CN109990349B - Mounting structure of range hood - Google Patents

Abstract

The invention relates to a mounting structure of a range hood, which comprises a mounting seat, a shell, torsion arms, sliding rails, sliding blocks and limiting pieces, wherein the first edges of the torsion arms are hinged to the mounting seat, the second edges of the torsion arms extend towards the side wall of the shell, the sliding rails are vertically arranged on the side wall of the shell and are provided with limiting parts which are arranged at intervals up and down, the sliding blocks can be arranged on the sliding rails in a vertical moving manner and are connected with the second edges of the torsion arms, and the limiting pieces can be matched with the limiting parts of the sliding rails so as to position the sliding blocks on the sliding rails. When in use, the shell is pre-hung on the hook through the opening on the back, the torsion arm is adjusted to ensure that the sliding block and the torsion arm are locked and are in a guiding sliding state with the sliding rail, the shell is lifted upwards, and the limiting piece is matched with the limiting part on the sliding rail to limit after the shell stops moving, so that the shell is prevented from moving downwards. Through the structure, the gap between the top plate of the range hood and the cabinet can be eliminated, so that the range hood is convenient to clean and attractive in appearance.

Description

Mounting structure of range hood

Technical Field

The invention relates to a mounting structure of a range hood.

Background

When the traditional range hood is installed, a hole is generally formed in the back of the shell, the hook is fixed on a wall through an expansion screw, then the range hood is lifted up, and the hole in the back of the range hood is hung on the hook.

In the structure, because a certain front-back matching displacement exists between the hole and the hook, the machine shell cannot be ensured to be vertical to the horizontal plane, or the rear wall plate of the machine shell cannot be ensured to be parallel to the wall supporting surface. To solve this problem, chinese patent publication No. CN204830095U (application No. CN 201520515794.5) discloses a structure comprising a casing having upper and lower openings, a fume collecting hood, a control device, a centrifugal fan, a partition plate disposed at the upper part of the casing, an oil screen, a baffle plate and an oil receiving groove, wherein the fume collecting hood is provided with a fume collecting cavity, the top of the fume collecting cavity is provided with a fume collecting port, the oil screen is disposed on the fume collecting port, and the baffle plate is disposed in the fume collecting cavity of the fume collecting hood; the oil collecting hood is arranged at the lower part of the shell, the oil receiving groove is arranged at the rear part of the oil collecting hood, and the centrifugal fan is arranged in the shell and is connected with the oil smoke interface on the partition plate; the device also comprises a hanging seat and at least two support columns which are arranged on the support wall; the hanging seat is detachably connected with the rear wall plate of the shell, and the supporting column is fixed on the rear wall plate of the shell. Because the casing in the structure can be detachably matched with the hanging seat, the supporting effect of the boss and the supporting column on the hanging seat can lead the casing to be vertical to the horizontal plane, and then the rear wall plate of the casing is parallel to the supporting surface.

Although the parallelism degree of the rear wall plate of the shell and the wall surface is improved to a great extent after the range hood is installed, the range hood still needs to be installed through the hanging structure at the lower part of the shell, the range hood needs to be lifted to be connected in a hanging mode when being installed, and then the range hood is sunk for a certain displacement under the action of gravity, so that the range hood is difficult to flush with the cabinet after being installed, a gap is reserved between the cabinet and the top plate of the range hood, and the range hood is difficult to clean and attractive in appearance.

Disclosure of Invention

The invention aims to solve the technical problem of providing a mounting structure of a range hood, which can adjust the position of the range hood up and down so as to avoid a gap between the range hood and a cabinet.

The technical scheme adopted for solving the technical problems is as follows: a mounting structure of a range hood comprises

The mounting seat is arranged on the supporting wall surface, and a hook is arranged on the outer surface of the mounting seat;

the back of the shell is provided with an opening which can be hung on the hook;

the method is characterized in that: and also comprises

The first edge of the torsion arm is hinged to the mounting seat, and the second edge of the torsion arm extends towards the outer side wall of the shell;

the sliding rail is vertically arranged on the outer side wall of the shell and is provided with limiting parts which are arranged at intervals up and down;

the sliding block can be arranged on the sliding rail in a vertically movable manner and is connected with the second edge of the torsion arm; and

and the limiting piece is arranged on the outer side of the sliding rail and can be matched with the limiting part on the sliding rail so as to prevent the shell from moving downwards.

