WO2012055156A1 - Drawer-panel angle-adjustment structure - Google Patents
Drawer-panel angle-adjustment structure Download PDFInfo
- Publication number
- WO2012055156A1 WO2012055156A1 PCT/CN2011/001602 CN2011001602W WO2012055156A1 WO 2012055156 A1 WO2012055156 A1 WO 2012055156A1 CN 2011001602 W CN2011001602 W CN 2011001602W WO 2012055156 A1 WO2012055156 A1 WO 2012055156A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- disposed
- limiting rail
- guiding
- rotating
- drawer panel
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47B—TABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
- A47B88/00—Drawers for tables, cabinets or like furniture; Guides for drawers
- A47B88/90—Constructional details of drawers
- A47B88/944—Drawers characterised by the front panel
- A47B88/95—Drawers characterised by the front panel characterised by connection means for the front panel
- A47B88/956—Drawers characterised by the front panel characterised by connection means for the front panel for enabling adjustment of the front panel
Definitions
- the invention relates to a drawer structure, in particular to a suction panel angle adjusting structure. Background technique
- a general drawer has a bottom plate and a front panel perpendicular to the bottom plate, a back panel and left and right side panels, and the front panel and the back panel are fixed to the left and right side panels to form a drawer structure.
- the member is provided with a support rod structure on a drawer panel joint structure, including a bottom plate 400, a set of left and right side panels 100, a front panel 200, a back panel 300, a holding member, a coupling member 210, and a support rod structure, the holding member is disposed on the left and right side panels 100, the holding member comprises a base and a hooking member, the coupling member 210 is mounted in the base of the holding member, and is detachable or assembled on one end of the base The hooking member 200 is mounted on the other end of the coupling member 210.
- the support rod structure is disposed above the side plate 100.
- the support rod structure includes a rear end connecting member 133, a supporting rod 131 and an adjusting connecting member 132.
- the rear end connecting member 133 is mounted on the two ends of the rear back plate 300.
- the front end of the support rod structure 130 is provided with an adjustment connecting member 132.
- the adjusting connecting member 132 is connected to the coupling member 203 above the drawer panel 200, and the length of the supporting rod structure is adjusted by adjusting the connecting member 132, thereby adjusting the height.
- the angle of the drawer panel 200 further increases the height of the drawer panel 200 against the side panel 100 by the elastic pulling force of the hooking member, but the support rod structure is inconveniently adjusted and connected to the side panel and the front panel. It is prone to looseness.
- an object of the present invention is to provide a drawer panel angle adjusting structure, which can conveniently adjust the angle of the drawer panel, and at the same time enable the drawer side panel and the drawer panel to be firmly combined.
- the present invention provides a drawer panel angle adjusting structure, comprising a drawer panel joint structure, and an angle adjusting structure disposed on the drawer panel joint structure, wherein the drawer panel joint structure comprises:
- Left and right parallel side plates are connected to the square bottom plate;
- a front panel mounted on the left and right parallel side plates
- a holding member is disposed on the support member, the holding member includes a support base and a hooking member, and the hooking member is disposed at one end of the support base;
- the coupling member is provided with a swinging shaft hole, and the angle adjusting structure comprises:
- the connecting member is provided with a connecting shaft hole, the connecting shaft rod penetrates the connecting shaft hole, and connects the connecting member to the swinging shaft hole, and the front panel is mounted on the connecting rod a connecting member; a rotating action member disposed on the coupling member or the connecting member;
- a connecting structure includes a limiting rail and a guiding member corresponding to the limiting rail; the connecting member is connected to the coupling member by the connecting shaft and the connecting structure to form a swinging structure, With the swinging structure, when the turning motion member is rotated, the front panel generates a swinging displacement as the turning motion member rotates.
- one end of the hooking member is provided with an elastic member, and the front panel abuts against the side panel by the elastic pulling force of the elastic member.
- the turning actuating member is disposed on the coupling member
- the guiding member is disposed on the rotating actuating member
- the limiting rail is disposed on the connecting member
- the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
- the turning actuating member is disposed on the coupling member
- the limiting rail is disposed on the rotating actuating member
- the guiding member is disposed on the connecting member
- the limiting rail corresponds to the guiding member, and the limiting rail and the guiding member are coupled to each other to form the good connecting structure.
- the turning action member is disposed on the connecting member
- the guiding member is disposed on the rotating actuating member
- the limiting rail is disposed on the connecting member
- the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
- the turning action member is disposed on the connecting member
- the limiting rail is disposed on the rotating actuating member
- the guiding member is disposed on the connecting member on
- the limiting rail corresponds to the guiding member
- the limiting rail and the guiding bow 1 are coupled to each other to form the engaging structure.
- the turning actuating member is an eccentric actuating member which is disposed on the coupling member, and the guiding member is formed by the periphery of the rotating actuating member.
- the limiting rail is disposed on the connecting member and has a square frame structure, and the rotating action member passes through the p-position rail and is movable along the limiting rail by the guiding
- the lead member and the limit rail are connected to each other to form the joint structure.
- the sliding panel angle adjusting structure is an eccentric actuating member which is disposed on the connecting member, and the guiding member is formed by the periphery of the rotating actuating member.
- the limiting rail is disposed on the coupling member and has a square frame structure, and the rotating motion member passes through the limiting rail and is movable along the limiting rail.
- the guiding member and the limiting rail are coupled to each other to form the engaging structure.
- the guiding member is a first gear disposed at one end of the rotating driving member, and the limiting rail is provided with a second gear that meshes with the first gear,
- the connecting member and the limiting rail are coupled to each other to form the engaging structure.
- the guiding member is a first gear fixed to a periphery of the rotating driving member
- the limiting rail is provided with a second gear meshing with the first gear, by The guiding member and the limiting rail are coupled to each other to form the engaging structure.
- the rotating driving member rotates
- the first gear and the second gear generate a force to drive the connecting member to drive the
- the drawer panel produces a swinging displacement.
- the present invention further provides another drawer panel angle adjusting structure, comprising a drawer panel joint structure, and an angle adjusting structure disposed on the drawer panel joint structure, wherein the drawer panel joint structure comprises:
- Left and right parallel side plates are connected to the square bottom plate;
- a front panel mounted on the left and right parallel side panels
- the holding member is provided with a support base and a hooking member, and the hooking member is disposed at one end of the support base;
- a joint member is detachably or assembled on the hook member, and the front panel is mounted on the joint member;
- the retaining member is provided with a connecting shaft hole, and the angle adjusting structure comprises:
- a connecting shaft is mounted on the supporting member, and the connecting member is provided with a swinging shaft hole, and the connecting shaft is connected to the connecting shaft hole through the connecting shaft hole;
- a turning actuating member mounted to the connecting member or the holding member
- a connecting structure includes a limiting track and a guiding member corresponding to the limiting track; forming a swinging structure, by the swinging structure, when the rotating member is rotated, the front panel follows The rotating action member rotates to generate a swinging displacement.
- one end of the hooking member is provided with an elastic member, and the front panel abuts against the side panel by the elastic pulling force of the elastic member.
- the turning action member is disposed on the connecting member
- the guiding member is disposed on the rotating actuating member
- the limiting rail is disposed on the holding member
- the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
- the turning action member is disposed on the connecting member
- the limiting rail is disposed on a side of the rotating actuating member
- the guiding member is disposed at the On the holding member
- the limiting rail corresponds to the guiding member
- the limiting rail and the guiding member are coupled to each other to form the engaging structure.
- the turning action member is disposed on the holding member, the guiding member is disposed on a side of the rotating actuating member, and the limiting rail is disposed at the
- the connecting member is disposed on the connecting member, and the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
- the turning action member is disposed on the holding member, the turning action member is disposed on the holding member, and the limiting rail is disposed at the rotating action
- the guiding member is disposed on the connecting member, and the limiting rail corresponds to the guiding member, and the limiting rail and the guiding arch member are coupled to each other to form the connecting structure.
- the turning actuating member is an eccentric actuating member which is disposed on the connecting member, and the guiding member is formed by a circular periphery of the rotating actuating member.
- the limiting rail is disposed on the holding member and has a square frame structure, and the rotating action member passes through the limiting rail and is movable along the limiting rail, the guiding member and the guiding member The limiting tracks are coupled to each other to form the engaging structure.
- the turning actuating member is an eccentric actuating member which is disposed on the holding member, and the guiding member is formed by a circular periphery of the rotating actuating member.
- the limiting rail is disposed on the connecting member and has a square frame structure, and the rotating action member passes through the limiting rail and can move along the limiting rail, the guiding member and the guiding member The limit rails are coupled to each other to form the joint structure.
- the guiding member is a first gear provided at one end of the rotating driving member, and the limiting rail is provided with a second gear meshing with the first gear.
- the guiding member and the limiting rail are coupled to each other to form the engaging structure.
- the guiding member is a first gear fixed to a periphery of the rotating driving member
- the limiting rail is provided with a second gear that meshes with the first gear
- the guiding member and the limiting rail are coupled to each other to form the engaging structure.
- the invention provides an angle adjustment structure on the drawer panel joint structure, so that the drawer panel and the side panel can be swingably assembled, which can be realized by the structure:
- the drawer panel joint structure comprises a bottom plate, a side plate, a front panel, a support member, and a holding And the connecting member, the angle adjusting structure comprises a connecting member, a connecting shaft, a rotating actuating member and a connecting structure;
- the supporting member is mounted on the side plate, the holding member is mounted on the supporting member, the coupling member is mounted on the holding member;
- the connecting member is mounted on the Between the support member and the support member, the front panel is mounted on the connecting member or the joint member, and is configured by an angle adjustment structure to form a swinging structure;
- the rotary motion member is mounted on the joint member or the connecting member or the retaining member
- the front panel rotates with the turning action to generate an oscillating displacement to adjust the angle between the front panel and the side panel.
- 1A is a schematic view showing the assembly of a conventional drawer structure
- FIG. 1B is an exploded perspective view of a prior art drawer structure
- FIG. 2A is a schematic view showing the assembly of the first structure of the first embodiment of the present invention.
- FIG. 2B is a perspective view showing the first structure of the first embodiment of the present invention.
- Figure 3 is a plan view showing the first structure of the first embodiment of the present invention.
- Figure 4 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 3;
- Figure 5 is a schematic view showing the clockwise swing of the front panel shown in Figure 3;
- Figure 6 is an exploded perspective view showing the first structure of the first embodiment of the present invention.
- Figure 7 is a plan view showing a second structure of the first embodiment of the present invention.
- Figure 8 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 7;
- Figure 9 is a schematic view showing the clockwise swing of the front panel shown in Figure 7;
- Figure 10 is a plan view showing a third structure of the first embodiment of the present invention.
- Figure 11 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 10;
- Figure 12 is a schematic view showing the clockwise swing of the front panel shown in Figure 10;
- Figure 13A is a perspective view showing the first structure of the second embodiment of the present invention;
- Figure 13B is a plan view showing the first structure of the second embodiment of the present invention.
- Figure 14 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 13B;
- Figure 15 is a schematic view showing the clockwise swing of the front panel shown in Figure 13B;
- Figure 16 is a plan exploded view showing the first structure of the second embodiment of the present invention.
- Figure 17 is a plan view showing a second structure of a second embodiment of the present invention.
- Figure 18 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 17;
- Figure 19 is a schematic view showing the clockwise swing of the front panel shown in Figure 17;
- Figure 20 is a plan view showing a third structure of a second embodiment of the present invention.
- Figure 21 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 20;
- Fig. 22 is a schematic view showing the clockwise swing of the front panel shown in Fig. 20.
- a drawer panel angle adjusting structure comprising a drawer panel joint structure, and an angle adjusting structure disposed on the drawer panel joint structure, wherein the drawer panel joint structure comprises:
- Left and right parallel side plates are connected to the square bottom plate;
- a front panel mounted on the left and right parallel side panels
- a holding member is mounted on the support member, the holding member includes a support base and a hooking member, The hook member is disposed at one end of the support base;
- the coupling member is provided with a swinging shaft hole, and the angle adjusting structure comprises:
- the connecting member is provided with a connecting shaft hole, the connecting shaft rod penetrates the connecting shaft hole, and connects the connecting member to the swinging shaft hole, and the front panel is mounted on the connecting member;
- a connecting structure includes a limiting track and a guiding member corresponding to the limiting track; structure.
- eleven kinds of drawer panel angle adjusting structure comprising a drawer panel connecting structure, and a structure is provided to adjust the angle of the drawer panel on a binding structure in which the drawer panel connecting structure comprising: a square bottom plate;
- Left and right parallel side plates are connected to the square bottom plate;
- a front panel mounted on the left and right parallel side panels
- the holding member is provided with a support base and a hooking member, the hooking member is disposed at one end of the support base;
- a coupling member is detachably or assembled on the hooking member, and the front panel is mounted on the coupling member; the holding member is provided with a connecting shaft hole, and the angle adjusting structure comprises:
- a connecting member is mounted on the supporting member, and the connecting member is provided with a swinging shaft hole, and the connecting shaft is connected to the swinging shaft hole through the connecting shaft hole;
- a turning action member mounted on the connecting member or the holding member
- the drawer assembly structure includes a square bottom plate 400, left and right parallel side plates 100, a front panel 200, a support member 10, a holding member 30 and a coupling member 210.
- the support member 10 is mounted on the side plate 100, and the holding member 30 is mounted.
- the coupling member 210 is disposed on the support member 10, and the coupling member 210 is provided with a swinging shaft hole 212.
- the holding member 30 includes a supporting seat 31, a hooking member 38, a tilting member 35 and an elastic member 33.
- the elastic member 33 of the embodiment is a tension spring.
- the angle adjustment structure includes a connecting shaft 240, a connecting member 230, a rotating actuating member 250 and a connecting structure.
- the connecting member 230 is provided with a connecting shaft hole 232.
- the connecting shaft 240 passes through the connecting shaft hole 232 and is connected to the swinging shaft hole 212 of the coupling member 210.
- the engagement structure includes a limit rail 225 and a guide 222 corresponding to the limit rail 225.
- the rotation member 250 is disposed on the coupling member 210, and the guiding member 222 is disposed on the rotating motion member 250.
- the limiting rail 225 is disposed on the connecting member 230 and corresponds to the guiding member 222.
- the limiting rail 225 is disposed on the equal-diameter circumference centered on the connecting shaft 240, and the guiding member 222 disposed on the rotating action member 250 and the limiting rail A225 disposed on the connecting member 230
- the interconnections form a joint structure.
- the connecting member 230 is coupled to the coupling member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
- the front panel 200 When the turning actuating member 250 is rotated, the front panel 200 is oscillated and displaced as the turning actuating member 250 rotates, thereby adjusting the angle between the front panel 200 and the side panel 100, and the elastic pulling force by the hooking member 38.
- the front panel 200 can be closely attached to the side panel 100.
- drawer panel angle adjusting structure of the first structure of the first embodiment of the present invention has an equivalent design structure, and the embodiment thereof is the same as the first structure of the first embodiment, and will not be described in detail below. Only the differences will be explained.
- the rotating action member 250 is disposed on the coupling member 210.
- the limiting rail 225 is disposed on the rotating motion member 250.
- the guiding member 222 is disposed on one side of the connecting member 230, and the guiding member 222 corresponds to the limiting rail 225.
- the limiting rail 225 is disposed on the equal-diameter circumference centered on the connecting shaft 240, and is connected to the guiding member 222 provided on the connecting member 230 by the limiting rail 225 provided on the rotating actuating member 250.
- the connecting structure is formed, and the connecting member 230 is connected to the coupling member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
- the rotating actuating member 250 is disposed on the connecting member 230
- the guiding member 222 is disposed on the side of the rotating actuating member 250
- the limiting rail 225 is disposed on the side of the coupling member 210
- the limiting rail 225 corresponds to the guiding member.
- the limiting rail 225 is disposed on the equal-diameter circumference centered on the connecting shaft 240
- the guiding member 222 disposed on the rotating action member 250 and the limiting rail 225 disposed on the coupling member 210
- the joints are formed to form a joint structure.
- the connecting member 230 is coupled to the joint member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
- the actuating member 250 is disposed on the connecting member 230
- the limiting rail 225 is disposed on the rotating actuating member 250
- the guiding member 222 is disposed on the side of the coupling member 210
- the guiding member 222 corresponds to the limiting rail 225
- the limiting rail 225 is disposed on the equal-diameter circumference centered on the connecting shaft 240
- the guiding member 222 disposed on the rotating action member 250 and the limiting rail disposed on the connecting member 230 225 are connected to form a joint structure.
- the connecting member 230 is coupled to the coupling member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
- the vertical wall surface of the main body of the support base 31 and the vertical wall surface extending outwardly of the drawer panel angle adjusting structure of the present invention respectively have a swinging member fixing hole 315, a first through hole 312 and a second through hole.
- the hole 313, and the damper fixing hole 315, the first through hole 312 and the second through hole 313 penetrate through the body of the support base 31, respectively.
- the shaft hole 351 of the swaying member 35 and the swaying member fixing hole 315 are aligned with each other, and the corresponding shaft hole 351 and the damper fixing hole 315 are bored by a shaft 15 to move the ram 35 It is located at the support base 31.
- the hooking member 38 is provided with a limiting slot 381, a first limiting component 11 and a second limiting component 12.
- the first limiting component 11 and the second limiting component 12 respectively pass through the first through hole 312.
