CN204084766U - Grid component and air-conditioner - Google Patents

Abstract

The utility model discloses a kind of grid component, this grid component comprises grid, grid hold-down screw for fixing described grid, and for hiding the screw cover of described grid hold-down screw; Described grid is provided with the lead with described screw cover adaptation, described screw cover and described lead are slidably connected.The invention also discloses a kind of air-conditioner, this air-conditioner comprises above-mentioned grid component.Grid component of the present utility model, because the lead in screw cover and grid is slidably connected, screw cover after pulling down grid is not still departed from grid, thus portability and the security of grid dismounting can be improved, simultaneously, when installing grid, hiding by screw cover the flat appearance that grid hold-down screw makes air-conditioner, strengthening the globality effect of air-conditioner.

Description

Grid component and air-conditioner

Technical field

The utility model relates to technical field of refrigeration equipment, particularly relates to a kind of grid component and air-conditioner.

Background technology

In the prior art, a lot of parts of air-conditioner need screw fastening, particularly relate to the appearance part of air-conditioner outward appearance, if screw exposed user can be allowed to feel in outward appearance member outer surface air-conditioner appearance part is exquisite not.For solving the problem, current employing is having the scheme that on the position playing screw, mounting screw lid is decorated, make air-conditioner flat appearance, such as, the air-inlet grille of air-conditioner being furnished with screw is fixed on shell of air-conditioner by air-inlet grille, by screw cover, above-mentioned screw is hidden, but in existing mounting screw lid scheme, when air-inlet grille will be removed, need screw cover to pry open, after taking out screw cover, screw, just can pull down air-inlet grille, cause air-inlet grille disassembling operations complicated, and screw cover pull down easy loss.

Utility model content

Main purpose of the present utility model is the portability and the security that improve grid dismounting, strengthens the globality effect of air-conditioner.

In order to achieve the above object, the utility model provides a kind of grid component, and described grid component comprises grid, grid hold-down screw for fixing described grid, and for hiding the screw cover of described grid hold-down screw; Described grid is provided with the lead with described screw cover adaptation, described screw cover and described lead are slidably connected.

Preferably, described screw cover comprises cap body, and the top of described cap body is the installation portion for installing described cap body, and the bottom of described cap body is the shielding part for hiding described grid hold-down screw;

The installation portion of described cap body offers the chute with described lead adaptation, and described chute protrudes the rear side of described cap body, and described screw cover is slided up and down along described lead by described chute.

Preferably, described grid component also comprises cover piece hold-down screw, described lead offers the screw hole with described cover piece hold-down screw adaptation vertically, described cover piece hold-down screw is fixedly connected with described lead by described screw hole, described cover piece hold-down screw coordinates with described lead and carries out spacing to described screw cover, departs from described grid to avoid described screw cover.

Preferably, described chute is mounting hole, and the top of described chute and bottom are that arcuation is arranged, and the height of described chute is less than the height of described lead.

Preferably, described cover piece hold-down screw comprises screw body and is connected to the screw cap of screw body one end, and the other end of described screw body and the screw hole adaptation of described lead, the width of described screw cap is greater than the width of described chute.

Preferably, the top of described cap body is convexly equipped with cover plate to the rear side of described cap body, and the top of described grid offers the fitting recess for accommodating described cover plate directly over described lead;

The top of described chute is fixedly connected with described cover plate, and the bottom of described chute is extended with elastic arm to the left and right sides of described chute, and one end of described elastic arm is fixedly connected with described cap body, and the other end of described elastic arm abuts with the top of described grid.

Preferably, described elastic arm comprises linkage section, tilting section and bending segment; Described linkage section connects the top of described tilting section, and described bending segment connects the end of described tilting section, and described linkage section and described bending segment are arranged at the both sides of described bending segment respectively, and described linkage section and described bending segment be arranged in parallel;

Described linkage section to be fixed on described cap body and to be fixedly connected with the bottom of described chute, and described linkage section is vertical with described cap body arranges; Described bending segment abuts with the top of described grid.

