CN218891826U - Operation platform for installation of power generation equipment - Google Patents

Abstract

The utility model provides an operation platform for installing power generation equipment, which comprises a bedplate, a fixed seat, a pressing plate, a pushing block and a pushing piece. According to the operating platform for installing the power generation equipment, the power generation equipment is placed on the operating surface on the bedplate, the fixing flange on the power generation equipment is attached to the operating surface, the fixing seat is moved to the power generation equipment, and the pressing plate is located above the flange of the power generation equipment. By starting the pushing piece, the driving part of the pushing piece pushes the pushing block to move towards the direction close to the pressing plate, the pressing plate moves downwards through sliding fit between the sliding surface and the pushing surface and finally is pressed on the power generation equipment, and the power generation equipment is fixedly installed on the platen. The assembly failure and the danger caused by displacement or warping during the installation of the power generation equipment can be avoided. The assembly efficiency and the safety in the installation process are improved.

Description

Operation platform for installation of power generation equipment

Technical Field

The utility model belongs to the technical field of power generation equipment, and particularly relates to an operation platform for installing power generation equipment.

Background

In the production process of the power generation equipment, a plurality of parts, especially a plurality of large-scale power generation equipment, are required to be installed together, and in the installation process, the power generation equipment is required to be placed by means of a flat installation platform, and all parts in the power generation equipment are installed inside the power generation equipment. The current operation platform can only be used for placing power generation equipment, and the power generation equipment is fixed by self gravity and friction between the power generation equipment and the installation platform. However, during the installation process, the assembly components are required to be repeatedly hoisted to adjust the assembly position. When the assembly component is moved, the power generation equipment is easily driven to displace together or incline and overturn from the operation platform. Assembly accidents and safety accidents are easy to occur.

Disclosure of Invention

The embodiment of the utility model provides an operation platform for installing power generation equipment, which aims to solve the problem that the safety is affected by easy displacement of the power generation equipment when the power generation equipment is installed on the operation platform of the power generation equipment in the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: provided is an operation platform for installation of power generation equipment, comprising:

a bedplate, the top surface of which is an operation surface;

the fixed seat is detachably arranged on the bedplate and is positioned on the operation surface;

the pressing plate is arranged on the fixing seat in a sliding manner along the vertical direction, one end of the pressing plate is provided with a pressing part, the pressing part extends out of the fixing seat to be arranged, and the top surface of the pressing plate is provided with a matched sliding surface which inclines from top to bottom to a direction far away from the pressing part;

the pushing block is arranged on the fixed seat in a sliding manner along the horizontal direction, and the bottom surface of the pushing block is provided with a pushing surface which is parallel to the sliding surface and in sliding fit with the sliding surface;

the pushing piece is fixedly arranged on the fixing seat, and the driving end of the pushing piece is fixedly connected with the pushing block and used for driving the pushing block to slide in the fixing seat.

In one possible implementation manner, the bedplate is provided with a plurality of T-shaped grooves arranged along the horizontal direction, the T-shaped grooves are arranged in parallel at intervals, the bedplate is also provided with a limiting block, the limiting block is arranged inside the T-shaped grooves in a sliding manner, the limiting block is fixedly provided with a connecting rod, the connecting rod penetrates through the fixing seat and is provided with a pressing piece in a threaded connection manner, and the pressing piece is used for pressing the fixing seat on the operation surface.

In one possible implementation manner, a fixing plate for being mounted on the operation surface is fixedly arranged at the bottom of the fixing seat, and a long round through hole for mounting the connecting rod is arranged on the fixing plate.

In one possible implementation, two guide plates arranged in the vertical direction are fixedly mounted on the fixing base, and the pressing plate is arranged between the two guide plates in a sliding manner.

In one possible implementation manner, the two sides, close to the guide plate, of the pressing plate are fixedly provided with sliding blocks, and the guide plate is provided with sliding grooves in sliding fit with the sliding blocks.

In one possible implementation, the slide blocks are arranged protruding from the top surface of the press plate, and the pushing block is arranged between two slide blocks.

