CN105953393A - Moving mechanism for air conditioner sliding door - Google Patents

Abstract

The invention discloses a moving mechanism for an air conditioner sliding door. The moving mechanism comprises driving devices which are respectively arranged at the upper and lower ends of the sliding door, wherein each driving device comprises a driving mechanism and a rack; and each rack is driven by the corresponding driving mechanism to slide transversely. The moving mechanism is characterized by further comprising a sliding rail device arranged between the two driving devices. Through additional arrangement of the sliding rail device at the middle of the moving mechanism, the moving track of a sliding door part can be limited, the support to the sliding door part can be strengthened, and then the sliding door part can slide more stably and reliably.

Description

A kind of motion of sliding door of air conditioner

Technical field

The present invention relates to a kind of air-conditioner, the motion of a kind of sliding door of air conditioner.

Background technology

Along with the development of air-conditioning industry, people's living standard requires to improve constantly, and consumer is to air conditioner noises, comfortableness, outer The aspects such as sight have had higher requirement, therefore the kind of air-conditioner also gets more and more.Common air-conditioner has wind outlet panel Body, is provided with air outlet on outlet air surface plate body, by this air outlet to indoor offer hot blast or cold wind.Work as air-conditioner When being closed, outside air outlet remains exposed to, at this moment the polluter such as dust is easily accessible to air-conditioner, enters And affect the normal work of air-conditioner.Meanwhile, air outlet also can affect the attractive in appearance of air-conditioner outside being exposed to.

Therefore, increasing air-conditioner uses full-closed structure, when i.e. air-conditioner does not works can by going out/air inlet hides, Open again during work.Air-conditioner in the market, the most real by arranging motion between front panel and sliding door The most relatively slide.But, existing motion mostly is pinion and rack, such as the Application No. of the applicant The driving structure of a kind of sliding door of air conditioner disclosed in the Chinese patent of 201410369338.4, drives structure to be arranged on slip Door top and bottom, including driving motor, are connected to drive the master gear on motor, with master gear pair inside sliding door The gear drive plate answered.

Above-mentioned this pinion and rack, in motor process, resistance is produced by the sliding friction of tooth bar with track, because sliding Coefficient of friction is relatively big, causes conventional motion parts resistance big, power output and part quality is had high requirement, motion Stationarity hardly results in guarantee；Output power increases simultaneously, and the noise of generation increases the most therewith；Due to frictional force and mechanism Abrasion, motion reliability is also greatly reduced；Additionally, due to only the upper/lower terminal at sliding door arranges motion, And sliding door has certain height, thus easily cause when sliding door slides unstable, reduce reliability.

Summary of the invention

The technical problem to be solved is the problem existed for above-mentioned prior art, it is provided that a kind of raising runs flat The motion of the sliding door of air conditioner of stability.

The present invention solves the technical scheme that above-mentioned technical problem used: the motion of a kind of sliding door of air conditioner, bag Include two driving means for being separately positioned on described sliding door upper/lower terminal, described driving means include drive mechanism, And driven by described drive mechanism and the tooth bar that slides laterally, it is characterised in that: described motion also includes that slide rail fills Putting, described railroad is arranged between two driving means.

For reducing friction resistance, improve the stationarity and reliability slided, according to currently preferred, described railroad The slide mass of movement locus is limited including slide rail bearing and for housing described slide rail bearing.

For ease of arranging slide rail bearing, it is described that described railroad also includes that slide rail mounting seat, described slide rail bearing are arranged on In slide rail mounting seat, and described slide rail bearing is at horizontal rotation in surface；It is formed on described slide mass for accommodating described The accommodating cavity of slide rail bearing.

Preferably, described slide rail bearing is arranged on the end face of described slide rail mounting seat, and described slide mass includes longitudinal extension Slide mass main body, bends certain distance still further below after the inside lateral buckling in top of described slide mass main body and forms the institute of fovea superior State accommodating cavity.

For guaranteeing that sliding door parts slide normally, between radial edges and the described slide mass main body of described slide rail bearing Be slidably installed described in being smaller than the spacing between seat and described slide mass main body.