Preferably, the rear side of described cap body at the two ends, left and right of described shielding part to described cap body is extended with baffle plate, described baffle plate is fixedly connected with the linkage section of described elastic arm, and the shielding part of described baffle plate, cap body is arranged with the linkage section of elastic arm is mutually vertical; The bottom of the shielding part of described baffle plate, cap body, the linkage section of elastic arm and chute surrounds a storage tank, and the nut of described grid hold-down screw is placed in described storage tank.

Preferably, the installation portion left and right sides of described cap body is convexly equipped with elastic projection respectively, and described elastic projection is positioned at the top of the linkage section of described elastic arm.

In addition, in order to achieve the above object, the utility model also provides a kind of air-conditioner, and described air-conditioner comprises grid component, described grid component comprises grid, grid hold-down screw for fixing described grid, and for hiding the screw cover of described grid hold-down screw; Described grid is provided with the lead with described screw cover adaptation, described screw cover and described lead are slidably connected.

The grid component that the utility model provides and air-conditioner, this grid component comprises grid, grid hold-down screw for stationary grizzly, and for hiding the screw cover of grid hold-down screw, grid is provided with the lead with described screw cover adaptation, and screw cover can be slidably connected with the lead on grid, thus screw cover is slidably mounted on grid.When installing grid, can be arranged on grid by screw cover, after screw cover is arranged on grid, screw cover is in closure state and is hidden by grid hold-down screw; When needs removable grill, after slidably screw cover is opened by screw cover, take out grid hold-down screw and can pull down grid, because the lead in screw cover and grid is slidably connected, after making to pull down grid, screw cover does not still depart from grid.The utility model screw cover after pulling down grid does not still depart from grid, screw cover can be avoided to lose, mounting screw lid again is not needed when making grid is installed again yet, thus, portability and the security of grid dismounting can be improved, meanwhile, when installing grid, hide by screw cover the flat appearance that grid hold-down screw makes air-conditioner, strengthen the globality effect of air-conditioner.

Accompanying drawing explanation

Fig. 1 is the package assembly rearview of the utility model grid component preferred embodiment;

Fig. 2 is the enlarged drawing at A place in Fig. 1;

Fig. 3 is the detonation configuration schematic diagram of the utility model grid component preferred embodiment;

Fig. 4 is the enlarged drawing at B place in Fig. 3;

Fig. 5 is the structural representation of screw cover in the utility model grid component;

Fig. 6 is the front view that after the assembling of the utility model grid component, screw cover is in closure state;

Fig. 7 is the rearview that after the assembling of the utility model grid component, screw cover is in closure state;

Fig. 8 is the enlarged drawing at C1 place in Fig. 7;

Fig. 9 is the front view that after the assembling of the utility model grid component, screw cover is in open mode;

Figure 10 is the enlarged drawing at C2 place in Fig. 9;

Figure 11 is the rearview that after the assembling of the utility model grid component, screw cover is in open mode;

Figure 12 is the enlarged drawing at C3 place in Figure 11.

The realization of the purpose of this utility model, functional characteristics and advantage, will in conjunction with the embodiments, and be described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of grid component, and this grid component is applied to air-conditioner.

Referring to figs. 1 through the package assembly rearview that Fig. 5, Fig. 1 are the preferred embodiment of the utility model grid component; Fig. 2 is the enlarged drawing at A place in Fig. 1; Fig. 3 is the detonation configuration schematic diagram of the utility model grid component preferred embodiment; Fig. 4 is the enlarged drawing at B place in Fig. 3; Fig. 5 is the structural representation of screw cover in the utility model grid component.

It should be noted that in the utility model preferred embodiment, the XYZ rectangular coordinate system definition according to setting up in Fig. 5: the side being positioned at X-axis positive direction is defined as left, and the side being positioned at X-axis negative direction is defined as right; The side being positioned at Y-axis positive direction is defined as top, and the side being positioned at Y-axis negative direction is defined as below; The side being positioned at Z axis positive direction is defined as front, and the side being positioned at Z axis negative direction is defined as rear.

In the utility model preferred embodiment, grid component comprises grid 100, grid hold-down screw 200 for stationary grizzly 100, and for hiding the screw cover 300 of this grid hold-down screw 200.

