direction of axis is parallel with the extending direction of front panel liner plate 2.

It should be noted that slide guide part 21 can select slide guide bearing.This assembly method of slide guide part 21 can facilitate The installation of sliding door assembly 4 has carry effect to sliding door assembly 4, is not easy to fall.

It should be noted that mounting base 20 is as a convex block on front panel liner plate 2, installation axle is as in mounting base 20 One convex block, installation axle, mounting base 20 can be integrally formed with front panel liner plate 2, and slide guide part 21 and installation axle are interference fitted.

It is understood that multiple mounting bases 20 are symmetrically disposed on the two sides of air outlet 5, sliding door may further ensure that The stability of 4 structure of component, prevents its deformation.

As an implementation, it in the present embodiment, is respectively provided in each mounting base 20 there are two slide guide part 21, with enhancing Slide guide effect.

It should be appreciated that in other preferred embodiments, the quantity of slide guide part 21 can select one, three or multiple.

Incorporated by reference to referring to Fig. 5 and Figure 10, in order to facilitate the assembly of sliding door assembly 4, in the present embodiment, opposite opened sliding door Motion structure 1 further includes the second driving member 22, and the second driving member 22 is driven with driving assembly 3, for connecting with sliding door assembly 4 It connects.

Incorporated by reference to referring to Fig.1 1 and Figure 12, driving assembly 3 includes actuator 23, mounting structure 24 and the first driving member 25.

Wherein, mounting structure 24 is for being fixed on front panel liner plate 2.First driving member 25 is set to mounting structure 24 Interior, actuator 23 is set to the bottom outside of mounting structure 24, and actuator 23 passes through mounting structure 24 and the first driving member 25 connections, to drive the movement of the first driving member 25, the first driving member 25 is used for and the transmission cooperation of the second driving member 22.

It is understood that actuator 23 can select servo motor, the first driving member 25 can select transmission gear.It drives Moving part 23 drives the rotation of the first driving member 25, and the first driving member 25 is used for and the cooperation of the second driving member 22, to drive the second transmission Part 22 is mobile relative to front panel liner plate 2.

It should be appreciated that in other preferred embodiments, as long as before being able to achieve second driving member 22 of the drive of driving assembly 3 relatively Panel liner plate 2 slides, and can also select belt wheel transmission between driving assembly 3 and the second driving member 22.

As an implementation, in the present embodiment, mounting structure 24 includes pedestal 26 and footstock 27, pedestal 26 and footstock 27 are detachably connected, and the first driving member 25 is set between footstock 27 and pedestal 26, and actuator 23 passes through pedestal 26 and with first Driving member 25 connects.

Specifically, being provided with clamping protrusion 28 on pedestal 26 in the present embodiment, it is provided with buckle 29 on footstock 27, buckles 29 cooperate with clamping protrusion 28.It should be appreciated that pedestal 26 and footstock 27 can also use and the modes reality such as be clamped or be threadedly engaged Now connect.

Fixed ear 30 is respectively arranged on pedestal 26 and footstock 27, fixed ear 30 is used to be installed on mounting groove 7 by screw Inner wall.It should be appreciated that a fixed ear 30 can be separately provided with the inner wall with mounting groove 7 in other preferred embodiments Connection or driving assembly 3 can also realize the assembly with front panel liner plate 2 with modes such as interference fits.

In order to be to rise slide guide effect in 22 transmission process of the second driving member, in the present embodiment, pedestal 26 and footstock 27 are equal It is provided with slide guide wall 31, two slide guide walls 31 are oppositely arranged.It is understood that two slide guide walls 31 are all set in 27 He of footstock The periphery of pedestal 26, for cooperating with the second driving member 22.

It should be noted that the outside projection in the present embodiment refers to relative to being set between footstock 27 and pedestal 26 The periphery of first driving member 25.

As an implementation, the inner surface and the outer surface of slide guide wall 31 is provided with slide guide muscle 32, to realize slide guide It is contacted between wall 31 and the second driving member 22 in line, there is slide guide effect, and can reduce noise.In the present embodiment, pedestal 26 On go back convex equipped with stop block 33, to play position-limiting action for the sliding to the second driving member 22.

It should be noted that the extending direction of stop block 33 and the extending direction of two slide guide walls 31 are vertically arranged.This Signified waiting up and down is the direction up and down to illustrate direction in embodiment.