According to currently preferred, for reducing friction resistance, described drive mechanism includes motor, to be arranged on described motor defeated Gear on shaft and gearcase, the output shaft of described motor extends in described gearcase, and described gear is with described Tooth bar engages, and described gearcase is provided with the bearing that upper surface and/or lower surface with described tooth bar abut, described bearing At vertical rotation in surface.

In order to limit the movement locus of tooth bar, one of them of described gearcase and tooth bar is provided with guiding rib, described tooth Being provided with direction recess on another of wheel box and tooth bar, described guiding rib coordinates in being inserted into described direction recess and limits The movement locus of described tooth bar.

Preferably, described gearcase includes gearcase main body and is arranged on the gear lid above described gearcase main body, institute State guiding rib and include being formed on described gearcase lid the first guiding rib towards tooth bar side, and be formed at described gear Towards the second guiding rib of tooth bar side on box main body；Described direction recess includes being arranged on described tooth bar towards gear lid The first recessed direction recess of side, and it is arranged on the second of the described tooth bar fovea superior towards the side of gearcase main body Direction recess；Described first guiding rib coordinates with described first direction recess, and described second guiding rib guides with described second Groove fit.

For avoiding dust to affect the normal operation of drive mechanism in entering gearcase, in described gear lid and gearcase main body Portion has block reinforcement structure.

For reducing frictional resistance when driving means is run, described bearing includes clutch shaft bearing and the second bearing, described first Bearing is arranged on described gearcase lid and is positioned at the position above the first guiding rib, the bottom of described clutch shaft bearing radial direction and institute The upper surface adjacent with the first direction recess stating tooth bar abuts；It is upper that described second bearing is arranged on described gearcase main body Position below the second guiding rib, described second bearing top radially and tooth bar adjacent with the second direction recess under Surface abuts.

Compared with prior art, it is an advantage of the current invention that: by setting up railroad at middle part, sliding door can be limited The movement locus of parts, can strengthen the support to sliding door parts so that sliding door parts are more stable and can when sliding Lean on, and railroad uses bearing to form rolling friction, can largely reduce frictional resistance during operation, fall Low noise, increases running stability and reliability；Rolling is formed by arranging bearing on the drive means and coordinating with tooth bar Friction, can reduce frictional resistance when driving means is run, reduce noise, increase running stability and reliability.

Accompanying drawing explanation

Fig. 1 is the structural representation that the motion of the present invention is arranged on the front panel of air-conditioner；

Fig. 2 is the decomposition texture schematic diagram of the slide door structure of the motion application of the present invention；

Fig. 3 is the structural representation that the motion of the present invention coordinates with sliding door parts；

Fig. 4 is the structural representation of the driving means of the motion of the present invention；

Fig. 5 is the decomposition texture schematic diagram of the driving means of Fig. 4；

Fig. 6 is the exploded structural representation of the drive mechanism of the driving means of Fig. 4；

Fig. 7 is the structural representation of the tooth bar of the driving means of Fig. 4；

Fig. 8 is the structural representation of the railroad of the motion of the present invention；

Fig. 9 is that the railroad of the motion of the present invention coordinates schematic diagram.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the present invention is described in further detail.

Seeing Fig. 1～Fig. 3, the sliding door of air conditioner structure that the motion of a kind of sliding door of air conditioner is applied, including sliding Dynamic door part 1 and motion, motion includes driving means 2 and railroad 3.Wherein, sliding door parts 1 Including sliding door 11, for simplifying processing technology, saving material, sliding door parts 1 also include being positioned at inside sliding door 11 (sliding When dynamic door 11 is installed, towards the side of front panel of air-conditioner) sliding door liner plate 12, sliding door 11 and sliding door liner plate 12 are fixed by the cover plate 13 of upper end.Above-mentioned motion is arranged on the inner side of sliding door parts 1, is positioned at sliding door Between parts 1 and front panel.

