CN216554746U - Large-scale hydraulic cylinder's equipment experiment platform - Google Patents

Abstract

The utility model is suitable for the relevant technical field of large hydraulic oil cylinders, and provides an assembly experiment platform of a large hydraulic oil cylinder, which comprises: the device comprises a base, wherein a placing groove is reserved at the upper left end of the base, 2 guide rails are fixedly welded on the upper surface of the base, and a sliding trolley is arranged on the guide rails; the limiting rod penetrates through the middle part of the sliding trolley, and the output end of the first motor is connected with a transmission disc; the movable rack is arranged behind the guide rail, a second motor is arranged on the surface of the rear side of the movable rack, the output end of the second motor is connected with a driving wheel, an electric telescopic rod is arranged at the upper end of the movable rack, and an extension rack is arranged at the output end of the electric telescopic rod. This large-scale hydraulic cylinder's equipment experiment platform is convenient for carry out the promotion of each spare part to place in the position of difference, convenient operation, and each part of being convenient for advances line location, has improved staff's operating efficiency.

Description

Large-scale hydraulic cylinder's equipment experiment platform

Technical Field

The utility model relates to the technical field of large hydraulic oil cylinders, in particular to an assembly experiment platform of a large hydraulic oil cylinder.

Background

Hydraulic cylinder is the pneumatic cylinder, produces the messenger and need assemble the experiment, has accomplished operations such as test of its performance, needs professional auxiliary assembly usually when assembling to the staff carries out safe operation, if:

the utility model discloses a CN 214998596U's utility model discloses a large-scale hydraulic cylinder's equipment experiment platform is disclosed (announced), including the guide rail, the upper portion right side slidable mounting of guide rail has a plurality of slip dollies, the upper portion of slip dolly is seted up flutedly, be provided with adjustment mechanism in the recess, adjustment mechanism's upper portion is provided with the diaphragm, both sides all are provided with fixture around the upper portion of diaphragm, the support frame is installed in the upper portion left side of guide rail, the backup pad is installed to the inboard of support frame, the upper portion of backup pad is provided with the hydraulic cylinder body, adjustment mechanism includes motor, first threaded rod, sleeve, the motor is installed in the recess, first threaded rod is installed on the output shaft of motor. When the device is used, the lateral deviation and the sagging along with the extension of the piston rod can be avoided, so that the centers of the cylinder body and the piston rod can be kept consistent, the problems of piston rod scratch and sealing ring cutting damage can be avoided, a high-speed experiment can be carried out, and the experiment effect is good;

however, the existing general assembly experiment platform for the large hydraulic oil cylinder is inconvenient to lift each part when in use, is inconvenient to operate, is inconvenient to rapidly position each part, and is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model provides an assembly experiment platform of a large hydraulic oil cylinder, and aims to solve the problems that the conventional assembly experiment platform of the large hydraulic oil cylinder in the background art is inconvenient to lift each part, inconvenient to operate, inconvenient to quickly position each part and inconvenient to use.

The utility model is realized in this way, an assembly experiment platform of a large hydraulic oil cylinder comprises:

the device comprises a base, wherein a placing groove is reserved at the upper left end of the base, 2 guide rails are fixedly welded on the upper surface of the base, and a sliding trolley is arranged on the guide rails;

the limiting rod penetrates through the middle of the sliding trolley, a supporting plate is fixedly welded at the upper end of the limiting rod, a supporting roller is rotatably mounted on the supporting plate, an adjusting rod is fixed on the lower surface of the supporting roller, an adjusting cylinder is nested outside the adjusting rod, a first motor is arranged on the right side of the adjusting cylinder, and the output end of the first motor is connected with a transmission disc;

the movable rack is arranged behind the guide rail, a second motor is arranged on the surface of the rear side of the movable rack, the output end of the second motor is connected with a driving wheel, an electric telescopic rod is arranged at the upper end of the movable rack, and an extension rack is arranged at the output end of the electric telescopic rod.

The utility model also provides a protruding structure which is clamped and connected with the movable frame and arranged on the left side and the right side of the extending frame, and an electric hoist is arranged on the lower surface of the front end of the electric telescopic rod.

The utility model also provides that the supporting rollers are arranged on the supporting plate at equal intervals, and the vertical section of the supporting plate is of a V-shaped structure.

The utility model also provides that the adjusting cylinder is rotationally connected with the sliding trolley through a bearing, and the adjusting cylinder is in meshed connection with the transmission disc.

The utility model also provides that the adjusting rod is in threaded connection with the adjusting cylinder, and the adjusting rod and the limiting rod are arranged in parallel.

Compared with the prior art, the utility model has the beneficial effects that: the assembly experiment platform of the large hydraulic oil cylinder is convenient for lifting each part and placing the part at different positions, is convenient to operate, is convenient for rapidly positioning each part, and improves the operation efficiency of workers;

1. the electric hoist on the stretching frame is conveniently driven to move through the stretching of the electric telescopic rod, so that parts on the ground can be conveniently and directly carried out, the driving wheel is driven to rotate through the second motor, the moving frame is moved, the parts can be conveniently placed at different positions, and the operation is convenient;

2. the V-shaped supporting plate facilitates rapid positioning of parts, does not need to be clamped again, is convenient to operate, facilitates taking out of parts, has simple steps, and greatly improves the operating efficiency of workers;

3. the supporting rollers arranged in a rolling mode are distributed on the supporting plate at equal intervals, so that the damage to adjacent parts caused by collision due to misoperation when the sliding trolley drives the parts to move can be reduced, and the safety of the parts is guaranteed.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure provided by the present invention;

FIG. 2 is a schematic side view of a cross-sectional structure provided in accordance with the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention;

FIG. 4 is a schematic side sectional view of the connection between the guide rail and the base according to the present invention;

FIG. 5 is a schematic diagram of a side view of the connection between the movable frame and the extendable frame provided by the present invention.

