阅读说明：本技术 一种线控器安装组件及空气调节设备 (Drive-by-wire ware installation component and air conditioning equipment ) 是由 黄坤鹏 何相萍 于 2019-10-24 设计创作，主要内容包括：本发明提供一种线控器安装组件及空气调节设备,属于空调技术领域。所述线控器安装组件包括安装槽和线控器安装座,所述安装槽用于设置在面板上,所述线控器安装座与所述安装槽滑动连接。本发明所述线控器安装组件,通过设置所述安装槽和所述线控器安装座,将所述线控器安装座与所述安装槽设置为滑动连接,将传统的线控器固定安装改变为滑动安装,将线控器内置于所述安装槽,只需要从所述安装槽内拉出所述线控器安装座,即可对线控器进行参数设定、检修或维修等操作,另外,还避免了误触导致的参数异常,可靠性高,实用性强。(The invention provides a drive-by-wire installation assembly and air conditioning equipment, and belongs to the technical field of air conditioners. The drive-by-wire ware installation component comprises an installation groove and a drive-by-wire ware installation seat, the installation groove is used for being arranged on the panel, and the drive-by-wire ware installation seat is connected with the installation groove in a sliding manner. According to the installation assembly of the wire controller, the installation groove and the installation seat are arranged, the wire controller installation seat is in sliding connection with the installation groove, the fixed installation of the traditional wire controller is changed into sliding installation, the wire controller is arranged in the installation groove, the wire controller installation seat is pulled out from the installation groove, the operation such as parameter setting, maintenance or repair can be carried out on the wire controller, in addition, the parameter abnormity caused by mistaken touch is avoided, the reliability is high, and the practicability is strong.)

1. The utility model provides a drive-by-wire ware installation component which characterized in that, includes mounting groove (200) and drive-by-wire ware mount pad (300), mounting groove (200) are used for setting up on panel (100), drive-by-wire ware mount pad (300) with mounting groove (200) sliding connection.

2. The drive-by-wire installation assembly of claim 1, further comprising a guide slider (400), wherein the guide slider (400) is fixed to an inner side wall of the installation groove (200); guide slide (400) with be provided with sliding connection structure on drive-by-wire ware mount pad (300), sliding connection structure includes: a guide sliding column (310) and a guide sliding groove (410);

the guide sliding groove (410) is arranged on the guide sliding seat (400), and the guide sliding column (310) is arranged on the wired controller mounting seat (300); or the guide sliding groove (410) is arranged on the wired controller mounting seat (300), and the guide sliding column (310) is arranged on the guide sliding seat (400);

the guide chute (410) is connected with the guide sliding column (310) in a sliding mode.

3. The drive-by-wire installation assembly of claim 2, wherein the sliding connection structure further comprises a limiting groove (420), the limiting groove (420) is disposed at an end of the guide-sliding groove (410) and is communicated with the guide-sliding groove (410), and a cross-sectional shape of the limiting groove (420) is semicircular.

4. The drive-by-wire installation assembly of claim 2, wherein the guide slot (410) comprises a first slot (411) and a second slot (412), the first slot (411) being in communication with the second slot (412).

5. The drive-by-wire installation assembly of claim 4, wherein the first sliding slot (411) and the second sliding slot (412) are arranged on the guide slide (400), the second sliding slot (412) is positioned above the first sliding slot (411), and the second sliding slot (412) is arranged obliquely to one side close to the opening of the installation slot (200); or the first sliding groove (411) and the second sliding groove (412) are arranged on the drive-by-wire device mounting seat (300), the second sliding groove (412) is positioned below the first sliding groove (411), and the second sliding groove (412) is obliquely arranged towards one side close to the opening of the mounting groove (200).

6. The installation assembly of the wired controller of claim 5, wherein the guiding sliding column (310) comprises a first guiding sliding column (311) and a second guiding sliding column (312), the first guiding sliding column (311) and the second guiding sliding column (312) are both connected with the first sliding slot (411) in a sliding manner, when the wired controller installation seat (300) slides out of the installation slot (200) along the first sliding slot (411) for a preset distance, the first guiding sliding column (311) is located in the first sliding slot (411), and the second guiding sliding column (312) slides along the second sliding slot (412).

7. The cable operator mounting assembly of claim 1, further comprising a cover plate (500), wherein the cover plate (500) is coupled to the cable operator mounting seat (300), and the cover plate (500) is disposed to cover an opening of the mounting groove (200) when the cable operator mounting seat (300) is mounted in the mounting groove (200).

8. The cable operator mounting assembly of claim 7, wherein a protection plate (510) is provided on the cover plate (500), the protection plate (510) being provided along an edge of the cover plate (500), the protection plate (510) being located on a side of the cover plate (500) near a bottom of the mounting groove (200) when the cable operator mount (300) is mounted in the mounting groove (200).

9. The drive-by-wire mounting assembly of claim 7, further comprising a push magnet switch (700) and a suction piece, wherein the push magnet switch (700) is disposed on the cover plate (500), the suction piece is disposed in the mounting groove (200), and the push magnet switch (700) and the suction piece cooperate.