In one possible implementation, the pressing portion on the pressing plate is in sliding fit with one side surface of the guide plate.

In one possible implementation manner, an elastic piece for pushing the pressing plate to move upwards is further arranged between the fixing seat and the pressing plate.

In one possible implementation, the cross section of the limiting block along the horizontal direction is of a circular structure.

Compared with the prior art, the scheme of the embodiment of the application has the advantages that the bedplate is fixedly arranged on the ground and the operating surface of the top surface of the bedplate is kept in a horizontal state. The fixed seat is arranged on the bedplate, the fixed seat can be fixed on the bedplate, the pressing plate is arranged on the fixed seat in a sliding manner along the vertical direction, and the flange on the power generation equipment can be pressed on the operation surface through the pressing plate, so that the power generation equipment is fixed. When the power generation device is used, the power generation device is placed on the operation surface on the bedplate, the fixing flange on the power generation device is attached to the operation surface, the fixing seat is moved to the power generation device, and the pressing plate is located above the flange of the power generation device. By starting the pushing piece, the driving part of the pushing piece pushes the pushing block to move towards the direction close to the pressing plate, the pressing plate moves downwards through sliding fit between the sliding surface and the pushing surface and finally is pressed on the power generation equipment, and the power generation equipment is fixedly installed on the platen. The assembly failure and the danger caused by displacement or warping during the installation of the power generation equipment can be avoided. The assembly efficiency and the safety in the installation process are improved.

Drawings

Fig. 1 is a schematic structural diagram of an operation platform for installing power generation equipment according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a fixing seat according to an embodiment of the present utility model;

FIG. 3 is a schematic view of an installation structure of a platen according to an embodiment of the present utility model;

fig. 4 is a schematic view of an installation structure of a fixing plate according to an embodiment of the present utility model.

Reference numerals illustrate:

1. a platen; 11. an operation surface; 12. a T-shaped groove; 2. a fixing seat; 21. a limiting block; 22. a connecting rod; 23. a pressing member; 24. a fixing plate; 25. a guide plate; 3. a pressing plate; 31. a slide block; 4. a pushing block; 5. a pushing member; 6. an elastic member.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 and 2 together, an operation platform for installing power generation equipment provided by the present utility model will now be described. The operating platform for installing the power generation equipment comprises a bedplate 1, a fixed seat 2, a pressing plate 3, a pushing block 4 and a pushing piece 5. The top surface of the bedplate 1 is an operation surface 11; the fixed seat 2 is detachably arranged on the bedplate 1 and is positioned on the operation surface 11; the pressing plate 3 is arranged on the fixed seat 2 in a sliding manner along the vertical direction, one end of the pressing plate 3 is provided with a pressing part, the pressing part extends out of the fixed seat 2, and the top surface of the pressing plate 3 is provided with a matched sliding surface which inclines from top to bottom to a direction far away from the pressing part; the pushing block 4 is arranged on the fixed seat 2 in a sliding manner along the horizontal direction, and the bottom surface of the pushing block 4 is provided with a pushing surface which is parallel to the matched sliding surface and in sliding fit with the matched sliding surface; the pushing piece 5 is fixedly arranged on the fixing base 2, and the driving end of the pushing piece 5 is fixedly connected with the pushing block 4 and used for driving the pushing block 4 to slide in the fixing base 2.

Compared with the prior art, the operating platform for installing the power generation equipment is provided with the bedplate 1, the bedplate 1 is fixedly installed on the ground, and the operating surface 11 on the top surface of the bedplate 1 is kept in a horizontal state. A fixed seat 2 is arranged on the bedplate 1, the fixed seat 2 can be fixed on the bedplate 1, a pressing plate 3 is arranged on the fixed seat 2 in a sliding manner along the vertical direction, and a flange on the power generation equipment can be pressed on an operation surface 11 through the pressing plate 3, so that the power generation equipment is fixed. When the power generation device is used, the power generation device is placed on the operation surface 11 on the bedplate 1, the fixing flange on the power generation device is attached to the operation surface 11, the fixing seat 2 is moved to the power generation device, and the pressing plate 3 is located above the flange of the power generation device. By starting the pushing piece 5, the driving part of the pushing piece 5 pushes the pushing block 4 to move towards the direction close to the pressing plate 3, the pressing plate 3 moves downwards through sliding fit between the sliding surface and the pushing surface and finally is pressed on the power generation equipment, and the power generation equipment is fixedly installed on the platen 1. The assembly failure and the danger caused by displacement or warping during the installation of the power generation equipment can be avoided. The assembly efficiency and the safety in the installation process are improved.