Seeing Fig. 4～Fig. 7, driving means 2 includes two, is separately positioned on the top and bottom of sliding door parts 1.Often Individual driving means 2 includes drive mechanism 21 and tooth bar 22, and drive mechanism 21 includes motor 211 and gear 212, motor 211 are preferably motor, and gear 212 is arranged on the output shaft of motor 211, and gear 212 revolves in the horizontal plane Turn, and the tooth of gear 212 engages with the tooth of tooth bar 22, thus, when gear 212 rotates, can band carry-over bar 22 Slide.Tooth bar 22 is curved, is provided with tooth 223, the radian of tooth bar 22 entirety and cunning on the side of gear 212 The radian of dynamic door part 1 is consistent.

Drive mechanism 21 is fixed for the front panel 4 (air outlet of air-conditioner is opened in front panel 4) with air-conditioner, and Tooth bar 22 is then for fixing with sliding door parts 1.So that drive mechanism 21 can be with the outside (court of front panel 4 Side to sliding door parts 1) fixing, and avoid gear 212 to enter ash and affect normal work, drive mechanism 21 Also include gearcase, the gear lid 213 that gearcase includes gearcase main body 214, is arranged in gearcase main body 214. Above-mentioned motor 211 is arranged on bottom gearcase main body 214, and its output shaft penetrates in gearcase main body 214, gear 212 are connected with output shaft and are arranged in gearcase main body 214, and (towards cunning outside the teeth directional of gear 212 periphery The side of dynamic door part 1) it is exposed to outside gearcase main body 214.Gear lid 213 is arranged in gearcase main body 214 Side, drive mechanism 21, for being connected with the front panel of air-conditioner, thus can be fixed to front panel 4 by gear lid 213 On, the fixed form between gear lid 213 and front panel 4, preferably can be connected by screw fixing.Gear lid 213 and gearcase main body 214 is internal has block reinforcement structure 217, can guarantee that drive mechanism 21 is except gear 212 and tooth bar 22 Engagement place outside can form sealing, prevent dust from entering.

For making drive mechanism 21 drive gear 212 to rotate, thus when band carry-over bar 22 slides, tooth bar 22 can be limited Movement locus, keep tooth bar 22 motion stationarity and reduce noise, gearcase and tooth bar 22 are provided with spacing leading To mechanism.Spacing guiding mechanism includes guiding rib and direction recess, and it is interior thus real that guiding rib can be plugged into direction recess Now coordinating, guiding rib is arranged on gearcase, and direction recess is arranged on tooth bar 22, or alternatively, guiding rib Being arranged on tooth bar 22, direction recess is arranged on gearcase.In the present embodiment, it is arranged on gearcase with guiding rib On, as a example by direction recess is arranged on tooth bar 22.On gear lid 213, side towards tooth bar 22 is formed with first and leads To muscle 2131, tooth bar 22 is formed with the first recessed direction recess 221 towards the side of gear lid 213；Gearcase In main body 214, the side towards tooth bar 22 is formed with the second guiding rib 2141, and tooth bar 22 is towards gearcase main body 214 Side be formed with the second direction recess 222 of fovea superior.By joining of the first guiding rib 2131 and the first direction recess 221 Closing (the first guiding rib 2131 adaptation is inserted in the first direction recess 221), the second guiding rib 2141 and the second guiding are recessed The cooperation (the second guiding rib 2141 adaptation is inserted in the second direction recess 222) of groove 222, can limit tooth bar 22 Movement locus, also can guarantee that stationarity when tooth bar 22 moves.