- the other end of the coupling member 210 is provided with a guiding arm 211.
- the front end of the guiding arm 211 is provided with a locking mechanism, and the locking mechanism is provided with a locking hole 213.
- the front end of the holding member 30 is provided with a receiving slot 310.
- the engaging member 210 is pushed into the receiving slot 310 of the holding member 30 to touch the hooking member 38, and the hooking member 38 is automatically hooked.
- the hooking member 38 pulls the coupling member 210 into the holding member 30 along the limiting slot 381, causing the coupling member 210 to be displaced inwardly 270, and the coupling member 210 is displaced inwardly.
- 270 is the front panel 200 hooking the displacement 270 inward.
- the front panel 200 is not engaged with the hooking member 38, and the inward pulling distance of the front panel 200 is the same as the moving distance of the hooking member 38 in the limiting slot 381.
- the elastic tension of the fastener 38 pulls the front panel 200 inwardly, thereby bringing the front panel 200 into close proximity to the side panel 100.
- an external object such as a screwdriver pulls the rotating motion member 250 to rotate the rotating motion member 250 counterclockwise, and the guiding member 222 applies a limiting rail 225-force.
- the connecting member 230 is at the force.
- the driving of the front panel 200 is reversed in the driving direction, thereby adjusting the angle of the front panel 200 of the drawer. Further, the drawer panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100.
- an external object such as a screwdriver pulls the rotating motion member 250 to rotate the rotating motion member 250 clockwise, and the guiding member 222 applies a limiting rail 225-force.
- the connecting member 230 is at the force.
- the driving of the front panel 200 is performed in a clockwise direction to adjust the angle of the front panel 200. Further, the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100.
- FIG. 6 is a schematic view showing the separation of the front panel and the side panel according to an embodiment of the present invention.
- FIG. 7 to FIG. 9 are schematic diagrams showing a second structure of the angle adjustment structure of the drawer panel according to the first embodiment of the present invention.
- the panel angle adjustment structure of the second structure of the first embodiment of the present invention is the same as the first embodiment. Where the first structure of the example is not described in detail herein, the differences will be explained.
- the drawer panel angle adjusting structure of the second structure of the first embodiment of the present invention adds an angle adjusting structure to the drawer coupling structure, and the angle adjusting structure includes a connecting shaft 240 and a connection.
- the component 230, the one-turn actuating member 250 and the engaging structure comprise a limiting rail 225 and a guiding member 222 corresponding to the limiting rail 225.
- the rotating actuating member 250 is an eccentric actuating member, and is disposed on the connecting member 210.
- the guiding member 222 is formed by the periphery of the rotating actuating member 250, and the limiting rail 225 is disposed on the connecting member 230 in a square frame shape.
- the structure, the rotating actuating member 250 is passed through a square frame-shaped limiting rail 225 and is movable along the limiting rail 225.
- the actuating member 250 is disposed on the coupling member 210, and is engaged with the limiting rail 225 provided on the connecting member 230 by the guiding member 222 disposed on the rotating actuating member 250 to form an engaging structure.
- the connecting member 230 is coupled to the coupling member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
- the turning actuating member 250 rotates, the guiding member 222 acts on the limiting rail 225, and the connecting member 230 is driven by the limiting rail 225 to drive the front panel 200 to generate a swinging displacement.
- the guiding member 222 applies a limiting rail 225-force, and the connecting member 230 drives the front panel 200 in a counterclockwise direction under the driving force. Rotate to thereby adjust the angle of the front panel 200. Further, the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100.
- the guiding member 222 applies a limiting rail 225-force, and the connecting member 230 drives the front panel 200 to be clockwise driven by the force.
- the direction is rotated, thereby adjusting the angle of the front panel 200.
- the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100.
- the panel angle adjustment structure of the second structure of the first embodiment of the present invention has an equivalent design structure, and the implementation manner thereof is the same as that of the second structure of the first embodiment, and will not be described in detail herein. Explain it.
- the rotating actuating member 250 is an eccentric actuating member, which is disposed on the connecting member 230.
- the guiding member 222 is formed by the circular periphery of the rotating actuating member 250, and the limiting rail 225 is disposed on the coupling member 210 in a square frame structure.
- the rotating actuating member 250 is disposed through the square frame-shaped limiting rail 225 and movable along the limiting rail 225, and is disposed on the coupling member 210 by the guiding member 222 disposed on the rotating actuating member 250.
- the limit rails 225 are connected to each other to form a joint structure.
- the connecting member 230 is connected to the coupling member 210 by the connecting shaft 240 and the engaging structure to form a swinging structure.
- FIG. 10 to FIG. 12 are schematic diagrams showing a third structure of a panel angle adjusting structure according to a first embodiment of the present invention.
- the panel angle adjusting structure of the third structure of the first embodiment of the present invention is provided with a drawer coupling structure.
- the connecting shaft 240, a connecting member 230, a rotating actuating member 250 and a connecting structure comprise a limiting rail 225 and a guiding member 222 corresponding to the limiting rail 225.
- the rotating actuating member 250 is disposed on the coupling member 210
- the guiding member 222 is a first gear disposed at the end of the rotating actuating member 250
- the P-position rail 225 is provided with a second gear meshing with the first gear.
- the limiting rail 225 is disposed on the connecting member 230.
- the guiding member 222 disposed on the rotating member 250 and the limiting rail 225 disposed on the connecting member 230 are coupled to each other to form an engaging structure.
- the first gear drives the second gear to rotate, thereby causing the connecting member 230 and the drawer panel 200 to generate a swinging displacement.
- the guiding member 222 acts on the limiting rail 225, thereby pulling the connecting member 230 and the drawer front panel 200 to swing counterclockwise, and at the same time, borrowing
- the drawer front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the drawer front panel 200 is closely pressed against the drawing side panel 100;
- the lead member 222 acts on the limiting rail 225, thereby pulling the connecting member 230 and the drawer front panel 200 to swing clockwise, and at the same time, the drawer front panel 200 is tightened inward by the elastic pulling force of the elastic member 33 and the hooking member 38. , the drawer front panel 200 is placed closely below the drawer side panel 100.
- the panel angle adjusting structure of the third structure of the first embodiment of the present invention has an equivalent design structure, and the implementation manner thereof is the same as that of the third structure of the first embodiment, and will not be described in detail herein. Explain it.
- the rotating actuating member 250 is disposed on the connecting member 230.
- the guiding member 222 is a first gear disposed on the periphery of the rotating actuating member 250.
- the limiting rail 225 is provided with a second gear that meshes with the first gear, and the limiting rail 225
- the engaging member 210 is formed by the guiding member 222 disposed on the rotating actuating member 250 and the limiting rail 225 disposed on the coupling member 210.
- the connecting member 230 is coupled to the coupling member 210 by the connecting shaft 240 and the engaging structure to form a swinging structure. When an external force acts on the rotating actuating member 250 and rotates, the first gear and the second gear generate a force driving.
- the connector 230 in turn drives the drawer front panel 200 to produce a swinging displacement.
- FIG. 13A to 16 are schematic views showing a first structure of a panel angle adjusting structure according to a second embodiment of the present invention.
- the panel angle adjusting structure of the first structure of the second embodiment of the present invention is provided with a drawer structure.
- Angle adjustment structure among them:
- the drawer assembly structure includes a square bottom plate 400, a left and right parallel side plates 100, a front panel 200, a support member 10, a holding member 30 and a coupling member 210.
- the angle adjusting structure includes a connecting shaft 240 and a connecting plate 330.
- the one-turn actuating member 250 and the engaging structure comprise a P-position rail 225 and a guiding member 222 corresponding to the limiting rail 225.
- the support member 10 is mounted on the left side plate 100, the connecting plate 330 is mounted on the support member 10, the holding member 30 is mounted on the connecting plate 330, the coupling member 210 is mounted on the holding member 30, and the front panel 200 is mounted on the joint.
- the connecting plate 330 is provided with a swinging shaft hole 212.
- the holding member 30 is provided with a connecting shaft hole 232 corresponding to the swinging shaft hole 212, and the holding member 30 includes a supporting base 31, a hooking member 38 and a tilting member. 35 and an elastic member 33, wherein the elastic member 33 of the embodiment is a tension spring.
- the rotating actuating member 250 is disposed on the connecting plate 330
- the guiding member 222 is disposed on the rotating actuating member 250.
- the limiting rail 225 is disposed on the holding member 30 and corresponds to the guiding member 222.
- the guiding member 222 disposed on the rotating member 250 and the limiting rail 225 disposed on the holding member 30 are engaged with each other to form an engaging structure.
- the holding member 30 is connected to the connecting plate 330 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
- the rotating actuating member 250 When the rotating actuating member 250 is rotated, the front panel 200 generates a swinging displacement as the turning actuating member 250 rotates. Thereby, the angle of the front panel 200 and the side panel 100 is adjusted, and the front panel 200 is closely abutted against the side panel 100 by the elastic pulling force of the hooking member 38.
- the panel angle adjustment structure of the first structure of the second embodiment of the present invention has an equivalent design structure, and the implementation manner thereof is the same as that of the first structure of the second embodiment, and will not be described in detail herein. Explain it.
- the rotating actuating member 250 is disposed on the connecting plate 330, and the limiting rail 225 is disposed on the side of the rotating actuating member 250.
- the guiding member 222 is disposed on the supporting base 31 of the holding member 30 and corresponds to the limiting rail 225, by The limiting rail 225 disposed on the rotating action member 250 and the guiding member 222 disposed on the holding member 30 are engaged with each other to form a joint structure.
- the holding member 30 is coupled to the connecting plate 330 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
- the turning actuating member 250 is disposed on the holding member 30, and the guiding member 222 is disposed on the side of the rotating actuating member 250.
- the limiting rail 225 is disposed on the connecting plate 330 and corresponds to the guiding member 222.
- the guiding member 222 on the rotating actuating member 250 is engaged with the limiting rail 225 provided on the connecting plate 330 to form a joint structure.
- the holder 30 is coupled to the connecting plate 330 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
- the rotating actuating member 250 is disposed on the holding member 30, the limiting rail 225 is disposed on the side of the rotating actuating member 250, and the guiding member 222 is disposed on the connecting plate 330 and corresponding to the limiting rail 225,
- the limiting rail 225 on the rotating actuating member 250 and the guiding member 222 provided on the connecting plate 330 are coupled to each other to form a joint structure.
- the holder 30 is attached to the connecting plate 330 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
- a vertical wall surface of the main body of the support base 31 and a vertical wall surface extending outward from the main body respectively penetrate through a rocking member fixing hole 315, a first through hole 312 and a second through hole 313, and
- the damper fixing hole 315, the first through hole 312 and the second through hole 313 penetrate through the body of the support base 31, respectively.
- the shaft hole 351 of the swaying member 35 and the swaying member fixing hole 315 are aligned with each other, and then the corresponding shaft hole 351 and the swaying member fixing hole 315 are bored by a shaft 15 to position the damper member 35 at Support seat 31.
- a limiting slot 381, a first limiting component 11 and a second limiting component 12 are disposed on the hooking member 38.
- the first limiting component 11 and the second limiting component 12 are respectively disposed on the first through hole 312 and
- the second through hole 313 extends through the limiting slot 381 of the hooking member 38 to fix the first limiting component 11 and the second limiting component 12 to the support base 31.
- the other end of the coupling member 210 has a guiding arm 211, and the front end of the guiding arm 211 has a buckle
- the mechanism has a snap hole 213 formed in the buckle mechanism.
- the front end of the holding member 30 is provided with a receiving groove 310.
- the engaging member 210 is pushed into the receiving groove 310 of the holding member 30 to touch the hooking member 38, and the hooking member 38 is The hook member 38 is automatically hooked.
- the hook member 38 pulls the coupling member 210 into the holding member 30 along the limiting slot 381, so that the coupling member 210 generates an inward displacement 270.
- the inward displacement 270 is the front panel 200 inwardly snapping the displacement 270.
- the front panel 200 is not in the state of being fastened to the hooking member 38, and the front panel 200 is pulled inwardly at the same distance as the hooking member 38 in the limiting slot 381, and then is hooked.
- the elastic tension of the member 38 pulls the front panel 200 inwardly so that the front panel 200 abuts against the side panel 100.
- the external object pulls the rotating action member 250 to rotate the rotating actuating member 250 counterclockwise, and the guiding member 222 applies the limiting rail 225-force.
- the holding member 30 drives the front panel under the driving force.
- the 200 is rotated in a counterclockwise direction to thereby adjust the angle of the drawer panel 200. Further, the drawer panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38 so that the drawer panel 200 is closely pressed against the drawer side panel 100.
- the external object is rotated to rotate the rotating motion member 250 clockwise, and the guiding member 222 applies a limiting rail 225-force.
- the holding member 30 drives the drawer panel 200 to be clockwise driven by the force. Rotate to thereby adjust the angle of the drawer panel 200. Further, the drawer panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the drawer panel 200 is tightly pressed against the drawer side panel 100.
- FIG. 16 is a schematic view showing the separation of the front panel and the side panel of the embodiment.
- the rotating member 35 is rotated to slide the hooking member 38 along the limiting slot 381 until The coupling member 210 is disengaged from the hooking member 38, thereby separating the drawer panel 200 from the drawer side panel 100.
- FIG. 17 to FIG. 19 are schematic diagrams showing a second structure of a drawer panel angle adjusting structure according to a second embodiment of the present invention, and a panel angle adjusting structure of a second structure according to a second embodiment of the present invention is provided on a drawer coupling structure
- the engaging structure comprises a limiting rail 225 and a guiding member 222 corresponding to the limiting rail 225.
- the rotating actuating member 250 is an eccentric actuating member, which is disposed on the connecting plate 330.
- the guiding member 222 is formed by the circular periphery of the rotating actuating member 250, and the limiting rail 225 is disposed on the holding member 30 in a square shape. a frame-like structure, and the rotating actuating member 250 is disposed through the square frame-shaped limiting rail 225 and movable along the limiting rail 225 by the guiding member 222 disposed on the rotating actuating member 250
- the limit rails 225 on the holder 30 are engaged with each other to form a joint structure.
- the holder 30 is connected to the connecting plate 330 by the connecting shaft 240 and the engaging structure to form a swinging structure.
- the guiding member 222 applies a limiting rail 225-force, and the holding member 30 drives the coupling member 210 to drive the front panel under the driving force.
- the 200 rotates in a counterclockwise direction, thereby adjusting the angle of the front panel 200. Further Through the elastic pulling force of the elastic member 33 and the hooking member 38, the front panel 200 is pulled inwardly so that the front panel 200 is closely pressed against the drawer side panel 100.
- the guiding member 222 applies a limiting rail 225-force, and the holding member 30 drives the coupling member 210 to drive the front portion under the driving force.
- the panel 200 is rotated in a clockwise direction, thereby adjusting the angle of the front panel 200. Further, the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38 so that the front panel 200 is closely pressed against the drawer side panel 100.
- the panel angle adjustment structure of the second structure of the second embodiment of the present invention has an equivalent design structure, and the implementation manner thereof is the same as that of the second structure of the second embodiment, and will not be described in detail herein. Explain it.
- the rotating actuating member 250 is an eccentric actuating member, and is disposed on the holding member 30.
- the guiding member 222 is formed by the circular periphery of the rotating actuating member 250, and the limiting rail 225 is disposed on the connecting plate 330 in a square frame shape.
- the structure, and the rotating actuating member 250 is disposed through the square frame-shaped limiting rail 225, and is movable along the limiting rail 225, and is disposed on the connecting plate by the guiding member 222 disposed on the rotating actuating member 250.
- the limit rails 225 on the 330 are coupled to each other to form a joint structure.
- the holder 30 is coupled to the connecting plate 330 by the connecting shaft 240 and the engaging structure to form a swinging structure.
- FIG. 20 to FIG. 22 are schematic diagrams showing a third structure of the angle adjusting structure of the drawing house panel according to the second embodiment of the present invention, and the panel angle adjusting structure of the third structure of the second embodiment of the present invention is on the drawer coupling structure.
- a connecting shaft 240, a connecting plate 330, a rotating actuating member 250 and a connecting structure are provided.
- the connecting structure comprises a limiting rail 225 and a guiding member 222 corresponding to the limiting rail 225.
- the rotating action member 250 is disposed on the connecting plate 330, the guiding member 222 is a first gear disposed at one end of the rotating actuating member 250, and the P-position rail 225 is provided with a second gear that meshes with the first gear, and is limited
- the positioning rail 225 is disposed on the holding member 30, and is connected to the limiting rail 225 disposed on the holding member 30 by the guiding member 222 disposed on the rotating action member 250 to form a joint structure, and the retaining member 30 is formed by
- the connecting shaft 240 and the engaging structure are connected to the connecting plate 330 to form a swinging structure.
- the first gear drives the second gear to rotate, thereby driving the retaining member 30 to drive the coupling member 210 to thereby cause the drawer panel 200 to swing.
- the guiding member 222 acts on the limiting rail 225, thereby pulling the holding member 30, the coupling member 210 and the front panel 200 to swing counterclockwise.
- the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100;
- the turning actuating member 250 is rotated clockwise
- the guiding member 222 acts on the limiting rail 225 to pull the holding member 30, the coupling member 210 and the front panel 200 to swing clockwise, and at the same time, the front panel 200 is elastically pulled by the elastic member 33 and the hooking member 38.