10. The drive-by-wire mounting assembly of claim 1, wherein the drive-by-wire mounting base (300) is provided with a snap (320), and the snap (320) is used for clamping with the drive-by-wire (600).

11. The drive-by-wire installation assembly according to claim 2, wherein the guide sliders (400) are provided in two, and the two guide sliders (400) are respectively located at left and right sides inside the installation groove (200).

12. The drive-by-wire installation assembly of claim 2, wherein the guide slider (400) is installed to a lower sidewall of the installation groove (200) and locked by a screw.

13. An air conditioning apparatus, comprising the drive-by-wire mounting assembly as recited in any one of claims 1 to 12.

Technical Field

The invention relates to the technical field of air conditioners, in particular to a drive-by-wire controller installation assembly and air conditioning equipment.

Background

The wire controller and the remote controller both indirectly control the air conditioner or the heat pump equipment to realize various functions of the air conditioner or the heat pump equipment, and the wire controller has certain advantages in the aspects of maintenance and repair compared with the remote controller, but the current wire controller is generally directly installed on a panel, and the installation and the maintenance are not very convenient.

Disclosure of Invention

The problem solved by the invention is that the existing wire controller is inconvenient to install and maintain.

In one aspect, the invention provides a drive-by-wire installation assembly, which comprises an installation groove and a drive-by-wire installation seat, wherein the installation groove is used for being arranged on a panel, and the drive-by-wire installation seat is connected with the installation groove in a sliding manner.

Like this, through setting up the mounting groove with the line accuse ware mount pad will the line accuse ware mount pad with the mounting groove sets up to sliding connection, changes traditional line accuse ware fixed mounting into sliding installation, places in the line accuse ware the mounting groove, only need follow pull out in the mounting groove the line accuse ware mount pad can carry out operations such as parameter setting, maintenance or maintenance to the line accuse ware, in addition, has still avoided the parameter anomaly that the mistake touched the result, and the reliability is high, and the practicality is strong.

Optionally, the mounting groove further comprises a guide sliding seat, and the guide sliding seat is fixed on the inner side wall of the mounting groove; lead the slide with be provided with sliding connection structure on the drive-by-wire ware mount pad, sliding connection structure includes: a guide sliding column and a guide sliding groove;

the guide sliding groove is arranged on the guide sliding seat, and the guide sliding column is arranged on the installation seat of the wire controller; or the guide sliding groove is arranged on the installation seat of the wire controller, and the guide sliding column is arranged on the guide sliding seat;

the guide sliding groove is connected with the guide sliding column in a sliding mode.

Like this, through setting up the guide slide, through sliding connection structure realizes line accuse ware mount pad with the sliding connection of mounting groove realizes line accuse ware installation component's modular packaging structure has reduced the processing degree of difficulty and cost of maintenance, and the practicality is strong.

Optionally, the sliding connection structure further includes a limiting groove, the limiting groove is disposed at an end of the sliding guide groove and is communicated with the sliding guide groove, and a cross section of the limiting groove is semicircular.

Like this, through setting up the spacing groove, through with the cross-section of spacing groove sets up to semi-circular, makes and works as it moves to when the spacing groove, the spacing groove is right it fixes a position to lead the traveller, it is in to lead the traveller can rotate in the spacing groove, the line accuse ware mount pad can overturn downwards, the operating space increase of line accuse ware is conveniently right the line accuse ware carries out operations such as parameter adjustment, maintenance and maintenance.

Optionally, the guide chute includes a first chute and a second chute, and the first chute is communicated with the second chute.

Like this, through with the first spout and the second spout that the guide chute set up to be linked together give sliding connection structure provides more slip and support probably, can satisfy under the different situation the slip and the spacing demand of drive-by-wire ware mount pad, the reliability is high, and the practicality is strong.

Optionally, the first sliding groove and the second sliding groove are arranged on the guide sliding seat, the second sliding groove is located above the first sliding groove, and the second sliding groove is arranged in an inclined manner towards one side close to the opening of the mounting groove; or the first sliding groove and the second sliding groove are arranged on the wire controller mounting seat, the second sliding groove is located below the first sliding groove, and the second sliding groove is inclined towards one side close to the opening of the mounting groove.

In this way, by arranging the second sliding groove and the second sliding groove which are communicated with each other, when the installation seat of the wire controller only slides with the first sliding groove, the installation seat of the wire controller is pulled out, when the second sliding groove starts to work, the installation seat of the wire controller is turned downwards, and after the installation seat of the wire controller is turned downwards by a certain angle, the position of the installation seat of the wire controller is kept locked, the operation space of the wire controller is increased, and the overhaul and the maintenance of the wire controller are facilitated; because the space increase of operation line accuse ware, can reduce simultaneously line accuse ware mount pad is in the ascending length in front and back side, reduces the space that line accuse ware mount pad occupy, the reliability is high, and the practicality is strong.