Alternatively, in the present embodiment, the pushing member 5 employs a hydraulic cylinder or an air cylinder.

In some embodiments, the platen 1 may have a structure as shown in fig. 1 and 4. Referring to fig. 1 and 4, a plurality of T-shaped grooves 12 are formed in the platen 1 and arranged in parallel at intervals, a limiting block 21 is further arranged on the platen 1, the limiting block 21 is slidably arranged inside the T-shaped grooves 12, a connecting rod 22 is fixedly mounted on the limiting block 21, the connecting rod 22 penetrates through the fixing seat 2, a compressing piece 23 is connected to the connecting rod 22 in a threaded mode, and the compressing piece 23 is used for compressing the fixing seat 2 on the operation surface 11. A T-shaped groove 12 is provided through the platen 1 in the length direction of the platen 1, and the T-shaped groove 12 is located at the top surface of the platen 1. The limiting block 21 can slide into the T-shaped groove through one side of the platen 1, one end of the connecting rod 22 is fixed on the limiting block 21, and the other end penetrates through the T-shaped groove 12 to extend to the outer side of the operation surface 11. The position of the fixing base 2 is determined by adjusting the position of the stopper 21, and the connecting rod 22 is penetrated through the fixing base 2, and the fixing base 2 is fixed to the platen 1 by pressing up the tightening piece 23. The position of the fixing seat 2 is convenient to adjust according to the placement position of the power generation equipment.

Specifically, in this embodiment, the connecting rod 22 is a screw, and the tightening member is a nut screwed with the connecting rod 22.

Specifically, in the present embodiment, when the tightening member presses the fixing base 2, the stopper 21 abuts against the top surface of the T-shaped groove 12.

In some embodiments, the fixing base 2 may have a structure as shown in fig. 1 and fig. 4. Referring to fig. 1 and 4, a fixing plate 24 for mounting on the operation surface 11 is fixedly arranged at the bottom of the fixing base 2, and a long circular through hole for mounting the connecting rod 22 is arranged on the fixing plate 24. The fixing plate 24 is fixedly installed at the bottom of the base and extends out of the fixing seat 2. The long round through hole is positioned on the outer side of the fixed seat 2, and the angle of the fixed seat 2 can be adjusted through the arrangement of the long round through hole, so that the device is suitable for fixing power generation equipment with different shapes and is convenient for clamping the power generation equipment.

In some embodiments, the fixing base 2 may have a structure as shown in fig. 1, 2 and 3. Referring to fig. 1, 2 and 3, two guide plates 25 arranged along the vertical direction are fixedly mounted on the fixing base 2, and the pressing plate 3 is slidably arranged between the two guide plates 25. The two guide plates 25 are arranged at intervals along the length direction of the fixing base 2, and one end of the guide plate 25 is fixedly mounted on the fixing plate 24. The two sides of the pressing plate 3 are respectively in sliding fit with the two guide plates 25, so that the pressing plate 3 is guided.

In some embodiments, the pressing plate 3 may have a structure as shown in fig. 2 and 3. Referring to fig. 2 and 3, the two sides of the pressing plate 3, which are close to the guide plate 25, are fixedly provided with sliding blocks 31, and the guide plate 25 is provided with sliding grooves which are in sliding fit with the sliding blocks 31. The slider 31 is fixedly installed on the outer side of the pressing plate 3, the slider 31 protrudes out of the pressing plate 3, a sliding groove is concavely formed in the guide plate 25, and the slider 31 is slidably arranged in the sliding groove. The moving direction of the pressing plate 3 can be further limited, so that the pressing plate 3 can always slide along the vertical direction.