- the inner panel 200 is pulled inwardly against the drawer side panel 100.
- the panel angle adjustment structure of the third structure of the second embodiment of the present invention has an equivalent design.
- the structure of the meter is the same as that of the third structure of the second embodiment, and will not be described in detail here.
- the rotating action member 250 is disposed on the holding member 30, the guiding member 222 is a first gear disposed on the periphery of the rotating actuating member 250, and the P-position rail 225 is provided with a second gear meshing with the first gear, and the limiting rail
- the 225 is disposed on the supporting member 330, and is connected to the limiting rail 225 disposed on the connecting plate 330 by the guiding member 222 disposed on the rotating actuating member 250 to form a joint structure, and the retaining member 30 is connected by the shaft
- the rod 240 and the engaging structure are coupled to the connecting plate 330 to form a swinging structure.
- the present invention provides an angle adjustment structure on the drawer panel joint structure, so that the drawer panel and the side panel can be swingably assembled, which can be realized by a structure:
- the drawer panel joint structure includes a bottom plate, a side plate, and a front panel.
- the support member, the holding member and the joint member, the angle adjusting structure comprises a connecting member, a connecting shaft rod, a rotating actuating member and a connecting structure;
- the supporting member is mounted on the side plate, the holding member is mounted on the supporting member, and the binding member is mounted on the holding member
- the connecting member is mounted on the joint member or between the support member and the retaining member, the front panel is mounted on the connecting member or the joint member, and the angle adjusting structure is used to form the swinging structure;
- the rotating actuating member is mounted on the joint member or
- the connecting member or the holding member is rotated by the turning action member, and the front panel is rotated by the rotation of the rotating action member to adjust the angle between the front panel and the side panel.
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- Drawers Of Furniture (AREA)
Abstract
A drawer-panel angle-adjustment structure comprising a drawer-panel coupling structure and an angle-adjustment structure. The drawer-panel coupling structure comprises a base panel (400), a side panel (100), a front panel (200), a support member (10), a holding member (30) and a coupling member (210). The angle-adjustment structure comprises a connecting member (230), a connection rod (240), a rotary actuating member (250), and a joint structure. The front panel (200) is mounted on the connecting member (230). The rotary actuating member (250) is mounted on the coupling member (210) or the connecting member (230). When the rotary actuating member (250) is rotated, the front panel (200) rotates along with the rotary actuating member (250), producing a swinging displacement and thereby adjusting the angle of the front panel (200) relative to the side panel (100). The invention allows for convenient adjustment of the angle of the front panel of the drawer while allowing the side panel and the front panel to be firmly coupled.
Description
抽屋面板角度调整结构 Pumping house panel angle adjustment structure
技术领域 Technical field
本发明涉及抽屉结构, 尤其涉及一种抽居面板角度调整结构。 背景技术 The invention relates to a drawer structure, in particular to a suction panel angle adjusting structure. Background technique
传统的抽屉, 利用于收纳或收藏物品, 抽屉以可活动的关系容置于一拒 体中。 一般的抽屉具有一底板以及垂直于底板的一前面板、 一后背板与左右 侧板, 前面板及后背板固设于左右侧板, 以构成一抽屉结构。 Traditional drawers are used to store or collect items, and the drawers are placed in a repellent relationship in a movable relationship. A general drawer has a bottom plate and a front panel perpendicular to the bottom plate, a back panel and left and right side panels, and the front panel and the back panel are fixed to the left and right side panels to form a drawer structure.
在现代厨房中, 为了方便储存较高物品如锅具、 碗盘、 水壶、 果菜机等, 以保持厨房整洁, 加高抽屉逐渐被广泛应用于现代厨房。 一般的加高抽屉面 板的抽屉结构, 由于抽屉面板的重心提高, 抽屉面板与抽屉侧板之间容易产 生倾斜及间隙, 致使抽屉面板使用时产生摇晃现象等诸多问题。 有一种加高 抽屉面板结合构件被广泛使用, 请参阅中国专利案号为 CN201403824Y的专 利所提供的一种抽屉面板结合结构, 再结合图 1A和图 1B, 现有一种加高抽 屉面板结合构件, 该构件是在一种抽屉面板结合结构上加上一支撑杆结构, 包括有一底板 400、 一组左右侧板 100、 一前面板 200、 一后背板 300、 一固 持件、 一结合件 210以及一支撑杆结构, 固持件设置于左右侧板 100上, 固 持件包含有一基座及一勾扣件, 结合件 210装设于固持件的基座内, 并可拆 卸或组装于基座一端的勾扣件, 抽屈面板 200装设于结合件 210的另一端。 In modern kitchens, in order to facilitate the storage of higher items such as pots, dishes, kettles, fruit and vegetables, etc., in order to keep the kitchen tidy, the heightening drawers are gradually being widely used in modern kitchens. Generally, the drawer structure of the drawer panel is increased. Due to the increase of the center of gravity of the drawer panel, the inclination and the gap between the drawer panel and the drawer side panel are liable to occur, which causes the drawer panel to have a shaking phenomenon when used. There is a kind of elevated drawer panel joint member which is widely used. Please refer to the patent panel CN201403824Y for a drawer panel joint structure. Referring to FIG. 1A and FIG. 1B, a conventional drawer panel joint member is added. The member is provided with a support rod structure on a drawer panel joint structure, including a bottom plate 400, a set of left and right side panels 100, a front panel 200, a back panel 300, a holding member, a coupling member 210, and a support rod structure, the holding member is disposed on the left and right side panels 100, the holding member comprises a base and a hooking member, the coupling member 210 is mounted in the base of the holding member, and is detachable or assembled on one end of the base The hooking member 200 is mounted on the other end of the coupling member 210.
支撑杆结构设置于侧板 100上方, 支撑杆结构包括一后端连接件 133、一 支撑杆 131及一调整连接件 132,后端连接件 133装设在后背板 300两端的加 高连接件 233, 支撑杆结构 130的前端装设有一调整连接件 132, 调整连接件 132连接在抽屉面板 200上方的结合件 203上,通过调整连接件 132以调整支 撑杆结构的长度, 借此调整加高抽屉面板 200的角度, 进一步地, 通过勾扣 件的弹性拉力,使加高抽屉面板 200紧密稳固的靠在侧板 100,但这种支撑杆 结构调整不便, 且与侧板及前面板的连接易出现松动现象。 The support rod structure is disposed above the side plate 100. The support rod structure includes a rear end connecting member 133, a supporting rod 131 and an adjusting connecting member 132. The rear end connecting member 133 is mounted on the two ends of the rear back plate 300. 233, the front end of the support rod structure 130 is provided with an adjustment connecting member 132. The adjusting connecting member 132 is connected to the coupling member 203 above the drawer panel 200, and the length of the supporting rod structure is adjusted by adjusting the connecting member 132, thereby adjusting the height. The angle of the drawer panel 200 further increases the height of the drawer panel 200 against the side panel 100 by the elastic pulling force of the hooking member, but the support rod structure is inconveniently adjusted and connected to the side panel and the front panel. It is prone to looseness.
综上可知, 现有的加高抽屉面板结合构件在实际使用上, 显然存在不便 与缺陷, 有必要加以改进。 发明内容 In summary, the existing heightening drawer panel coupling members are obviously inconvenient and defective in practical use, and it is necessary to improve them. Summary of the invention
针对上述的缺陷, 本发明的目的在于提供一种抽屉面板角度调整结构, 其可以方便的调整抽屉面板的角度, 同时也使抽屉侧板和抽屉面板能牢固结 合。
为了实现上述目的, 本发明提供一种抽屉面板角度调整结构, 包括有一 抽屉面板结合结构, 以及设置在所述抽屉面板结合结构上的一角度调整结构, 其中, 所述抽屉面板结合结构包括: In view of the above drawbacks, an object of the present invention is to provide a drawer panel angle adjusting structure, which can conveniently adjust the angle of the drawer panel, and at the same time enable the drawer side panel and the drawer panel to be firmly combined. In order to achieve the above object, the present invention provides a drawer panel angle adjusting structure, comprising a drawer panel joint structure, and an angle adjusting structure disposed on the drawer panel joint structure, wherein the drawer panel joint structure comprises:
一方形底板; a square bottom plate;
左右平行侧板, 所述左右平行侧板连接于所述方形底板; Left and right parallel side plates, the left and right parallel side plates are connected to the square bottom plate;
一前面板, 装设于所述左右平行侧板; a front panel mounted on the left and right parallel side plates;
一支撑件, 装设在所述左右平行侧板; a support member mounted on the left and right parallel side plates;
一固持件, 装设在所述支撑件上, 所述固持件包含有一支撑座及一勾扣 件, 所述勾扣件设置于所述支撑座的一端; 以及 a holding member is disposed on the support member, the holding member includes a support base and a hooking member, and the hooking member is disposed at one end of the support base;
一结合件, 可拆卸或组装于所述勾扣件; a coupling member detachable or assembled to the hook member;
所述结合件设有一摆动轴孔, 所述角度调整结构包括: The coupling member is provided with a swinging shaft hole, and the angle adjusting structure comprises:
一连接轴杆; a connecting shaft;
一连接件, 所述连接件上设有一连接轴孔, 所述连接轴杆穿设所述连接 轴孔, 并将连接件连接在所述摆动轴孔, 且所述前面板装设于所述连接件; 一转动作动件, 设于所述结合件或所述连接件; 以及 a connecting member, the connecting member is provided with a connecting shaft hole, the connecting shaft rod penetrates the connecting shaft hole, and connects the connecting member to the swinging shaft hole, and the front panel is mounted on the connecting rod a connecting member; a rotating action member disposed on the coupling member or the connecting member;
一衔接结构 , 包括有一限位轨道及与所述限位轨道对应的导引件; 所述连接件藉由所述连接轴杆以及所述衔接结构连接于所述结合件上形 成一摆动结构, 藉由所述摆动结构, 当所述转动作动件被转动, 所述前面板 随着所述转动作动件转动而产生摆动位移。 a connecting structure includes a limiting rail and a guiding member corresponding to the limiting rail; the connecting member is connected to the coupling member by the connecting shaft and the connecting structure to form a swinging structure, With the swinging structure, when the turning motion member is rotated, the front panel generates a swinging displacement as the turning motion member rotates.
根据本发明的抽屉面板角度调整结构, 所述勾扣件的一端设有一弹性件, 通过所述弹性件的弹性拉力, 所述前面板抵靠在所述侧板。 According to the drawer panel angle adjusting structure of the present invention, one end of the hooking member is provided with an elastic member, and the front panel abuts against the side panel by the elastic pulling force of the elastic member.
根据本发明的抽屉面板角度调整结构, 所述转动作动件设在所述结合件 上, 所述导引件设在所述转动作动件上, 所述限位轨道设在所述连接件上, 且所述限位轨道对应所述导引件, 所述导引件与所述限位轨道相互衔接, 形 成所述衔接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning actuating member is disposed on the coupling member, the guiding member is disposed on the rotating actuating member, and the limiting rail is disposed on the connecting member And the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
根据本发明的抽屉面板角度调整结构, 所述转动作动件设在所述结合件 上, 所述限位轨道设在所述转动作动件上, 所述导引件设在所述连接件上, 且所述限位轨道对应所述导引件, 所述限位轨道与所述导引件相互衔接, 形 成所述 ^好接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning actuating member is disposed on the coupling member, the limiting rail is disposed on the rotating actuating member, and the guiding member is disposed on the connecting member And the limiting rail corresponds to the guiding member, and the limiting rail and the guiding member are coupled to each other to form the good connecting structure.
根据本发明的抽屉面板角度调整结构, 所述转动作动件设在所述连接件 上, 所述导引件设在所述转动作动件上, 所述限位轨道设在所述结合件上, 且所述限位轨道对应于所述导引件, 所述导引件与所述限位轨道相互衔接, 形成所述衔接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning action member is disposed on the connecting member, the guiding member is disposed on the rotating actuating member, and the limiting rail is disposed on the connecting member And the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
根据本发明的抽屉面板角度调整结构, 所述转动作动件设在所述连接件 上, 所述限位轨道设在所述转动作动件上, 所述导引件设在所述结合件上,
并且所述限位轨道对应于所述导引件, 所述限位轨道与所述导弓 1件相互衔接 , 形成所述衔接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning action member is disposed on the connecting member, the limiting rail is disposed on the rotating actuating member, and the guiding member is disposed on the connecting member on, And the limiting rail corresponds to the guiding member, and the limiting rail and the guiding bow 1 are coupled to each other to form the engaging structure.
根据本发明的抽屉面板角度调整结构, 所述转动作动件系为一偏心作动 件, 设在所述结合件上, 所述导引件是由所述转动作动件的周边形成, 所述 限位轨道设在所述连接件上, 并呈方形框状结构, 所述转动作动件穿设所述 p艮位轨道, 并可沿所述限位轨道内移动, 藉由所述导引件与所述限位轨道之 相互^ "接, 形成所述衔接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning actuating member is an eccentric actuating member which is disposed on the coupling member, and the guiding member is formed by the periphery of the rotating actuating member. The limiting rail is disposed on the connecting member and has a square frame structure, and the rotating action member passes through the p-position rail and is movable along the limiting rail by the guiding The lead member and the limit rail are connected to each other to form the joint structure.
根据本发明的抽居面板角度调整结构, 所述转动作动件系为一偏心作动 件, 设在所述连接件上, 所述导引件是由所述转动作动件的周边形成, 所述 限位轨道设在所述结合件上, 并呈方形框状结构, 所述转动作动件系穿设所 述限位轨道, 并可沿所述限位轨道内移动, 藉由所述导引件与所述限位轨道 之相互衔接, 形成所述衔接结构。 According to the present invention, the sliding panel angle adjusting structure is an eccentric actuating member which is disposed on the connecting member, and the guiding member is formed by the periphery of the rotating actuating member. The limiting rail is disposed on the coupling member and has a square frame structure, and the rotating motion member passes through the limiting rail and is movable along the limiting rail. The guiding member and the limiting rail are coupled to each other to form the engaging structure.
根据本发明的抽屉面板角度调整结构, 所迷导引件是设于所迷转动驱动 件一端部的第一齿轮, 所述限位轨道设有与所述第一齿轮啮合的第二齿轮, 藉由所述导引件与所述限位轨道相互衔接, 形成所述衔接结构, 当所述转动 驱动件转动, 所述第一齿轮驱动所述第二齿轮进而带动所述连接件与抽屉面 板产生摆动位移。 According to the drawer panel angle adjusting structure of the present invention, the guiding member is a first gear disposed at one end of the rotating driving member, and the limiting rail is provided with a second gear that meshes with the first gear, The connecting member and the limiting rail are coupled to each other to form the engaging structure. When the rotating driving member rotates, the first gear drives the second gear to drive the connecting member and the drawer panel to generate Swing displacement.
根据本发明的抽屉面板角度调整结构, 所述导引件是固定于所述转动驱 动件外围的第一齿轮, 所述限位轨道设有与所述第一齿轮啮合的第二齿轮, 藉由所述导引件与所述限位轨道之相互衔接, 形成所述衔接结构, 当所述转 动驱动件转动, 所述第一齿轮和第二齿轮产生作用力驱动所述连接件进而带 动所述抽屉面板产生摆动位移。 According to the drawer panel angle adjusting structure of the present invention, the guiding member is a first gear fixed to a periphery of the rotating driving member, and the limiting rail is provided with a second gear meshing with the first gear, by The guiding member and the limiting rail are coupled to each other to form the engaging structure. When the rotating driving member rotates, the first gear and the second gear generate a force to drive the connecting member to drive the The drawer panel produces a swinging displacement.
优选的, 本发明还提供另外一种抽屉面板角度调整结构, 包括一抽屉面 板结合结构, 以及设置在所述抽屉面板结合结构上的一角度调整结构, 其中, 所述抽屉面板结合结构包括: Preferably, the present invention further provides another drawer panel angle adjusting structure, comprising a drawer panel joint structure, and an angle adjusting structure disposed on the drawer panel joint structure, wherein the drawer panel joint structure comprises:
一方形底板; a square bottom plate;
左右平行侧板, 所述左右平行侧板连接于所述方形底板; Left and right parallel side plates, the left and right parallel side plates are connected to the square bottom plate;
一前面板, 装设在所述左右平行侧板; a front panel mounted on the left and right parallel side panels;
一支撑件, 装设在所述左右平行侧板; a support member mounted on the left and right parallel side plates;
一固持件, 所述固持件设有一支撑座及一勾扣件, 所述勾扣件系设置于 支撑座一端; 以及 a holding member, the holding member is provided with a support base and a hooking member, and the hooking member is disposed at one end of the support base;
一结合件, 可拆卸或组装设于所述勾扣件上, 所述前面板装设于所述结 合件上; a joint member is detachably or assembled on the hook member, and the front panel is mounted on the joint member;
所迷固持件设有一连接轴孔, 所述角度调整结构包括: The retaining member is provided with a connecting shaft hole, and the angle adjusting structure comprises:
一连接轴杆;
一连接件, 装设于所述支撑件, 且所述连接件设有一摆动轴孔, 所述连 接轴杆穿设所述连接轴孔连接于所述摆动轴孔; a connecting shaft; a connecting member is mounted on the supporting member, and the connecting member is provided with a swinging shaft hole, and the connecting shaft is connected to the connecting shaft hole through the connecting shaft hole;
一转动作动件, 装设于所述连接件或所述固持件; 以及 a turning actuating member mounted to the connecting member or the holding member;
一衔接结构, 包括有一限位轨道及与所述限位轨道对应的导引件; 成一摆动结构, 藉由所述摆动结构,、 当所述转动作 件被转动, 所述前面板 随着所述转动作动件转动而产生摆动位移。 a connecting structure includes a limiting track and a guiding member corresponding to the limiting track; forming a swinging structure, by the swinging structure, when the rotating member is rotated, the front panel follows The rotating action member rotates to generate a swinging displacement.