It should be appreciated that the structure of driving assembly 3 can have different variations, for example, driving group in other preferred embodiments Part 3 only includes that actuator 23 and the first driving member 25, actuator 23 are fixed on front panel liner plate 2, and the first driving member 25 is used for It is driven with the second driving member 22.Alternatively, driving assembly 3 includes that actuator 23, the first driving member 25 and pedestal 26, actuator 23 are worn It crosses pedestal 26 and is connect with the first driving member 25, pedestal 26 is fixed on front panel liner plate 2, also, is also equipped on pedestal 26 For to the slide guide wall 31 for having slided position-limiting action of the second driving member 22 and stop block 33 etc..

Please refer to Figure 13, in the present embodiment, the second driving member 22 includes driving section 34 and linkage portion 35.Wherein, driving section Be arranged on 34 it is with teeth, with for and the first driving member 25 engagement.Linkage portion 35 is used for and sliding door assembly 4 cooperates, to drive cunning The opposite front panel liner plate 2 of dynamic door component 4 slides.

It is understood that driving section 34 is embedded between footstock 27 and pedestal 26 and is driven with the first driving member 25, linkage Portion 35 is outwardly protruded from front panel liner plate 2, to be embedded in sliding door assembly 4, drives driving section 34 in driving assembly 3 to realize When opposite front panel liner plate 2 slides, linkage portion 35 drives sliding door assembly 4 to slide with respect to front panel liner plate 2.

As an implementation, in the present embodiment, linkage portion 35 includes loading plate 36, the first hangers 37 and the second hangers 38.36 convex of loading plate is set to driving section 34, and the first hangers 37 is set to 36 upper end of loading plate, and the second hangers 38 is also disposed on 36 upper end of loading plate, and be arranged with 37 spacing side by side of the first hangers.It is understood that the first hangers 37 and the second hangers 38 are For hanging sliding door assembly 4, to facilitate equipment, and it is able to drive sliding door assembly 4 and moves left and right.

It should be noted that foring two guide runners 39 up and down between loading plate 36 and driving section 34 in the present embodiment. Also, upper and lower two guide runners 39 are backwards to setting, that is to say, that the notch of upper and lower two guide runners 39 is contrary.

In order to reduce the resistance of sliding, in the present embodiment, the opening direction of guide runner 39 and the axis direction of driving section 34 And the axis direction of linkage portion 35 is parallel.

It is understood that two slide guide walls 31 can be respectively protruding into two guide runners 39 to play slide guide position-limiting action.

As an implementation, in the present embodiment, linkage portion 35 further includes the first limited block 40 and the second limited block (figure It does not mark).First limited block 40 and the second limited block are arranged at intervals at loading plate 36 relative to the first hangers 37 and the second hangers 38 The other end.

It is understood that the first hangers 37, the second hangers 38, the first limited block 40 and the second limited block are both with respect to holding Support plate 36 is vertically arranged, and driving section 34 is also vertically arranged, and realizes transmission to facilitate, and can conveniently realize sliding door group The carry of part 4 and the first hangers 37 and the second hangers 38, the phase interworking of the first limited block 40 and the second limited block and stop block 33 It closes to limit.

The vertical direction of the present embodiment meaning is vertical direction as shown in the figure, also refers to 4 motion structure of sliding door assembly In use, the use direction of sliding door assembly 4 and front panel liner plate 2.

It is understood that stop block 33 can be used in sliding into the first pole with respect to front panel liner plate 2 in sliding door assembly 4 It when extreme position, is supported with the first limited block 40, and for sliding into second limit with respect to front panel liner plate 2 in sliding door assembly 4 When position, supported with the second limited block.

The first extreme position i.e. the second extreme position refers to that sliding door assembly 4 is left with respect to front panel liner plate 2 in the present embodiment During moving right, slide guide wall 31 will skid off the position of guide runner 39 and slide guide wall 31 towards a left side and will skid off and lead towards the right side The position of sliding slot 39.

Incorporated by reference to referring to Fig. 5 and Figure 10, in the present embodiment, when the second driving member 22 and driving assembly 3 assemble, by actuator 23 pass through pedestal 26 and connect with the first driving member 25, and the tooth of the driving section 34 of the second driving member 22 and the first driving member 25 are nibbled It closes, also, stop block 33 is set between the first limited block 40 and the second limited block, guide runner 39 directed downwardly is led with pedestal 26 Slide wall 31 cooperates, and then covers footstock 27 and closes pedestal 26, makes the guide runner 39 of the insertion of slide guide wall 31 of footstock 27 upward, and pass through Buckle 29 is realized with clamping protrusion 28 and is connected and fixed.