In the above scheme, the spacing portion is the arch of locating on the slide rail surface, the lower part of locating part has the first trip of upwards buckling, under the casing upward movement state, first trip elastic deformation under bellied support down and allow the slide rail to upwards move, under the casing stationary state, thereby first trip upper end offsets with protruding lower surface restriction casing and moves down. By adopting the structure, the range hood can be hung on the supporting wall surface and then can move upwards, when the top plate of the range hood is flush with the cabinet and no gap exists between the top plate and the cabinet, the range hood is positioned through the limiting structure between the first clamping hook and the protrusion, and the operation is convenient.

Preferably, the first hook is U-shaped integrally, and the portion of the first hook near the sliding rail is bent towards the sliding rail direction to enable the opening of the first hook to be V-shaped. With the adoption of the structure, the sliding rail can move upwards relative to the first clamping hook without allowing the sliding rail to move downwards relative to the first clamping hook.

Preferably, the sliding block is vertically penetrated, a bayonet is formed in the inner side of the sliding block, and a second clamping hook which is bent forwards and hung in the bayonet is arranged on the upper portion of the limiting piece. The inside of the sliding block is provided with the opening seam which is longitudinally arranged, so that the sliding block forms an open-loop structure, and the structure is favorable for increasing the elasticity of the sliding block and is better matched with the sliding rail.

In order to facilitate assembly, two side edges of the sliding rail respectively extend forwards to form side walls, edges of the two side walls are respectively bent relatively to form surrounding edges which are vertically arranged, and the surrounding edges, the corresponding side walls and the outer side face of the sliding rail jointly form a sliding groove which can be matched with the sliding block in a guiding mode.

For the convenience of installation, the side that is far away from the mount pad of slide rail upper end is opened and is arranged so as to form the breach that is convenient for pack into the spout with the slider.

In order to facilitate installation, a first long hole which is longitudinally arranged is formed in the outer side of the sliding block, a second long hole which is longitudinally arranged is formed in the torsion arm correspondingly, and the limiting pin penetrates through the first long hole and the second long hole to enable the sliding block to be arranged on the torsion arm in a vertically movable mode. The structure is convenient for fine tuning the position of the sliding block after the torsion arm and the casing with the sliding rail are installed, so that the sliding block is placed into the sliding rail to be matched with the sliding rail in a guiding way. And the sliding block and the torsion arm are correspondingly provided with positioning holes, and the positioning pin penetrates through the positioning holes to lock and connect the sliding block and the torsion arm. After the sliding block is placed in the sliding rail, the sliding block and the torsion arm are locked by adopting the structure, so that the shell can be lifted upwards, and the position of the shell can be adjusted.

As an improvement, the mounting structure of the range hood further comprises an assembly component which can cancel limit between the lower part of the limiting piece and the limiting part of the sliding rail. By adopting the structure, the range hood is convenient to detach.

In the above scheme, the assembly component comprises an elastic sheet and a supporting pin, wherein the elastic sheet is arranged on the sliding block and enables the sliding block to always keep a trend of moving towards the surface of the sliding rail with the limiting part, and the supporting pin is arranged on the torsion arm and the inner end of the supporting pin can prop against the sliding rail, so that the torsion arm drives the sliding block and the limiting part to overcome the elastic force of the elastic sheet to move outwards. The elastic piece is arranged in the sliding block and is provided with a protruding part which can prop against the inner surface of the surrounding edge, the sliding block is provided with an opening for the protruding part to extend out, the protruding part props against the inner surface of the surrounding edge, so that a gap is always kept between the outer wall surface of the sliding block and the inner surface of the surrounding edge, the gap is the matched clamping displacement of the first clamping hook and the limiting part, and if the first clamping hook moves forwards relative to the limiting part, the limiting effect between the first clamping hook and the limiting part can be canceled. When the device is used, the supporting pin is screwed tightly, the inner end of the supporting pin is tightly abutted against the surface of the sliding rail, so that an outward acting force is generated on the torsion arm, the torsion arm drives the sliding block and the limiting piece to overcome the elasticity of the elastic piece and move outwards, the moving distance is the width of the gap, and therefore mutual limiting of the limiting piece and the upper limiting part of the sliding rail is eliminated, and the shell is moved downwards.

In order to facilitate connection, the supporting pin is a butterfly bolt, and the torsion arm is provided with a connecting hole for the butterfly bolt to pass through. The second edge of the torsion arm is provided with a flat plate which can be parallel to the outer wall surface of the sliding block and abutted against the outer wall surface of the sliding block.