Optionally, lead the traveller including first traveller and the traveller is led to the second, first lead the traveller with the second lead the traveller all with first spout sliding connection, works as the drive-by-wire ware mount pad is followed first spout roll-off when the mounting groove is predetermine the distance, first lead the traveller be located in the first spout, the second is led the traveller and is followed the second spout slides.

Like this, work as when the drive-by-wire ware mount pad begins to slide, first lead the traveller with the traveller is all in to the second slides in the first spout, works as drive-by-wire ware mount pad roll-off after the distance is predetermine to the mounting groove, the traveller gets into is led to the second spout, first lead the traveller in the first spout the second is led after the traveller slides the certain distance, first spout with the second spout is right respectively first lead the traveller with the second is led the traveller and is spacing, realizes the fixed of drive-by-wire ware mount pad position is keeping under the condition of the operating space increase of drive-by-wire ware, drive-by-wire ware mount pad with it is spacing to have two between the guide, and limit structure is reliable, and stability is high, and the practicality is strong.

Optionally, the wire controller installation seat is connected with the wire controller installation seat, and when the wire controller installation seat is installed in the installation groove, the cover plate covers the opening of the installation groove.

Like this, through setting up the apron, through the apron is realized the sealing of mounting groove makes and works as the drive-by-wire ware mount pad install in when in the mounting groove, the drive-by-wire ware is located a comparatively confined space, has avoided outside dust to get into the mounting groove has reduced the dust deposit and has been in possibility on the drive-by-wire ware has improved user experience, has reduced the dust deposit simultaneously and has caused the malfunctioning possibility of drive-by-wire ware button has improved the life of drive-by-wire ware, and the reliability is high, and the practicality is strong.

Optionally, set up the guard plate on the apron, the guard plate is followed the edge setting of apron, when the drive-by-wire ware mount pad install in the mounting groove, the guard plate is located on the apron be close to one side of mounting groove bottom.

Like this, through set up the guard plate on the apron, through with the guard plate set up in be close to on the apron one side of mounting groove bottom, because the existence of guard plate, outside dust is difficult to get into more in the mounting groove, increased the dustproof effect that the apron played.

Optionally, the installation groove further comprises a pressing magnet switch and an attraction piece, the pressing magnet switch is arranged on the cover plate, the attraction piece is arranged in the installation groove, and the pressing magnet switch is matched with the attraction piece.

Therefore, by arranging the magnet switch and the suction piece, when the wire controller mounting seat needs to be pulled out, the wire controller mounting seat can be popped up by pressing the cover plate, a handle is not required to be externally arranged on the cover plate, the handle-free mounting is realized, the structure of the cover plate is simplified, the cost is reduced, the built-in mounting of the cover plate can be realized, the whole body is attractive, and the user experience is improved.

Optionally, a buckle is arranged on the installation seat of the line controller and used for being clamped with the line controller.

Like this, when the drive-by-wire ware is taken off to needs, take out drive-by-wire ware mount pad removes the buckle with joint between the drive-by-wire ware can be taken off during the drive-by-wire ware, the drive-by-wire ware installation is reliable and stable, and difficult not hard up can enough satisfy the user demand, again can be easy to assemble and overhaul.

Optionally, the number of the guide sliding seats is two, and the two guide sliding seats are respectively located on the left side and the right side of the inside of the installation groove.

Like this, will the guide sets up to two, will two the guide set up respectively in the inside left and right sides of mounting groove can improve the gliding stability of drive-by-wire ware mount pad can also be convenient the installation of drive-by-wire ware mount pad, drive-by-wire ware installation component structure is reliable, and stability is high.

Optionally, the guide sliding seat is mounted on a lower side wall of the mounting groove and fixed by a screw.

Like this, through will guide slide fixed mounting in the lower lateral wall of mounting groove, the weight of drive-by-wire ware mount pad and drive-by-wire ware undertakes by the lower lateral wall of mounting groove, and pass again to the panel with other inner walls of mounting groove, mounting structure is reliable, mounting groove non-deformable, structural stability is high, and the practicality is strong.

In another aspect, the present invention provides an air conditioning apparatus comprising a drive-by-wire mounting assembly as defined in any one of the above.

Therefore, the built-in sliding installation of the wire controller of the air conditioning equipment is realized, so that the heat pump equipment is more convenient to overhaul and maintain, the space occupied by a panel is reduced, and the practicability is high.

Drawings

FIG. 1 is a schematic structural diagram of one embodiment of a drive-by-wire installation assembly according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic structural view of a solenoid mounting base and a guide base in one embodiment of the solenoid mounting assembly according to the embodiment of the present invention;

FIG. 4 is an enlarged partial view taken at B in FIG. 3;

FIG. 5 is a left side view of one embodiment of a drive-by-wire mounting assembly of an embodiment of the present invention;

FIG. 6 is an enlarged view at C of FIG. 5;

FIG. 7 is an enlarged view taken at D of FIG. 6;

FIG. 8 is a schematic structural view of a solenoid mount and a guide carriage in one embodiment of a solenoid mount assembly according to an embodiment of the present invention;

FIG. 9 is an enlarged partial view at E of FIG. 8;

FIG. 10 is a schematic structural view of a sliding connection structure in one embodiment of a drive-by-wire mounting assembly according to an embodiment of the present invention;

fig. 11 is a schematic structural view of the back surface of the mounting groove in one embodiment of the installation assembly of the drive-by-wire of the embodiment of the present invention;

fig. 12 is a schematic structural view illustrating a cover plate and a mounting groove in one embodiment of a drive-by-wire installation assembly according to an embodiment of the present invention.