It is understood that the second driving member 22 and driving assembly 3 after assembling can be further advanced by fixed ear 30 fix with the inner wall of the mounting groove 7 opened up on front panel liner plate 2.

Incorporated by reference to referring to Fig.1 4 and Figure 15, sliding door assembly 4 includes sliding door 42 and sliding door lining 43, sliding door 42 with Sliding door lining 43 is detachably connected.

As an implementation, in the present embodiment, the inner wall of sliding door 42 is provided with clamping button 44, slides door lining 43 On offer bayonet 45, clamping button 44 is caught in bayonet 45, with realize sliding door 42 and slide door lining 43 connection.

It should be appreciated that, in order to guarantee firm connection relationship, the quantity of clamping button 44 and bayonet 45 is in the present embodiment It is multiple, and it is respectively separated setting.

In other preferred embodiments, sliding door 42 can also be connected with sliding door lining 43 by modes such as grafting.

In the present embodiment, accommodation groove 46 is offered on the inner wall of the sliding door lining 43, is equipped in accommodation groove 46 anti- Slide guide part 47 is ground, abrasionproof slide guide part 47 is used to be slidably matched with the outer surface of front panel liner plate 2, to prevent the hair of sliding stop door component 4 The shape that changes and the 2 phase mutual friction of front panel liner plate, cause to wear.

Incorporated by reference to referring to Fig.1 4 and Figure 16, in the present embodiment, the inside of sliding door lining 43 is provided with load-bearing slide guide part 48, Load-bearing slide guide part 48 is matched towards the inside horizontal extension for sliding door lining 43, and for protruding into sliding groove 9 with the rolling of loading end 41 It closes.

As an implementation, in the present embodiment, the inside of sliding door lining 43 is provided with fixing axle 49, load-bearing slide guide Part 48 and 49 rotatable engagement of fixing axle.

It should be noted that load-bearing slide guide part 48 can select load-bearing bearing.In the present embodiment, the number of load-bearing slide guide part 48 Amount is multiple, and multiple 48 spacing side by side of load-bearing slide guide part are arranged, for cooperating with sliding groove 9.

It is understood that the loading end 41 of front panel liner plate 2, is used not only for rolling with load-bearing slide guide part 48 and match It closes, the gravity of sliding door assembly 4 can also be further carried by load-bearing slide guide part 48.The loading end 41 is used for and upper guide plate 8 form sliding groove 9, and form a side wall of sliding groove 9.

Incorporated by reference to referring to Fig.1 4 and Figure 17, in the present embodiment, the is yet formed between sliding door 42 and sliding door lining 43 One driving groove 50 and the second driving groove 51, the first driving groove 50 and the setting of 51 spacing side by side of the second driving groove, and the first transmission The notch of the notch of slot 50 and the second driving groove 51 is arranged downward.

It is understood that the first hangers 37 can be embedded at the first driving groove 50, the second hangers 38 can be embedded at Two driving grooves 51.

It should be appreciated that the size shape of the first driving groove 50 is identical as the size shape of the first hangers 37, or it is slightly larger than The size of first hangers 37, the size shape of the second driving groove 51 is identical as the size shape of the second hangers 38, or is slightly larger than The size of second hangers 38, with convenient for assembly.Also, the size shape of the first hangers 37 and the second hangers 38 can be set to not Together, to play the effect for assembling fool proof.

It should be noted that sliding door 42 can be set with sliding door lining 43 and be integrated in other preferred embodiments, And the first driving groove 50 and the second driving groove 51 are directly opened up on sliding door assembly 4.

Incorporated by reference to referring to Fig.1 4 and Figure 18, in the present embodiment, limit is yet formed between sliding door 42 and sliding door lining 43 Position slot 52, limiting slot 52 are set to the middle part of sliding door assembly 4, and for sliding with the slide guide part 21 being arranged on front panel liner plate 2 Dynamic cooperation.