根据本发明的抽屈面板角度调整结构 , 所述勾扣件的一端设有一弹性件, 通过所述弹性件的弹性拉力, 令所述前面板抵靠在所述侧板。 According to the embossed panel angle adjusting structure of the present invention, one end of the hooking member is provided with an elastic member, and the front panel abuts against the side panel by the elastic pulling force of the elastic member.
根据本发明的抽屉面板角度调整结构, 所述转动作动件设在所述连接件 上, 所述导引件设在所述转动作动件上, 所述限位轨道设在所述固持件上, 且所述限位轨道对应所述导引件, 所述导引件与所述限位轨道相互衔接, 形 成所述衔接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning action member is disposed on the connecting member, the guiding member is disposed on the rotating actuating member, and the limiting rail is disposed on the holding member And the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
根据本发明的抽屉面板角度调整结构 , 所述转动作动件设在所述连接件 上, 所述限位轨道设在所述转动作动件的侧面上, 所述一导引件设在所述固 持件上, 且所述限位轨道对应所述导引件, 所述限位轨道与所述导引件相互 衔接, 形成所述衔接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning action member is disposed on the connecting member, the limiting rail is disposed on a side of the rotating actuating member, and the guiding member is disposed at the On the holding member, the limiting rail corresponds to the guiding member, and the limiting rail and the guiding member are coupled to each other to form the engaging structure.
根据本发明的抽屉面板角度调整结构, 所述转动作动件设在所述固持件 上, 所述导引件设在所述转动作动件的侧面上, 所述限位轨道设在所述连接 件上, 且所述限位轨道对应所述导引件, 所述导引件与所述限位轨道相互衔 接, 形成所述衔接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning action member is disposed on the holding member, the guiding member is disposed on a side of the rotating actuating member, and the limiting rail is disposed at the The connecting member is disposed on the connecting member, and the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
根据本发明的抽屉面板角度调整结构, 所迷转动作动件设在所述固持件 上, 所述转动作动件设在所述固持件上, 所述限位轨道设在所述转动作动件 的侧面上, 所述导引件设在所述连接件上, 且所述限位轨道对应所述导引件, 所述限位轨道与所述导弓 I件相互衔接, 形成所述衔接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning action member is disposed on the holding member, the turning action member is disposed on the holding member, and the limiting rail is disposed at the rotating action The guiding member is disposed on the connecting member, and the limiting rail corresponds to the guiding member, and the limiting rail and the guiding arch member are coupled to each other to form the connecting structure.
根据本发明的抽屉面板角度调整结构, 所述转动作动件为一偏心作动件, 设在所述连接件上, 所述导引件是由所述转动作动件的圆周边形成, 所述限 位轨道设在所述固持件上, 并呈方形框状结构, 所述转动作动件穿设所述限 位轨道, 并可沿所述限位轨道内移动, 所述导引件与所述限位轨道之相互衔 接, 形成所述衔接结构。 According to the drawer panel angle adjusting structure of the present invention, the turning actuating member is an eccentric actuating member which is disposed on the connecting member, and the guiding member is formed by a circular periphery of the rotating actuating member. The limiting rail is disposed on the holding member and has a square frame structure, and the rotating action member passes through the limiting rail and is movable along the limiting rail, the guiding member and the guiding member The limiting tracks are coupled to each other to form the engaging structure.
根据本发明的抽屉面板角度调整结构, 所述转动作动件为一偏心作动件, 设在所述固持件上, 所述导引件是由所述转动作动件的圆周边形成, 所述限 位轨道设在所述连接件上, 并呈方形框状结构, 所述转动作动件穿设所述限 位轨道, 并可沿所述限位轨道内移动, 所述导引件与所述限位轨道相互衔接, 形成所述衔接结构。
根据本发明的抽屉面板角度调整结构, 所述导引件是设于所述转动驱动 件一端部的第一齿轮, 所述限位轨道设有与所述第一齿轮啮合的第二齿轮, 所述导引件与所述限位轨道相互衔接, 形成所述衔接结构, 当所述转动驱动 件转动, 所述第一齿轮驱动所述第二齿轮进而带动所述固持件、 结合件与抽 屉面板产生摆动位移。 According to the drawer panel angle adjusting structure of the present invention, the turning actuating member is an eccentric actuating member which is disposed on the holding member, and the guiding member is formed by a circular periphery of the rotating actuating member. The limiting rail is disposed on the connecting member and has a square frame structure, and the rotating action member passes through the limiting rail and can move along the limiting rail, the guiding member and the guiding member The limit rails are coupled to each other to form the joint structure. According to the drawer panel angle adjusting structure of the present invention, the guiding member is a first gear provided at one end of the rotating driving member, and the limiting rail is provided with a second gear meshing with the first gear. The guiding member and the limiting rail are coupled to each other to form the engaging structure. When the rotating driving member rotates, the first gear drives the second gear to drive the holding member, the connecting member and the drawer panel A swing displacement is generated.
根据本发明的抽屉面板角度调整结构, 所述导引件是固定于所述转动驱 动件外围的第一齿轮, 所述限位轨道设有与所述第一齿轮啮合的第二齿轮, 所述导引件与所述限位轨道相互衔接, 形成所述衔接结构, 当所述转动驱动 件转动, 所述第一齿轮和第二齿轮产生作用力驱动所述固持件进而带动所述 结合件与抽屉面板产生摆动位移。 According to the drawer panel angle adjusting structure of the present invention, the guiding member is a first gear fixed to a periphery of the rotating driving member, and the limiting rail is provided with a second gear that meshes with the first gear, The guiding member and the limiting rail are coupled to each other to form the engaging structure. When the rotating driving member rotates, the first gear and the second gear generate a force to drive the holding member to drive the coupling member and The drawer panel produces a swinging displacement.
本发明通过在抽屉面板结合结构上设一角度调整结构, 使抽屉面板与侧 板可摆动组设, 具体可以通过结构实现: 抽屉面板结合结构包括有底板、 侧 板、 前面板、 支撑件、 固持件及结合件, 角度调整结构包括有连接件、 连接 轴杆、 转动作动件以及衔接结构; 支撑件装于侧板, 固持件装于支撑件, 结 合件装于固持件; 连接件装在结合件上或是支撑件与固持件之间, 前面板装 设在连接件或结合件上, 并藉由角度调整结构以形成摆动结构; 转动作动件 装在结合件或连接件或固持件上, 藉由转动作动件被转动, 前面板随着转动 作动件转动产生摆动位移, 以调整前面板与侧板的角度。 借此, 本发明可以 方便的调整抽屉面板的角度, 同时也使抽屉侧板和前面板能牢固结合。 附图说明 The invention provides an angle adjustment structure on the drawer panel joint structure, so that the drawer panel and the side panel can be swingably assembled, which can be realized by the structure: The drawer panel joint structure comprises a bottom plate, a side plate, a front panel, a support member, and a holding And the connecting member, the angle adjusting structure comprises a connecting member, a connecting shaft, a rotating actuating member and a connecting structure; the supporting member is mounted on the side plate, the holding member is mounted on the supporting member, the coupling member is mounted on the holding member; the connecting member is mounted on the Between the support member and the support member, the front panel is mounted on the connecting member or the joint member, and is configured by an angle adjustment structure to form a swinging structure; the rotary motion member is mounted on the joint member or the connecting member or the retaining member Above, by rotating the actuating member, the front panel rotates with the turning action to generate an oscillating displacement to adjust the angle between the front panel and the side panel. Thereby, the invention can conveniently adjust the angle of the drawer panel, and at the same time, the drawer side panel and the front panel can be firmly combined. DRAWINGS
图 1A为习知技术抽屉结构之组装示意图; 1A is a schematic view showing the assembly of a conventional drawer structure;
图 1B为习知技术抽屉结构之分解示意图; 1B is an exploded perspective view of a prior art drawer structure;
图 2A为本发明第一实施例的第一种结构之组装示意图; 2A is a schematic view showing the assembly of the first structure of the first embodiment of the present invention;
图 2B为本发明第一实施例的第一种结构之立体示意图; 2B is a perspective view showing the first structure of the first embodiment of the present invention;
图 3为本发明第一实施例的第一种结构之平面示意图; Figure 3 is a plan view showing the first structure of the first embodiment of the present invention;
图 4为图 3所示的前面板逆时针摆动示意图; Figure 4 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 3;
图 5为图 3所示的前面板顺时针摆动示意图; Figure 5 is a schematic view showing the clockwise swing of the front panel shown in Figure 3;
图 6为本发明第一实施例的第一种结构之分解示意图; Figure 6 is an exploded perspective view showing the first structure of the first embodiment of the present invention;
图 7为本发明第一实施例的第二种结构之平面示意图; Figure 7 is a plan view showing a second structure of the first embodiment of the present invention;
图 8为图 7所示的前面板逆时针摆动示意图; Figure 8 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 7;
图 9为图 7所示的前面板顺时针摆动示意图; Figure 9 is a schematic view showing the clockwise swing of the front panel shown in Figure 7;
图 10为本发明第一实施例的第三种结构之平面示意图; Figure 10 is a plan view showing a third structure of the first embodiment of the present invention;
图 11为图 10所示的前面板逆时针摆动示意图; Figure 11 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 10;
图 12为图 10所示的前面板顺时针摆动示意图;
图 13A为本发明第二实施例的第一种结构之立体示意图; Figure 12 is a schematic view showing the clockwise swing of the front panel shown in Figure 10; Figure 13A is a perspective view showing the first structure of the second embodiment of the present invention;
图 13B为本发明第二实施例的第一种结构之平面示意图; Figure 13B is a plan view showing the first structure of the second embodiment of the present invention;
图 14为图 13B所示的前面板逆时针摆动示意图; Figure 14 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 13B;
图 15为图 13B所示的前面板顺时针摆动示意图; Figure 15 is a schematic view showing the clockwise swing of the front panel shown in Figure 13B;
图 16为本发明第二实施例的第一种结构之平面分解示意图; Figure 16 is a plan exploded view showing the first structure of the second embodiment of the present invention;
图 17为本发明第二实施例的第二种结构之平面示意图; Figure 17 is a plan view showing a second structure of a second embodiment of the present invention;
图 18为图 17所示的前面板逆时针摆动示意图; Figure 18 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 17;
图 19为图 17所示的前面板顺时针摆动示意图; Figure 19 is a schematic view showing the clockwise swing of the front panel shown in Figure 17;
图 20为本发明第二实施例的第三种结构之平面示意图; Figure 20 is a plan view showing a third structure of a second embodiment of the present invention;
图 21为图 20所示的前面板逆时针摆动示意图; Figure 21 is a schematic view showing the counterclockwise swing of the front panel shown in Figure 20;
图 22为图 20所示的前面板顺时针摆动示意图。 Fig. 22 is a schematic view showing the clockwise swing of the front panel shown in Fig. 20.
其中, 附图标记: Among them, the reference mark:
抽屉侧板 100 前面板 200 固持件 30 Drawer side panel 100 front panel 200 holding member 30
支撑座 31 勾扣件 38 弹性件 33 Support seat 31 hook fastener 38 elastic member 33
掣动件 35 支撑件 10 结合件 210 Flipper 35 support 10 joint 210
导臂 211 卡扣孔 213 掣动件固定孔 315 Guide arm 211 snap hole 213 rocker fixing hole 315
第一穿孔 312 第二穿孔 313 轴孔 351 First perforation 312 second perforation 313 shaft hole 351
轴杆 15 第一限位组件 11 第二限位组件 12 Shaft 15 First limit assembly 11 Second limit assembly 12
限位槽 381 摆动轴孔 212 连接件 230 Limiting groove 381 Swinging shaft hole 212 Connector 230
连接轴孔 232 连接轴杆 240 转动作动件 250 Connecting shaft hole 232 Connecting shaft 240 Turning action 250
导引件 222 限位轨道 225 连接板 330 Guide 222 Limit rail 225 Connecting plate 330
容置槽 310 底板 400 具体实施方式 Accommodating groove 310 bottom plate 400
为了使本发明的目的、 技术方案及优点更加清楚明白, 以下结合附图及 实施例, 对本发明进行进一步详细说明。 应当理解, 此处所描述的具体实施 例仅仅用以解释本发明, 并不用于限定本发明。 The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
本发明的基本思想是: 提供一种抽屉面板角度调整结构, 包括有一抽屉 面板结合结构, 以及设置在该抽屉面板结合结构上的一角度调整结构, 其中, 该抽屉面板结合结构包括: The basic idea of the present invention is to provide: a drawer panel angle adjusting structure, comprising a drawer panel joint structure, and an angle adjusting structure disposed on the drawer panel joint structure, wherein the drawer panel joint structure comprises:
一方形底板; a square bottom plate;
左右平行侧板, 该左右平行侧板连接于该方形底板; Left and right parallel side plates, the left and right parallel side plates are connected to the square bottom plate;
一前面板, 装设于该左右平行侧板; a front panel mounted on the left and right parallel side panels;
一支撑件, 装设在该左右平行侧板; a support member mounted on the left and right parallel side plates;
一固持件, 装设在该支撑件上, 该固持件包含有一支撑座及一勾扣件,
该勾扣件设置于该支撑座的一端; 以及 a holding member is mounted on the support member, the holding member includes a support base and a hooking member, The hook member is disposed at one end of the support base;
一结合件, 可拆卸或组装于该勾扣件; a coupling member detachable or assembled to the hook member;
该结合件设有一摆动轴孔, 该角度调整结构包括: The coupling member is provided with a swinging shaft hole, and the angle adjusting structure comprises:
一连接轴杆; a connecting shaft;
一连接件, 该连接件上设有一连接轴孔, 该连接轴杆穿设该连接轴孔, 并将连接件连接在该摆动轴孔, 且该前面板装设于该连接件; a connecting member, the connecting member is provided with a connecting shaft hole, the connecting shaft rod penetrates the connecting shaft hole, and connects the connecting member to the swinging shaft hole, and the front panel is mounted on the connecting member;
一转动作动件, 设于该结合件或该连接件; 以及 a rotating action member disposed on the coupling member or the connecting member;
一衔接结构, 包括有一限位轨道及与该限位轨道对应的导引件; 结构。 或者, 、 、 、 、 A 、 ' 、 一 一种抽屉面板角度调整结构, 包括一抽屉面板结合结构, 以及设置在该 抽屉面板结合结构上的一角度调整结构, 其中, 该抽屉面板结合结构包括: 一方形底板; a connecting structure includes a limiting track and a guiding member corresponding to the limiting track; structure. Alternatively,,,,, A, ' , eleven kinds of drawer panel angle adjusting structure, comprising a drawer panel connecting structure, and a structure is provided to adjust the angle of the drawer panel on a binding structure in which the drawer panel connecting structure comprising: a square bottom plate;
左右平行侧板, 该左右平行侧板连接于该方形底板; Left and right parallel side plates, the left and right parallel side plates are connected to the square bottom plate;
一前面板, 装设在该左右平行侧板; a front panel mounted on the left and right parallel side panels;
一支撑件, 装设在该左右平行侧板; a support member mounted on the left and right parallel side plates;
一固持件, 该固持件设有一支撑座及一勾扣件, 该勾扣件系设置于支撑 座一端; 以及 a holding member, the holding member is provided with a support base and a hooking member, the hooking member is disposed at one end of the support base;
一结合件, 可拆卸或组装设于该勾扣件上, 该前面板装设于该结合件上; 该固持件设有一连接轴孔, 该角度调整结构包括: A coupling member is detachably or assembled on the hooking member, and the front panel is mounted on the coupling member; the holding member is provided with a connecting shaft hole, and the angle adjusting structure comprises:
一连接轴杆; a connecting shaft;
一连接件, 装设于该支撑件, 且该连接件设有一摆动轴孔, 该连接轴杆 穿设该连接轴孔连接于该摆动轴孔; a connecting member is mounted on the supporting member, and the connecting member is provided with a swinging shaft hole, and the connecting shaft is connected to the swinging shaft hole through the connecting shaft hole;
一转动作动件, 装设于该连接件或该固持件; 以及 a turning action member mounted on the connecting member or the holding member;
一衔接结构, 包括有一限位轨道及与该限位轨道对应的导引件; 结构。 ' ' 、 ' ' ' ' - 图 2Α〜图 6为本发明第一实施例之抽屉面板角度调整结构的第一种结构 示意图, 本发明第一实施例之第一种结构的面板角度调整结构, 系在一抽屉 结合结构上加设有一角度调整结构, 其中: a connecting structure includes a limiting track and a guiding member corresponding to the limiting track; structure. ' ' , ' ' ' ' - Figure 2A to Figure 6 is a first structural view of the angle adjustment structure of the drawer panel according to the first embodiment of the present invention, and the panel angle adjustment structure of the first structure of the first embodiment of the present invention, An angle adjustment structure is added to a drawer joint structure, wherein:
抽屉结合结构包括有一方形底板 400、左右平行侧板 100、一前面板 200、 一支撑件 10、 一固持件 30及一结合件 210, 支撑件 10装设在侧板 100上, 固持件 30装设在支撑件 10上, 结合件 210装设于固持件 30, 且结合件 210 上设有一摆动轴孔 212。 固持件 30包括有一支撑座 31、 一勾扣件 38、 一掣动 件 35以及一弹性件 33 , 其中于本实施例的弹性件 33为一拉伸弹簧。
角度调整结构包括有一连接轴杆 240、 一连接件 230、 一转动作动件 250 及一衔接结构。 连接件 230设有一连接轴孔 232, 连接轴杆 240穿设连接轴孔 232, 并且连接于结合件 210的摆动轴孔 212。 衔接结构包括一限位轨道 225 及一与该限位轨道 225对应的导引件 222。 其中, 转动作动件 250是设在结合 件 210上, 且导引件 222设于该转动作动件 250上, 限位轨道 225设于连接 件 230并与导引件 222对应。 优选的, 限位轨道 225设在以连接轴杆 240为 轴心的等径圆周上, 藉由设在转动作动件 250上的导引件 222与设在连接件 230上的限位轨道 A225的相互衔接, 形成衔接结构。 并且, 连接件 230藉由 连接轴杆 240以及衔接结构连接于结合件 210上, 借此形成一摆动结构。 The drawer assembly structure includes a square bottom plate 400, left and right parallel side plates 100, a front panel 200, a support member 10, a holding member 30 and a coupling member 210. The support member 10 is mounted on the side plate 100, and the holding member 30 is mounted. The coupling member 210 is disposed on the support member 10, and the coupling member 210 is provided with a swinging shaft hole 212. The holding member 30 includes a supporting seat 31, a hooking member 38, a tilting member 35 and an elastic member 33. The elastic member 33 of the embodiment is a tension spring. The angle adjustment structure includes a connecting shaft 240, a connecting member 230, a rotating actuating member 250 and a connecting structure. The connecting member 230 is provided with a connecting shaft hole 232. The connecting shaft 240 passes through the connecting shaft hole 232 and is connected to the swinging shaft hole 212 of the coupling member 210. The engagement structure includes a limit rail 225 and a guide 222 corresponding to the limit rail 225. The rotation member 250 is disposed on the coupling member 210, and the guiding member 222 is disposed on the rotating motion member 250. The limiting rail 225 is disposed on the connecting member 230 and corresponds to the guiding member 222. Preferably, the limiting rail 225 is disposed on the equal-diameter circumference centered on the connecting shaft 240, and the guiding member 222 disposed on the rotating action member 250 and the limiting rail A225 disposed on the connecting member 230 The interconnections form a joint structure. Moreover, the connecting member 230 is coupled to the coupling member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
当转动作动件 250被转动, 前面板 200系随着转动作动件 250转动而产 生摆动侔移, 借此调整前面板 200与侧板 100间的角度, 且通过勾扣件 38的 弹性拉力 , 前面板 200可紧密靠在侧板 100。 When the turning actuating member 250 is rotated, the front panel 200 is oscillated and displaced as the turning actuating member 250 rotates, thereby adjusting the angle between the front panel 200 and the side panel 100, and the elastic pulling force by the hooking member 38. The front panel 200 can be closely attached to the side panel 100.