Grid 100 is provided with the lead 110 with screw cover 300 adaptation, screw cover 300 and lead 110 are slidably connected.Screw cover 300 is installed on grid 100 slidably, and when screw cover 300 upward sliding is in open mode, the nut of grid hold-down screw 200 is exposed, now grid hold-down screw 200 can be taken out, pull down grid 100; When screw cover 300 slide downward is in closure state, the nut of screw cover 300 grating hold-down screw 200, hides grid hold-down screw 200.

In the present embodiment, grid 100 is provided with the lead 110 with screw cover 300 adaptation, and screw cover 300 can be slidably connected with the lead 110 on grid 100.When installing grid 100, can be arranged on grid 100 by screw cover 300, after screw cover 300 is arranged on grid 100, screw cover 300 is in closure state and is hidden by grid hold-down screw 200; When needs removable grill 100, the screw cover 300 hiding grid hold-down screw 200 can be opened, take out grid hold-down screw 200 and can pull down grid 100, because screw cover 300 and the lead 110 on grid 100 are slidably connected, after making to pull down grid 100, screw cover 300 does not still depart from grid 100.

Relative to prior art, grid component of the present utility model is after pulling down grid 100, and screw cover 300 does not still depart from grid 100, and screw cover 300 can be avoided to lose, mounting screw lid 300 again is not needed when making grid 100 is installed again yet, thus, portability and the security of grid 100 dismounting can be improved, simultaneously, when installing grid 100, hide grid hold-down screw 200 by screw cover 300, make the flat appearance of air-conditioner, strengthen the globality effect of air-conditioner.

As shown in Figures 1 to 5, screw cover 300 comprises cap body 310, and the top of cap body 310 is the installation portion 311 for installing cap body 310, and the bottom of cap body 310 is the shielding part 312 for hiding grid hold-down screw 200; The installation portion 311 of cap body 310 offers the chute 320 with lead 110 adaptation, and chute 320 protrudes from the rear side of cap body 310, and screw cover 300 is slided up and down along lead 110 by chute 320.

In Fig. 5, Y-axis positive direction is the top of screw cover 300, and Y-axis negative direction is the bottom of screw cover 300, Z axis positive direction is the front side of screw cover 300, Z axis negative direction is the rear side of screw cover 300, and chute 320 leads directly to front side and the rear side of screw cover 300, and protrudes the rear side of screw cover 300.

As shown in Figures 1 to 4, grid component also comprises cover piece hold-down screw 400.Lead 110 axially offers the screw hole 111 with cover piece hold-down screw 400 adaptation along it, cover piece hold-down screw 400 is fixedly connected with lead 110 by screw hole 111, screw cover 300 is arranged on grid 100, cover piece hold-down screw 400 coordinates with lead 110 and carries out spacing to screw cover 300, departs from grid 100 to avoid screw cover 300.

When screw cover 300 is arranged on grid 100, the chute 320 of screw cover 300 can be aimed at the lead 110 on grid 100, lead 110 is made to inject the chute 320 of screw cover 300, again by the screw hole 111 of cover piece hold-down screw 400 alignment guide post 110, cover piece hold-down screw 400 is got in the screw hole 111 of lead 110, screw cover 300 is subject to the restriction of cover piece hold-down screw 400 and lead 110, be installed on grid 100, screw cover 300 can slide up and down along lead 110, namely screw cover 300 with lead 110 for fulcrum slides up and down, the maximum displacement that screw cover 300 is slided equals the length (in Fig. 5, direction, Y-axis place is the length direction of chute 320) of chute 320, when screw cover 300 is in closure state, grid hold-down screw 200 hides by the shielding part 312 of screw cover 300.

Preferably, chute 320 is mounting hole to the present embodiment, in Fig. 5, Y-axis positive direction is the top of chute 320, Y-axis negative direction is the bottom of chute 320, and the top of chute 320 and bottom are that arcuation is arranged, and the lateral surface of the top of chute 320 and the medial surface of bottom and lead 110 is adaptive.Should be understood that, chute 320 also can be set to other shape, as square opening, as long as guarantee that screw cover 300 can be slided up and down along lead 110 by chute 320 but not depart from grid 100.

