CN220555345U

CN220555345U - Zirconia corundum brick conveyer

Info

Publication number: CN220555345U
Application number: CN202322323684.6U
Authority: CN
Inventors: 谢天瑞; 周雯雯
Original assignee: Henan Qianwei Electrofusion Technology Co ltd
Current assignee: Henan Qianwei Electrofusion Technology Co ltd
Priority date: 2023-08-29
Filing date: 2023-08-29
Publication date: 2024-03-05
Anticipated expiration: 2033-08-29

Abstract

The utility model relates to a zirconia corundum brick conveying device, which effectively solves the problems of clamping overtightening damage or overtightening shaking; the technical scheme is that the multifunctional lifting device comprises a bottom plate, wherein universal wheels are arranged on the lower side of the bottom plate, a vertical plate is arranged on the upper end face of the bottom plate, two groups of flat rods which are arranged front and back are arranged between the two vertical plates, a plurality of flat plates slide on the two groups of flat rods, and two ends of two adjacent flat plates are connected through a pull rope; the left and right sides of the two groups of flat bars are respectively fixed with a supporting plate, the left supporting plate is provided with a round bar which moves left and right and can rotate, the round bar can be fixed in a rightward movement manner, the upper end surface of the bottom plate is fixed with a rectangular frame, and a plurality of rotating shafts which are uniformly distributed left and right are arranged in the rectangular frame; according to the utility model, the zirconia-corundum brick can be completely clamped by rightward movement of the round rod and rotation of the round rod, so that the zirconia-corundum brick is prevented from being damaged due to shaking in the transportation process, and the problem of damage to the zirconia-corundum brick caused by excessive tightening can be prevented by manually applying force.

Description

Zirconia corundum brick conveyer

Technical Field

The utility model relates to the field of zirconia-corundum brick transportation, in particular to a zirconia-corundum brick transportation device.

Background

When the existing zirconia corundum brick transportation mode is used, such as the scheme of an authorized bulletin number CN208264316U, an operator places the zirconia corundum brick on the object placing plate 13, drives the bidirectional threaded rod 9 to rotate by starting the servo motor 8, and enables the two groups of moving blocks 10 to be close to or far away from each other under the limiting action of the two groups of limiting rods 12, so that the adjusting rod 11 drives one group of moving plates 5 to move left and right, and enables the other groups of moving plates 5 to move left and right under the elastic action of the first spring 6, so that the aim of simultaneously separating, clamping and fixing a plurality of groups of zirconia corundum bricks with different types is finally achieved, and collision between the zirconia corundum bricks can be effectively prevented;

although this scheme can be clamped stationary, there are still problems:

1. when the motor drives the bidirectional threaded rod to rotate so that the zirconia-corundum fused brick is clamped, the motor needs to be controlled to start and stop, if the zirconia-corundum fused brick is not clamped, the zirconia-corundum fused brick is prevented from shaking during transportation, the zirconia-corundum fused brick is damaged, if the zirconia-corundum fused brick is clamped and stopped after being clamped too tightly, the zirconia-corundum fused brick is extruded and damaged, and the clamping force is difficult to ensure;

2. the zirconia fused cast bricks fall on the object placing plate to move, friction is generated between the object placing plate and the zirconia fused cast bricks, namely abrasion is caused on the zirconia fused cast bricks, and the power of a motor is increased under the action of friction.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the utility model provides a zirconia corundum brick conveying device, which effectively solves the problems of clamping overtightening damage or loosening and shaking.

The technical scheme is that the zirconia corundum brick conveying device comprises a bottom plate, universal wheels are arranged on the lower side of the bottom plate, a vertical plate is respectively arranged on the left side and the right side of the upper end face of the bottom plate, two groups of flat rods which are arranged front and back are arranged between the two vertical plates, the axis of each flat rod is placed left and right, a plurality of flat plates slide on the two groups of flat rods, the two ends of each flat plate slide on one group of flat rods respectively, and the two ends of two adjacent flat plates are connected through a pull rope;

the left and right sides of the two groups of flat rods are respectively fixed with a supporting plate, two ends of the supporting plate on the right side are connected with two ends of the adjacent flat plates through pull ropes, the supporting plate on the left side is provided with a round rod which moves left and right and can rotate, the round rod can be fixed in a rightward movement way, and the right end of the round rod is in threaded connection with the flat plate on the leftmost side;

the upper end face of the bottom plate is fixedly provided with a rectangular frame, a plurality of rotating shafts which are uniformly distributed left and right are arranged in the rectangular frame, the axes of the rotating shafts are arranged front and back, and the rotating shafts are positioned on the lower sides of the two flat plates.