当然, 本发明第一实施例之第一种结构的抽屉面板角度调整结构还有等 同设计结构, 其实施方式相同于第一实施例之第一种结构的地方, 在此不再 详述, 下面仅将不同处加以说明。 Of course, the drawer panel angle adjusting structure of the first structure of the first embodiment of the present invention has an equivalent design structure, and the embodiment thereof is the same as the first structure of the first embodiment, and will not be described in detail below. Only the differences will be explained.
转动作动件 250设在结合件 210上, 限位轨道 225设在转动作动件 250 上, 导引件 222设于连接件 230 的一侧面, 并且导引件 222对应于限位轨道 225, 限位轨道 225设在以连接轴杆 240为轴心的等径圆周上, 藉由设在转动 作动件 250上的限位轨道 225与设在连接件 230上的导引件 222 的相互衔接, 形成衔接结构,连接件 230藉由连接轴杆 240以及衔接结构连接于结合件 210 上, 借此形成一摆动结构。 The rotating action member 250 is disposed on the coupling member 210. The limiting rail 225 is disposed on the rotating motion member 250. The guiding member 222 is disposed on one side of the connecting member 230, and the guiding member 222 corresponds to the limiting rail 225. The limiting rail 225 is disposed on the equal-diameter circumference centered on the connecting shaft 240, and is connected to the guiding member 222 provided on the connecting member 230 by the limiting rail 225 provided on the rotating actuating member 250. The connecting structure is formed, and the connecting member 230 is connected to the coupling member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
或者, 转动作动件 250设在连接件 230上, 导引件 222设于转动作动件 250的侧面, 限位轨道 225设于结合件 210的侧面, 并且限位轨道 225对应于 导引件 222, 且限位轨道 225设在以连接轴杆 240为轴心的等径圆周上, 藉由 设在转动作动件 250上的导引件 222与设在结合件 210上的限位轨道 225 的 相互衔接, 形成^ "接结构。 且连接件 230系藉由连接轴杆 240以及衔接结构 连接于结合件 210上, 借此形成一摆动结构。 Alternatively, the rotating actuating member 250 is disposed on the connecting member 230, the guiding member 222 is disposed on the side of the rotating actuating member 250, the limiting rail 225 is disposed on the side of the coupling member 210, and the limiting rail 225 corresponds to the guiding member. 222, and the limiting rail 225 is disposed on the equal-diameter circumference centered on the connecting shaft 240, and the guiding member 222 disposed on the rotating action member 250 and the limiting rail 225 disposed on the coupling member 210 The joints are formed to form a joint structure. The connecting member 230 is coupled to the joint member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
或者, 转动作动件 250设在连接件 230上, 限位轨道 225设在转动作动 件 250上, 导引件 222设在结合件 210的侧面上, 并且导引件 222对应于限 位轨道 225 , 且限位轨道 225是设在以连接轴杆 240为轴心的等径圆周上, 藉 由设在转动作动件 250上的导引件 222与设在连接件 230上的限位轨道 225 之相互衔接形成衔接结构。 连接件 230藉由连接轴杆 240以及衔接结构连接 于结合件 210上, 借此形成一摆动结构。 Alternatively, the actuating member 250 is disposed on the connecting member 230, the limiting rail 225 is disposed on the rotating actuating member 250, the guiding member 222 is disposed on the side of the coupling member 210, and the guiding member 222 corresponds to the limiting rail 225, and the limiting rail 225 is disposed on the equal-diameter circumference centered on the connecting shaft 240, and the guiding member 222 disposed on the rotating action member 250 and the limiting rail disposed on the connecting member 230 225 are connected to form a joint structure. The connecting member 230 is coupled to the coupling member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
本发明的抽屉面板角度调整结构的支撑座 31本体的垂直壁面以及向外延 伸形成的垂直壁面上分别贯穿有一掣动件固定孔 315、第一穿孔 312及第二穿
孔 313, 且掣动件固定孔 315、 第一穿孔 312及第二穿孔 313分别贯穿透至支 撑座 31本体。 进一步的, 将掣动件 35的轴孔 351与掣动件固定孔 315相互 对位, 再以一轴杆 15穿设对应轴孔 351及掣动件固定孔 315, 即可将掣动件 35定位于支撑座 31。 另外, 勾扣件 38上设有一限位槽 381、 一第一限位组件 11及一第二限位组件 12, 第一限位组件 11及第二限位组件 12分别穿设第一 穿孔 312及第二穿孔 313 , 并且穿透勾扣件 38上的限位槽 381, 将第一限位 组件 11及第二限位组件 12固定于支撑座 31上。 The vertical wall surface of the main body of the support base 31 and the vertical wall surface extending outwardly of the drawer panel angle adjusting structure of the present invention respectively have a swinging member fixing hole 315, a first through hole 312 and a second through hole. The hole 313, and the damper fixing hole 315, the first through hole 312 and the second through hole 313 penetrate through the body of the support base 31, respectively. Further, the shaft hole 351 of the swaying member 35 and the swaying member fixing hole 315 are aligned with each other, and the corresponding shaft hole 351 and the damper fixing hole 315 are bored by a shaft 15 to move the ram 35 It is located at the support base 31. In addition, the hooking member 38 is provided with a limiting slot 381, a first limiting component 11 and a second limiting component 12. The first limiting component 11 and the second limiting component 12 respectively pass through the first through hole 312. And the second through hole 313, and penetrates the limiting groove 381 of the hooking member 38 to fix the first limiting component 11 and the second limiting component 12 to the support base 31.
优选的是, 结合件 210的另一端设有一导臂 211, 导臂 211的前端设有一 卡扣机构,卡扣机构上设有一卡扣孔 213。固持件 30的前端设有一容置槽 310, 当前面板 200于调整角度后, 将结合件 210推入固持件 30的容置槽 310碰触 勾扣件 38后, 勾扣件 38会自动勾扣结合件 210, 勾扣件 38于自动勾扣期间, 勾扣件 38沿限位槽 381将结合件 210拉进固持件 30内, 使结合件 210产生 向内位移 270, 结合件 210向内位移 270即前面板 200向内勾扣位移 270。 Preferably, the other end of the coupling member 210 is provided with a guiding arm 211. The front end of the guiding arm 211 is provided with a locking mechanism, and the locking mechanism is provided with a locking hole 213. The front end of the holding member 30 is provided with a receiving slot 310. After the front panel 200 is adjusted to the angle, the engaging member 210 is pushed into the receiving slot 310 of the holding member 30 to touch the hooking member 38, and the hooking member 38 is automatically hooked. During the automatic hooking of the hooking member 38, the hooking member 38 pulls the coupling member 210 into the holding member 30 along the limiting slot 381, causing the coupling member 210 to be displaced inwardly 270, and the coupling member 210 is displaced inwardly. 270 is the front panel 200 hooking the displacement 270 inward.
参见图 3, 该图中以虚线标示的是前面板 200未与勾扣件 38扣合状态, 前面板 200向内拉动距离相同于勾扣件 38于限位槽 381内移动距离, 进而通 过勾扣件 38的弹性拉力, 前面板 200往内拉, 借此使前面板 200紧密靠在侧 板 100。 Referring to FIG. 3, the front panel 200 is not engaged with the hooking member 38, and the inward pulling distance of the front panel 200 is the same as the moving distance of the hooking member 38 in the limiting slot 381. The elastic tension of the fastener 38 pulls the front panel 200 inwardly, thereby bringing the front panel 200 into close proximity to the side panel 100.
再参见图 4, 以外物(比如螺丝起子)扳动转动作动件 250, 使转动作动 件 250逆时针旋转, 导引件 222施加限位轨道 225—作用力, 连接件 230在 该作用力的驱动下带动前面板 200 以逆时针方向转动, 借此调整抽屉前面板 200的角度。 进一步的, 通过弹性件 33和勾扣件 38的弹性拉力, 抽屉面板 200向内拉紧, 使前面板 200上方紧密靠在抽屉侧板 100。 Referring again to FIG. 4, an external object (such as a screwdriver) pulls the rotating motion member 250 to rotate the rotating motion member 250 counterclockwise, and the guiding member 222 applies a limiting rail 225-force. The connecting member 230 is at the force. The driving of the front panel 200 is reversed in the driving direction, thereby adjusting the angle of the front panel 200 of the drawer. Further, the drawer panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100.
再参见图 5, 以外物(比如螺丝起子)扳动转动作动件 250, 使转动作动 件 250顺时针旋转, 导引件 222施加限位轨道 225—作用力, 连接件 230在 该作用力的驱动下带动前面板 200 以顺时针方向转动, 借此调整前面板 200 的角度。 进一步的, 通过弹性件 33和勾扣件 38的弹性拉力, 前面板 200向 内拉紧, 使前面板 200下方紧密靠在抽屉侧板 100。 Referring again to FIG. 5, an external object (such as a screwdriver) pulls the rotating motion member 250 to rotate the rotating motion member 250 clockwise, and the guiding member 222 applies a limiting rail 225-force. The connecting member 230 is at the force. The driving of the front panel 200 is performed in a clockwise direction to adjust the angle of the front panel 200. Further, the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100.
图 6是本发明一实施例的前面板与侧板分离示意图, 当结合件 210与勾 扣件 38处于扣合状态, 转动掣动件 35使勾扣件 38沿限位槽 381滑动, 直至 结合件 210与勾扣件 38脱离, 借此使前面板 200与抽屉侧板 100分离。 6 is a schematic view showing the separation of the front panel and the side panel according to an embodiment of the present invention. When the coupling member 210 and the hooking member 38 are in the engaged state, the rotating member 35 is rotated to slide the hooking member 38 along the limiting slot 381 until the combination The member 210 is disengaged from the hook member 38, thereby separating the front panel 200 from the drawer side panel 100.
图 7~图 9为本发明第一实施例之抽屉面板角度调整结构的第二种结构示 意图, 本发明第一实施例之第二种结构的面板角度调整结构, 其实施方式相 同于第一实施例之第一种结构的地方, 在此不再详述, 兹将不同处加以说明。 7 to FIG. 9 are schematic diagrams showing a second structure of the angle adjustment structure of the drawer panel according to the first embodiment of the present invention. The panel angle adjustment structure of the second structure of the first embodiment of the present invention is the same as the first embodiment. Where the first structure of the example is not described in detail herein, the differences will be explained.
本发明第一实施例之第二种结构的抽屉面板角度调整结构, 系在抽屉结 合结构上加上一角度调整结构, 角度调整结构包括有一连接轴杆 240、一连接
件 230、一转动作动件 250及一衔接结构,衔接结构包括一限位轨道 225及一 与限位轨道 225对应的导引件 222。 其中, 转动作动件 250为一偏心作动件, 设在结合件 210上, 导引件 222是由转动作动件 250的周边形成, 限位轨道 225设在连接件 230上呈方形框状结构,转动作动件 250系穿设方形框状的限 位轨道 225, 并可沿限位轨道 225内移动。 The drawer panel angle adjusting structure of the second structure of the first embodiment of the present invention adds an angle adjusting structure to the drawer coupling structure, and the angle adjusting structure includes a connecting shaft 240 and a connection. The component 230, the one-turn actuating member 250 and the engaging structure comprise a limiting rail 225 and a guiding member 222 corresponding to the limiting rail 225. The rotating actuating member 250 is an eccentric actuating member, and is disposed on the connecting member 210. The guiding member 222 is formed by the periphery of the rotating actuating member 250, and the limiting rail 225 is disposed on the connecting member 230 in a square frame shape. The structure, the rotating actuating member 250 is passed through a square frame-shaped limiting rail 225 and is movable along the limiting rail 225.
优选的, 转动作动件 250设在结合件 210上, 藉由设在转动作动件 250 上的导引件 222与设在连接件 230上的限位轨道 225 之相互衔接, 形成衔接 结构。 连接件 230藉由连接轴杆 240以及衔接结构连接于结合件 210上, 借 此形成一摆动结构。当转动作动件 250转动,导引件 222作用于限位轨道 225, 藉由限位轨道 225驱动连接件 230进而带动前面板 200产生摆动位移。 Preferably, the actuating member 250 is disposed on the coupling member 210, and is engaged with the limiting rail 225 provided on the connecting member 230 by the guiding member 222 disposed on the rotating actuating member 250 to form an engaging structure. The connecting member 230 is coupled to the coupling member 210 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure. When the turning actuating member 250 rotates, the guiding member 222 acts on the limiting rail 225, and the connecting member 230 is driven by the limiting rail 225 to drive the front panel 200 to generate a swinging displacement.
参见图 8, 当外力作用于转动作动件 250使其逆时针转动, 导引件 222施 加限位轨道 225—作用力, 连接件 230在该作用力的驱动下带动前面板 200 以逆时针方向转动, 借此调整前面板 200的角度。 进一步的, 通过弹性件 33 和勾扣件 38的弹性拉力, 前面板 200向内拉紧, 使前面板 200上方紧密靠在 抽屉侧板 100。 Referring to FIG. 8, when an external force acts on the turning actuating member 250 to rotate counterclockwise, the guiding member 222 applies a limiting rail 225-force, and the connecting member 230 drives the front panel 200 in a counterclockwise direction under the driving force. Rotate to thereby adjust the angle of the front panel 200. Further, the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100.
再参见图 9, 当外力作用于转动作动件 250使其顺时针转动, 导引件 222 施加限位轨道 225—作用力,连接件 230在该作用力的驱动下带动前面板 200 以顺时针方向转动, 借此调整前面板 200的角度。 进一步的, 通过弹性件 33 和勾扣件 38的弹性拉力, 前面板 200向内拉紧, 使前面板 200下方紧密靠在 抽屉侧板 100。 Referring again to FIG. 9, when an external force acts on the rotating actuating member 250 to rotate it clockwise, the guiding member 222 applies a limiting rail 225-force, and the connecting member 230 drives the front panel 200 to be clockwise driven by the force. The direction is rotated, thereby adjusting the angle of the front panel 200. Further, the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100.