Preferably, the inner wall of sliding door 42 is in smooth surface, and sliding door lining 43 has the recess 16 of dorsal glide door 42, To connect to form limiting slot 52 with sliding door 42, it is to be understood that in the present embodiment, there are two be oppositely arranged the tool of limiting slot 52 Sliding wall and two side walls being oppositely arranged, wherein two sliding walls can be used in the state that slide guide part 21 protrudes into Slide guide part 21 is slidably matched, and two side walls play position-limiting action to the sliding of slide guide part 21, with 4 left and right directions of limit slippage door component Sliding distance.

It should be appreciated that in other preferred embodiments, sliding door 42 and sliding door lining 43 can with one-step die casting, And limiting slot 52 of the opening towards 4 one end of sliding door assembly is directly opened up on the sliding door assembly 4, to realize slide guide and limit The effect of position.

Please refer to Figure 19, in the present embodiment, in order to facilitate cabling, in front between plate liner plate 2 and sliding door lining 43 also It is provided with Wiring structure.Specifically, referring to figure 2. 0, the rear side of sliding door lining 43 is provided with conducting wire and wears portion 53, front panel Liner plate 2 is provided with coiling cavity 54, and when sliding door assembly 4 and front panel liner plate 2 assemble, coiling cavity 54 and conducting wire wear portion 53 It is corresponding.

Slide door lining 43 relative to front panel liner plate 2 in sliding process, conducting wire wear portion 53 and coiling cavity 54 to Small part is corresponding, i.e., in the sliding stroke of sliding door lining 43, coiling cavity 54 and conducting wire wear portion 53 always and have part weight It is folded, so that the first end of conducting wire is connect with electric-controlled box, then after being passed through in coiling cavity 54, then runs through conducting wire and wear portion 53, Finally the second end of conducting wire is connect with control switch plate.

When sliding door assembly 4 is slided relative to front panel liner plate 2, conducting wire includes the first fixed section and the second fixed section, Wherein, the first fixed section is fixed at front panel liner plate 2, and the second fixed section is fixed at sliding door lining 43, and first is solid Determine the swing conducting wire that certain length is reserved between section and the second fixed section, the coiling of swing conducting wire and front panel liner plate 2 here Cavity 54 is corresponding, and conducting wire is put with moving in the coiling cavity 54 of plate liner plate 2 in front for sliding door lining 43 It is dynamic.

It should be noted that being recessed inwardly using sliding side that door lining 43 and front panel liner plate 2 outwardly protrude as outside Side be inside, sliding door lining 43 is located at the outside of front panel 2.

Referring to figure 2. 1, coiling cavity 54 is the macropore being provided on front panel liner plate 2, slides door lining 43 relative to preceding When panel liner plate 2 slides, amplitude of fluctuation of the conducting wire in coiling cavity 54 is substantially met.

Optionally, the inside of front panel liner plate 2 is provided with first fixed structure 55, and the first fixed structure 55 is for fixing First fixed section of conducting wire wears position and determines the position of first fixed structure 55, it is preferable that first is solid according to conducting wire is practical The circumferential direction that structure 55 is located at coiling cavity 54 is determined, so as to which the first fixed section of conducting wire is fixed on front panel liner plate 2, and side Just conducting wire is passed through from coiling cavity 54, and can be according to requiring to be swung.

In the present embodiment, first fixed structure 55 is for fixing conducting wire, since the first end of conducting wire is connect with electric-controlled box, The second end of conducting wire is connect with control switch plate, which is located at the position of the first end of conducting wire.

Specifically, first fixed structure 55 includes hook 56 and card line part 57, hook 56 is fixedly installed on coiling cavity 54 Top edge, card line part 57 is fixedly installed on the side of coiling cavity 54, and conducting wire successively passes through card line part 57 and hook 56 so that First fixed section is connect with front panel liner plate 2, and position is relatively fixed.

Incorporated by reference to referring to Figure 20 and Figure 22, conducting wire wears portion 53 and is provided with the second fixed structure 58 and wire guide 59, and second Fixed structure 58 is adjacent with wire guide 59, and the second fixed structure 58 is for fixing conducting wire, as described above, the first end of conducting wire and electricity Box connection is controlled, the second end of conducting wire is connect with control switch plate, and the second fixed structure 58 is located at the second end of conducting wire.According to conducting wire Installation scenarios, the second fixed structure 58 is adjacent with wire guide 59, i.e. it is fixed that the first fixed section of conducting wire is fixedly installed on first Structure 55, the second fixed section of conducting wire are fixedly installed on the second fixed structure 58, fixed by first fixed structure 55 and second Structure 58 swings the position of conducting wire to limit, and swings conducting wire and be capable of in the coiling cavity 54 of plate liner plate 2 in front and swing, preferably Solve conducting wire with sliding door lining 43 wear phenomenon that occurs in sliding, improve service life.