Each group of the flat bars is two, and the two flat bars are arranged up and down.

The round hole is formed in the left end face of the support plate positioned on the left side, the round rod is arranged in the round hole, a limiting hole penetrating through the round hole is formed in the upper end face of the support plate, a pin shaft is assembled and disassembled in the limiting hole, the lower end face of the pin shaft inclines leftwards, a plurality of annular sinking grooves are formed in the round tube, the axes of the annular sinking grooves are uniformly distributed, and the pin shaft can be arranged in the annular sinking grooves after moving downwards;

the upper end of the tension spring is fixed on the pin shaft, and the lower end of the tension spring is fixed on the supporting plate.

The left end face of the leftmost flat plate is fixedly provided with a circular ring, and the inner end of the circular ring is provided with an internal thread; the right end of the round rod is provided with an external thread, and the round rod is arranged in the circular ring through the thread.

The left end of the round rod is hinged with a swinging rod which can swing left and right, the hinged position is positioned in the middle of the swinging rod, and a baffle is fixed on the lower side of the support plate positioned on the left side.

The left end face of the vertical plate on the left side is fixedly provided with a handle.

The outer edge of the rotating shaft is fixed with a rubber layer.

According to the utility model, the zirconia-corundum brick can be completely clamped by rightward movement of the round rod and rotation of the round rod, so that the zirconia-corundum brick is prevented from being damaged due to shaking in the transportation process, and the problem of damage to the zirconia-corundum brick caused by excessive tightening can be prevented by manually applying force.

Drawings

Fig. 1 is a front view of the present utility model.

Fig. 2 is a front cross-sectional view of the present utility model.

Fig. 3 is a top view of the rectangular frame and the rotating shaft removed according to the present utility model.

Fig. 4 is a top view of a rectangular frame and a rotary shaft according to the present utility model.

Fig. 5 is an enlarged perspective view of the round bar of the present utility model.

Detailed Description

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

The utility model is provided by figures 1 to 5, which comprises a bottom plate 1, wherein universal wheels 2 are arranged on the lower side of the bottom plate 1, a vertical plate 3 is respectively arranged on the left side and the right side of the upper end surface of the bottom plate 1, two groups of flat rods 4 which are arranged front and back are arranged between the two vertical plates 3, the axis of each flat rod 4 is left and right, a plurality of flat plates 5 are arranged on the two groups of flat rods 4 in a sliding way, two ends of each flat plate 5 are respectively slid on one group of flat rods 4, and two ends of two adjacent flat plates 5 are connected through a pull rope 6;

the left and right sides of the two groups of flat rods 4 are respectively fixed with a support plate 7, two ends of the support plate 7 on the right side are connected with two ends of the adjacent flat plates 5 through pull ropes 6, the support plate 7 on the left side is provided with a round rod 8 which moves left and right and can rotate, the round rod 8 can be fixed in a rightward movement manner, and the right end of the round rod 8 is in threaded connection with the flat plate 5 on the leftmost side;

the upper end face of the bottom plate 1 is fixedly provided with a rectangular frame 9, a plurality of rotating shafts 10 uniformly distributed left and right are arranged in the rectangular frame 9, the axes of the rotating shafts 10 are arranged front and back, and the rotating shafts 10 are positioned on the lower sides of the two flat plates 5.

Two flat bars 4 are arranged in each group, and the two flat bars 4 are arranged up and down.

