CN213705518U - A turnover case structure for floor workshop - Google Patents

Abstract

The utility model belongs to the field of turnover boxes, in particular to a turnover box structure for a floor production workshop, which comprises a bearing mechanism, wherein the bearing mechanism comprises a bearing plate and four supporting stand columns respectively fixed at four corners of the top surface of the bearing plate, first baffles are arranged above two short edges of the bearing plate, second baffles are arranged above two long edges of the bearing plate, and two ends of the first baffles and two ends of the second baffles are fixedly connected with the supporting stand columns; according to the number of the placed floors, the pressing plates corresponding to the positions of the floors move downwards under the action of gravity, the pressing plates in areas not corresponding to the floors do not move downwards, after the floors are placed, height differences are formed between the adjacent pressing plates and the bottom edges of the floors, the floors can be limited, the floors are effectively prevented from being toppled, personnel can directly place the floors in any number and at any positions, the pressing plates adjacent to the floors can limit the floors, and the personnel do not need to additionally hold the floors.

Description

A turnover case structure for floor workshop

Technical Field

The utility model relates to a turnover case field specifically is a turnover case structure for floor workshop.

Background

The turnover box is also called as a logistics box, is widely used in industries such as machinery, automobiles, household appliances, light industry, electronics and the like, can resist acid, alkali and oil, is nontoxic and tasteless, can be used for containing food and the like, is convenient to clean, convenient to turnover parts, tidy to stack and convenient to manage, has reasonable design and excellent quality, is suitable for links such as transportation, distribution, storage, circulation and processing in factory logistics, and also needs to be used for transporting floors when floors are produced.

The structure of current turnover case is comparatively fixed, and when loading the floor, because the height on floor is higher, when the quantity that the floor loaded was not full of box inside completely, the floor took place to empty easily, needs personnel to hand it, and loading efficiency is lower. Accordingly, one skilled in the art provides a turnover box structure for a floor production plant to solve the problems set forth in the background art described above.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a turnover case structure for floor workshop to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a turnover box structure for a floor production workshop comprises a bearing mechanism, wherein the bearing mechanism comprises a bearing plate and four supporting upright posts which are respectively fixed at four corners of the top surface of the bearing plate, first baffle plates are respectively arranged above two short sides of the bearing plate, second baffle plates are respectively arranged above two long sides of the bearing plate, two ends of each of the first baffle plates and the second baffle plates are fixedly connected with the supporting upright posts, a plurality of supporting mechanisms which are parallel to each other are arranged between the two second baffle plates, each supporting mechanism comprises a pressing plate and connecting rods which are symmetrically fixed at two ends of the pressing plate, the supporting mechanism further comprises two guide blocks, guide rods and connecting plates which are symmetrically arranged, the two guide blocks are symmetrically fixed on the outer side walls of the two second baffle plates, the guide rods are inserted in the guide blocks in a sliding manner, and the connecting plates are fixed at the bottom ends of the guide, the outer wall cover of guide bar is equipped with the second spring, the top of second spring with guide block fixed connection, the bottom of second spring with connecting plate fixed connection, the connecting rod is kept away from the fixed cover of one end fixedly connected with of clamp plate, the bottom surface of connecting plate with fixed cover fixed connection, two buffer gear are installed to the bottom surface symmetry of clamp plate, buffer gear's bottom with the loading board is connected.

As a further aspect of the present invention: buffer gear includes the sleeve pipe and slides and pegs graft the inserted bar at its inner wall, the inserted bar with the one end outer wall cover of sleeve pipe contact is equipped with and is fixed with the cushion collar, the cushion collar with sleeve pipe inner wall sliding contact, the sleeve pipe is kept away from the one end of inserted bar articulates there is first articulated seat, the inserted bar is kept away from sheathed tube one end articulates there is the articulated seat of second, first articulated seat is fixed the clamp plate bottom surface outside, the articulated seat of second is fixed the top surface of loading board is inboard.

As a further aspect of the present invention: the top surface fixedly connected with of loading board a plurality of with first articulated seat corresponds first spring.

As a further aspect of the present invention: the first spring is a rectangular spring.

As a further aspect of the present invention: the material of cushion collar is rubber, just the thickness of cushion collar is a millimeter.

As a further aspect of the present invention: the length of the guide rod is greater than the maximum effective length of the second spring.

As a further aspect of the present invention: the bottom surface four corners of loading board all rotates and is connected with the universal wheel.

Compared with the prior art, the beneficial effects of the utility model are that:

when the floor is placed on the pressure plate, the pressure plate corresponding to the floor is moved downwards under the action of gravity according to the number of the placed floors, the guide rod synchronously slides downwards along the guide block, the pressing plate is limited and guided, the pressing plate in the area which does not correspond to the floor does not move downwards, after the floor is placed, the press plate adjacent to the floor is positioned at a high position, the height difference is formed between the adjacent press plate and the bottom edge of the floor, the floor can be limited, the floor can be effectively prevented from toppling, meanwhile, the personnel can directly place the floor in any number and any position without adjusting, the adjacent pressure plates can limit the floor without additional hand holding by personnel, the loading efficiency is higher, when taking out the floor, the second spring upwards promotes the clamp plate through connecting plate, fixed cover and connecting rod and resets, and it is comparatively convenient to use.