In the figure: 1. a base; 2. a placement groove; 3. a guide rail; 4. a sliding trolley; 5. a driving wheel; 6. an extension frame; 7. a limiting rod; 8. a support plate; 9. a support roller; 10. adjusting a rod; 11. an adjusting cylinder; 12. a first motor; 13. a drive plate; 14. a movable frame; 15. a second motor; 16. an electric telescopic rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1-5, the present invention provides a technical solution: an assembly experiment platform of a large hydraulic cylinder comprises a base 1, a placing groove 2, guide rails 3, a sliding trolley 4, a driving wheel 5, an extending frame 6, a limiting rod 7, a supporting plate 8, a supporting roller 9, an adjusting rod 10, an adjusting cylinder 11, a first motor 12, a driving disc 13, a moving frame 14, a second motor 15 and an electric telescopic rod 16, wherein the placing groove 2 is reserved at the upper left end of the base 1, 2 guide rails 3 are fixedly welded on the upper surface of the base 1, and the sliding trolley 4 is arranged on the guide rails 3;

the limiting rod 7 penetrates through the middle of the sliding trolley 4, a supporting plate 8 is fixedly welded at the upper end of the limiting rod 7, a supporting roller 9 is rotatably mounted on the supporting plate 8, an adjusting rod 10 is fixed on the lower surface of the supporting roller 9, an adjusting cylinder 11 is nested outside the adjusting rod 10, a first motor 12 is arranged on the right side of the adjusting cylinder 11, and the output end of the first motor 12 is connected with a transmission disc 13; the moving frame 14 is arranged behind the guide rail 3, a second motor 15 is arranged on the rear side surface of the moving frame 14, the output end of the second motor 15 is connected with the driving wheel 5, the upper end of the moving frame 14 is provided with an electric telescopic rod 16, and the output end of the electric telescopic rod 16 is provided with an extending frame 6;

when the electric hoist is used, as shown in fig. 1 and fig. 2, the second motor 15 drives the driving wheel 5 to rotate, the movable frame 14 is driven to move left and right, the electric hoist is moved to a proper position, the extensible frame 6 is driven to move back and forth through the extension of the electric telescopic rod 16, the components on the ground are lifted and placed at a preset position, namely the placing groove 2 or the supporting plate 8, and the positions of the components can be quickly limited through the supporting plate 8 which is arranged in a V shape;

after the placement is finished, as shown in fig. 1 and 3, the first motor 12 drives the transmission disc 13 meshed and connected with the adjusting cylinder 11 to rotate, so that the adjusting cylinder 11 in threaded connection with the adjusting rod 10 can be driven to rotate, the limiting rod 7 arranged in parallel with the adjusting rod 10 is matched for limiting, the adjusting rod 10 can be lifted in the adjusting cylinder 11, and the height of the part on the supporting plate 8 can be adjusted;

as shown in figure 1, can carry out the part equipment experiment through the removal of sliding trolley 4, at the removal in-process, if because of staff's misoperation, lead to the part to have collided, through the backup roll 9 that rolls the setting on backup pad 8, can make the part remove about in backup pad 8 when colliding to it is impaired to have reduced the part collision, has guaranteed the security of operation, and this is exactly the whole process that large-scale hydraulic cylinder's equipment experiment platform used.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides an equipment experiment platform of large-scale hydraulic cylinder which characterized in that: the method comprises the following steps:

the device comprises a base (1), wherein a placing groove (2) is reserved at the upper left end of the base (1), 2 guide rails (3) are welded and fixed on the upper surface of the base (1), and a sliding trolley (4) is arranged on each guide rail (3);

the limiting rod (7) penetrates through the middle of the sliding trolley (4), a supporting plate (8) is fixedly welded at the upper end of the limiting rod (7), a supporting roller (9) is rotatably mounted on the supporting plate (8), an adjusting rod (10) is fixed on the lower surface of the supporting roller (9), an adjusting cylinder (11) is nested outside the adjusting rod (10), a first motor (12) is arranged on the right side of the adjusting cylinder (11), and the output end of the first motor (12) is connected with a transmission disc (13);

the movable rack (14) is installed at the rear of the guide rail (3), a second motor (15) is installed on the surface of the rear side of the movable rack (14), the output end of the second motor (15) is connected with a driving wheel (5), an electric telescopic rod (16) is installed at the upper end of the movable rack (14), and an extending rack (6) is installed at the output end of the electric telescopic rod (16).

2. The assembly experiment platform of a large hydraulic oil cylinder as claimed in claim 1, wherein: the left side and the right side of the extending frame (6) are provided with protruding structures which are connected with the moving frame (14) in a clamping mode, and the lower surface of the front end of the electric telescopic rod (16) is provided with an electric hoist.

3. The assembly experiment platform of a large hydraulic oil cylinder as claimed in claim 1, wherein: the supporting rollers (9) are arranged on the supporting plate (8) at equal intervals, and the vertical section of the supporting plate (8) is of a V-shaped structure.

4. The assembly experiment platform of a large hydraulic oil cylinder as claimed in claim 1, wherein: the adjusting cylinder (11) is rotatably connected with the sliding trolley (4) through a bearing, and the adjusting cylinder (11) is meshed with the transmission disc (13).

5. The assembly experiment platform of a large hydraulic oil cylinder as claimed in claim 1, wherein: the adjusting rod (10) is in threaded connection with the adjusting cylinder (11), and the adjusting rod (10) and the limiting rod (7) are arranged in parallel.

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