Compared with the prior art, the invention has the advantages that: when the invention is used, the shell is pre-hung on the hook through the opening at the back, then the torsion angle of the torsion arm is adjusted to ensure that the sliding block and the torsion arm are locked and in a state of guiding and sliding relative to the sliding rail, the shell is lifted upwards, and the limiting piece is matched with the limiting part on the sliding rail to limit after the shell stops moving, so that the shell is prevented from moving downwards. After the casing is pre-hung on the mounting seat, a certain gap is reserved between the casing and the cabinet, and the gap can be eliminated through the height adjusting mechanism, so that the casing is convenient to clean and attractive in appearance.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the portion A in FIG. 1;

FIG. 3 is an exploded view of a portion of the structure of FIG. 1;

FIG. 4 is a schematic view of a portion of the structure of FIG. 3;

fig. 5 is a schematic structural view of a limiting member according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the embodiments of the drawings.

As shown in fig. 1 to 5, the mounting structure of the range hood according to the present embodiment includes a mounting base 1, a casing 2, a torsion arm 3, a slide rail 4, a slide block 5 and a limiting member 6, the mounting base 1 is a flat beam, the mounting base 1 is fixed on a supporting wall surface (for example, a wall surface) by a screw, a hook 11 is disposed on the mounting base 1, an opening 21 capable of being hung on the hook 11 is provided on the back of the casing 2, and the casing 2 is hung on the hook 11 by the opening 21, so that the range hood can be pre-positioned.

In this embodiment, the first edge of the torsion arm 3 is hinged to the mounting base 1, the second edge of the torsion arm 3 extends toward the side wall of the casing 2, and the second edge of the torsion arm 3 has a flat plate 31 that can be arranged parallel to the side wall of the casing 2. The sliding rail 4 is vertically arranged on the side wall of the casing 2 and is provided with a plurality of limiting parts 41 which are vertically arranged at intervals, the limiting parts 41 are bulges arranged on the surface of the sliding rail 4, the upper surface of each bulge is shaped into an inclined surface 411 which gradually inclines downwards from top to bottom, and the lower surface of each bulge is shaped into a plane which is vertically arranged with the outer surface of the sliding rail 4. The sliding block 5 is arranged on the sliding rail 4 in a vertically movable manner and is slidably connected with the flat plate 31 at the second edge of the torsion arm 3. The upper portion of the limiting piece 6 is hung on the sliding block 5, and the lower portion of the limiting piece 6 can be clamped with the limiting portion 41 of the sliding rail 4 in a matched mode, so that the position of the sliding block 5 on the sliding rail 4 is located.

Specifically, the lower portion of the limiting member 6 has a first hook 61 that bends upward, and in the state that the casing 2 moves upward, the first hook 61 elastically deforms under the abutment of the limiting portion 41 and allows the slide rail 4 to move upward, and in the state that the casing 2 is stationary, the upper end of the first hook 61 abuts against the lower surface of the limiting portion 41, so as to limit the casing 2 to move downward. After the range hood is primarily hung on the supporting wall, the range hood is moved upwards, and when the top plate of the range hood is flush with the cabinet and no gap exists between the top plate and the cabinet, the range hood is positioned through the limiting structure between the first clamping hook 61 and the limiting part 41, and the operation is convenient. The first hook 61 of the present embodiment is U-shaped overall, and the portion of the first hook 61 near the sliding rail 4 is bent toward the sliding rail 4 to form a V-shaped opening 611 of the first hook 61. This structure can realize that the slide rail 4 moves upward relative to the first hook 61 without allowing the slide rail 4 to move downward relative to the first hook 61. The sliding block 5 of the embodiment is vertically penetrated, the inner side of the sliding block 5 is provided with a bayonet 51, and the upper part of the limiting piece 6 is provided with a second clamping hook 62 which is bent forwards and hung in the bayonet 51. The inside of the slide 5 is provided with a longitudinally arranged opening slit 52 so that the slide 5 forms an open loop structure which is beneficial to increasing the elasticity of the slide 5 and better matching with the slide rail 4. The two side edges of the sliding rail 4 respectively extend forwards to form side walls 42, edges of the two side walls 42 are respectively bent relatively to form surrounding edges 43 which are vertically arranged, and the surrounding edges 43 and the corresponding side walls 42 and the outer side surfaces of the sliding rail 4 jointly enclose a sliding groove 44 which can be matched with the sliding block 5 in a guiding way. For ease of installation, the upper end of the slide rail 4 is arranged open on the side remote from the mounting base 1 so as to form a notch 45 for facilitating the loading of the slide 5 into the slide groove 44. The outer side of the sliding block 5 in this embodiment is provided with a first long hole 53 which is longitudinally arranged, and correspondingly, the torsion arm 3 is provided with a second long hole 32 which is longitudinally arranged, and the limiting pin 100 passes through the first long hole 53 and the second long hole 32 to vertically movably locate the sliding block 5 on the torsion arm 3. This structure is convenient for after having installed torsion arm 3 and casing 2 with slide rail 4, finely tune the slider 5 position so that put it in slide rail 4's spout 44 and slide rail direction cooperation. Positioning holes 54 and 33 are correspondingly formed in the sliding block 5 and the torsion arm 3, and the positioning pin 200 penetrates through the positioning holes 54 and 33 to lock and connect the sliding block 5 and the torsion arm 3. After the sliding block 5 is placed in the sliding groove 44 of the sliding rail 4, the sliding block 5 is locked with the torsion arm 3 by adopting the structure, so that the casing 2 can be lifted upwards, and the casing position can be adjusted.