As shown in Figure 3-Figure 5, cover piece hold-down screw 400 comprises screw body 410 and is connected to the screw cap 420 of screw body 410 one end, the other end of screw body 410 and screw hole 111 adaptation of lead 110, the width d1 of screw cap 420 is greater than the width d2 of chute 320, and in Fig. 5, direction, X-axis place is the width of chute 320.

Screw body 410 is adaptive with the screw hole 111 of lead 110, after making the screw body 410 of cover piece hold-down screw 400 put in the screw hole 111 of lead 110, instrument (as screwdriver) by screw cap 420 adaptation with cover piece hold-down screw 400 rotates cover piece hold-down screw 400, cover piece hold-down screw 400 and lead 110 is fixed.Width d1 due to screw cap 420 is greater than the width d2 of chute 320, make to fix at cover piece hold-down screw 400 and lead 110, after screw cover 300 being arranged on grid 100, screw cover 300 is sliding up and down in process and can not depart from grid 100 from lead 110 and cover piece hold-down screw 400.

Particularly, the height h2 of chute 320 is less than the height h1 of lead 110, and in Fig. 5, direction, Z axis place is the short transverse of chute 320.

The height h2 of chute 320 is set to the height h1 being less than lead 110, thus, as depicted in figs. 1 and 2, by cover piece hold-down screw 400 dozens on lead 110 time, after the screw body 410 of cover piece hold-down screw 400 puts in the screw hole 111 of lead 110, a spacing k is there is between the screw cap 420 of cover piece hold-down screw 400 and chute 320, owing to there is spacing k (as 0.5mm) between the screw cap 420 of cover piece hold-down screw 400 and chute 320, screw cover 300 is being slided up and down in process not by the obstruction of the screw cap 420 of cover piece hold-down screw 400.

Refer again to Fig. 6 to Figure 12, Fig. 6 is the front view that after the assembling of the utility model grid component, screw cover 300 is in closure state; Fig. 7 is the rearview that after the assembling of the utility model grid component, screw cover 300 is in closure state; Fig. 8 is the enlarged drawing at C1 place in Fig. 7; Fig. 9 is the front view that after the assembling of the utility model grid component, screw cover 300 is in open mode; Figure 10 is the enlarged drawing at C2 place in Fig. 9; Figure 11 is the rearview that after the assembling of the utility model grid component, screw cover 300 is in open mode; Figure 12 is the enlarged drawing at C3 place in Figure 11.

As shown in Figures 3 to 5, the top of cap body 310 is convexly equipped with cover plate 350 to the rear side of cap body 310, and the top of grid 100 offers the fitting recess 120 for accommodating cover plate 350 directly over lead 110.

On the top of cap body 310, cover plate 350 is set, at the top of grid 100, fitting recess 120 is set, on grid 100 during mounting screw lid 300, the cover plate 350 of screw cover 300 is placed in grid 100 fitting recess 120, just agree with grid 100 top and do not protrude outside the top of grid 100, the aesthetic of enhanced grid 100.

In Fig. 5, X-axis positive direction is the left side of screw cover 300, and be also the left side of chute 320, X-axis negative direction is the right side of screw cover 300, and be also the right side of chute 320, Y-axis positive direction is the top of chute 320, and Y-axis negative direction is the bottom of chute 320.As shown in Figure 5, the top of chute 320 is fixedly connected with cover plate 350, the bottom of chute 320 is extended with elastic arm 330 to the left and right sides of chute 320, and one end of elastic arm 330 is fixedly connected with cap body 310, and the other end of elastic arm 330 abuts with the top of grid 100.

In the left and right sides of screw cover 300, elastic arm 330 is set, because elastic arm 330 has elasticity, making to slide up and down in process in screw cover 300 along lead 110, there is elastic deformation in elastic arm 330, elastic arm 330 does not depart from grid 100, as seen in figs. 7 and 11.