For make tooth bar 22 when running steady, it is to avoid tooth bar 22 and gearcase produce sliding friction, and drive mechanism 21 is also Including the bearing being arranged on gearcase, balancing for retentivity, the bearing of the present embodiment includes clutch shaft bearing 215 and second Bearing 216.Alternatively, it is also possible to clutch shaft bearing 215 or the second bearing 216 are only set.Wherein, clutch shaft bearing 215 Being arranged on gear lid 213, be positioned at the top of the first guiding rib 2131, clutch shaft bearing 215 is horizontally disposed with that (level sets Put and refer to rotary shaft level), its bottom radially is connected to the upper surface adjacent with the first direction recess 221 of tooth bar 22 On, clutch shaft bearing 215 applies downward active force to tooth bar 22.Second bearing 216 is arranged on gearcase main body 214 On, it being positioned at the lower section of the second guiding rib 2141, the second bearing 216 is horizontally disposed with, and its top radially is connected to tooth bar On the lower surface adjacent with the second direction recess 222 of 22, the second bearing 216 applies active force upwards to tooth bar, with Support tooth bar 22.When tooth bar 22 slides, tooth bar 22 is applied accordingly by clutch shaft bearing 215 and the second bearing 216 respectively Active force, and be converted into by the sliding friction between existing tooth bar 22 and guiding rib between gearcase and tooth bar 22 Rolling friction between two groups of bearings and tooth bar 22, (coefficient of sliding friction is the highest in 0.1～0.2, and rolling friction Coefficient then only has 0.0015～0.003), it is substantially reduced frictional resistance, thus ensures that motion is reliable steadily, reduce power simultaneously Output requires and parts precision and surface requirements, reduces motion noise.At tooth bar 22 when sliding in one direction, Worked by the clutch shaft bearing 215 on diagonal and second bearing 216 respectively.

The upper surface of the position at the close two ends on tooth bar 22 length direction is respectively arranged with and raises up (or from lower surface Downwardly convex) tooth bar installation portion 224, tooth bar installation portion 224 offers installing hole, thus can be by tooth bar 22 with sliding Fixed by screw inside dynamic door part 1.

Seeing Fig. 8 and Fig. 9, railroad 3 is arranged on the middle part of sliding door parts 1, and railroad 3 can use often Guide rail, gathering sill coordinate mode.And for reducing friction resistance, the railroad 3 of the present embodiment includes slide rail Mounting seat 31, slide rail bearing 32 and slide mass 33, slide rail mounting seat 31 is fixing for the front panel 4 with air-conditioner, Preferably, slide rail mounting seat 31 offering installing hole, thus slide rail mounting seat 31 and front panel 4 can be solid by screw Fixed.Slide mass 33 is then arranged on the inner side of sliding door parts 1, can be connected fixing with the inner side of sliding door parts 1, Can also be one-body molded.

Slide rail mounting seat 31 is curved towards the side of sliding door parts 1, and the radian one of radian and sliding door parts 1 Cause.Slide rail bearing 32 is vertically arranged (be vertically arranged and refer to that rotary shaft is vertical) at the top of slide rail mounting seat 31, slide mass 33 include longitudinally disposed slide mass main body 331, the top of slide mass main body 331 to inner side (towards slide rail mounting seat 31 Side) bend certain distance still further below after bending, be consequently formed the accommodating cavity 332 of fovea superior, thus slide rail bearing 32 It is placed in the accommodating cavity 332 of slide mass 33.Between radial edges and the slide mass main body 331 of slide rail bearing 32 Spacing d1 is less than being slidably installed spacing d2 between seat 31 and slide mass main body 131, thus slide rail bearing 32 and slip Body 33 defines the glide direction of sliding door parts 1, and slide rail bearing 32 and slide mass 33 realize rolling friction simultaneously, Substantially increase stationarity and reliability that sliding door parts 1 slide.Alternatively, slide rail bearing 32 can also be arranged Lower surface in slide rail mounting seat 31 is the most vertical the most down, now houses cavity 332 the most recessed.

During installation, first the gearcase of two driving means 2 is respectively fixed to the upper/lower terminal outside front panel 4, The slide rail mounting seat 31 of railroad 3 is fixed to the middle part outside front panel 4, now, in tooth bar 22 and gearcase Gear 212 engage；Then sliding door parts 1 set is installed on driving means 2 and railroad 3, by tooth bar 22 Fix with the inner side of sliding door parts 1, and the slide rail bearing 32 of railroad 3 is placed in the accommodating cavity of slide mass 33 In 332, thus complete to install.