The left end face of the support plate positioned at the left side is provided with a round hole, the round rod 8 is arranged in the round hole, the upper end face of the support plate is provided with a limiting hole penetrating through the round hole, a pin shaft 11 is disassembled and assembled in the limiting hole, the lower end face of the pin shaft 11 inclines leftwards, the round tube is provided with a plurality of annular sinking grooves 12, the axes of the annular sinking grooves 12 are uniformly distributed, and the pin shaft 11 can be arranged in the annular sinking grooves 12 after moving downwards;

the pin shaft 11 is sleeved with a tension spring, the upper end of the tension spring is fixed on the pin shaft 11, and the lower end of the tension spring is fixed on the supporting plate;

when the round bar 8 moves rightwards, the round bar 8 is not prevented from moving rightwards by the pin 11 under the action of the inclined surface at the lower end, and the round bar 8 is not prevented from rotating by the pin 11 due to the annular sinking groove 12.

A circular ring 13 is fixed on the left end face of the leftmost flat plate 5, and an internal thread is arranged at the inner end of the circular ring 13; the right end of the round rod 8 is provided with external threads, and the round rod 8 is arranged in the circular ring 13 through threads.

The left end of the round rod 8 is hinged with a swinging rod 14 which can swing left and right, the hinged position is positioned in the middle of the swinging rod 14, and a baffle 15 is fixed on the lower side of the support plate positioned on the left side;

when the swing rod 14 is positioned on the round rod 8 and swings laterally and rightwards, the lower end of the swing rod 14 is in contact with the left vertical plate 3 and is not fixed, and the round rod 8 is pushed rightwards under the action of the swing rod 14 and the left vertical plate 3; when the swing rod 14 is positioned on the round rod 8 and swings leftwards, the lower end of the swing rod 14 is in contact with the baffle 15, and the round rod 8 can move leftwards; when the swing rod 14 is pushed back and forth, the swing rod 14 can drive the round rod 8 to rotate.

A handle 16 is fixed on the left end face of the left vertical plate 3.

A rubber layer is fixed on the outer edge of the rotating shaft 10.

Before the utility model is used, the round rod 8 is positioned at the leftmost side of displacement, the swing rod 14 is vertically arranged, the pull rope 6 is in a straightened state, and the distance between two adjacent flat plates 5 is the largest;

when the zirconia-corundum brick is used, an operator places zirconia-corundum bricks on the rotating shaft 10, and each zirconia-corundum brick is placed between the supporting plate 7 and the flat plate 5 on the right side and between the two adjacent flat plates 5 respectively;

then swinging the swing rod 14 to enable the swing rod 14 positioned on the upper side of the round rod 8 to swing rightwards, pushing the round rod 8 to move rightwards by the swing rod 14, pushing the leftmost flat plate 5 of the round tube to move rightwards, and pushing the leftmost zirconia-corundum brick to move rightwards by the flat plate 5, wherein the lower side of the zirconia-corundum brick is arranged on the rotating wheel, so that the zirconia-corundum brick can be prevented from being hard rubbed under the rotating action of the rotating wheel, and the zirconia-corundum brick is prevented from being worn; meanwhile, the friction force of the zirconia-corundum brick can also increase the applied force required during pushing;

after the leftmost zirconia-corundum brick is pushed rightwards and is contacted with the flat plates 5 on the right side, the right zirconia-corundum brick is pushed rightwards by the flat plates 5 on the right side of the leftmost zirconia-corundum brick until all zirconia-corundum bricks cannot continue to move, then the pushing of the swinging rod 14 is stopped, and the round rod 8 is fixed after being moved rightwards under the action of the pin shaft 11 and the annular sinking groove 12;

in order to further clamp the zirconia-corundum, the swing rod 14 is pushed back and forth to enable the round rod 8 to rotate, the round rod 8 rotates to enable the round ring 13 to move rightwards through the right-end threads, the flat rod 4 is enabled to further clamp the zirconia-corundum brick, and the zirconia-corundum brick is prevented from shaking in the transportation process, so that the zirconia-corundum brick is damaged; the rubber layer is sleeved on the rotating shaft 10, so that the influence of external vibration can be longitudinally weakened;

when the zirconia-corundum brick is required to be taken out, the swing rod 14 is pushed forwards and backwards to enable the swing rod 14 to be vertical, the pin shaft 11 is pulled upwards, the swing rod 14 on the upper side of the round rod 8 is pushed to move leftwards, the lower end of the swing rod 14 is contacted with the baffle 15, the round rod 8 moves leftwards under the blocking of the baffle 15, the round rod 8 sequentially moves leftwards through the leftmost flat plate 5 and the pull ropes 6 until all the pull ropes 6 are straightened, and then the zirconia-corundum brick is taken out.