Description of reference numerals:

100-panel, 200-mounting groove, 210-through hole, 300-wire controller mounting seat, 310-sliding guide column, 311-first sliding guide column, 312-second sliding guide column, 320-buckle, 400-sliding guide seat, 410-sliding guide groove, 411-first sliding groove, 412-second sliding groove, 420-limiting groove, 500-cover plate, 510-protection plate, 600-wire controller and 700-press magnet switch.

Detailed Description

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

In the description of the present invention, it should be noted that a coordinate system XYZ is provided herein, wherein a forward direction of an X axis represents a forward direction, a reverse direction of the X axis represents a backward direction, a forward direction of a Y axis represents a right direction, a reverse direction of the Y axis represents a left direction, a forward direction of a Z axis represents an upward direction, and a reverse direction of the Z axis represents a downward direction.

In the description of the present invention, it is to be understood that the terms "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," and the like are used in the orientations and positional relationships indicated in the drawings, which are based on the orientations and positional relationships indicated in the drawings, and are used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element being referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. In addition, the terms "first" and "second" are used for descriptive purposes only and do not constitute a limitation on the technical features.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

It should be noted that, the existing air conditioning equipment partially adopts suspension type installation, such as a heat pump unit, and partially adopts floor type installation, such as a central air conditioner, but for the convenience of user operation, among these installation modes, the position of the wire controller is higher, a part of the wire controller is directly installed on the surface of the panel, a part of the wire controller is installed inside the panel, and the keys on the wire controller are exposed out of the surface of the panel, which generally has the following problems, 1, the installation, the maintenance, the overhaul and the maintenance are inconvenient, 2, the keys are easy to be touched by mistake, 3, the space occupied by the wire controller is larger, 4, the dustproof effect is poor, the key sensitivity is affected, and the user experience is poor. The inventors of the present application have conducted long-term studies to find the technical solution of the present application, and have aimed to partially solve the above-mentioned problems.

Referring to fig. 1 to 12, a drive-by-wire installation assembly includes an installation groove 200 and a drive-by-wire installation base 300, wherein the installation groove 200 is used for being installed on a panel 100, and the drive-by-wire installation base 300 is slidably connected with the installation groove 200.

Referring to fig. 1, 2, 5, 6 and 11, it should be understood that in some embodiments, the panel 100 is recessed inward (opposite to the X-axis in the drawings) to form the mounting groove 200, and it should be understood that the mounting groove 200 and the panel 100 may be detachably connected, welded, integrally formed and stamped, or integrally formed and injection molded, and may be selected according to actual materials and requirements.

Please refer to fig. 2, it should be noted that, in the present specification, the opening of the mounting groove 200 refers to a gap formed at the panel 100 by the mounting groove 200, the bottom wall of the mounting groove 200 refers to an inner side wall of the mounting groove 200 opposite to the opening of the mounting groove 200 (i.e., the inner side wall of the mounting groove 200 in the reverse direction of the X axis), the inner side wall of the mounting groove 200 in the reverse direction of the Z axis is a lower side wall of the mounting groove 200, the inner side wall of the mounting groove 200 in the forward direction of the Z axis is an upper side wall of the mounting groove 200, the inner side wall of the mounting groove 200 in the forward direction of the Y axis is a right side wall of the mounting groove 200, and the inner side wall of the mounting groove 200 in the reverse direction of the Y axis.

In some embodiments, the depth (front-back direction, i.e., X-axis direction in the figure) of the mounting groove 200 is deep enough, and the drive wire mounting base 300 is completely mounted in the mounting groove 200, it should be understood that, in some embodiments, the mounting groove 200 is formed by stamping the panel 100, and is affected by materials and processes, the depth (front-back direction, i.e., distance between two ends of the mounting groove in the X-axis direction in the figure) of the mounting groove 200 is relatively small, the mounting groove 200 is not enough to accommodate the drive wire mounting base 300, and the bottom of the mounting groove 200 is provided with a through hole 210, and the through hole 210 is suitable for avoiding the drive wire mounting base 300. In an assembled state, in the front-rear direction, the drive-by-wire unit installation seat 300 is only partially located in the installation groove 200, specifically, the front end of the drive-by-wire unit installation seat 300 is located in the installation groove 200, and the rear end of the drive-by-wire unit installation seat 300 passes through the through hole 210 and is located on the unit side. Like this, accord with panel 100's manufacturing process more, mounting groove 200 processing is simple, has practiced thrift the material, mounting groove 200 by panel 100 integrative stamping forming, stable in structure, the reliability is high.