Optionally, in the first structure, as shown in figure 22, wire guide 59 is cable-through hole, and the second fixed structure 58 is set to It slides the inside of door lining 43 and is located at the top of cable-through hole, after the second fixed section of conducting wire is fixed on the second fixed structure 58, Then it is worn from wire guide 59 to the outside of sliding door lining 43.

Optionally, in second of structure, as shown in figure 23, wire guide 59 is conducting wire cavity, the size phase of the conducting wire cavity Size than the wire guide 59 in the first structure is big, when sliding door lining 43 relative to front panel liner plate 2 in sliding process In, conducting wire cavity is at least partly corresponding with coiling cavity 54, and the second fixed structure 58 is set to the outside of sliding door lining 43 And it is located at the lower section of conducting wire cavity.

Conducting wire cavity is roughly the same with the size of coiling cavity 54, after sliding door lining 43 and front panel liner plate 2 is closed, During sliding door lining 43 horizontally slips relative to front panel liner plate 2, conducting wire cavity and coiling cavity 54 are at least partly heavy It is folded, conducting wire is swung at cavity, is conveniently operated with.

Optionally, the second fixed structure 58 includes wire clamp and fastener, and wire clamp clamps the second fixed section of conducting wire, by tight Second fixed section of conducting wire is fixedly connected by firmware with sliding door lining 43.

Referring to figure 2. 4, sliding door lining 43 further includes switchboard embedding part 60, and switchboard embedding part 60 is worn with conducting wire Portion 53 is adjacent, and switchboard embedding part 60 is located at downstream and the conducting wire electrical connection that conducting wire wears portion 53.

Optionally, opposite opened sliding door motion structure 1 further includes that connecting wire (figure is not marked) and control switch plate (are schemed not Mark), control switch plate is fixedly installed on switchboard embedding part 60, and connecting wire successively wears portion 53 from coiling cavity 54 and conducting wire It passes through, and is connect with control switch plate.

It, will when opposite opened sliding door motion structure 1 disclosed in the present embodiment assembles incorporated by reference to referring to Figures 1 and 25 The driving assembly 3 and the second driving member 22 assembled is fixed on front panel liner plate 2 by the fixed ear 30 of footstock 27 and pedestal 26 On mounting groove 7 in.It is to be appreciated that each mounting groove 7 one group of driving assembly 3 of corresponding installation and the second driving member 22.

Then the sliding door assembly 4 of load-bearing slide guide part 48 will be assembled close to front panel liner plate 2, by one of sliding door The first driving groove 50 and the second driving groove 51 of component 4 respectively correspond carry on the first hangers 37 and the second hangers 38, simultaneously It is respectively embedded into multiple slide guide parts 21 in multiple limiting slots 52, and load-bearing slide guide part 48 is set to 2 top of front panel liner plate On loading end 41, then by upper guide plate 8 and front panel liner plate 2 fixation form guide runner 39, enable load-bearing slide guide part 48 with Sliding groove 9 is slidably matched, and completes assembly.Another sliding door assembly 4 repeats above-mentioned assembly movement.

It is understood that the positive stop strip 13 of 9 periphery of sliding groove can play position-limiting action to load-bearing slide guide part 48, prevent from holding Weight slide guide part 48 slides.Actuator 23 can drive the first driving member 25 to rotate, and be further driven to the second driving member 22 or so Sliding, while sliding door assembly 4 being driven to horizontally slip with respect to front panel liner plate 2, the load-bearing slide guide part 48 on sliding door assembly 4 is stretched Enter in sliding groove 9, and be slidably matched with sliding groove 9, the sliding of sliding door assembly 4 can be conveniently realized, to open and close front panel Air outlet 5 on liner plate 2.Also, loading end 41 can play load-bearing effect to sliding door assembly 4, can mitigate sliding door group The driving of part 4 is born.Meanwhile slide guide part 21 protrudes into the limiting slot 52 on sliding door assembly 4, it can be to sliding door assembly 4 Sliding plays a part of to be oriented to and limit, and can also play the role of carry to a certain extent.It is understood that the first hangers 37, gravity bearing relation can be not present between the second hangers 38 and sliding door assembly 4, that is to say, that the first hangers 37 and The slot bottom of one driving groove 50 can be set gap, and gap can be set in the slot bottom of the second hangers 38 and the second driving groove 51.