Drawings

FIG. 1 is a schematic structural view of a container structure for a floor production plant;

FIG. 2 is a schematic structural view of a supporting mechanism in a turnover box structure for a floor production workshop;

FIG. 3 is an enlarged view of the point A in FIG. 2;

fig. 4 is a schematic structural diagram of a buffer mechanism in a turnover box structure for a floor production workshop.

In the figure: 1. a carrying mechanism; 11. a carrier plate; 12. supporting the upright post; 13. a first baffle plate; 14. a second baffle; 15. a universal wheel; 16. a first spring; 2. a support mechanism; 21. pressing a plate; 211. a connecting rod; 212. fixing a sleeve; 22. a guide block; 23. a guide bar; 24. a connecting plate; 25. a second spring; 3. a buffer mechanism; 31. a sleeve; 32. inserting a rod; 33. a buffer sleeve; 34. a first hinge mount; 35. a second hinged seat.

Detailed Description

Referring to fig. 1-4, in an embodiment of the present invention, a turnover box structure for a floor production workshop includes a bearing mechanism 1, the bearing mechanism 1 includes a bearing plate 11 and four supporting columns 12 fixed at four corners of a top surface of the bearing plate 11, a first baffle 13 is disposed above two short sides of the bearing plate 11, a second baffle 14 is disposed above two long sides of the bearing plate 11, two ends of the first baffle 13 and the second baffle 14 are fixedly connected to the supporting columns 12, a plurality of parallel supporting mechanisms 2 are installed between the two second baffles 14, the supporting mechanisms 2 include a pressing plate 21 and connecting rods 211 symmetrically fixed at two ends of the pressing plate, the supporting mechanisms 2 further include two symmetrically arranged guide blocks 22, guide rods 23 and connecting plates 24, the two guide blocks 22 are symmetrically fixed at outer sidewalls of the two second baffles 14, the guide rods 23 are slidably inserted into the guide blocks 22, connecting plate 24 is fixed in the bottom of guide bar 23, the outer wall cover of guide bar 23 is equipped with second spring 25, the top and the guide block 22 fixed connection of second spring 25, the bottom and the connecting plate 24 fixed connection of second spring 25, the fixed cover 212 of one end fixedly connected with that clamp plate 21 was kept away from to connecting rod 211, the bottom surface and the fixed cover 212 fixed connection of connecting plate 24, two buffer gear 3 are installed to the bottom surface symmetry of clamp plate 21, buffer gear 3's bottom and loading board 11 are connected.

In this embodiment: when the floor is used, the floor is vertically placed, the placing direction of the floor is parallel to the pressing plate 21, when the floor is placed on the pressing plate 21, the pressing plate 21 corresponding to the floor is moved downwards under the action of gravity according to the number of the placed floors, the guide rod 23 synchronously slides downwards along the guide block 22 to limit and guide the pressing plate 21, the pressing plate 21 in the area not corresponding to the floor is not moved downwards, after the floor is placed, the pressing plate 21 adjacent to the floor is at a high position, the height difference is formed between the adjacent pressing plate 21 and the bottom edge of the floor, the floor can be limited, the floor is effectively prevented from falling, meanwhile, no person is needed to adjust, the person directly places the floor in any number and at any position, the pressing plate 21 adjacent to the floor can limit the floor, no person needs to carry out extra hand holding, and the loading efficiency is high, when the floor is taken out, the second spring 25 lifts the pressing plate 21 upwards to reset through the connecting plate 24, the fixing sleeve 212 and the connecting rod 211, and the use is convenient.

In fig. 2 and 4: buffer gear 3 includes sleeve pipe 31 and the inserted bar 32 of pegging graft at its inner wall that slides, the one end outer wall cover that inserted bar 32 and sleeve pipe 31 contacted is equipped with and is fixed with buffer sleeve 33, buffer sleeve 33 and the sliding contact of sleeve pipe 31 inner wall, the one end that sleeve pipe 31 kept away from inserted bar 32 articulates has first articulated seat 34, the one end that inserted bar 32 kept away from sleeve pipe 31 articulates has second articulated seat 35, first articulated seat 34 is fixed in the bottom surface outside of clamp plate 21, second articulated seat 35 is fixed in the top surface inboard of loading board 11, when clamp plate 21 moves down, first articulated seat 34 moves down in step, sleeve pipe 31 and inserted bar 32 take place relative slip and rotate, when sleeve pipe 31 and inserted bar 32 slide relatively, buffer sleeve 33 can cushion its sliding speed, thereby reduce the falling speed of clamp plate 21, prevent that falling speed is too fast to lead to the floor damage.