It should be noted that, in this specification, the direction in which the drive-by-wire unit mounting base 300 is slidably coupled to the mounting groove 200 coincides with the front-rear direction (X-axis direction in the drawing), the drive-by-wire unit mounting base 300 slides forward (X-axis direction in the drawing), the drive-by-wire unit mounting base 300 slides out of the mounting groove 200, the drive-by-wire unit mounting base 300 slides backward (X-axis direction in the drawing), and the drive-by-wire unit mounting base 300 enters the mounting groove 200.

Referring to fig. 1 to 3, the cord controller 600 is mounted on the cord controller mounting base 300, and in some embodiments, a buckle 320 is disposed on the cord controller mounting base 300, the buckle 320 is used for being buckled with the cord controller 600, and the buckle 320 is suitable for limiting the cord controller 600 to be separated from the cord controller mounting base 300. Preferably, the fasteners 320 are L-shaped fasteners, two of the L-shaped fasteners are respectively located at the left and right sides of the installation seat 300 of the line controller, the two L-shaped fasteners are oppositely arranged, and the L-shaped fasteners are clamped with the upper surface of the line controller 600 to limit the line controller 600 from being separated from the installation seat 300 of the line controller. It should be understood that the left side of the drive-by-wire mounting base 300 refers to the side in the drawing opposite to the Y-axis, and the right side of the drive-by-wire mounting base 300 refers to the side in the drawing forward to the Y-axis.

Like this, when the drive-by-wire ware 600 was taken off to needs, take out drive-by-wire ware mount pad 300 removes buckle 320 with joint between the drive-by-wire ware 600 can be taken off during drive-by-wire ware 600, drive-by-wire ware 600 installation is reliable and stable, and difficult not hard up can enough satisfy the user demand, again can be easy to assemble and overhaul.

According to the installation assembly of the wire controller, the installation groove 200 and the wire controller installation seat 300 are arranged, the wire controller installation seat 300 is in sliding connection with the installation groove 200, the fixed installation of the traditional wire controller 600 is changed into sliding installation, the wire controller 600 is arranged in the installation groove 200, the wire controller installation seat 300 only needs to be pulled out from the installation groove 200, the operation such as parameter setting, overhauling or maintenance can be carried out on the wire controller 600, in addition, the parameter abnormity caused by mistaken touch is avoided, the reliability is high, and the practicability is strong.

Referring to fig. 2, 8 and 12, in some embodiments, the wire controller mounting base further includes a cover plate 500, the cover plate 500 is connected to the wire controller mounting base 300, and when the wire controller mounting base 300 is mounted in the mounting groove 200, the cover plate 500 covers an opening of the mounting groove 200. It should be understood that the mounting groove 200 is located in the projection area of the cover plate 500 on the panel 100, in some embodiments, when the drive wire mounting base 300 is mounted in the mounting groove 200, the cover plate 500 is in contact with the panel 100, and the cover plate 500 completely covers the area corresponding to the mounting groove 200, and in some embodiments, the cover plate 500 is in contact with the inner wall of the mounting groove 200 and covers the area where the mounting groove 200 is located.

Like this, through setting up apron 500, through apron 500 realizes mounting groove 200 seals, makes and works as drive-by-wire ware mount pad 300 install in when in the mounting groove 200, drive-by-wire ware 600 is located a comparatively confined space, has avoided outside dust to get into mounting groove 200 has reduced the dust deposit and has been in the last possibility of drive-by-wire ware 600 has improved user experience, has reduced the dust deposit simultaneously and has caused drive-by-wire ware 600 button failure's possibility has improved drive-by-wire ware 600's life, and the reliability is high, and the practicality is strong.

Referring to fig. 12, in some embodiments, a protection plate 510 is disposed on the cover plate 500, the protection plate 510 is disposed along an edge of the cover plate 500, and when the remote controller mounting base 300 is mounted in the mounting groove 200, the protection plate 510 is disposed on a side of the cover plate 500 near the bottom of the mounting groove 200. Specifically, the protection plate 510 protrudes to a side close to the bottom of the installation groove 200 by a predetermined distance, and when the drive-by-wire unit installation seat 300 is installed in the installation groove 200, the protection plate 510 is located inside the installation groove 200. Preferably, the protection plate 510 contacts the inner wall of the mounting groove 200. It should be noted that, in actual use, due to processing and assembly error contact, a certain gap, for example, 0.5mm, should be provided between the protection plate 510 and the inner wall of the installation groove 200 to ensure that the installation seat 300 can slide smoothly. Preferably, the rear end edge portion of the shielding plate 510 is inclined or curled inward. Thus, when the drive-by-wire unit mounting seat 300 slides in the mounting groove 200 (backward sliding, X-axis direction in the drawing), the protection plate 510 guides the cover plate 500 to slide in the sliding direction, so that the guide is reliable and the scratch of fingers can be prevented.

