CN210520398U - Slide plate type multifunctional platform - Google Patents

Abstract

The utility model relates to a slide plate type multifunctional platform, it includes the platform body and is used for the support body of supporting platform body, and the platform body is seted up the opening that link up platform body top surface and bottom surface, and the alternative is packaged with the flat board or the lift flat board of sliding on the opening of platform body, installs the slip actuating mechanism that can drive the flat board side direction of sliding on the support body, installs the lift actuating mechanism that can drive the dull and stereotyped lift of lift on the support body. The utility model discloses a switching between function platform and the flat platform is used to ingenious subassembly structure that slides has been designed, has guaranteed the effect of sliding, has not only saved the space but also not influenced elevating assembly's action, has still left sufficient functional unit and has placed the space, simple structure, and the action is reliable and stable, easily popularizes and implements.

Description

Slide plate type multifunctional platform

Technical Field

The utility model relates to a function house field, specific slide plate formula multifunctional platform that says so.

Background

Common tea table, dining table etc. generally are simple platform formula structure, place multiple functional unit such as tableware, tea set on the platform, and platform surface article are placed mixed and disorderly unordered, when needs exclusive use platform is as other usage, must all pick up each functional unit, and the operation is wasted time and energy, uses inconveniently. Especially, kungfu tea table, functional component on kungfu tea table generally includes a plurality of subassemblies such as kettle, the base of heating up water, disinfection bowl, tea set, and the tea seat of some models still will heat up the base and directly inlay the dress on tea table platform, and other functional component have also occupied the very big space of tea table platform, and the tea table can't use as dining table or platform formula tea table again, and the function is more single.

Based on the above problems, the applicant of the present application has developed a multifunctional platform, which places functional components on a lifting platform through a structure including the lifting platform and a movable cover plate, and when the functional components are not needed, the lifting platform is lowered below the platform, and the movable cover plate covers a gap on the platform, so that various functions can be switched. According to the specific structure and the moving mode of the movable cover plate, the multifunctional platform is divided into a sliding plate type platform and a turnover plate type platform, and the scheme mainly aims at the sliding plate type platform.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a slide plate formula multifunctional platform that stable in structure is reliable, convenience simple to use, ability extension platform function.

For solving the technical problem, the utility model discloses a slide plate formula multifunctional platform includes the platform body and is used for the support body of supporting platform body, sets up the opening that link up platform body top surface and bottom surface on the platform body, and its structural feature is the alternative is encapsulated with the flat board or the lift flat board that slides on the opening of platform body, installs the slip actuating mechanism that can drive the flat side direction that slides on the support body, installs the lift actuating mechanism that can drive the flat lift of lift on the support body.

By adopting the structure, functional components such as tea sets and the like are placed or arranged on the lifting flat plate, when the sliding flat plate is packaged on the opening, the lifting flat plate and the functional components such as the tea sets and the like on the lifting flat plate are hidden below the platform, and the platform is used as a flat surface; when the functional unit is needed to be used, the sliding driving mechanism drives the sliding flat plate to move laterally to give way to the position of the opening, the lifting flat plate rises to the position of the opening under the action of the lifting driving mechanism, the functional unit rises to the surface of the platform, and the platform body is used as a functional platform such as a tea table. The utility model discloses a hidden lift dull and stereotyped structure to with the help of the dull and stereotyped structure of sliding that the side was moved, realized the switching between functional platform and the plane platform, owing to the dull and stereotyped structure that adopts the side direction to slide that slides, left the position of functional unit on the lift flat board, make the action mutually noninterfere between two sets of mechanisms, stable in structure just controls simple and conveniently.

To the concrete structure of sliding driving mechanism, the utility model discloses it is preferred, sliding driving mechanism includes first power telescopic link, and first power telescopic link's front end is articulated on the dull and stereotyped bottom surface that slides, first power telescopic link's rear end is articulated on the bottom surface of platform body or support body. Adopt power telescopic link as the power source of slip actuating mechanism, with the help of the hinge structure at telescopic link both ends, can make the telescopic link can follow the dull and stereotyped slip orbit that slides and carry out the swing action of adaptability, avoid appearing the card problem of duning.

To the sliding structure of the sliding flat plate, the positioning rollers are respectively arranged at the positions close to the two end edges on the bottom surface of the sliding flat plate, and the two side parts of the support body are provided with track grooves matched with the positioning rollers.