It, can also be by second in other preferred embodiments as long as reducing cost it should be appreciated that being able to achieve convenient for assembly Driving member 22 is set as including driving section 34 and the structure of linkage portion 35 being attached thereto, wherein driving section 34 is used for and first Driving member 25 is driven, and linkage portion 35 is protruded from front panel liner plate 2, and is nested in its periphery for sliding door assembly 4, and being capable of band Dynamic sliding door assembly 4 moves left and right.And it is to be understood that driving section 34 can also be directly with before in other preferred embodiments Panel liner plate 2 is slidably matched, and driving assembly 3 is in addition arranged to drive sliding door assembly 4 mobile relative to front panel liner plate 2, very It extremely, can also be by driving sliding door assembly 4 mobile relative to front panel liner plate 2 manually.

It should be appreciated that driving assembly 3 can also select the side of driving motor and swing rod cooperation in other preferred embodiments Formula, a driving motor drive two sliding door assemblies 4 opposite or simultaneously backwards to mobile.

It is understood that opposite opened sliding door motion structure 1 disclosed in the present embodiment, passes through the driving of driving assembly 3 two A sliding door assembly 4 is opposite perhaps to realize closing or opening to air outlet 5, also, two sliding door assemblies backwards to movement 4 top cooperates with the top slide of front panel liner plate 2 respectively, enables to the operation of sliding door assembly 4 much smoother, also, This opposite opened sliding door motion structure 1, structure is simple, convenient for assembly.

Second embodiment

Referring to figure 2. 6, in the present embodiment, disclosed air conditioner 61 includes rear panel 62, lamina tecti 63, heat exchanger (Fig. 1 Do not mark), blower (Fig. 1 is not marked) and opposite opened sliding door motion structure 1.

Wherein, the knot of opposite opened sliding door motion structure 1 and opposite opened sliding door motion structure 1 disclosed in first embodiment Structure is identical, and which is not described herein again.

Front panel liner plate 2 is connect with rear panel 62, heat exchanger and assembling in front panel liner plate 2 and rear panel 62 it Between, lamina tecti 63 is set to the top of front panel liner plate 2 and rear panel 62.

To sum up, air conditioner 61 disclosed in the present embodiment uses opposite opened sliding door movement knot provided by the utility model Structure 1, structure is simple, convenient for assembly, and two sliding door assemblies 4 can be driven opposite by driving assembly 3 or transported backwards It is dynamic, realize closing or opening to air outlet 5, also, the top of two sliding door assemblies 4 respectively with front panel liner plate 2 Top slide cooperation, enables to the operation of sliding door assembly 4 much smoother, customer experience sense is good.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (11)

1. a kind of opposite opened sliding door motion structure, which is characterized in that including front panel liner plate (2), driving assembly (3) and two Sliding door assembly (4)；

It is offered air outlet (5) in the middle part of the front panel liner plate (2), and offers coiling in the two sides of the air outlet (5) Cavity (54), two sliding door assemblies (4) are respectively arranged at the two sides of the air outlet (5), the sliding door assembly (4) It is provided with conducting wire to wear portion (53), the top of two sliding door assemblies (4) top with the front panel liner plate (2) respectively Roll cooperation；The driving component (3) is installed on the front panel liner plate (2), each sliding door assembly (4) respectively with The driving component (3) connection, the driving component (3) is for driving two sliding door assemblies (4) to move toward one another to close The air outlet (5) are closed, alternatively, two sliding door assemblies (4) of driving move backwards to open the air outlet (5), and And conducting wire can be made to swing in the coiling cavity (54), also, in the sliding door assembly (4) relative to the front In plate liner plate (2) sliding process, the conducting wire wears portion (53) and the coiling cavity (54) is at least partly corresponding.