Like this, through set up protection plate 510 on the apron 500, through with protection plate 510 set up in be close to on the apron 500 one side of mounting groove 200 bottom, because the existence of protection plate 510, outside dust is difficult more to get into in the mounting groove 200, increased the dustproof effect that apron 500 played.

Referring to fig. 2 and 12, in some embodiments, a push magnet switch 700 and a suction piece are provided, the push magnet switch 700 is disposed on the cover plate 500, the suction piece is disposed in the mounting groove 200, and the push magnet switch 700 is engaged with the suction piece. Specifically, inhale the piece for ferromagnetic material preparation, set up in the bottom or the lateral wall of mounting groove 200, press magnet switch 700 again named as magnetism and inhale, press magnet switch 700 built-in spring and magnet, receive along with the spring and press, magnet pops out in turn and retracts, press magnet switch 700 set up in be close to on the apron 500 one side of mounting groove 200, press magnet switch 700 with inhale the piece cooperation, realize apron 500 does not have handle formula installation. It should be understood that when the mounting groove 200 is made of sheet metal, the suction piece may be omitted.

In this way, by arranging the magnet switch 700 and the suction piece, when the wire controller mounting base 300 needs to be pulled out, the wire controller mounting base 300 can be popped up by pressing the cover plate 500, a handle does not need to be externally arranged on the cover plate 500, and the handle-free mounting is realized, the cover plate 500 can be internally mounted, the structure of the cover plate 500 is simplified, the cost is reduced, the whole body is attractive, and the user experience is improved.

It should be noted that the cover plate 500 and the drive-by-wire device mounting base 300 may be detachably connected, or may be integrally formed, such as welded or integrally injection-molded, to ensure the structural rigidity thereof.

Referring to fig. 1 to 10, in some embodiments, the mounting groove further includes a guide slider 400, and the guide slider 400 is fixed to an inner sidewall of the mounting groove 200; lead slide 400 with be provided with sliding connection structure on the drive-by-wire ware mount pad 300, sliding connection structure includes: a guide post 310 and a guide slot 410;

the guide chute 410 is disposed on the guide slide 400, and the guide slide column 310 is disposed on the wired controller mounting base 300;

the guide chute 410 is slidably connected to the guide sliding pillar 310.

It should be understood that the guide slide 400 is fixed to the inner side wall of the mounting groove 200, which may be fixed to the left and right side walls of the mounting groove 200, or fixed to the upper and lower side walls of the mounting groove 200, and preferably, in some embodiments, the guide slide 400 is fixed to the lower side wall of the mounting groove 200 and fixed by screws.

In some embodiments, the guide slider 400 is mounted on the lower sidewall of the mounting groove 200 (the Z axis is reversed in the drawings), and specifically, in some embodiments, mounting holes are formed on both the lower sidewall of the mounting groove 200 and the guide slider 400, and screws are inserted through the lower sidewall of the mounting groove 200 and the mounting holes of the guide slider 400 to fix the guide slider 400 on the lower sidewall of the mounting groove 200.

Like this, through with guide slide 400 fixed mounting in the lower lateral wall of mounting groove 200, the weight of drive-by-wire ware mount pad 300 and drive-by-wire ware 600 is born by the lower lateral wall of mounting groove 200, and pass to again panel 100 with other inner walls of mounting groove 200, mounting structure is reliable, mounting groove 200 non-deformable, structural stability is high, and the practicality is strong.

Referring to fig. 2 and 3, in the present embodiment, two guide sliders 400 are provided, and the two guide sliders 400 are respectively located at the left and right sides inside the installation groove 200. It should be understood that the left side inside the mounting groove 200 refers to the side of the mounting groove 200 located in the opposite direction of the Y-axis, and the right side inside the mounting groove 200 refers to the side of the mounting groove 200 located in the forward direction of the Y-axis.

Specifically, in some embodiments, two of the guide sliders 400 are fixedly mounted on the lower sidewall of the mounting groove 200, and in other embodiments, two of the guide sliders 400 are respectively fixedly mounted on the left and right sidewalls of the mounting groove 200. Preferably, the two guide sliders 400 are connected by screws. It should be noted that, at this time, the two guiding sliding pillars 310 are respectively located at the left and right sides of the wired controller mounting base 300, the guiding sliding pillars 310 are in inserting fit with the guiding sliding grooves 410, and the direction in which the guiding sliding pillars 310 are inserted into the guiding sliding grooves 410 is consistent with the left and right direction (the Y axis direction in the figure).

Like this, will the guide slide 400 sets up to two, will two the guide slide 400 set up respectively in the inside left and right sides of mounting groove 200 can improve the gliding stability of drive-by-wire ware mount pad 300 can also be convenient the installation of drive-by-wire ware installation component, drive-by-wire ware installation component structure is reliable, and stability is high.

Like this, through setting up guide slide 400, through sliding connection structure realizes drive-by-wire ware mount pad 300 with the sliding connection of mounting groove 200 realizes drive-by-wire ware installation component's modular assembly structure has reduced the processing degree of difficulty and cost of maintenance, and the practicality is strong.