当然, 本发明第一实施例之第二种结构的面板角度调整结构还有等同设 计结构, 其实施方式相同于第一实施例之第二种结构地方, 在此不再详述, 兹将不同处加以说明。 Of course, the panel angle adjustment structure of the second structure of the first embodiment of the present invention has an equivalent design structure, and the implementation manner thereof is the same as that of the second structure of the first embodiment, and will not be described in detail herein. Explain it.
转动作动件 250为一偏心作动件, 设在连接件 230上, 导引件 222是由 转动作动件 250的圆周边形成, 限位轨道 225设在结合件 210上呈方形框状 结构, 转动作动件 250系穿设方形框状的限位轨道 225, 并可沿限位轨道 225 内移动, 藉由设在转动作动件 250上的导引件 222与设在结合件 210上的限 位轨道 225之相互衔接, 形成衔接结构。 且连接件 230系藉由连接轴杆 240 以及衔接结构连接于结合件 210上, 以形成一摆动结构, 当转动作动件 250 转动, 导引件 222与限位轨道 225产生作用力驱动连接件 230进而带动前面 板 200产生摆动位移。 The rotating actuating member 250 is an eccentric actuating member, which is disposed on the connecting member 230. The guiding member 222 is formed by the circular periphery of the rotating actuating member 250, and the limiting rail 225 is disposed on the coupling member 210 in a square frame structure. The rotating actuating member 250 is disposed through the square frame-shaped limiting rail 225 and movable along the limiting rail 225, and is disposed on the coupling member 210 by the guiding member 222 disposed on the rotating actuating member 250. The limit rails 225 are connected to each other to form a joint structure. The connecting member 230 is connected to the coupling member 210 by the connecting shaft 240 and the engaging structure to form a swinging structure. When the rotating actuating member 250 rotates, the guiding member 222 and the limiting rail 225 generate a force to drive the connecting member. 230 in turn drives the front panel 200 to generate a wobble displacement.
图 10〜图 12 为本发明第一实施例之面板角度调整结构的第三种结构之示 意图, 本发明第一实施例之第三种结构的面板角度调整结构, 系在抽屉结合 结构上设有一连接轴杆 240、一连接件 230、一转动作动件 250及一衔接结构, 衔接结构包括有一限位轨道 225及一与限位轨道 225对应的导引件 222。
其中, 转动作动件 250设在结合件 210上, 导引件 222是设于转动作动 件 250—端部的第一齿轮, P艮位轨道 225设有与第一齿轮啮合的第二齿轮, 且限位轨道 225设于连接件 230,藉由设在转动作动件 250上的导引件 222与 设在连接件 230上的限位轨道 225相互衔接, 形成衔接结构。 当外力作用于 转动作动件 250并使其转动, 第一齿轮驱动第二齿轮转动, 借此带动连接件 230与抽屉面板 200产生摆动位移。 10 to FIG. 12 are schematic diagrams showing a third structure of a panel angle adjusting structure according to a first embodiment of the present invention. The panel angle adjusting structure of the third structure of the first embodiment of the present invention is provided with a drawer coupling structure. The connecting shaft 240, a connecting member 230, a rotating actuating member 250 and a connecting structure comprise a limiting rail 225 and a guiding member 222 corresponding to the limiting rail 225. Wherein, the rotating actuating member 250 is disposed on the coupling member 210, the guiding member 222 is a first gear disposed at the end of the rotating actuating member 250, and the P-position rail 225 is provided with a second gear meshing with the first gear. The limiting rail 225 is disposed on the connecting member 230. The guiding member 222 disposed on the rotating member 250 and the limiting rail 225 disposed on the connecting member 230 are coupled to each other to form an engaging structure. When an external force acts on the turning actuating member 250 and rotates it, the first gear drives the second gear to rotate, thereby causing the connecting member 230 and the drawer panel 200 to generate a swinging displacement.
再结合图 11和图 12, 当使转动作动件 250逆时针转动时, 导引件 222作 用于限位轨道 225 , 进而拉动连接件 230与抽屉前面板 200逆时针摆动, 与此 同时, 藉由弹性件 33和勾扣件 38的弹性拉力, 抽屉前面板 200向内拉紧, 使抽屉前面板 200上方紧密靠在抽居侧板 100; 当使转动作动件 250顺时针转 动时, 导引件 222作用于限位轨道 225 , 进而拉动连接件 230与抽屉前面板 200顺时针摆动, 与此同时, 藉由弹性件 33和勾扣件 38的弹性拉力, 抽屉前 面板 200向内拉紧, 使抽屉前面板 200下方紧密靠在抽屉侧板 100。 Referring to FIG. 11 and FIG. 12, when the turning actuating member 250 is rotated counterclockwise, the guiding member 222 acts on the limiting rail 225, thereby pulling the connecting member 230 and the drawer front panel 200 to swing counterclockwise, and at the same time, borrowing The drawer front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the drawer front panel 200 is closely pressed against the drawing side panel 100; when the turning actuating member 250 is rotated clockwise, The lead member 222 acts on the limiting rail 225, thereby pulling the connecting member 230 and the drawer front panel 200 to swing clockwise, and at the same time, the drawer front panel 200 is tightened inward by the elastic pulling force of the elastic member 33 and the hooking member 38. , the drawer front panel 200 is placed closely below the drawer side panel 100.
当然, 本发明第一实施例之第三种结构的面板角度调整结构还有等同设 计结构, 其实施方式相同于第一实施例之第三种结构地方, 在此不再详述, 兹将不同处加以说明。 Of course, the panel angle adjusting structure of the third structure of the first embodiment of the present invention has an equivalent design structure, and the implementation manner thereof is the same as that of the third structure of the first embodiment, and will not be described in detail herein. Explain it.
转动作动件 250设于连接件 230,导引件 222是设于转动作动件 250外围 的第一齿轮, 限位轨道 225设有与第一齿轮啮合的第二齿轮, 且限位轨道 225 设于结合件 210, 藉由设在转动作动件 250上的导引件 222与设在结合件 210 上的限位轨道 225 之相互衔接,形成衔接结构。连接件 230藉由连接轴杆 240 以及衔接结构连接于结合件 210上, 以形成一摆动结构, 当外力作用于转动 作动件 250并使其转动, 第一齿轮和第二齿轮产生作用力驱动连接件 230进 而带动抽屉前面板 200产生摆动位移。 The rotating actuating member 250 is disposed on the connecting member 230. The guiding member 222 is a first gear disposed on the periphery of the rotating actuating member 250. The limiting rail 225 is provided with a second gear that meshes with the first gear, and the limiting rail 225 The engaging member 210 is formed by the guiding member 222 disposed on the rotating actuating member 250 and the limiting rail 225 disposed on the coupling member 210. The connecting member 230 is coupled to the coupling member 210 by the connecting shaft 240 and the engaging structure to form a swinging structure. When an external force acts on the rotating actuating member 250 and rotates, the first gear and the second gear generate a force driving. The connector 230 in turn drives the drawer front panel 200 to produce a swinging displacement.
图 13A~16 为本发明第二实施例之面板角度调整结构的第一种结构示意 图, 本发明第二实施例之第一种结构的面板角度调整结构, 系在一抽屉结合 结构上加设有一角度调整结构。 其中: 13A to 16 are schematic views showing a first structure of a panel angle adjusting structure according to a second embodiment of the present invention. The panel angle adjusting structure of the first structure of the second embodiment of the present invention is provided with a drawer structure. Angle adjustment structure. among them:
抽屉结合结构包括有一方形底板 400、一左右平行侧板 100、一前面板 200、 一支撑件 10、 一固持件 30及一结合件 210, 角度调整结构包括有一连接轴杆 240、 一连接板 330、 一转动作动件 250及一衔接结构, 衔接结构包括一 P艮位 轨道 225及一与限位轨道 225对应的导引件 222。 其中, 支撑件 10装在左侧 板 100上, 连接板 330装在支撑件 10上, 固持件 30装在连接板 330上, 结 合件 210装设于固持件 30, 前面板 200装设于结合件 210。 连接板 330上设 有一摆动轴孔 212, 固持件 30上设有与摆动轴孔 212对应的一连接轴孔 232, 且固持件 30包括有一支撑座 31、一勾扣件 38、一掣动件 35以及一弹性件 33 , 其中于本实施例的弹性件 33为一拉伸弹簧。
在本实施例中, 转动作动件 250设在连接板 330上, 导引件 222设在转 动作动件 250上, 限位轨道 225设在固持件 30上并与导引件 222对应, 藉由 设在转动作动件 250上的导引件 222与设在固持件 30上的限位轨道 225相互 衔接, 形成衔接结构。 固持件 30藉由连接轴杆 240以及衔接结构连接于连接 板 330, 借此形成一摆动结构, 当转动作动件 250被转动, 前面板 200随着转 动作动件 250转动而产生摆动位移, 借此调整前面板 200与侧板 100的角度, 并且透过勾扣件 38的弹性拉力使前面板 200紧密靠在侧板 100。 The drawer assembly structure includes a square bottom plate 400, a left and right parallel side plates 100, a front panel 200, a support member 10, a holding member 30 and a coupling member 210. The angle adjusting structure includes a connecting shaft 240 and a connecting plate 330. The one-turn actuating member 250 and the engaging structure comprise a P-position rail 225 and a guiding member 222 corresponding to the limiting rail 225. The support member 10 is mounted on the left side plate 100, the connecting plate 330 is mounted on the support member 10, the holding member 30 is mounted on the connecting plate 330, the coupling member 210 is mounted on the holding member 30, and the front panel 200 is mounted on the joint. Piece 210. The connecting plate 330 is provided with a swinging shaft hole 212. The holding member 30 is provided with a connecting shaft hole 232 corresponding to the swinging shaft hole 212, and the holding member 30 includes a supporting base 31, a hooking member 38 and a tilting member. 35 and an elastic member 33, wherein the elastic member 33 of the embodiment is a tension spring. In this embodiment, the rotating actuating member 250 is disposed on the connecting plate 330, and the guiding member 222 is disposed on the rotating actuating member 250. The limiting rail 225 is disposed on the holding member 30 and corresponds to the guiding member 222. The guiding member 222 disposed on the rotating member 250 and the limiting rail 225 disposed on the holding member 30 are engaged with each other to form an engaging structure. The holding member 30 is connected to the connecting plate 330 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure. When the rotating actuating member 250 is rotated, the front panel 200 generates a swinging displacement as the turning actuating member 250 rotates. Thereby, the angle of the front panel 200 and the side panel 100 is adjusted, and the front panel 200 is closely abutted against the side panel 100 by the elastic pulling force of the hooking member 38.
当然, 本发明第二实施例之第一种结构的面板角度调整结构还有等同设 计结构, 其实施方式相同于第二实施例之第一种结构地方, 在此不再详述, 兹将不同处加以说明。 Of course, the panel angle adjustment structure of the first structure of the second embodiment of the present invention has an equivalent design structure, and the implementation manner thereof is the same as that of the first structure of the second embodiment, and will not be described in detail herein. Explain it.
转动作动件 250设在连接板 330上, 限位轨道 225设在转动作动件 250 的侧面上, 导引件 222设于固持件 30的支撑座 31并与限位轨道 225对应, 藉由设在转动作动件 250上的限位轨道 225与设在固持件 30上的导引件 222 相互衔接, 形成衔接结构。 固持件 30系藉由连接轴杆 240以及衔接结构连接 在连接板 330上, 借此形成一摆动结构。 The rotating actuating member 250 is disposed on the connecting plate 330, and the limiting rail 225 is disposed on the side of the rotating actuating member 250. The guiding member 222 is disposed on the supporting base 31 of the holding member 30 and corresponds to the limiting rail 225, by The limiting rail 225 disposed on the rotating action member 250 and the guiding member 222 disposed on the holding member 30 are engaged with each other to form a joint structure. The holding member 30 is coupled to the connecting plate 330 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
或者,转动作动件 250设在固持件 30上,导引件 222设在转动作动件 250 的侧面上, 限位轨道 225设于连接板 330并与导引件 222对应, 藉由设在转 动作动件 250上的导引件 222与设在连接板 330上的限位轨道 225的相互衔 接, 以形成衔接结构。 固持件 30藉由连接轴杆 240以及衔接结构连接在连接 板 330上, 借此形成一摆动结构。 Alternatively, the turning actuating member 250 is disposed on the holding member 30, and the guiding member 222 is disposed on the side of the rotating actuating member 250. The limiting rail 225 is disposed on the connecting plate 330 and corresponds to the guiding member 222. The guiding member 222 on the rotating actuating member 250 is engaged with the limiting rail 225 provided on the connecting plate 330 to form a joint structure. The holder 30 is coupled to the connecting plate 330 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
或者, 转动作动件 250设在固持件 30上, 限位轨道 225设在转动作动件 250的侧面上, 导引件 222设于连接板 330并与限位轨道 225对应, 藉由设 在转动作动件 250上的限位轨道 225与设在连接板 330上的导引件 222的相 互衔接, 形成衔接结构。 固持件 30藉由连接轴杆 240以及衔接结构连接在连 接板 330上, 借此形成一摆动结构。 Alternatively, the rotating actuating member 250 is disposed on the holding member 30, the limiting rail 225 is disposed on the side of the rotating actuating member 250, and the guiding member 222 is disposed on the connecting plate 330 and corresponding to the limiting rail 225, The limiting rail 225 on the rotating actuating member 250 and the guiding member 222 provided on the connecting plate 330 are coupled to each other to form a joint structure. The holder 30 is attached to the connecting plate 330 by the connecting shaft 240 and the engaging structure, thereby forming a swinging structure.
在抽屉面板结合结构中, 支撑座 31本体的垂直壁面以及由本体向外延伸 形成的垂直壁面上, 分别贯穿有一掣动件固定孔 315、一第一穿孔 312及一第 二穿孔 313, 并使掣动件固定孔 315、 第一穿孔 312及第二穿孔 313分别贯穿 透至支撑座 31本体。 并将掣动件 35的轴孔 351与掣动件固定孔 315相互对 位, 再以一轴杆 15穿设对应轴孔 351及掣动件固定孔 315 , 即可将掣动件 35 定位在支撑座 31上。 另外在勾扣件 38上设有一限位槽 381、 第一限位组件 11及第二限位组件 12, 第一限位组件 11及第二限位组件 12分别穿设于第一 穿孔 312及第二穿孔 313 , 并且穿透勾扣件 38上的限位槽 381, 将第一限位 组件 11及第二限位组件 12固定于支撑座 31上。 In the drawer panel joint structure, a vertical wall surface of the main body of the support base 31 and a vertical wall surface extending outward from the main body respectively penetrate through a rocking member fixing hole 315, a first through hole 312 and a second through hole 313, and The damper fixing hole 315, the first through hole 312 and the second through hole 313 penetrate through the body of the support base 31, respectively. The shaft hole 351 of the swaying member 35 and the swaying member fixing hole 315 are aligned with each other, and then the corresponding shaft hole 351 and the swaying member fixing hole 315 are bored by a shaft 15 to position the damper member 35 at Support seat 31. In addition, a limiting slot 381, a first limiting component 11 and a second limiting component 12 are disposed on the hooking member 38. The first limiting component 11 and the second limiting component 12 are respectively disposed on the first through hole 312 and The second through hole 313 extends through the limiting slot 381 of the hooking member 38 to fix the first limiting component 11 and the second limiting component 12 to the support base 31.
优选的, 结合件 210的另端具有一导臂 211 , 导臂 211的前端具有一卡扣
机构, 卡扣机构上设有一卡扣孔 213。 Preferably, the other end of the coupling member 210 has a guiding arm 211, and the front end of the guiding arm 211 has a buckle The mechanism has a snap hole 213 formed in the buckle mechanism.
优选的, 固持件 30的前端设有一容置槽 310, 当前面板 200于调整角度 后, 将结合件 210推入固持件 30的容置槽 310碰触勾扣件 38后, 勾扣件 38 会自动勾扣结合件 210, 勾扣件 38于自动勾扣期间, 勾扣件 38沿限位槽 381 将结合件 210拉进固持件 30内,使结合件 210产生向内位移 270,结合件 210 向内位移 270即前面板 200向内勾扣位移 270。 Preferably, the front end of the holding member 30 is provided with a receiving groove 310. After the front panel 200 is adjusted to the angle, the engaging member 210 is pushed into the receiving groove 310 of the holding member 30 to touch the hooking member 38, and the hooking member 38 is The hook member 38 is automatically hooked. During the automatic hooking, the hook member 38 pulls the coupling member 210 into the holding member 30 along the limiting slot 381, so that the coupling member 210 generates an inward displacement 270. The coupling member 210 The inward displacement 270 is the front panel 200 inwardly snapping the displacement 270.
参见图 13B,图中以虚线标示前面板 200是处于未与勾扣件 38扣合状态, 前面板 200向内拉动距离相同于勾扣件 38于限位槽 381内移动距离, 进而通 过勾扣件 38的弹性拉力,前面板 200往内拉,使前面板 200紧密靠在侧板 100。 Referring to FIG. 13B, the front panel 200 is not in the state of being fastened to the hooking member 38, and the front panel 200 is pulled inwardly at the same distance as the hooking member 38 in the limiting slot 381, and then is hooked. The elastic tension of the member 38 pulls the front panel 200 inwardly so that the front panel 200 abuts against the side panel 100.