The positioning roller wheel is in sliding fit with the track groove and limited in the track groove, and the shape of the track groove determines the sliding track of the sliding flat plate.

Because the platform body and the sliding flat plate both have certain thickness, and the sliding flat plate needs to be in clearance fit with the inner wall of the upper opening of the platform body as small as possible without influencing the appearance, the sliding flat plate needs to integrally move downwards for a certain distance and then move laterally, the distance of downward movement is determined by the thicknesses of the platform body and the sliding flat plate, and in order to achieve the purpose, the sliding mechanism adopts the following structure.

Specifically, two positioning rollers are uniformly arranged at the front and the back of two edge positions of the sliding flat plate, the front positioning roller is the front roller, the back positioning roller is the back roller, the positioning rollers are connected to the bottom surface of the sliding flat plate through roller frames, and the length of the roller frame of the front roller is smaller than that of the back roller; the track groove is a stepped track groove matched with the two positioning rollers. Specifically, the stepped track groove comprises a first-order inclined rail, a first-order transverse rail, a second-order inclined rail and a second-order transverse rail; the first-order inclined rail and the second-order inclined rail are obliquely arranged, the rear end of the first-order inclined rail is connected with the front end of the first-order transverse rail, the rear end of the first-order transverse rail is connected with the front end of the second-order inclined rail, and the rear end of the second-order inclined rail is connected with the front end of the second-order transverse rail.

In the structure, the track groove adopts a stepped structure, and is matched with two positioning rollers with different heights, under an initial state, the front roller is positioned at the top end of the first-order inclined rail, the rear roller is positioned at the top end of the second-order inclined rail, when the sliding flat plate receives backward driving force, the two rollers simultaneously move towards the inclined lower side along the two inclined rails, the sliding flat plate is driven to integrally move towards the inclined lower side, when the sliding flat plate is moved out of the opening, the front and rear rollers respectively enter the first-order transverse rail and the second-order transverse rail, at the moment, the sliding flat plate integrally moves backwards, when the front roller enters the second-order inclined rail, the rear end of the sliding flat plate upwarps and continues to slide backwards until the front roller moves onto the second-order transverse rail and the front end of the sliding flat plate completely yields out of the opening, at the moment, the sliding flat plate.

As can be seen from the foregoing, the sliding plate slides obliquely downward first, and in order to ensure that the gap between the sliding plate and the inner wall of the opening is as small as possible, a space for the sliding plate to move obliquely relative to the inner wall of the opening needs to be reserved, so that the inner wall of the opening near the rear side is an inclined surface, and the inclined surface matches with the inclined angle of the two-step inclined rail. The inclined plane is adopted by the inner wall of the rear side of the opening, so that a space for the sliding flat plate with certain thickness to move along the inclined direction is reserved, interference is avoided, and therefore the sliding flat plate and the opening can be more closely packaged and matched, and the attractive effect is guaranteed.

For the specific installation structure of the positioning roller, the positioning roller is a ball bearing, the ball bearing is rotatably installed on a positioning pin, and the positioning pin is installed on a roller frame. During the concrete installation, the location running roller stretches out the end edge of the flat board that slides, and the roller frame is located the flat board end edge that slides under, and the location running roller adopts the ball bearing that rotates the better effect, and gliding is more smooth and easy.

For the concrete structure of the lifting driving mechanism, a conventional vertical lifting and vertical falling type driving mode can be adopted, and in order to ensure the lifting stability, the preferable lifting driving mechanism comprises a cross telescopic net rack which is arranged at the bottom of the lifting flat plate and driven by a second power telescopic rod. The lifting driving mechanism adopts a cross telescopic net rack type structure, adopts two sets of cross net racks, and utilizes a second power telescopic rod to drive the cross angle of the connecting rods which are arranged in a cross mode to realize integral lifting control.

For the specific structure of the power telescopic rod, the first power telescopic rod and the second power telescopic rod are preferably electric push rods or oil cylinders.

When the platform is used as a tea table, the support frame body is a box body frame structure formed by a plurality of side box plates in an involutory mode, and the bottom of the box body frame structure is a base plate; the side box plate is provided with a box door or a drawer. The sliding driving mechanism and the sliding flat plate only occupy the upper space of the box body, the lifting driving mechanism and the lifting flat plate occupy the space at one end of the box body, and the rest box body space can be used as the storage space of the closed tea table.

