CN219684449U - Oil cylinder support positioning mechanism - Google Patents

Abstract

The utility model provides an oil cylinder support positioning mechanism, which relates to the technical field of positioning mechanisms and comprises a working plate, wherein a T-shaped groove is formed in the top of the working plate, T-shaped plates are arranged in the T-shaped groove in a sliding manner and close to two ends of the T-shaped groove, a first bidirectional screw rod is arranged in the T-shaped groove, two ends of the first bidirectional screw rod penetrate through the T-shaped plate and are in threaded connection with the T-shaped plate, two ends of the first bidirectional screw rod are in rotational connection with inner wall bearings at two ends of the T-shaped groove, and a motor is fixed on one side wall of the working plate. According to the utility model, the motor drives the first bidirectional screw rod to drive the T-shaped block to move, so that the effect of clamping bottom plates with different lengths can be achieved, at the moment, the clamping assembly clamps two sides of the bottom plate, the effect of fixing the bottom plate can be achieved, at the moment, the two vertical plates are placed on the bottom plate, at the moment, the positioning assembly is used for positioning the vertical plates, and therefore, the effect of preventing the vertical plates from shifting in the welding process between the vertical plates and the bottom plate can be achieved.

Description

Oil cylinder support positioning mechanism

Technical Field

The utility model relates to the technical field of positioning mechanisms, in particular to an oil cylinder support positioning mechanism.

Background

When the basic arm of the agricultural machinery performs amplitude-variable movement, the basic arm is generally driven by the extension and contraction of an oil cylinder, the oil cylinder is generally arranged on an oil cylinder support, and in order to ensure the dimensional machining precision of structural members, improve the machining quality of the structural members and ensure the performance of the whole machine, the accuracy of the position of a bracket needs to be ensured when the oil cylinder support is welded on a main body workpiece.

The existing oil cylinder support positioning device can only position corresponding sizes, and when supports with different sizes are required to be welded in a positioning mode, the positioning device needs to be replaced, so that the practicability is poor.

Disclosure of Invention

The utility model aims to solve the problems that in the prior art, an oil cylinder support positioning device can only generally position corresponding sizes, and when supports with different sizes are required to be positioned and welded, the positioning device needs to be replaced, and the practicability is poor.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides an hydro-cylinder support positioning mechanism, includes the working plate, T type groove has been seted up at the top of working plate, the inside in T type groove just is close to both ends and has all been slided the T template, the inside in T type groove is equipped with first bi-directional screw rod, the both ends of first bi-directional screw rod all run through the T template and with its threaded connection, the both ends of first bi-directional screw rod are rotated with the both ends inner wall bearing in T type groove and are connected, a side wall of working plate is fixed with the motor, the output of motor runs through working plate and the one end fixed connection of first bi-directional screw rod, square groove has all been seted up at the top of T template and is close to a lateral wall, the recess has all been seted up to a lateral wall in square groove; the clamping assembly is fixedly arranged in the groove; the positioning assembly is fixedly arranged at the top of the T-shaped plate; the support assembly is arranged in the square groove.

Preferably, four supporting legs are fixed at the bottom of the working plate, and the four supporting legs are respectively positioned at four corners of the working plate.

Preferably, the clamping assembly comprises a second bidirectional screw rod, the second bidirectional screw rod is located inside the groove and is rotatably connected with an inner wall bearing at one side of the groove, two ends of the second bidirectional screw rod are sleeved with first movable plates in threaded connection, one ends of the first movable plates are fixedly provided with clamping plates, the other ends of the second bidirectional screw rod penetrate through the inner wall of the groove and are rotatably connected with the bearing of the groove, and one ends of the second bidirectional screw rod are fixedly provided with first rotating blocks.

Preferably, the locating component comprises two fixed blocks, the two fixed blocks are respectively fixedly installed at the center of the top of the T-shaped plate, limiting blocks are respectively fixed at the top of the T-shaped plate and close to two side walls, locating plates are respectively fixed on the surface of the fixed blocks and close to the two side walls, the center of the fixed blocks is respectively penetrated and provided with a third bidirectional screw rod in a bearing rotating mode, two ends of the third bidirectional screw rod are respectively penetrated and connected with the limiting blocks in a rotating mode through bearings, two end surfaces of the third bidirectional screw rod are respectively sleeved with a second movable plate in a threaded mode, clamping plates are fixed at one ends of the second movable plates, and second rotating blocks are fixed at one ends of the third bidirectional screw rod.