参见图 14, 以外物扳动转动作动件 250, 使转动作动件 250逆时针旋转, 导引件 222施加限位轨道 225—作用力, 固持件 30在该作用力的驱动下带动 前面板 200以逆时针方向转动, 借此调整抽屉面板 200的角度。 进一步的, 通过弹性件 33和勾扣件 38的弹性拉力, 抽屉面板 200向内拉紧, 使抽屉面 板 200上方紧密靠在抽屉侧板 100。 Referring to FIG. 14, the external object pulls the rotating action member 250 to rotate the rotating actuating member 250 counterclockwise, and the guiding member 222 applies the limiting rail 225-force. The holding member 30 drives the front panel under the driving force. The 200 is rotated in a counterclockwise direction to thereby adjust the angle of the drawer panel 200. Further, the drawer panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38 so that the drawer panel 200 is closely pressed against the drawer side panel 100.
再参见图 15 , 以外物扳动使转动作动件 250顺时针旋转, 导引件 222施 加限位轨道 225—作用力, 固持件 30在该作用力的驱动下带动抽屉面板 200 以顺时针方向转动, 借此调整抽屉面板 200 的角度。 进一步的, 通过弹性件 33和勾扣件 38的弹性拉力,抽屉面板 200向内拉紧,使抽屉面板 200下方紧 密靠在抽屉侧板 100。 Referring again to FIG. 15, the external object is rotated to rotate the rotating motion member 250 clockwise, and the guiding member 222 applies a limiting rail 225-force. The holding member 30 drives the drawer panel 200 to be clockwise driven by the force. Rotate to thereby adjust the angle of the drawer panel 200. Further, the drawer panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the drawer panel 200 is tightly pressed against the drawer side panel 100.
图 16是示出了该实施例的前面板与侧板分离示意图, 当结合件 210与勾 扣件 38处于扣合状态, 转动掣动件 35使勾扣件 38沿限位槽 381滑动, 直至 结合件 210与勾扣件 38脱离, 借此使抽屉面板 200与抽屉侧板 100分离。 16 is a schematic view showing the separation of the front panel and the side panel of the embodiment. When the coupling member 210 and the hooking member 38 are in the engaged state, the rotating member 35 is rotated to slide the hooking member 38 along the limiting slot 381 until The coupling member 210 is disengaged from the hooking member 38, thereby separating the drawer panel 200 from the drawer side panel 100.
图 17〜图 19为本发明第二实施例之抽屉面板角度调整结构的第二种结构 之示意图, 本发明第二实施例之第二种结构的面板角度调整结构, 系在抽屉 结合结构上设有一连接轴杆 240、 一连接板 330、 一转动作动件 250及一衔接 结构,衔接结构包括有一限位轨道 225及一与限位轨道 225对应的导引件 222。 17 to FIG. 19 are schematic diagrams showing a second structure of a drawer panel angle adjusting structure according to a second embodiment of the present invention, and a panel angle adjusting structure of a second structure according to a second embodiment of the present invention is provided on a drawer coupling structure There is a connecting shaft 240, a connecting plate 330, a rotating actuating member 250 and a connecting structure. The engaging structure comprises a limiting rail 225 and a guiding member 222 corresponding to the limiting rail 225.
其中, 转动作动件 250系为一偏心作动件, 设在连接板 330上, 导引件 222是由转动作动件 250的圆周边形成, 限位轨道 225设在固持件 30上呈方 形框状结构, 且转动作动件 250系穿设方形框状的限位轨道 225, 并可沿限位 轨道 225内移动, 藉由设在转动作动件 250上的导引件 222与设在固持件 30 上的限位轨道 225 之相互衔接, 以形成衔接结构。 且固持件 30藉由连接轴杆 240以及衔接结构连接在连接板 330上, 以形成一摆动结构。 The rotating actuating member 250 is an eccentric actuating member, which is disposed on the connecting plate 330. The guiding member 222 is formed by the circular periphery of the rotating actuating member 250, and the limiting rail 225 is disposed on the holding member 30 in a square shape. a frame-like structure, and the rotating actuating member 250 is disposed through the square frame-shaped limiting rail 225 and movable along the limiting rail 225 by the guiding member 222 disposed on the rotating actuating member 250 The limit rails 225 on the holder 30 are engaged with each other to form a joint structure. The holder 30 is connected to the connecting plate 330 by the connecting shaft 240 and the engaging structure to form a swinging structure.
参见图 18, 当外力作用于转动作动件 250使其逆时针转动, 导引件 222 施加限位轨道 225—作用力, 固持件 30在该作用力的驱动下带动结合件 210 进而使前面板 200以逆时针方向转动, 借此调整前面板 200的角度。 进一步
的, 通过弹性件 33和勾扣件 38的弹性拉力, 前面板 200向内拉紧, 使前面 板 200上方紧密靠在抽屉侧板 100。 Referring to FIG. 18, when an external force acts on the turning actuating member 250 to rotate counterclockwise, the guiding member 222 applies a limiting rail 225-force, and the holding member 30 drives the coupling member 210 to drive the front panel under the driving force. The 200 rotates in a counterclockwise direction, thereby adjusting the angle of the front panel 200. Further Through the elastic pulling force of the elastic member 33 and the hooking member 38, the front panel 200 is pulled inwardly so that the front panel 200 is closely pressed against the drawer side panel 100.
再参见图 19, 当外力作用于转动作动件 250使其顺时针转动,导引件 222 施加限位轨道 225—作用力, 固持件 30在该作用力的驱动下带动结合件 210 进而使前面板 200以顺时针方向转动, 借此调整前面板 200的角度。 进一步 的, 通过弹性件 33和勾扣件 38的弹性拉力, 前面板 200向内拉紧, 使前面 板 200上方紧密靠在抽屉侧板 100。 Referring again to FIG. 19, when an external force acts on the turning actuating member 250 to rotate it clockwise, the guiding member 222 applies a limiting rail 225-force, and the holding member 30 drives the coupling member 210 to drive the front portion under the driving force. The panel 200 is rotated in a clockwise direction, thereby adjusting the angle of the front panel 200. Further, the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38 so that the front panel 200 is closely pressed against the drawer side panel 100.
当然, 本发明第二实施例之第二种结构的面板角度调整结构还有等同设 计结构, 其实施方式相同于第二实施例之第二种结构地方, 在此不再详述, 兹将不同处加以说明。 Of course, the panel angle adjustment structure of the second structure of the second embodiment of the present invention has an equivalent design structure, and the implementation manner thereof is the same as that of the second structure of the second embodiment, and will not be described in detail herein. Explain it.
转动作动件 250系为一偏心作动件, 设在固持件 30上, 导引件 222是由 转动作动件 250的圆周边形成, 限位轨道 225设在连接板 330上呈方形框状 结构, 且转动作动件 250 系穿设方形框状的限位轨道 225, 并可沿限位轨道 225内移动,藉由设在转动作动件 250上的导引件 222与设在连接板 330上的 限位轨道 225之相互衔接, 以形成衔接结构。 固持件 30藉由连接轴杆 240以 及衔接结构连接在连接板 330上, 以形成一摆动结构。 The rotating actuating member 250 is an eccentric actuating member, and is disposed on the holding member 30. The guiding member 222 is formed by the circular periphery of the rotating actuating member 250, and the limiting rail 225 is disposed on the connecting plate 330 in a square frame shape. The structure, and the rotating actuating member 250 is disposed through the square frame-shaped limiting rail 225, and is movable along the limiting rail 225, and is disposed on the connecting plate by the guiding member 222 disposed on the rotating actuating member 250. The limit rails 225 on the 330 are coupled to each other to form a joint structure. The holder 30 is coupled to the connecting plate 330 by the connecting shaft 240 and the engaging structure to form a swinging structure.
图 20〜图 22为本发明第二实施例之抽屋面板角度调整结构的第三种结构 之示意图, 本发明第二实施例之第三种结构的面板角度调整结构, 系在抽屉 结合结构上设有一连接轴杆 240、 一连接板 330、 一转动作动件 250及一衔接 结构,衔接结构包括有一限位轨道 225及一与限位轨道 225对应的导引件 222。 20 to FIG. 22 are schematic diagrams showing a third structure of the angle adjusting structure of the drawing house panel according to the second embodiment of the present invention, and the panel angle adjusting structure of the third structure of the second embodiment of the present invention is on the drawer coupling structure. A connecting shaft 240, a connecting plate 330, a rotating actuating member 250 and a connecting structure are provided. The connecting structure comprises a limiting rail 225 and a guiding member 222 corresponding to the limiting rail 225.
转动作动件 250设在连接板 330上, 导引件 222是设于转动作动件 250 一端部的第一齿轮, P艮位轨道 225设有与第一齿轮啮合的第二齿轮, 且限位 轨道 225设于固持件 30, 藉由设在转动作动件 250上的导引件 222与设在固 持件 30上的限位轨道 225 之相互衔接, 形成衔接结构, 固持件 30系藉由连 接轴杆 240以及衔接结构连接在连接板 330上, 形成一摆动结构。 当外力作 用于转动作动件 250并使其转动, 第一齿轮驱动第二齿轮转动, 借此驱动固 持件 30带动结合件 210进而使抽屉面板 200产生摆动位移。 The rotating action member 250 is disposed on the connecting plate 330, the guiding member 222 is a first gear disposed at one end of the rotating actuating member 250, and the P-position rail 225 is provided with a second gear that meshes with the first gear, and is limited The positioning rail 225 is disposed on the holding member 30, and is connected to the limiting rail 225 disposed on the holding member 30 by the guiding member 222 disposed on the rotating action member 250 to form a joint structure, and the retaining member 30 is formed by The connecting shaft 240 and the engaging structure are connected to the connecting plate 330 to form a swinging structure. When the external force is applied to the rotary actuator 250 and rotated, the first gear drives the second gear to rotate, thereby driving the retaining member 30 to drive the coupling member 210 to thereby cause the drawer panel 200 to swing.
再结合图 21和图 22, 当有外力使转动作动件 250逆时针转动时, 导引件 222作用于限位轨道 225 , 进而拉动固持件 30、 结合件 210与前面板 200逆时 针摆动, 与此同时, 藉由弹性件 33和勾扣件 38的弹性拉力, 前面板 200向 内拉紧,使前面板 200上方紧密靠在抽屉侧板 100; 当使转动作动件 250顺时 针转动时, 导引件 222作用于限位轨道 225, 进而拉动固持件 30、 结合件 210 与前面板 200顺时针摆动, 与此同时, 藉由弹性件 33和勾扣件 38的弹性拉 力, 前面板 200向内拉紧, 使前面板 200下方紧密靠在抽屉侧板 100。 Referring to FIG. 21 and FIG. 22, when an external force causes the turning motion member 250 to rotate counterclockwise, the guiding member 222 acts on the limiting rail 225, thereby pulling the holding member 30, the coupling member 210 and the front panel 200 to swing counterclockwise. At the same time, the front panel 200 is pulled inwardly by the elastic pulling force of the elastic member 33 and the hooking member 38, so that the front panel 200 is closely pressed against the drawer side panel 100; when the turning actuating member 250 is rotated clockwise The guiding member 222 acts on the limiting rail 225 to pull the holding member 30, the coupling member 210 and the front panel 200 to swing clockwise, and at the same time, the front panel 200 is elastically pulled by the elastic member 33 and the hooking member 38. The inner panel 200 is pulled inwardly against the drawer side panel 100.
当然, 本发明第二实施例之第三种结构的面板角度调整结构还有等同设
计结构, 其实施方式相同于第二实施例之第三种结构地方, 在此不再详述, 兹将不同处加以说明: Of course, the panel angle adjustment structure of the third structure of the second embodiment of the present invention has an equivalent design. The structure of the meter is the same as that of the third structure of the second embodiment, and will not be described in detail here.
转动作动件 250设于固持件 30, 导引件 222是设于转动作动件 250外围 的第一齿轮, P艮位轨道 225设有与第一齿轮啮合的第二齿轮, 且限位轨道 225 设于支撑件 330, 藉由设在转动作动件 250上的导引件 222与设在连接板 330 上的限位轨道 225 之相互衔接, 以形成衔接结构, 固持件 30藉由连接轴杆 240以及衔接结构连接在连接板 330上, 形成一摆动结构。 当外力作用于转动 作动件 250并使其转动, 第一齿轮和第二齿轮产生作用力驱动固持件 30带动 结合件 210进而使抽屉面板 200产生摆动位移。 The rotating action member 250 is disposed on the holding member 30, the guiding member 222 is a first gear disposed on the periphery of the rotating actuating member 250, and the P-position rail 225 is provided with a second gear meshing with the first gear, and the limiting rail The 225 is disposed on the supporting member 330, and is connected to the limiting rail 225 disposed on the connecting plate 330 by the guiding member 222 disposed on the rotating actuating member 250 to form a joint structure, and the retaining member 30 is connected by the shaft The rod 240 and the engaging structure are coupled to the connecting plate 330 to form a swinging structure. When an external force acts on the rotating actuator 250 and causes it to rotate, the first gear and the second gear generate a force to drive the holding member 30 to drive the coupling member 210 to thereby cause the drawer panel 200 to swing.
综上所述, 本发明通过在抽屉面板结合结构上设一角度调整结构, 使抽 屉面板与侧板可摆动组设, 具体可以通过结构实现: 抽屉面板结合结构包括 有底板、 侧板、 前面板、 支撑件、 固持件及结合件, 角度调整结构包括有连 接件、 连接轴杆、 转动作动件以及衔接结构; 支撑件装于侧板, 固持件装于 支撑件, 结合件装于固持件; 连接件装在结合件上或是支撑件与固持件之间, 前面板装设在连接件或结合件上, 并藉由角度调整结构以形成摆动结构; 转 动作动件装在结合件或连接件或固持件上, 藉由转动作动件被转动, 前面板 随着转动作动件转动产生摆动位移, 以调整前面板与侧板的角度。 借此, 本 发明可以方便的调整抽屉面板的角度, 同时也使抽屉侧板和前面板能牢固结 合。 In summary, the present invention provides an angle adjustment structure on the drawer panel joint structure, so that the drawer panel and the side panel can be swingably assembled, which can be realized by a structure: The drawer panel joint structure includes a bottom plate, a side plate, and a front panel. , the support member, the holding member and the joint member, the angle adjusting structure comprises a connecting member, a connecting shaft rod, a rotating actuating member and a connecting structure; the supporting member is mounted on the side plate, the holding member is mounted on the supporting member, and the binding member is mounted on the holding member The connecting member is mounted on the joint member or between the support member and the retaining member, the front panel is mounted on the connecting member or the joint member, and the angle adjusting structure is used to form the swinging structure; the rotating actuating member is mounted on the joint member or The connecting member or the holding member is rotated by the turning action member, and the front panel is rotated by the rotation of the rotating action member to adjust the angle between the front panel and the side panel. Thereby, the present invention can easily adjust the angle of the drawer panel, and at the same time, the drawer side panel and the front panel can be firmly joined.
当然, 本发明还可有其它多种实施例, 在不背离本发明精神及其实质的 但 些相应的改变 变形都应 发明所附的权利 求的 护范围。 '、
It is a matter of course that the invention may be embodied in various other forms and modifications without departing from the spirit and scope of the invention. ',
Claims
1、 一种抽屉面板角度调整结构, 包括有一抽屉面板结合结构, 以及设置 在该抽屉面板结合结构上的一角度调整结构, 其中, 该抽屉面板结合结构包 括: A drawer panel angle adjusting structure, comprising a drawer panel joint structure, and an angle adjusting structure disposed on the drawer panel joint structure, wherein the drawer panel joint structure comprises:
一方形底板; a square bottom plate;
左右平行侧板, 所述左右平行侧板连接于所述方形底板; Left and right parallel side plates, the left and right parallel side plates are connected to the square bottom plate;
一前面板, 装设于所述左右平行侧板; a front panel mounted on the left and right parallel side plates;
一支撑件, 装设于所述左右平行侧板; a support member mounted on the left and right parallel side plates;
一固持件, 装设在所述支撑件上, 所述固持件包括有一支撑座及一勾扣 件, 所述勾扣件设置于所述支撑座的一端; 以及 a holding member is disposed on the support member, the holding member includes a support base and a hooking member, and the hooking member is disposed at one end of the support base;
一结合件, 可拆卸或组装于所述勾扣件; a coupling member detachable or assembled to the hook member;
其特征在于, 所述结合件设有一摆动轴孔, 所述角度调整结构包括: 一连接轴杆; The coupling member is provided with a swinging shaft hole, and the angle adjusting structure comprises: a connecting shaft;
一连接件, 所述连接件上设有一连接轴孔, 所述连接轴杆穿设所述连接 轴孔, 并将连接件连接在所述摆动轴孔, 且所述前面板装设于所述连接件; 一转动作动件, 设于所述结合件或所述连接件; 以及 a connecting member, the connecting member is provided with a connecting shaft hole, the connecting shaft rod penetrates the connecting shaft hole, and connects the connecting member to the swinging shaft hole, and the front panel is mounted on the connecting rod a connecting member; a rotating action member disposed on the coupling member or the connecting member;
一衔接结构, 包括有一限位轨道及与所述限位轨道对应的导引件; 所述连接件藉由所述连接轴杆以及所述衔接结构连接于所述结合件上形 成一摆动结构, 藉由所述摆动结构, 当所述转动作动件被转动, 所述前面板 随着所述转动作动件转动而产生摆动位移。 a connecting structure includes a limiting rail and a guiding member corresponding to the limiting rail; the connecting member is connected to the coupling member by the connecting shaft and the connecting structure to form a swinging structure, With the swinging structure, when the turning motion member is rotated, the front panel generates a swinging displacement as the turning motion member rotates.