To sum up, the utility model discloses a switching between function platform and the flat platform is used to ingenious subassembly structure that slides has been designed, has guaranteed the effect of sliding, has not only saved the space but also does not influence lifting unit's action, has still left sufficient functional unit and has placed the space, simple structure, and the action is reliable and stable, easily popularizes and implements.

Drawings

The invention will be described in further detail with reference to the following drawings and embodiments:

FIG. 1 is a schematic external structural view of one embodiment of the present invention;

FIG. 2 is a schematic top view of the structure of FIG. 1;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is an enlarged view of the portion C of FIG. 3;

FIG. 5 is an enlarged view of the portion D in FIG. 3;

FIG. 6 is an enlarged sectional view taken along the line E-E in FIG. 5;

FIG. 7 is a schematic cross-sectional view taken along line B-B of FIG. 3;

FIG. 8 is an enlarged sectional view of the portion F in FIG. 7;

fig. 9 is a schematic structural view of another state of fig. 3.

Detailed Description

Referring to the drawings, the utility model discloses a slide plate formula multifunctional platform includes platform body 1 and the support body that is used for supporting platform body 1, sets up the opening 2 that link up 1 top surface of platform body and bottom surface on the platform body 1, characterized by the alternative is packaged with flat 4 or the dull and stereotyped 5 that goes up and down of sliding on the opening 2 of platform body 1, installs the slip actuating mechanism that can drive flat 4 side directions of sliding on the support body, installs the lift actuating mechanism that can drive the dull and stereotyped 5 that goes up and down on the support body.

In the structure, functional components such as tea sets and the like are placed or installed on the lifting flat plate 5, when the sliding flat plate 4 is packaged on the opening 2, the lifting flat plate 5 and the functional components such as tea sets and the like on the lifting flat plate 5 are hidden below the platform, and the platform is used as a flat surface; when the functional components are needed to be used, the sliding driving mechanism drives the sliding flat plate 4 to move laterally to give way to the position of the opening 2, the lifting flat plate 5 rises to the position of the opening 2 under the action of the lifting driving mechanism, the functional components rise to the surface of the platform, and the platform body 1 is used as a functional platform such as a tea table. The utility model discloses a hidden lift dull and stereotyped 5's structure to with the help of the dull and stereotyped 4 structures that slide that the side was moved, realized the switching between functional platform and the plane platform, owing to slide dull and stereotyped 4 and adopt the structure that the side direction slides, left the position of functional unit on the lift dull and stereotyped 5, make the action mutually noninterfere between two sets of mechanisms, stable in structure just controls simple and conveniently.

Referring to the attached drawings, the specific structure of the sliding driving mechanism specifically comprises a first power telescopic rod 6, the front end of the first power telescopic rod 6 is hinged to the bottom surface of the sliding flat plate 4, and the rear end of the first power telescopic rod 6 is hinged to the bottom surface of the platform body 1 or the support frame body. Adopt power telescopic link as the power source of slip actuating mechanism, with the help of the hinge structure at telescopic link both ends, can make the telescopic link can follow the slip orbit of the dull and stereotyped 4 that slides and carry out the swing action of adaptability, avoid appearing the card problem of duning.

Referring to the attached drawings, for the sliding installation structure of the sliding flat plate 4, the positioning rollers 7 are respectively installed on the positions close to the two end edges on the bottom surface of the sliding flat plate 4, and the two side parts of the support frame body are both provided with track grooves 8 matched with the positioning rollers 7. The positioning roller 7 is in sliding fit with the track groove 8, the positioning roller 7 is limited in the track groove 8, and the shape of the track groove 8 determines the sliding track of the sliding flat plate.

Because the platform body 1 and the sliding flat plate 4 both have a certain thickness, and the sliding flat plate 4 does not affect the appearance until being in clearance fit with the inner wall of the upper opening 2 of the platform body 1 as small as possible, therefore, the sliding flat plate 4 needs to integrally move downwards for a certain distance and then move laterally, the distance of downward movement is determined by the thicknesses of the platform body 1 and the sliding flat plate 4, and in order to achieve the purpose, the sliding mechanism of the scheme adopts the following structure specifically.