In some embodiments, the sliding connection structure further includes a limiting groove 420, the limiting groove 420 is disposed at an end of the sliding guide groove 410 and is communicated with the sliding guide groove 410, and a cross-sectional shape of the limiting groove 420 is a semi-circle. Preferably, the diameter of the limiting groove 420 is greater than or equal to the diameter of the guiding and sliding column 310, and the limiting groove 420 is in clearance fit with the guiding and sliding column 310.

Referring to fig. 9 and 10, preferably, the limiting groove 420 is only disposed at an end portion where the sliding guide groove 410 contacts the sliding guide post 310 after the wired controller mounting seat 300 slides out of the mounting groove 200, for example, when the sliding guide groove 410 is disposed on the sliding guide seat 400 and the sliding guide post 310 is disposed on the wired controller mounting seat 300, the limiting groove 420 is disposed at an end portion of a front end (in a positive direction of an X axis in the drawing) of the sliding guide groove 410; when the guiding slot 410 is disposed on the installation seat 300 of the wired controller and the guiding sliding pillar 310 is disposed on the guiding sliding seat 400, the limiting slot 420 is disposed at the rear end (opposite to the X axis in the figure) of the guiding slot 410, so that the guiding sliding pillar 310 can rotate conveniently in the limiting slot 420.

Like this, through setting up spacing groove 420, through with the cross-section of spacing groove 420 sets up to semi-circular, makes when lead traveller 310 move extremely during spacing groove 420, spacing groove 420 is right lead traveller 310 and advance line location, it is in to lead traveller 310 can rotate in the spacing groove 420, line controller mount pad 300 can overturn downwards, the operating space increase of line controller 600 is conveniently right line controller 600 carries out operations such as parameter adjustment, maintenance and maintenance.

Referring to fig. 1 to 4 and 8 to 10, in some embodiments, the sliding guide slot 410 includes a first sliding slot 411 and a second sliding slot 412, and the first sliding slot 411 is in communication with the second sliding slot 412.

Referring to fig. 8 to 10, it should be understood that, in some embodiments, the first sliding slot 411 and the second sliding slot 412 are disposed on the sliding guide 400, the second sliding slot 412 is located above the first sliding slot 411, and the second sliding slot 412 is disposed to be inclined toward a side close to the opening of the mounting slot 200.

Specifically, in this embodiment, the sliding guide pillar 310 is disposed at the rear end of the installation seat 300, when the installation seat 300 slides out for a certain distance, the installation seat 300 is slidably connected to the second sliding groove 412, the rear end of the installation seat 300 is lifted upwards for a certain distance, the installation seat 300 deviates from the initial installation position, the installation seat 300 is pulled out in a staggered manner, and the installation seat 300 is turned downwards after being pulled out; preferably, in some embodiments, the rear end of the second sliding groove 412 is communicated with the front end of the first sliding groove 411, and the front end of the second sliding groove 412 is inclined upward. Thus, the rotation angle which can be realized after the wire controller mounting seat 300 is dislocated is larger. It should be understood that, at this time, the limiting groove 420 may also be provided, and the limiting groove 420 is located at the end of the front end of the second sliding groove 412 (in the positive direction of the X axis in the figure), so as to provide a better rotation guide for the guide sliding column 310.

It should be understood that, in other embodiments, the first sliding slot 411 and the second sliding slot 412 may also be disposed on the drive-by-wire mounting base 300, the second sliding slot 412 is located below the first sliding slot 411, and the second sliding slot 412 is disposed to be inclined toward a side close to the opening of the mounting slot 200. In this case, the guide sliding pillar 310 is disposed at the front end of the guide sliding base 400, and the above-mentioned function can be achieved, and will not be described in detail herein.

Thus, after the wire controller installation base 300 is pulled out for a distance, under the action of the second sliding groove 412, the rear end of the wire controller installation base 300 can be lifted upwards for a distance, so that the wire controller installation base 300 is staggered, under the action of gravity, the wire controller installation base 300 has a downward rotating trend, the wire controller installation base 300 is contacted with the opening edge of the installation groove 200 to form a fulcrum, the fulcrum and the second sliding groove 412 are matched to limit the downward movement of the wire controller installation base 300, so that the position of the rotated wire controller installation base 300 is fixed, at this time, the wire controller installation base 300 is kept stable, and the operation such as parameter adjustment, maintenance and repair can be carried out on the wire controller 600.

It should be understood that, in the above-mentioned embodiment, the axial direction of the slide guiding column 310 is consistent with the front-back direction (the Y-axis direction in the figure), in some embodiments, the slide guiding column 310 may be a cylinder integrally disposed with the slide guiding seat 400, or may be a bearing fixedly mounted on the slide guiding seat 400, such as a CF bearing, so that the slide guiding column 310 slides smoothly in the slide guiding groove 410, and has a long service life and high reliability.