2、 根据权利要求 1所述的抽屉面板角度调整结构, 其特征在于, 所述勾 扣件的一端设有一弹性件, 通过所述弹性件的弹性拉力, 所述前面板抵靠在 所述侧板。 The angle adjustment structure of the drawer panel according to claim 1, wherein one end of the hook member is provided with an elastic member, and the front panel abuts against the side by the elastic pulling force of the elastic member board.
3、 根据权利要求 1所述的抽屉面板角度调整结构, 其特征在于, 所述转 动作动件设在所述结合件上, 所述导引件设在所述转动作动件上, 所述限位 轨道设在所述连接件上, 且所述限位轨道对应所述导引件, 所述导引件与所 述限位轨道相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 1, wherein the turning actuating member is disposed on the coupling member, and the guiding member is disposed on the rotating actuating member, The limiting rail is disposed on the connecting member, and the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
4、 根据权利要求 1所述的抽屉面板角度调整结构, 其特征在于, 所述转 动作动件设在所述结合件上, 所述限位轨道设在所述转动作动件上, 所述导 引件设在所述连接件上, 且所述限位轨道对应所述导引件, 所述限位轨道与 所述导引件相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 1, wherein the turning actuating member is disposed on the coupling member, and the limiting rail is disposed on the rotating actuating member, The guiding member is disposed on the connecting member, and the limiting rail corresponds to the guiding member, and the limiting rail and the guiding member are coupled to each other to form the engaging structure.
5、 根据权利要求 1所述的抽屉面板角度调整结构, 其特征在于, 所述转 动作动件设在所述连接件上, 所述导引件设在所述转动作动件上, 所述限位 轨道设在所述结合件上, 且所述限位轨道对应于所述导引件, 所述导引件与 所述限位轨道相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 1, wherein the turning action member is disposed on the connecting member, and the guiding member is disposed on the turning actuating member, Limit The rail is disposed on the coupling member, and the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
6、 根据权利要求 1所述的抽屉面板角度调整结构, 其特征在于, 所述转 动作动件设在所述连接件上, 所述限位轨道设在所述转动作动件上, 所述导 引件设在所述结合件上, 并且所述限位轨道对应于所述导引件, 所述限位轨 道与所述导引件相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 1, wherein the turning actuating member is disposed on the connecting member, and the limiting rail is disposed on the rotating actuating member, The guiding member is disposed on the coupling member, and the limiting rail corresponds to the guiding member, and the limiting rail and the guiding member are coupled to each other to form the engaging structure.
7、 根据权利要求 3所述的抽居面板角度调整结构, 其特征在于, 所述转 动作动件系为一偏心作动件, 设在所述结合件上, 所述导引件是由所述转动 作动件的周边形成, 所述限位轨道设在所述连接件上, 并呈方形框状结构, 所述转动作动件穿设所述限位轨道, 并可沿所述限位轨道内移动, 藉由所述 导引件与所述限位轨道之相互衔接, 形成所述衔接结构。 The sliding panel angle adjusting structure according to claim 3, wherein the rotating actuating member is an eccentric actuating member, and is disposed on the coupling member, wherein the guiding member is a Forming a periphery of the rotating actuating member, the limiting rail is disposed on the connecting member, and has a square frame structure, wherein the rotating actuating member passes through the limiting rail and is along the limit Moving in the track, the engaging structure is formed by the guiding member and the limiting track being coupled to each other.
8、 根据权利要求 5所述的抽屉面板角度调整结构, 其特征在于, 所述转 动作动件系为一偏心作动件, 设在所述连接件上, 所述导引件是由所述转动 作动件的周边形成, 所述限位轨道设在所述结合件上, 并呈方形框状结构, 所述转动作动件系穿设所述限位轨道, 并可沿所述限位轨道内移动, 藉由所 述导引件与所述限位轨道之相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 5, wherein the turning actuating member is an eccentric actuating member, and is disposed on the connecting member, wherein the guiding member is Forming a periphery of the rotating actuating member, the limiting rail is disposed on the connecting member, and has a square frame structure, wherein the rotating actuating member passes through the limiting rail and can follow the limit Moving in the track, the engaging structure is formed by the guiding member and the limiting track being coupled to each other.
9、 根据权利要求 3所述的抽屉面板角度调整结构, 其特征在于, 所述导 引件是设于所述转动驱动件一端部的第一齿轮, 所述限位轨道设有与所述第 一齿轮啮合的第二齿轮, 藉由所述导引件与所述限位轨道相互衔接, 形成所 述衔接结构, 当所述转动驱动件转动, 所述第一齿轮驱动所述第二齿轮进而 带动所述连接件与抽屉面板产生摆动位移。 The drawer panel angle adjusting structure according to claim 3, wherein the guiding member is a first gear provided at one end of the rotating driving member, and the limiting rail is provided with the first a second gear that is meshed by a gear is coupled to the limiting rail by the guiding member to form the engaging structure. When the rotating driving member rotates, the first gear drives the second gear to further The connecting member and the drawer panel are caused to generate a swinging displacement.
10、 根据权利要求 5 所述的抽屉面板角度调整结构, 其特征在于, 所述 导引件是固定于所述转动驱动件外围的第一齿轮, 所述限位轨道设有与所述 第一齿轮啮合的第二齿轮, 藉由所述导引件与所述限位轨道之相互衔接, 形 成所述衔接结构, 当所述转动驱动件转动, 所述第一齿轮和第二齿轮产生作 用力驱动所述连接件进而带动所述抽屉面板产生摆动位移。 The drawer panel angle adjusting structure according to claim 5, wherein the guiding member is a first gear fixed to a periphery of the rotating driving member, and the limiting rail is provided with the first a second gear meshed by the gear, the engaging structure is formed by the guiding member and the limiting rail, and the first gear and the second gear generate a force when the rotating driving member rotates Driving the connecting member to drive the drawer panel to generate a swinging displacement.
11、 一种抽屉面板角度调整结构, 包括一抽屉面板结合结构, 以及设置 在所述抽屉面板结合结构上的一角度调整结构, 其中, 所述抽屉面板结合结 构包括: 11. A drawer panel angle adjustment structure, comprising a drawer panel joint structure, and an angle adjustment structure disposed on the drawer panel joint structure, wherein the drawer panel joint structure comprises:
一方形底板; a square bottom plate;
左右平行侧板, 所述左右平行侧板连接于所述方形底板; Left and right parallel side plates, the left and right parallel side plates are connected to the square bottom plate;
一前面板, 装设在所述左右平行侧板; a front panel mounted on the left and right parallel side panels;
一支撑件, 装设在所述左右平行侧板; a support member mounted on the left and right parallel side plates;
一固持件, 所述固持件设有一支撑座及一勾扣件, 所述勾扣件系设置于 支撑座一端; 以及 a holding member, the holding member is provided with a support base and a hooking member, and the hooking member is disposed on One end of the support;
一结合件, 可拆卸或组装设于所述勾扣件上, 所述前面板装设于所述结 合件上; a joint member is detachably or assembled on the hook member, and the front panel is mounted on the joint member;
其特征在于, 所述固持件设有一连接轴孔, 所述角度调整结构包括: 一连接轴杆; The holding member is provided with a connecting shaft hole, and the angle adjusting structure comprises: a connecting shaft;
一连接件, 装设于所述支撑件, 且所述连接件设有一摆动轴孔, 所述连 接轴杆穿设所述连接轴孔连接于所述摆动轴孔; a connecting member is mounted on the supporting member, and the connecting member is provided with a swinging shaft hole, and the connecting shaft is connected to the connecting shaft hole through the connecting shaft hole;
一转动作动件, 装设于所述连接件或所述固持件; 以及 a turning actuating member mounted to the connecting member or the holding member;
一衔接结构, 包括有一限位轨道及与所述限位轨道对应的导引件; 所述固持件藉由所述连接轴杆以及所述衔接结构连接在所述连接件上形 成一摆动结构, 藉由所述摆动结构, 当所述转动作动件被转动, 所述前面板 随着所述转动作动件转动而产生摆动位移。 a connecting structure includes a limiting track and a guiding member corresponding to the limiting track; the holding member is connected to the connecting member to form a swinging structure by the connecting shaft and the connecting structure, With the swinging structure, when the turning motion member is rotated, the front panel generates a swinging displacement as the turning motion member rotates.
12、 根据权利要求 11所述的抽屉面板角度调整结构, 其特征在于, 所述 勾扣件的一端设有一弹性件, 通过所述弹性件的弹性拉力, 令所述前面板抵 靠在所述侧板。 The drawer panel angle adjusting structure according to claim 11, wherein one end of the hooking member is provided with an elastic member, and the front panel abuts against the elastic panel by the elastic pulling force of the elastic member Side panel.
13、 根据权利要求 11所述的抽屉面板角度调整结构, 其特征在于, 所述 转动作动件设在所述连接件上, 所述导引件设在所述转动作动件上, 所述限 位轨道设在所述固持件上, 且所述限位轨道对应所述导引件, 所述导引件与 所述限位轨道相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 11, wherein the turning actuating member is disposed on the connecting member, and the guiding member is disposed on the rotating actuating member, The limiting rail is disposed on the holding member, and the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
14、 根据权利要求 11所述的抽屉面板角度调整结构, 其特征在于, 所述 转动作动件设在所述连接件上, 所述限位轨道设在所述转动作动件的侧面上, 所述一导引件设在所述固持件上, 且所述限位轨道对应所述导引件, 所述限 位轨道与所述导引件相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 11, wherein the turning actuating member is disposed on the connecting member, and the limiting rail is disposed on a side of the rotating actuating member, The guiding member is disposed on the holding member, and the limiting rail corresponds to the guiding member, and the limiting rail and the guiding member are coupled to each other to form the engaging structure.
15、 根据权利要求 11所述的抽屉面板角度调整结构, 其特征在于, 所述 转动作动件设在所述固持件上, 所述导引件设在所述转动作动件的侧面上, 所述限位轨道设在所迷连接件上, 且所述限位轨道对应所述导引件, 所述导 引件与所述限位轨道相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 11, wherein the rotating action member is disposed on the holding member, and the guiding member is disposed on a side of the rotating actuating member, The limiting rail is disposed on the connecting member, and the limiting rail corresponds to the guiding member, and the guiding member and the limiting rail are coupled to each other to form the engaging structure.
16、 根据权利要求 11所述的抽屉面板角度调整结构, 其特征在于, 所述 转动作动件设在所述固持件上, 所述转动作动件设在所述固持件上, 所述限 位轨道设在所述转动作动件的侧面上, 所述导引件设在所述连接件上, 且所 述限位轨道对应所述导引件, 所迷限位轨道与所述导引件相互 ί接, 形成所 述衔接结构。 The drawer panel angle adjusting structure according to claim 11, wherein the rotating actuating member is disposed on the holding member, and the rotating actuating member is disposed on the holding member, the limit a positioning rail is disposed on a side of the rotating actuating member, the guiding member is disposed on the connecting member, and the limiting rail corresponds to the guiding member, the limiting rail and the guiding The pieces are connected to each other to form the joint structure.
17、 根据权利要求 13所述的抽屉面板角度调整结构, 其特征在于, 所述 转动作动件为一偏心作动件, 设在所述连接件上, 所述导引件是由所述转动 作动件的圓周边形成, 所述限位轨道设在所述固持件上, 并呈方形框状结构, 所述转动作动件穿 所述限位轨道, 并可沿所述限位轨道内移动, 所述导引 件与所述限位轨道之相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 13, wherein the turning actuating member is an eccentric actuating member disposed on the connecting member, wherein the guiding member is rotated by the rotating member a circular periphery of the actuating member, the limiting rail is disposed on the holding member, and has a square frame structure, and the rotating action member passes through the limiting rail and is located along the limiting rail Moving, the guiding member and the limiting rail are coupled to each other to form the engaging structure.
18、 根据权利要求 15所述的抽屉面板角度调整结构, 其特征在于, 所述 转动作动件为一偏心作动件, 设在所述固持件上, 所述导引件是由所述转动 作动件的圆周边形成, 所述限位轨道设在所述连接件上, 并呈方形框状结构, 所述转动作动件穿设所述限位轨道, 并可沿所述限位轨道内移动, 所述导引 件与所述限位轨道相互衔接, 形成所述衔接结构。 The drawer panel angle adjusting structure according to claim 15, wherein the turning actuating member is an eccentric actuating member disposed on the holding member, and the guiding member is rotated by the rotating member a circular periphery of the actuating member is formed, the limiting rail is disposed on the connecting member, and has a square frame structure, wherein the rotating actuating member passes through the limiting rail and is along the limiting rail Inward movement, the guiding member and the limiting rail are coupled to each other to form the engaging structure.
19、 根据权利要求 13所述的抽屉面板角度调整结构, 其特征在于, 所述 导引件是设于所述转动驱动件一端部的第一齿轮, 所述限位轨道设有与所述 第一齿轮啮合的第二齿轮, 所述导引件与所述限位轨道相互衔接, 形成所述 衔接结构, 当所述转动驱动件转动, 所述第一齿轮驱动所述第二齿轮进而带 动所述固持件、 结合件与抽屉面板产生摆动位移。 The drawer panel angle adjusting structure according to claim 13, wherein the guiding member is a first gear provided at one end of the rotating driving member, and the limiting rail is provided with the first a second gear engaged by a gear, the guiding member and the limiting rail are coupled to each other to form the engaging structure, and when the rotating driving member rotates, the first gear drives the second gear to drive the The holding member, the coupling member and the drawer panel generate a swinging displacement.
20、 根据权利要求 15所述的抽屉面板角度调整结构, 其特征在于, 所述 导引件是固定于所述转动驱动件外围的第一齿轮, 所述限位轨道设有与所述 第一齿轮啮合的第二齿轮, 所述导引件与所述限位轨道相互衔接, 形成所述 衔接结构, 当所述转动驱动件转动, 所述第一齿轮和第二齿轮产生作用力驱 动所述固持件进而带动所述结合件与抽屉面板产生摆动位移。 The drawer panel angle adjusting structure according to claim 15, wherein the guiding member is a first gear fixed to a periphery of the rotating driving member, and the limiting rail is provided with the first a second gear engaged by the gear, the guiding member and the limiting rail are coupled to each other to form the engaging structure, and when the rotating driving member rotates, the first gear and the second gear generate a force to drive the The holding member in turn drives the coupling member and the drawer panel to generate a swinging displacement.
Applications Claiming Priority (2)
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CN201010531766.4 | 2010-10-27 | ||
CN2010105317664A CN102058253B (en) | 2010-10-27 | 2010-10-27 | Angle adjusting structure of drawer panel |
Publications (1)
Publication Number | Publication Date |
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WO2012055156A1 true WO2012055156A1 (en) | 2012-05-03 |
Family
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Application Number | Title | Priority Date | Filing Date |
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PCT/CN2011/001602 WO2012055156A1 (en) | 2010-10-27 | 2011-09-22 | Drawer-panel angle-adjustment structure |
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CN (1) | CN102058253B (en) |
WO (1) | WO2012055156A1 (en) |
Cited By (3)
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EP2730196A1 (en) * | 2012-11-09 | 2014-05-14 | Grass GmbH | Device for connecting a front of a movable part of a piece of furniture to its side element |
EP3167759A1 (en) * | 2015-11-12 | 2017-05-17 | King Slide Works Co., Ltd. | Device for mounting a drawer front panel to the drawer side walls |
WO2018206727A1 (en) * | 2017-05-10 | 2018-11-15 | Wolfgang Held | Fastening fitting for a panel |
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CN102058253B (en) * | 2010-10-27 | 2012-12-26 | 东莞世巨五金塑胶制品有限公司 | Angle adjusting structure of drawer panel |
CN102379554B (en) * | 2011-10-21 | 2013-07-10 | 伍志勇 | Regulating mechanism for drawer front |
CN103082702A (en) * | 2011-11-08 | 2013-05-08 | 北京世博金属制品有限公司 | Connecting method of drawer side support on drawer and rear connecting yard fixing base |
CN102578842B (en) * | 2012-01-17 | 2014-04-23 | 伍志勇 | Connecting device for drawer panel |
CN102960965B (en) * | 2012-11-14 | 2014-12-10 | 伍志勇 | Unlocking device of drawer panel |
CN104433353B (en) * | 2014-11-27 | 2017-02-22 | 伍志勇 | Locking and detaching structure of drawer front panel |
CN105201967B (en) * | 2015-10-20 | 2017-07-11 | 广东库博精密科技有限公司 | A kind of drawer front panel and many buckle connecting structures of side panel |
US10010174B2 (en) * | 2015-11-12 | 2018-07-03 | King Slide Works Co., Ltd. | Mounting mechanism |
CN107581807B (en) * | 2016-07-07 | 2020-03-27 | 川湖科技股份有限公司 | Mounting mechanism |
DE102017127022A1 (en) * | 2017-11-16 | 2019-05-16 | Paul Hettich Gmbh & Co. Kg | Fastening device for a panel of a drawer |
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Also Published As
Publication number | Publication date |
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CN102058253A (en) | 2011-05-18 |
CN102058253B (en) | 2012-12-26 |
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