Referring to the attached drawings, two positioning rollers 7 are uniformly arranged at the front and the back of two edge positions of the sliding flat plate 4, the front one of the two positioning rollers 7 is a front roller, the back one of the two positioning rollers 7 is a back roller, the positioning rollers 7 are connected to the bottom surface of the sliding flat plate 4 through roller frames 9, and the length of the roller frame of the front roller is smaller than that of the roller frame of the back roller; the track groove 8 is a stepped track groove matched with the two positioning rollers 7. Specifically, the stepped track groove includes a first-order inclined rail 81, a first-order transverse rail 82, a second-order inclined rail 83, and a second-order transverse rail 84; the first-order inclined rail 81 and the second-order inclined rail 83 are obliquely arranged, the rear end of the first-order inclined rail 81 is connected with the front end of the first-order transverse rail 82, the rear end of the first-order transverse rail 82 is connected with the front end of the second-order inclined rail 83, and the rear end of the second-order inclined rail 83 is connected with the front end of the second-order transverse rail 84.

Referring to the attached drawings, the track groove 8 adopts a step-shaped structure and is matched with two positioning rollers 7 with different heights, in the initial state, the front roller is located at the top end of the first-order ramp 81, the rear roller is located at the top end of the second-order ramp 83, when the sliding flat plate 4 is driven by backward driving force, the two rollers simultaneously move along the two inclined rails towards the inclined lower direction to drive the sliding flat plate 4 to integrally move towards the inclined lower direction, when the sliding plate 4 moves out of the opening 2, the front and rear rollers enter the first-order transverse rail 82 and the second-order transverse rail 84, respectively, at this time, the sliding plate 4 integrally moves backwards, when the front roller wheel enters the second-order inclined rail 83, the rear end of the sliding flat plate 2 upwarps and continues to slide backwards until the front roller wheel moves to the position on the second-order transverse rail 84 and the front end of the sliding flat plate 4 completely gives way out of the opening 2, at the moment, the sliding flat plate 4 stops sliding, and the lifting flat plate 5 is controlled to lift.

With the above structure, the sliding plate 4 slides obliquely downward first, and in order to ensure that the gap between the sliding plate 4 and the inner wall of the opening 2 is as small as possible, a space for the sliding plate 4 to move obliquely relative to the inner wall of the opening 2 needs to be reserved, so that the inner wall of the opening 2 near the rear side is an inclined surface 20, and the inclined surface 20 matches with the inclination angle of the two-step inclined rail. The rear side inner wall of opening 2 adopts the inclined plane, has just left the dull and stereotyped board that has certain thickness that slides along the space of slant removal, has avoided appearing interfering to make and to slide and can more inseparable encapsulation cooperation between dull and stereotyped 4 and opening 2, and then guaranteed pleasing to the eye effect.

Referring to the drawings, the positioning roller 7 is a ball bearing, the ball bearing is rotatably mounted on a positioning pin 71, and the positioning pin 71 is mounted on the roller frame 9. In the concrete installation, location running roller 7 stretches out the terminal edge of dull and stereotyped 4 that slides, and roller carrier 9 is located the dull and stereotyped 2 end edges that slide under, and location running roller 7 adopts the ball bearing that rotates the better effect, and gliding is more smooth and easy.

For the specific structure of the lifting driving mechanism, a conventional vertical lifting and vertical lowering type driving mode can be adopted, and in order to ensure the lifting stability, the preferred lifting driving mechanism comprises a cross telescopic net rack which is arranged at the bottom of the lifting flat plate 5 and driven by a second power telescopic rod 10. The lifting driving mechanism adopts a cross telescopic net rack type structure, adopts two sets of cross net racks, and utilizes the second power telescopic rod 10 to drive the cross angle of the connecting rods 13 which are arranged in a cross way to realize integral lifting control. The structure of the cross telescopic net rack is the prior art, which is not the core of the scheme, and is briefly introduced below by combining with the attached drawings, the cross telescopic net rack comprises two sets of cross net racks on two sides and two sets of support rails 14 arranged at the bottom and the top, each set of support rail 14 comprises two U-shaped steels oppositely arranged, the cross net rack comprises two connecting rods 13 hinged at the middle parts, one ends of the connecting rods 13 are hinged at one ends of the bottom or top support rails 14, the other ends of the connecting rods 13 are slidably arranged on the top or bottom support rails 14 through rollers, the sliding ends of the connecting rods 13 are pulled or pushed to slide back and forth by using the second power telescopic rods 10, so that the cross angle of the two connecting rods 13 is controlled, the lifting of the top support rails 14 is realized, and the top support rails 14 are arranged on the.