2. opposite opened sliding door motion structure as described in claim 1, which is characterized in that the opposite opened sliding door movement knot Structure (1) further includes the second driving member (22), and second driving member (22) includes driving section (34) and linkage portion (35), the biography Dynamic portion (34) are corresponding to be driven with the driving component (3), and is slidingly arranged on the front panel liner plate (2), the linkage Portion (35) and the driving section (34) are arranged side by side, also, the linkage portion (35) is embedded at the sliding door assembly (4), institute It states driving assembly (3) and drives relatively described front panel liner plate (2) sliding of the driving section (34), the linkage portion (35) drives institute State relatively described front panel liner plate (2) sliding of sliding door assembly (4).

3. opposite opened sliding door motion structure as claimed in claim 2, which is characterized in that the linkage portion (35) includes carrying Plate (36) and the first hangers (37), the loading plate (36) are convexly equipped in the driving section (34), the first hangers (37) setting In the loading plate (36)；It is provided with the first driving groove (50) on the sliding door assembly (4), and first driving groove (50) notch is arranged towards one end of the sliding door assembly (4), and first hangers (37) is embedded at first transmission Slot (50).

4. opposite opened sliding door motion structure as claimed in claim 2, which is characterized in that the driving component (3) includes peace Assembling structure (24), the mounting structure (24) are installed on the front panel liner plate (2), are provided on the mounting structure (24) Slide guide wall (31), forms guide runner (39) between the driving section (34) and the linkage portion (35), and the slide guide wall (31) is stretched Enter the guide runner (39), and is slidably matched with the guide runner (39).

5. opposite opened sliding door motion structure as claimed in claim 4, which is characterized in that the mounting structure (24) includes bottom Seat (26) and footstock (27), the pedestal (26) is detachably connected with the footstock (27), and is respectively arranged in the front panel On liner plate (2)；The driving component (3) further includes actuator (23) and the first driving member (25), first driving member (25) It is set between the footstock (27) and the pedestal (26), the actuator (23) passes through the pedestal (26) and with described the One driving member (25) connection, first driving member (25) and the driving section (34) cooperate.

6. opposite opened sliding door motion structure as described in claim 1, which is characterized in that set on the front panel liner plate (2) It is equipped with sliding groove (9), the side wall of the sliding groove (9) forms loading end (41)；The opposite opened sliding door motion structure also wraps Load-bearing slide guide part (48) is included, the load-bearing slide guide part (48) is installed on the inner surface of the sliding door assembly (4), and described in insertion Sliding groove (9), the load-bearing slide guide part (48) are slidably matched with the loading end (41).

7. opposite opened sliding door motion structure as claimed in claim 6, which is characterized in that the opposite opened sliding door movement knot Structure further includes upper guide plate (8), and the upper guide plate (8) is detachably connected with the front panel liner plate (2), and leads on described It is formed between rail plate (8) and the front panel liner plate (2) sliding groove (9), the end face of the front panel liner plate (2) forms institute State loading end (41).

8. opposite opened sliding door motion structure as claimed in claim 7, which is characterized in that the end of the front panel liner plate (2) Face is provided with installation part (10), and the upper guide plate (8) includes interconnecting piece (14) and guide sliding part (15), on the interconnecting piece (14) It offers mounting hole (18), the installation part (10) and the mounting hole (18) cooperate, the guide sliding part (15) and the front The end face of plate liner plate (2) forms the sliding groove (9).

9. opposite opened sliding door motion structure as described in claim 1, which is characterized in that the sliding door assembly (4) it is interior It is offered on wall accommodation groove (46), abrasionproof slide guide part (47), the abrasionproof slide guide part (47) is installed in the accommodation groove (46) For being slidably matched with the outer surface of the front panel liner plate (2).

10. opposite opened sliding door motion structure as described in claim 1, which is characterized in that the front panel liner plate (2) it is interior Side is provided with first fixed structure (55), and the conducting wire wears portion (53) setting the second fixed structure (58) and wire guide (59), Second fixed structure (58) is adjacent with the wire guide (59)；

The first fixed structure (55) and second fixed structure (58) are used to fixed conducting wire, the first end of the conducting wire For connecting with electric-controlled box, the second end of the conducting wire with control switch plate for connecting, first fixed structure (55) position In the first end of the conducting wire；Second fixed structure (58) is located at the second end of the conducting wire.

11. a kind of air conditioner, which is characterized in that including rear panel (62) and such as the described in any item opposite openeds of claim 1-10 Sliding door motion structure (1), the front panel liner plate (2) connect with the rear panel (62).