Preferably, the support assembly comprises a bottom plate, two ends of the bottom plate are located inside the square groove, two vertical plates are symmetrically arranged at the top of the bottom plate, and a side wall of each vertical plate, close to the top, penetrates through and is fixed with a fixing cylinder.

Preferably, a chute is symmetrically arranged on one side wall of the vertical plate, and an inclined plate is embedded into the inner wall of the chute.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. according to the utility model, the motor drives the first bidirectional screw rod to drive the T-shaped block to move, so that the effect of clamping bottom plates with different lengths can be achieved, at the moment, the clamping assembly clamps two sides of the bottom plate, the effect of fixing the bottom plate can be achieved, at the moment, the two vertical plates are placed on the bottom plate, at the moment, the positioning assembly is used for positioning the vertical plates, and therefore, the effect of preventing the vertical plates from shifting in the welding process between the vertical plates and the bottom plate can be achieved.

2. According to the utility model, the chute is formed in one side wall of the vertical plate, so that the effect of conveniently positioning the inclined plate can be achieved, and the effect of conveniently welding the inclined plate can be achieved.

Drawings

Fig. 1 is a perspective view of an overall structure of a positioning mechanism for an oil cylinder support according to the present utility model;

FIG. 2 is a cross-sectional view showing the overall structure of a positioning mechanism for an oil cylinder support;

FIG. 3 is a block diagram of a support assembly of the cylinder support positioning mechanism according to the present utility model;

fig. 4 is a perspective view of a part of the structure of a positioning mechanism for an oil cylinder support according to the present utility model;

fig. 5 is a diagram showing a structure of a clamping and positioning assembly of a positioning mechanism for an oil cylinder support.

Legend description: 1. a work plate; 2. support legs; 3. a T-shaped groove; 4. t-shaped plates; 5. a first bi-directional screw; 6. a motor; 7. a square groove; 8. a groove; 9. a clamping assembly; 91. a second bidirectional screw; 92. a first rotating block; 93. a first moving plate; 94. a clamping plate; 10. a positioning assembly; 101. a fixed block; 102. a positioning plate; 103. a limiting block; 104. a third bi-directional screw; 105. a second moving plate; 106. a clamping plate; 107. a second rotating block; 11. a support assembly; 111. a bottom plate; 112. a riser; 113. a fixed cylinder; 114. a chute; 115. and a sloping plate.

Detailed Description

In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the disclosure that follow.

1, as shown in fig. 1-4, the utility model provides an oil cylinder support positioning mechanism, which comprises a working plate 1, wherein a T-shaped groove 3 is formed in the top of the working plate 1, a T-shaped plate 4 is arranged in the T-shaped groove 3 and is close to two ends of the T-shaped groove in a sliding manner, a first bidirectional screw 5 is arranged in the T-shaped groove 3, two ends of the first bidirectional screw 5 penetrate through the T-shaped plate 4 and are in threaded connection with the T-shaped plate, two ends of the first bidirectional screw 5 are in rotational connection with inner wall bearings at two ends of the T-shaped groove 3, a motor 6 is fixed on one side wall of the working plate 1, an output end of the motor 6 penetrates through the working plate 1 and is fixedly connected with one end of the first bidirectional screw 5, a square groove 7 is formed in the top of the T-shaped plate 4 and is close to one side wall of the T-shaped plate, and a groove 8 is formed in one side wall of the square groove 7; the clamping assembly 9 is fixedly arranged in the groove 8; the positioning assembly 10 is fixedly arranged at the top of the T-shaped plate 4; the support assembly 11, the support assembly 11 is provided in the square groove 7.