Referring to fig. 3 to 7, in some embodiments, the sliding guide post 310 includes a first sliding guide post 311 and a second sliding guide post 312, both the first sliding guide post 311 and the second sliding guide post 312 are slidably connected to the first sliding groove 411, when the wire controller mounting base 300 slides along the first sliding groove 411 by a preset distance, the first sliding guide post 311 is located in the first sliding groove 411, and the second sliding guide post 312 slides along the second sliding groove 412.

Specifically, in some embodiments, the first sliding slot 411 and the second sliding slot 412 are disposed on the sliding guide 400, the second sliding slot 412 is located above the first sliding slot 411, the second sliding slot 412 is disposed to be inclined toward a side close to the opening of the mounting slot 200, a rear end of the second sliding slot 412 is communicated with the first sliding slot 411 at a first predetermined distance from a front end of the first sliding slot 411, the second sliding guide column 312 and the first sliding guide column 311 are both close to a rear end of the linear controller mounting base 300, the second sliding guide column 312 and the first sliding guide column 311 are sequentially disposed on the linear controller mounting base 300 along a rear-to-front direction, preferably, a distance between the second sliding guide column 312 and the first sliding guide column 311 is the first predetermined distance, a trajectory of the second sliding slot 412 coincides with a predetermined arc, the arc takes the front end of the first sliding slot 411 as a circle center, and taking the first preset distance as a radius. Preferably, the second leading slider 312 and the first leading slider 311 have the same structure. It should be understood that, at this time, the limiting groove 420 may be provided, the limiting groove 420 is located at the front end portion (in the X-axis direction in the drawing) of the first sliding slot 411 to form a better rotation guide for the first sliding guide post 311, and the limiting groove 420 may be provided at the front end portion of the second sliding slot 412 to limit the second sliding guide post 312.

It should be understood that, in other embodiments, the first sliding slot 411 and the second sliding slot 412 may also be disposed on the drive-by-wire mounting base 300, the second sliding slot 412 is located below the first sliding slot 411, and the second sliding slot 412 is disposed to be inclined toward a side close to the opening of the mounting slot 200. At this time, the structures of the first sliding slot 411, the second sliding slot 412 and the guiding sliding column 310 are also changed correspondingly, for example, the second guiding sliding column 312 and the first guiding sliding column 311 are both close to the front end of the guiding sliding seat 400, and the second guiding sliding column 312 and the first guiding sliding column 311 are sequentially arranged on the drive-by-wire mounting base 300 along the direction from back to front, which will not be described in detail herein.

Like this, at the beginning pulling during wire controller mount pad 300, first leading traveller 311 with traveller 312 is all in the second leads traveller 312 slides in first spout 411, works as wire controller mount pad 300 roll-off after the predetermined distance of mounting groove 200, the second leads traveller 312 to get into second spout 412, first leading traveller 311 is in the first spout 411 after the second leads traveller 312 slides a certain distance, first spout 411 with second spout 412 is right respectively first leading traveller 311 with second leading traveller 312 is spacing, realizes the fixed of wire controller mount pad 300 position, under the circumstances that keeps wire controller 600's operating space increases, wire controller mount pad 300 with it is spacing to have two between the guide slide 400, and limit structure is reliable, and stability is high, and the practicality is strong.

Like this, through setting up the incline direction of second spout 412 for work as second spout 412 when starting working, line accuse ware mount pad 300 upset downwards works as after certain angle of line accuse ware mount pad 300 upset downwards, the position of line accuse ware mount pad 300 keeps the locking, and line accuse ware 600 operating space increases, makes things convenient for maintenance and maintenance of line accuse ware 600, can reduce simultaneously line accuse ware mount pad 300 is in the ascending length of front and back side, reduces the space that line accuse ware mount pad 300 occupy, and the reliability is high, and the practicality is strong.

Like this, through with the first spout 411 and the second spout 412 that guide chute 410 sets up to be linked together, give sliding connection structure provides more slip and support probably, can satisfy under the different situation the slip and spacing demand of drive-by-wire ware mount pad 300, the reliability is high, and the practicality is strong.

It should be understood that, when the guide chute 410 is disposed on the guide carriage 400, in order to ensure that the wired controller mounting base 300 can rotate under the action of gravity after being pulled out, under the condition of ensuring the structural stability, the front ends of the first chute 411 and the second chute 412 should be as close as possible to the front end of the guide carriage 400, and the first guide sliding column 311 and the second guide sliding column 312 should be as close as possible to the rear end of the wired controller mounting base 300, so that, after the wired controller mounting base 300 is pulled out for a distance, the wired controller mounting base 300 has a tendency of rotating downward under the action of gravity, and under the condition that the second chute 412 is working, the wired controller mounting base 300 rotates downward, and the reliability is high.

Another embodiment of the present invention provides an air conditioning apparatus including the drive-by-wire installation assembly described above.

The air conditioning equipment can be a heat pump unit, a central air conditioner and the like.

Thus, the wire controller 600 of the air conditioning equipment realizes built-in sliding installation, so that the heat pump equipment is more convenient to overhaul and maintain, the space occupied by a panel is reduced, and the practicability is high.

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