For the specific structure of the power telescopic rod, the first power telescopic rod 6 and the second power telescopic rod 10 are electric push rods or oil cylinders. Wherein, because electric putter only need external power supply can, consequently, preferred adoption electric putter's structure, electric putter is driven by servo electrode, in concrete manufacturing, can control the displacement position of slip dull and stereotyped 4 or lift dull and stereotyped 5 through the just reversal of accurate control servo electrode and the number of turns of rotation, perhaps carries out closed-loop control through setting up electronic spacing to servo electrode, and then controls the displacement position of two dull and stereotyped. The partial electrode control circuit is the prior art, and those skilled in the art can perform reasonable setting according to specific products and moving distances, which is not the core of the present application and is not described herein again.

When the platform is used as a tea table, the support frame body is a box body frame structure formed by a plurality of side box plates in an involutory mode, and the bottom of the box body frame structure is a base plate; the side box plate is provided with a box door 12 or a drawer. The sliding driving mechanism and the sliding flat plate 4 only occupy the upper space of the box body, the lifting driving mechanism and the lifting flat plate 5 occupy the space at one end of the box body, and the rest box body space can be used as the storage space of the closed tea table.

To sum up, the present invention is not limited to the above-mentioned specific embodiments. The technical personnel in this field can do a plurality of changes or modifications without departing from the technical proposal of the utility model, and the changes or modifications all fall into the protection scope of the utility model.

Claims (10)

1. The utility model provides a slide plate type multifunctional platform, includes platform body (1) and the support body that is used for supporting platform body (1), sets up opening (2) that link up platform body (1) top surface and bottom surface on platform body (1), characterized by the alternative is packaged with flat board (4) or lift flat board (5) of sliding on opening (2) of platform body (1), installs the slip actuating mechanism that can drive flat board (4) side direction of sliding on the support body, installs the lift actuating mechanism that can drive lift flat board (5) go up and down on the support body.

2. The slide plate type multifunctional platform as claimed in claim 1, wherein the slide driving mechanism comprises a first power telescopic rod (6), the front end of the first power telescopic rod (6) is hinged on the bottom surface of the slide plate (4), and the rear end of the first power telescopic rod (6) is hinged on the bottom surface of the platform body (1) or the support frame body.

3. The slide plate type multifunctional platform as claimed in claim 1 or 2, wherein the bottom surface of the slide plate (4) is respectively provided with positioning rollers (7) at positions close to two end edges, and both side portions of the support frame body are provided with rail grooves (8) engaged with the positioning rollers (7).

4. The slide plate type multifunctional platform as claimed in claim 3, wherein the two positioning rollers (7) are installed at the front and the rear of the two edge positions of the slide plate (4), the front one of the two positioning rollers (7) is the front roller, the rear one is the rear roller, the positioning rollers (7) are connected to the bottom surface of the slide plate (4) through roller frames (9), the roller frame length of the front roller is less than that of the rear roller; the track groove (8) is a stepped track groove matched with the two positioning rollers (7).

5. The slide type multifunctional platform according to claim 4, wherein the stepped track groove comprises a first-order inclined rail (81), a first-order transverse rail (82), a second-order inclined rail (83), and a second-order transverse rail (84); the first-order inclined rail (81) and the second-order inclined rail (83) are obliquely arranged, the rear end of the first-order inclined rail (81) is connected with the front end of the first-order transverse rail (82), the rear end of the first-order transverse rail (82) is connected with the front end of the second-order inclined rail (83), and the rear end of the second-order inclined rail (83) is connected with the front end of the second-order transverse rail (84).

6. A multi-purpose platform of the slide-board type as claimed in claim 5, wherein the inner wall of the opening (2) near the rear side is an inclined surface (20), and the inclined surface (20) matches with the inclination angle of the two-step inclined rails.

7. A multi-function platform of the sliding plate type as claimed in claim 3, wherein the positioning rollers (7) are ball bearings, the ball bearings are rotatably mounted on the positioning pins (71), and the positioning pins (71) are mounted on the roller frame (9).

8. A multi-purpose platform of the slide-board type as claimed in claim 1, wherein the lifting driving mechanism comprises a cross-telescopic net frame mounted at the bottom of the lifting plate (5) and driven by a second power telescopic rod (10).

9. The slide plate type multifunctional platform as claimed in claim 2 or 8, wherein the power expansion rod is an electric push rod or an oil cylinder.

10. The slide plate type multifunctional platform as claimed in claim 1, wherein the support frame body is a box body frame structure formed by a plurality of side box plates in an involution manner, and the bottom of the box body frame structure is a base plate; the side box plate is provided with a box door (12) or a drawer.

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