The whole embodiment 1 achieves the effects that a T-shaped groove 3 is formed in the top of a working plate 1, a T-shaped plate 4 is arranged in the T-shaped groove 3 and is close to two ends of the T-shaped groove in a sliding mode, a first bidirectional screw 5 is arranged in the T-shaped groove 3, two ends of the first bidirectional screw 5 penetrate through the T-shaped plate 4 and are in threaded connection with the T-shaped plate 4, two ends of the first bidirectional screw 5 are rotatably connected with inner wall bearings at two ends of the T-shaped groove 3, a motor 6 is fixed to one side wall of the working plate 1, an output end of the motor 6 penetrates through the working plate 1 and is fixedly connected with one end of the first bidirectional screw 5, the effect that the motor 6 drives the first bidirectional screw 5 to rotate and drives the T-shaped plate 4 to move can be achieved, a square groove 7 is formed in the top of the T-shaped plate 4 and is close to one side wall of the T-shaped plate, a groove 8 is formed in one side wall of the square groove 7, and the effect of installing a clamping component 9 can be achieved; the clamping assembly 9 is fixedly arranged in the groove 8 through the clamping assembly 9, so that the effect of clamping the bottom plate 111 can be achieved; the positioning assembly 10 is fixedly arranged at the top of the T-shaped plate 4 through the positioning assembly 10, so that the effect of clamping and positioning the vertical plate 112 can be achieved; by means of the seat assembly 11, the seat assembly 11 is arranged in the square groove 7.

In the embodiment 2, as shown in fig. 1-4, four supporting legs 2 are fixed at the bottom of the working plate 1, and the four supporting legs 2 are respectively positioned at four corners of the working plate 1; the clamping assembly 9 comprises a second bidirectional screw rod 91, the second bidirectional screw rod 91 is positioned in the groove 8 and is in bearing rotation connection with the inner wall of one side of the groove, both ends of the second bidirectional screw rod 91 are sleeved with a first moving plate 93 in threaded connection, one end of the first moving plate 93 is fixedly provided with a clamping plate 94, the other end of the second bidirectional screw rod 91 penetrates through the inner wall of the groove 8 and is in bearing rotation connection with the inner wall of the groove, and one end of the second bidirectional screw rod 91 is fixedly provided with a first rotating block 92; the positioning assembly 10 comprises two fixing blocks 101, wherein the two fixing blocks 101 are respectively and fixedly arranged at the center of the top of the T-shaped plate 4, limiting blocks 103 are respectively fixed at the top of the T-shaped plate 4 and close to two side walls, positioning plates 102 are respectively fixed at the surfaces of the fixing blocks 101 and close to two side walls, third bidirectional screws 104 are respectively penetrated through the centers of the fixing blocks 101 and are in bearing rotation, two ends of each third bidirectional screw 104 are respectively penetrated through the limiting blocks 103 and are in bearing rotation connection with the limiting blocks, second movable plates 105 are respectively sleeved and in threaded connection with the surfaces of two ends of each third bidirectional screw 104, clamping plates 106 are fixed at one end of each second movable plate 105, and second rotating blocks 107 are fixed at one end of each third bidirectional screw 104; the support assembly 11 comprises a bottom plate 111, two ends of the bottom plate 111 are both positioned in the square groove 7, two vertical plates 112 are symmetrically arranged at the top of the bottom plate 111, and a fixed cylinder 113 penetrates through and is fixed near one side wall of the vertical plate 112; chute 114 is symmetrically arranged on one side wall of vertical plate 112, and inclined plate 115 is embedded in the inner wall of chute 114.

The whole embodiment 2 achieves the effect that the four supporting legs 2 are fixed at the bottom of the working plate 1, and the four supporting legs 2 are respectively positioned at four corners of the working plate 1, so that the effect of supporting the working plate 1 can be achieved; the first rotating block 92 in the clamping assembly 9 is rotated to drive the second bidirectional screw 91 to rotate and drive the first moving plate 93 to move, and the first moving plate 93 moves to drive the clamping plate 94 to move; the second rotating block 107 in the positioning assembly 10 is rotated to drive the third bidirectional screw 104 to rotate, the third bidirectional screw 104 rotates to drive the second moving plate 105 to move, and the second moving plate 105 moves to drive the clamping plate 106 to move; through support subassembly 11 including bottom plate 111, the both ends of bottom plate 111 all are located square groove 7 inside, and the top symmetry of bottom plate 111 is equipped with two risers 112, and a side wall of riser 112 just is close to the top and all runs through and be fixed with fixed cylinder 113, can play and make bottom plate 111 be located square groove 7 inside fixedly, make things convenient for workman welded effect to have offered chute 114 through a side wall symmetry of riser 112 simultaneously, and chute 114's inner wall embedding has swash plate 115, can play and carry out spacing effect to swash plate 115.