1. According to the utility model, the zirconia-corundum brick can be completely clamped through rightward movement of the round rod 8 and rotation of the round rod 8, so that the zirconia-corundum brick is prevented from being damaged due to shaking in the transportation process, and the rubber layer is fixed on the rotating shaft 10, so that the zirconia-corundum brick can be further prevented from being damaged in the transportation process.

2. According to the utility model, the zirconia corundum brick can be fixed and loosened by only pushing the swing rod 14 left and right and pushing the swing rod 14 back and forth, so that the operation is simple and convenient;

and under the action of the rotating shaft 10, the abrasion of the zirconia-corundum bricks can be prevented when the zirconia-corundum bricks are pushed left and right, and meanwhile, the force required to be applied to push the swinging rod 14 can be lightened when the rotating shaft 10 rotates.

Claims

1. The zirconia corundum brick conveying device is characterized by comprising a bottom plate (1), wherein universal wheels (2) are arranged on the lower side of the bottom plate (1), a vertical plate (3) is respectively arranged on the left side and the right side of the upper end face of the bottom plate (1), two groups of flat rods (4) which are arranged front and back are arranged between the two vertical plates (3), the axis of each flat rod (4) is left and right, a plurality of flat plates (5) slide on the two groups of flat rods (4), the two ends of each flat plate (5) slide on one group of flat rods (4) respectively, and the two ends of two adjacent flat plates (5) are connected through a pull rope (6);

the left and right sides of the two groups of flat rods (4) are respectively fixed with a supporting plate (7), two ends of the supporting plate (7) on the right side are connected with two ends of the adjacent flat plates (5) through pull ropes (6), the supporting plate (7) on the left side is provided with a round rod (8) which moves left and right and can rotate, the round rod (8) can be fixed in a rightward movement way, and the right end of the round rod (8) is in threaded connection with the flat plate (5) on the leftmost side;

the upper end face of the bottom plate (1) is fixedly provided with a rectangular frame (9), a plurality of rotating shafts (10) which are uniformly distributed left and right are arranged in the rectangular frame (9), the axes of the rotating shafts (10) are arranged front and back, and the rotating shafts (10) are positioned on the lower sides of the two flat plates (5).

2. A zirconia corundum brick transportation device as claimed in claim 1, characterized in that there are two flat bars (4) in each group, and that the two flat bars (4) are arranged one above the other.

3. The zirconia corundum brick conveying device according to claim 1, wherein a round hole is formed in the left end face of the support plate (7) positioned on the left side, a round rod (8) is arranged in the round hole, a limiting hole penetrating through the round hole is formed in the upper end face of the support plate (7), a pin shaft (11) is assembled and disassembled in the limiting hole, the lower end face of the pin shaft (11) inclines leftwards, a plurality of annular sinking grooves (12) are formed in the round tube, the axes of the annular sinking grooves (12) are uniformly distributed, and the pin shaft (11) moves downwards and can be arranged in the annular sinking grooves (12);

the pin shaft (11) is sleeved with a tension spring, the upper end of the tension spring is fixed on the pin shaft (11), and the lower end of the tension spring is fixed on the supporting plate (7).

4. The zirconia corundum brick transportation device as claimed in claim 1, wherein a circular ring (13) is fixed on the left end surface of the leftmost flat plate (5), and an internal thread is arranged at the inner end of the circular ring (13); the right end of the round rod (8) is provided with external threads, and the round rod (8) is arranged in the circular ring (13) through threads.

5. The zirconia corundum brick conveying device according to claim 1, wherein the left end of the round rod (8) is hinged with a swinging rod (14) capable of swinging left and right, the hinged position is located in the middle of the swinging rod (14), and a baffle plate (15) is fixed on the lower side of the support plate (7) located on the left side.

6. A zirconia corundum brick transportation device as claimed in claim 1, characterized in that a handle (16) is fixed on the left end surface of the left side riser (3).

7. The zirconia corundum brick transportation device as claimed in claim 1, wherein a rubber layer is fixed on the outer edge of the rotating shaft (10).