In this embodiment, the mounting structure of the range hood further includes an assembly component 8 that enables the lower portion of the limiting member 6 and the limiting portion 41 of the slide rail 4 to cancel the limitation, so as to facilitate the disassembly of the range hood. Specifically, the assembly component 8 includes an elastic piece 81 and a supporting pin 82, the elastic piece 81 is disposed on the sliding block 5 and keeps the sliding block 5 moving towards the surface of the sliding rail 4 with the limiting portion 41 all the time, and the supporting pin 82 is disposed on the torsion arm 3 and the inner end of the supporting pin can abut against the sliding rail 4, so that the torsion arm 3 drives the sliding block 5 and the limiting member 6 to move outwards against the elastic force of the elastic piece 81. The elastic piece 81 is disposed in the slider 5 and has a protruding portion 811 capable of abutting against the inner surface of the surrounding edge 43, the opening 55 is formed in the slider 5 to allow the protruding portion 811 to protrude, the protruding portion 811 abuts against the inner surface of the surrounding edge 43, and a gap is always maintained between the outer wall surface of the slider 5 and the inner surface of the surrounding edge 43, the gap is a fitting engagement displacement between the first hook 61 and the limiting portion 41, and if the first hook 61 moves forward relative to the limiting portion 41 by the displacement of the gap, the limiting action between the first hook 61 and the limiting portion 41 can be canceled. The supporting pin 82 is a butterfly bolt, and the torsion arm 3 is provided with a connecting hole 34 for the butterfly bolt to pass through.

When the mounting structure of the range hood is used, the shell 2 is firstly hung on the hook 11 through the opening 21 at the back of the shell to realize the pre-positioning of the range hood, and at the moment, a gap is reserved between the top plate of the range hood and the cabinet; then, the position of the sliding block 5 relative to the torsion arm 3 is adjusted, the sliding block 5 is placed in a sliding groove 44 of the sliding rail 4, so that the sliding block 5 can move up and down in the sliding groove 44, and the sliding block 5 is in locking connection with the torsion arm 3 by utilizing a positioning pin 200; the casing 2 is lifted upwards, the first clamping hook 61 of the limiting piece 6 is propped against and elastically deformed in the upward movement process of the casing 2 so as to allow the sliding rail 4 to move upwards, after the casing 2 stops moving, the upper edge of the first clamping hook 61 is matched with the lower surface of the limiting part 41 on the sliding rail 4 to limit, the casing 2 is prevented from moving downwards, and therefore a gap between a top plate and a cabinet of the range hood is eliminated; when the range hood needs to be disassembled, the supporting pin 82 is screwed tightly, the inner end of the supporting pin 82 is tightly abutted against the surface of the sliding rail 4, so that an outward acting force is generated on the torsion arm 3, the torsion arm 3 drives the sliding block 5 and the limiting piece 6 to move outwards against the elasticity of the elastic piece 81, so that the mutual limiting of the limiting piece 6 and the limiting part 41 on the sliding rail 4 is canceled, at the moment, the machine shell 2 can be moved downwards until the sliding block 5 is separated from the upper end of the sliding groove 44 of the sliding rail 4, and the machine shell 2 is taken down from the hook 11 of the mounting seat 1.