Claims (10)

1. a motion for sliding door of air conditioner, including for being separately positioned on described sliding door upper/lower terminal Driving means (2), described driving means (2) include drive mechanism (21) and by described drive mechanism (21) drive and horizontal The tooth bar (22) slided, it is characterised in that: described motion also includes railroad (3), and described railroad (3) is arranged Between two driving means (2).

2. the motion of sliding door of air conditioner as claimed in claim 1, it is characterised in that: described railroad (3) Including slide rail bearing (32) and be used for housing described slide rail bearing (32) thus limit the slide mass (33) of movement locus.

3. the motion of sliding door of air conditioner as claimed in claim 2, it is characterised in that: described railroad (3) Also including slide rail mounting seat (31), described slide rail bearing (32) is arranged on described slide rail mounting seat (31), and described slide rail Bearing (32) is at horizontal rotation in surface；The accommodating sky for housing described slide rail bearing (32) it is formed with on described slide mass (33) Chamber (332).

4. the motion of sliding door of air conditioner as claimed in claim 3, it is characterised in that: described slide rail bearing (32) Being arranged on the end face of described slide rail mounting seat (31), described slide mass (33) includes the slide mass main body (331) of longitudinal extension, Bend certain distance still further below after the inside lateral buckling in top of described slide mass main body (331) and form the described accommodating of fovea superior Cavity (332).

5. the motion of sliding door of air conditioner as claimed in claim 4, it is characterised in that: described slide rail bearing (32) Radial edges and described slide mass main body (331) between spacing (d1) be less than described in be slidably installed seat (31) and described slip Spacing (d2) between phosphor bodies (131).

6. the motion of the sliding door of air conditioner as according to any one of Claims 1 to 5, it is characterised in that: described Drive mechanism (21) includes motor (211), be arranged on described motor (211) output shaft gear (212) and gearcase, The output shaft of described motor (211) extends in described gearcase, and described gear (212) engages with described tooth bar (22), described Being provided with the bearing that upper surface and/or lower surface with described tooth bar (22) abut on gearcase, described bearing is in vertical plane Rotate.

7. the motion of sliding door of air conditioner as claimed in claim 6, it is characterised in that: described gearcase and tooth It is provided with guiding rib in one of them of bar (22), another of described gearcase and tooth bar (22) is provided with direction recess, Described guiding rib coordinates in being inserted into described direction recess and limits the movement locus of described tooth bar (22).

8. the motion of sliding door of air conditioner as claimed in claim 7, it is characterised in that: described gearcase includes Gearcase main body (214) and be arranged on described gearcase main body (214) top gear lid (213), described guiding rib includes It is formed at the first guiding rib (2131) towards tooth bar (22) side on described gear lid (213), and is formed at described tooth Towards second guiding rib (2141) of tooth bar (22) side on wheel box main body (214)；Described direction recess includes being arranged on described Tooth bar (22) is towards recessed first direction recess (221) of gear lid (213) side, and is arranged on described tooth bar (22) Second direction recess (222) of fovea superior towards the side of gearcase main body (214)；Described first guiding rib (2131) is with described First direction recess (221) coordinates, and described second guiding rib (2141) coordinates with described second direction recess (222).

9. the motion of sliding door of air conditioner as claimed in claim 8, it is characterised in that: described gear lid (213) Internal with gearcase main body (214) have block reinforcement structure (217).

10. the motion of sliding door of air conditioner as claimed in claim 8, it is characterised in that: described bearing includes the One bearing (215) and the second bearing (216), described clutch shaft bearing (215) is arranged on described gear lid (213) and is positioned at first The position of guiding rib (2131) top, described clutch shaft bearing (215) bottom radially guides with first with described tooth bar (22) The upper surface that groove (221) is adjacent abuts；Described second bearing (216) is arranged on described gearcase main body (214) and is positioned at The position of two guiding ribs (2141) lower section, described second bearing (216) top radially is recessed with the second guiding with tooth bar (22) The lower surface that groove (222) is adjacent abuts.