Particularly, as shown in Figure 5, elastic arm 330 comprises linkage section 331, tilting section 332 and bending segment 333; Linkage section 331 connects the top of tilting section 332, and bending segment 333 connects the end of tilting section, and linkage section 331 and bending segment 333 are arranged at the both sides of bending segment 332 respectively, and linkage section 331 and bending segment 333 be arranged in parallel; Linkage section 331 to be fixed on cap body 310 and to be connected with the bottom of chute 320, and linkage section 331 is vertical with cap body 310 arranges; Bending segment 333 abuts with the top of grid 100.

As depicted in figs. 1 and 2, after installing screw cover 300, bending segment 333 on the elastic arm 330 of chute 320 left and right sides abuts with the top of grid 100, because elastic arm 330 has elasticity, as shown in Figure 9 and Figure 10, when opening screw cover 300, screw cover 300 is along lead 110 upward sliding, as is illustrated by figs. 11 and 12, there is elastic deformation and open in the tilting section 332 of elastic arm 330, but the bending segment 333 of elastic arm 330 does not depart from the top of grid 100.As shown in Figure 7 and Figure 8, when screw cover 300 is along lead 110 slide downward, elastic arm 330 rebounds, promote screw cover 300 to glide, glide until when the top inwall of chute 320 and lead 110 offset, elastic arm 330 restores to the original state in screw cover 300, as shown in Figure 6, after elastic arm 330 restores to the original state, screw cover 300 is in closure state, and the shielding part 312 of screw cover 300 covers in grid hold-down screw 200.

Particularly, as shown in Figure 5, the rear side of cap body 310 at the two ends, left and right of shielding part 312 to cap body 310 is extended with baffle plate 360, baffle plate 360 is fixedly connected with the linkage section 331 of elastic arm 330, and the vertical setting mutual to the linkage section 331 of elastic arm 330 of the shielding part 312 of baffle plate 360, cap body 310; The bottom of the shielding part 312 of baffle plate 360, cap body 310, the linkage section 331 of elastic arm 330 and chute 320 surrounds a storage tank, and the nut of grid hold-down screw 200 is placed in storage tank.

As shown in Figure 6, when screw cover 300 is in closure state, in the storage tank that the bottom that the nut of grid hold-down screw 200 is just placed in baffle plate 360, the shielding part 312 of cap body 310, the linkage section 331 of elastic arm 330 and chute 320 surrounds, thus grid hold-down screw 200 is covered in by the shielding part 312 of screw cover 300.Simultaneously, at the shielding part 312 of cap body 310, baffle plate 360 is set, the effect of reinforcement can be played, to support the linkage section 331 of elastic arm 330, also make screw cover 300 indeformable, and baffle plate 360 can slide up and down in process in screw cover 300, restriction screw cover 300 to the left or right side tilt, guarantee that elastic arm 330 bending segment 333 abuts with the top of grid 100 all the time.

Particularly, as shown in Figure 5, installation portion 311 left and right sides of cap body 310 is convexly equipped with elastic projection 340 respectively, and elastic projection 340 is positioned at the top of the linkage section 331 of elastic arm 330.The present embodiment preferably elastic projection 340 is arranged in arcuation, can reduce the resistance that screw cover 300 slides up and down process.

The present embodiment arranges elastic projection 340 in cap body 310 left and right sides, and as shown in Figure 5, elastic projection 340 is arranged at the left and right sides of the installation portion 311 of cap body 310, is positioned at the top of the linkage section 331 of elastic arm 330.As shown in Figure 5, the bottom of the shielding part 312 of screw cover 300 is provided with handle 313, operator can promote sliding screw lid 300 upward sliding by sliding handle 313 from the bottom to top, as shown in Figure 9 and Figure 10, during handle 313 bottom the shielding part 312 of sliding screw lid 300 from the bottom to top, screw cover 300 is opened, the nut of grid hold-down screw 200 is exposed, in the process, screw cover 300 is slided from bottom to top along lead 110, as is illustrated by figs. 11 and 12, at screw cover 300 upward sliding until when the bottom inwall of chute 320 and lead 110 offset, the top clamping of elastic projection 340 and grid 100, screw cover 300 is blocked, screw cover 300 is not glided, now, operator can no longer clamp screws lid 300, grid 100 is fixed in the casing (not shown) of air-conditioner by instrument (as screwdriver) the rotary grate hold-down screw 200 by the nut adaptation with grid hold-down screw 200.As is illustrated by figs. 11 and 12, after installation stationary grizzly 100, elastic projection 340 can be pressed, and the thrust of giving screw cover 300 downward, now because elastic arm 330 has elasticity, elastic arm 330 rebounds, promote screw cover 300 to slide from top to bottom, in screw cover 300 slide downward until when the top inwall of chute 320 and lead 110 offset, as shown in Figure 6, grid hold-down screw 200 hides by the shielding part 312 of screw cover 300.