Claims (11)

1. A mounting structure of a range hood comprises

The mounting seat (1) is arranged on the supporting wall surface, and a hook (11) is arranged on the outer surface of the mounting seat (1);

a shell (2), wherein the back of the shell (2) is provided with an opening (21) which can be hung on the hook (11);

the method is characterized in that: and also comprises

The first edge of the torsion arm (3) is hinged to the mounting seat (1), and the second edge of the torsion arm (3) extends towards the outer side wall of the shell (2);

the sliding rail (4) is vertically arranged on the outer side wall of the shell (2) and is provided with limiting parts (41) which are arranged at intervals up and down;

the sliding block (5) is arranged on the sliding rail (4) in a vertically movable manner and is connected with the second edge of the torsion arm (3); and

the limiting piece (6) is arranged on the outer side of the sliding rail (4) and can be matched with the limiting part (41) on the sliding rail (4) so as to prevent the shell (2) from moving downwards;

the limiting part (41) is a protrusion arranged on the outer surface of the sliding rail (4), a first clamping hook (61) bent upwards is arranged at the lower part of the limiting part (6), the first clamping hook (61) elastically deforms under the condition of protruding propping pressure and allows the sliding rail (4) to move upwards in the upward moving state of the casing (2), and the upper end of the first clamping hook (61) props against the lower surface of the protrusion to limit the downward movement of the casing (2) in the static state of the casing (2);

the sliding block (5) is vertically penetrated, a bayonet (51) is formed in the inner side of the sliding block (5), and a second clamping hook (62) which is bent forwards and hung in the bayonet (51) is arranged on the upper portion of the limiting piece (6).

2. The mounting structure of a range hood according to claim 1, wherein: the first clamping hook (61) is U-shaped as a whole, and the part of the first clamping hook (61) close to the sliding rail (4) is bent towards the sliding rail (4) to enable an opening of the first clamping hook (61) to be V-shaped.

3. The mounting structure of a range hood according to claim 1 or 2, characterized in that: the two side edges of the sliding rail (4) respectively extend forwards to form side walls (42), edges of the two side walls (42) are respectively bent relatively to form surrounding edges (43) which are vertically arranged, and the surrounding edges (43) and the corresponding side walls (42) and the outer side surfaces of the sliding rail (4) jointly enclose into a sliding groove (44) which can be matched with the sliding block (5) in a guiding way.

4. A mounting structure of a range hood according to claim 3, wherein: the upper end of the sliding rail (4) is arranged at one side far away from the mounting seat (1) in an open way so as to form a notch (52) which is convenient for loading the sliding block (5) into the sliding groove (44).

5. The mounting structure of a range hood according to claim 1 or 2, characterized in that: the outside of slider (5) has offered first slot hole (53) of vertical arrangement, and correspondingly, have offered second slot hole (32) of vertical arrangement on torsion arm (3), and the locating pin passes first slot hole (53), second slot hole (32) with slider (5) can locate on torsion arm (3) with reciprocating.

6. The mounting structure of a range hood according to claim 5, wherein: positioning holes (54, 33) are correspondingly formed in the sliding block (5) and the torsion arm (3), and a positioning pin (200) penetrates through the positioning holes (54, 33) to lock and connect the sliding block (5) and the torsion arm (3).

7. A mounting structure of a range hood according to claim 3, wherein: the assembly component (8) can cancel the limit between the lower part of the limit piece (6) and the limit part (41) of the slide rail (4).

8. The mounting structure of a range hood according to claim 7, wherein: the assembly component (8) comprises an elastic sheet (81) and a supporting pin (82), wherein the elastic sheet (81) is arranged on the sliding block (5) and enables the sliding block (5) to always keep a trend of moving towards the surface of the sliding rail (4) with the limiting part (41), and the supporting pin (82) is arranged on the torsion arm (3) and the inner end of the supporting pin can prop against the sliding rail (4) so that the torsion arm (3) drives the sliding block (5) and the limiting part (6) to overcome the elastic force of the elastic sheet (81) to move outwards.

9. The mounting structure of a range hood according to claim 8, wherein: the elastic piece (81) is arranged in the sliding block (5) and is provided with a protruding part (811) which can be abutted against the inner surface of the surrounding edge (43), the sliding block (5) is provided with an opening (55) for the protruding part (811) to protrude out, and the protruding part (811) is abutted against the inner surface of the surrounding edge (43) so that a gap is always kept between the outer wall surface of the sliding block (5) and the inner surface of the surrounding edge (43).

10. The mounting structure of a range hood according to claim 8, wherein: the supporting pin (82) is a butterfly bolt, and the torsion arm (3) is provided with a connecting hole (34) for the butterfly bolt to pass through.

11. The mounting structure of a range hood according to claim 1 or 2, characterized in that: the second edge of the torsion arm (3) is provided with a flat plate (31) which can be parallel to the outer wall surface of the sliding block (5) and abutted against the outer wall surface of the sliding block.