Working principle: the inclined plate 115 is placed in the inclined groove 114 formed in one side wall of the vertical plate 112, the inclined plate 115 can be positioned and subjected to limit welding, the bottom plate 111 is placed in the square groove 7, the first rotating block 92 of the part in the rotary clamping assembly 9 drives the second bidirectional screw 91 to rotate and drive the first moving plate 93 to move, the first moving plate 93 moves to drive the clamping plate 94 to move and clamp the bottom plate 111, the vertical plate 112 is placed on the top of the bottom plate 111 and is positioned on one side of the positioning plate 102, the second rotating block 107 of the part in the rotary positioning assembly 10 drives the third bidirectional screw 104 to rotate, the third bidirectional screw 104 drives the second moving plate 105 to move, and the second moving plate 105 moves to drive the clamping plate 106 to move and clamp the positioning vertical plate 112, so that the welding effect of workers can be facilitated.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims (6)

1. The utility model provides an hydro-cylinder support positioning mechanism, includes work plate (1), its characterized in that: t-shaped grooves (3) are formed in the tops of the working plates (1), T-shaped plates (4) are slidably arranged in the T-shaped grooves (3) and close to two ends of the T-shaped grooves, first bidirectional screws (5) are arranged in the T-shaped grooves (3), two ends of each first bidirectional screw (5) penetrate through the T-shaped plates (4) and are in threaded connection with the T-shaped plates, two ends of each first bidirectional screw (5) are rotatably connected with inner wall bearings at two ends of the T-shaped grooves (3), a motor (6) is fixed to one side wall of each working plate (1), an output end of each motor (6) penetrates through the working plates (1) and one end of each first bidirectional screw (5) and is fixedly connected with one end of each first bidirectional screw, square grooves (7) are formed in the tops of the T-shaped plates (4) and close to one side wall of each first bidirectional screw, and grooves (7) are formed in one side wall of each square groove (8);

the clamping assembly (9), the said clamping assembly (9) is fixedly installed in the inside of recess (8);

the positioning assembly (10) is fixedly arranged at the top of the T-shaped plate (4);

and the support assembly (11) is arranged in the square groove (7).

2. The cylinder mount positioning mechanism according to claim 1, wherein: four supporting legs (2) are fixed at the bottom of the working plate (1), and the four supporting legs (2) are respectively positioned at four corners of the working plate (1).

3. The cylinder mount positioning mechanism according to claim 1, wherein: the clamping assembly (9) comprises a second bidirectional screw (91), the second bidirectional screw (91) is located inside the groove (8) and is rotationally connected with an inner wall bearing on one side of the groove, two ends of the second bidirectional screw (91) are sleeved with first movable plates (93) in threaded connection, one ends of the first movable plates (93) are fixedly provided with clamping plates (94), the other ends of the second bidirectional screw (91) penetrate through the inner wall of the groove (8) and are rotationally connected with the bearing of the groove, and one ends of the second bidirectional screw (91) are fixedly provided with first rotating blocks (92).

4. The cylinder mount positioning mechanism according to claim 1, wherein: the locating component (10) comprises two fixing blocks (101), the two fixing blocks (101) are respectively fixedly installed at the center of the top of the T-shaped plate (4), limiting blocks (103) are respectively fixed at the top of the T-shaped plate (4) and close to two side walls, locating plates (102) are respectively fixed on the surfaces of the fixing blocks (101) and close to the two side walls, third bidirectional screws (104) are respectively penetrated through the center of the fixing blocks (101) and rotated by bearings, the two ends of each third bidirectional screw (104) are respectively penetrated through the limiting blocks (103) and are rotationally connected with the bearings of the limiting blocks, second movable plates (105) are respectively sleeved on the surfaces of the two ends of each third bidirectional screw (104) and are in threaded connection with one end of each second movable plate (105), and one end of each third bidirectional screw (104) is fixedly provided with a second rotating block (107).

5. The cylinder mount positioning mechanism according to claim 1, wherein: the support assembly (11) comprises a bottom plate (111), two ends of the bottom plate (111) are located inside the square groove (7), two vertical plates (112) are symmetrically arranged at the top of the bottom plate (111), and a fixing barrel (113) penetrates through and is fixed to one side wall of each vertical plate (112) close to the top.

6. The cylinder mount positioning mechanism as set forth in claim 5, wherein: chute (114) are symmetrically arranged on one side wall of the vertical plate (112), and inclined plates (115) are embedded into the inner wall of the chute (114).