The utility model also provides a kind of air-conditioner, and this air-conditioner comprises grid component, and the structure of this grid component and the beneficial effect that brings, all with reference to above-described embodiment, repeat no more herein.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a grid component, is characterized in that, described grid component comprises grid, grid hold-down screw for fixing described grid, and for hiding the screw cover of described grid hold-down screw; Described grid is provided with the lead with described screw cover adaptation, described screw cover and described lead are slidably connected.

2. grid component as claimed in claim 1, it is characterized in that, described screw cover comprises cap body, and the top of described cap body is the installation portion for installing described cap body, and the bottom of described cap body is the shielding part for hiding described grid hold-down screw;

The installation portion of described cap body offers the chute with described lead adaptation, and described chute protrudes the rear side of described cap body, and described screw cover is slided up and down along described lead by described chute.

3. grid component as claimed in claim 2, it is characterized in that, described grid component also comprises cover piece hold-down screw, described lead offers the screw hole with described cover piece hold-down screw adaptation vertically, described cover piece hold-down screw is fixedly connected with described lead by described screw hole, described cover piece hold-down screw coordinates with described lead and carries out spacing to described screw cover, departs from described grid to avoid described screw cover.

4. grid component as claimed in claim 3, it is characterized in that, described chute is mounting hole, and the top of described chute and bottom are that arcuation is arranged, and the height of described chute is less than the height of described lead.

5. grid component as claimed in claim 3, it is characterized in that, described cover piece hold-down screw comprises screw body and is connected to the screw cap of screw body one end, and the other end of described screw body and the screw hole adaptation of described lead, the width of described screw cap is greater than the width of described chute.

6. as the grid component in claim 2 to 5 as described in any one, it is characterized in that, the top of described cap body is convexly equipped with cover plate to the rear side of described cap body, and the top of described grid offers the fitting recess for accommodating described cover plate directly over described lead;

The top of described chute is fixedly connected with described cover plate, and the bottom of described chute is extended with elastic arm to the left and right sides of described chute, and one end of described elastic arm is fixedly connected with described cap body, and the other end of described elastic arm abuts with the top of described grid.

7. grid component as claimed in claim 6, it is characterized in that, described elastic arm comprises linkage section, tilting section and bending segment; Described linkage section connects the top of described tilting section, and described bending segment connects the end of described tilting section, and described linkage section and described bending segment are arranged at the both sides of described bending segment respectively, and described linkage section and described bending segment be arranged in parallel;

Described linkage section to be fixed on described cap body and to be fixedly connected with the bottom of described chute, and described linkage section is vertical with described cap body arranges; Described bending segment abuts with the top of described grid.

8. grid component as claimed in claim 7, it is characterized in that, the rear side of described cap body at the two ends, left and right of described shielding part to described cap body is extended with baffle plate, described baffle plate is fixedly connected with the linkage section of described elastic arm, and the shielding part of described baffle plate, cap body is arranged with the linkage section of elastic arm is mutually vertical; The bottom of the shielding part of described baffle plate, cap body, the linkage section of elastic arm and chute surrounds a storage tank, and the nut of described grid hold-down screw is placed in described storage tank.

9. grid component as claimed in claim 8, it is characterized in that, the installation portion left and right sides of described cap body is convexly equipped with elastic projection respectively, and described elastic projection is positioned at the top of the linkage section of described elastic arm.

10. an air-conditioner, is characterized in that, described air-conditioner comprises the grid component in claim 1 to 9 described in any one.