In fig. 1: the first spring 16 that the top surface fixedly connected with a plurality of loading board 11 and first articulated seat 34 correspond, when clamp plate 21 moves down, first articulated seat 34 is synchronous to move down to first spring 16 top, first spring 16 can further play the buffering and obtain the effect, first spring 16 is the rectangle spring, the life of rectangle spring is higher, the bottom surface four corners of loading board 11 is all rotated and is connected with universal wheel 15, move the device through universal wheel 15.

In fig. 4: the material of cushion collar 33 is rubber, and the cushion collar 33 buffering effect of rubber material is better, and the thickness of cushion collar 33 is one millimeter, guarantees that it has effectual deformation volume.

In fig. 3: the length of the guide rod 23 is greater than the maximum effective length of the second spring 25, and when the second spring 25 is in the maximum stretching length, the guide rod 23 can still slide along the guide block 22 to limit and guide the pressure plate 21.

The utility model discloses a theory of operation is: when the floor is used, the floor is vertically placed, the placing direction of the floor is parallel to the pressing plate 21, when the floor is placed on the pressing plate 21, the pressing plate 21 corresponding to the floor is moved downwards under the action of gravity according to the number of the placed floors, the guide rod 23 synchronously slides downwards along the guide block 22 to limit and guide the pressing plate 21, the pressing plate 21 in the area not corresponding to the floor is not moved downwards, after the floor is placed, the pressing plate 21 adjacent to the floor is at a high position, the height difference is formed between the adjacent pressing plate 21 and the bottom edge of the floor, the floor can be limited, the floor is effectively prevented from falling, meanwhile, no person is needed to adjust, the person directly places the floor in any number and at any position, the pressing plate 21 adjacent to the floor can limit the floor, no person needs to carry out extra hand holding, and the loading efficiency is high, when the floor is taken out, the second spring 25 lifts the pressing plate 21 upwards to reset through the connecting plate 24, the fixing sleeve 212 and the connecting rod 211, and the use is convenient.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A turnover box structure for a floor production workshop comprises a bearing mechanism (1), wherein the bearing mechanism (1) comprises a bearing plate (11) and four supporting upright columns (12) which are respectively fixed at four corners of the top surface of the bearing plate, first baffle plates (13) are respectively arranged above two short sides of the bearing plate (11), second baffle plates (14) are respectively arranged above two long sides of the bearing plate (11), two ends of each of the first baffle plates (13) and the second baffle plates (14) are fixedly connected with the supporting upright columns (12), the turnover box structure is characterized in that a plurality of supporting mechanisms (2) which are parallel to each other are arranged between the two second baffle plates (14), each supporting mechanism (2) comprises a pressing plate (21) and connecting rods (211) which are symmetrically fixed at two ends of the supporting mechanism, each supporting mechanism (2) further comprises two guide blocks (22), guide rods (23) and connecting plates (24) which are symmetrically arranged, the two guide blocks (22) are symmetrically fixed on the outer side walls of the two second baffle plates (14), the guide rod (23) is inserted in the guide block (22) in a sliding way, the connecting plate (24) is fixed at the bottom end of the guide rod (23), a second spring (25) is sleeved on the outer wall of the guide rod (23), the top end of the second spring (25) is fixedly connected with the guide block (22), the bottom end of the second spring (25) is fixedly connected with the connecting plate (24), one end of the connecting rod (211) far away from the pressure plate (21) is fixedly connected with a fixed sleeve (212), the bottom surface of the connecting plate (24) is fixedly connected with the fixed sleeve (212), two buffer mechanisms (3) are symmetrically arranged on the bottom surface of the pressure plate (21), the bottom end of the buffer mechanism (3) is connected with the bearing plate (11).

2. The turnover box structure for the floor production workshop as claimed in claim 1, wherein the buffer mechanism (3) comprises a sleeve (31) and an insert rod (32) inserted into the inner wall of the sleeve in a sliding manner, a buffer sleeve (33) is fixedly arranged on the outer wall of one end, contacting with the sleeve (31), of the insert rod (32), the buffer sleeve (33) is in sliding contact with the inner wall of the sleeve (31), a first hinged seat (34) is hinged to one end, away from the insert rod (32), of the sleeve (31), a second hinged seat (35) is hinged to one end, away from the sleeve (31), of the insert rod (32), the first hinged seat (34) is fixedly arranged on the outer side of the bottom surface of the pressing plate (21), and the second hinged seat (35) is fixedly arranged on the inner side of the top surface of the bearing plate (11).

3. The turnaround structure for a floor production plant according to claim 2, characterized in that a plurality of first springs (16) corresponding to the first hinge seats (34) are fixedly connected to the top surface of the carrier plate (11).

4. A turnaround structure for a floor production plant according to claim 3, wherein the first springs (16) are rectangular springs.

5. The turnover box structure for floor production workshops according to claim 2, characterised in that the cushioning sleeve (33) is made of rubber, and the thickness of the cushioning sleeve (33) is one millimeter.

6. A turnaround structure for a floor production plant according to claim 1, wherein the guide bar (23) has a length which is greater than the maximum effective length of the second spring (25).

7. The turnover box structure for floor production workshops according to claim 1, characterized in that the bearing plates (11) are rotatably connected with universal wheels (15) at four corners of the bottom surface.

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