Alternatively, in the present embodiment, the length of the chute is smaller than the length of the guide plate 25, and both ends of the chute are located inside the guide plate 25. The sliding travel of the pressing plate 3 can be limited.

In some embodiments, the slider 31 may have a structure as shown in fig. 2 and 3. Referring also to fig. 2 and 3, the slider 31 is provided protruding from the top surface of the platen 3, and the pushing block 4 is provided between the two sliders 31. The pushing block 4 is located above the pressing plate 3, the sliding blocks 31 extend upwards to form the pressing plate 3, the pushing block 4 is located between the two sliding blocks 31 and is in sliding fit with the side faces of the two sliding blocks 31, the pushing block 4 can be guided, and the pushing piece 5 or the pushing block 4 is prevented from being damaged.

Optionally, rounded corners are provided at the corners of the slider 31 near the pusher block 4.

In some embodiments, the platen 3 may have a structure as shown in fig. 3. Referring to fig. 3, the pressing portion of the pressing plate 3 is slidably engaged with one side surface of the guide plate 25. The pressing part extends out of a sliding guide space formed by the two guide plates 25, and one side edge of the pressing part, which is close to the guide plates 25, is in sliding fit with the guide plates 25. The pressing portion can be further guided to prevent the pressing plate 3 from being deformed during the pressing process.

In some embodiments, the fixing base 2 may have a structure as shown in fig. 2. Referring to fig. 2, an elastic member 6 for pushing the pressing plate 3 to move upward is further provided between the fixing base 2 and the pressing plate 3. The elastic piece 6 is the spring to all be provided with the installation nest that is used for installing elastic piece 6 in fixing base 2 and the bottom of clamp plate 3, the both ends of elastic piece 6 are located the installation nest respectively inside, can play the effect to the direction of elastic piece 6. By providing the elastic member 6, when the driving portion of the pushing member 5 is retracted, the pressing plate 3 can be automatically moved upward by the driving of the elastic member 6. Facilitating removal of the power plant from the bedplate 1.

In some embodiments, the limiting block 21 may have a structure as shown in fig. 4. Referring to fig. 4, the stopper 21 has a circular structure in cross section in the horizontal direction. The stopper 21 is of a cylindrical structure, and the stopper 21 is coaxially disposed with the connecting rod 22. The limiting block 21 can be conveniently slid into the T-shaped groove 12 through the guiding of the circumferential ring of the limiting block 21. Convenient operation and convenient use.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (9)

1. An operation platform for installation of power generation equipment, comprising:

a bedplate, the top surface of which is an operation surface;

the fixed seat is detachably arranged on the bedplate and is positioned on the operation surface;

the pressing plate is arranged on the fixing seat in a sliding manner along the vertical direction, one end of the pressing plate is provided with a pressing part, the pressing part extends out of the fixing seat to be arranged, and the top surface of the pressing plate is provided with a matched sliding surface which inclines from top to bottom to a direction far away from the pressing part;

the pushing block is arranged on the fixed seat in a sliding manner along the horizontal direction, and the bottom surface of the pushing block is provided with a pushing surface which is parallel to the sliding surface and in sliding fit with the sliding surface;

the pushing piece is fixedly arranged on the fixing seat, and the driving end of the pushing piece is fixedly connected with the pushing block and used for driving the pushing block to slide in the fixing seat.

2. The operation platform for installing power generation equipment according to claim 1, wherein a plurality of T-shaped grooves are formed in the bedplate and are arranged in the horizontal direction, a plurality of T-shaped grooves are arranged in parallel at intervals, a limiting block is further arranged on the bedplate and is arranged in the T-shaped grooves in a sliding mode, a connecting rod is fixedly installed on the limiting block and penetrates through the fixing seat, a pressing piece is connected to the connecting rod in a threaded mode, and the pressing piece is used for pressing the fixing seat on the operation surface.

3. The operation platform for installing power generation equipment according to claim 2, wherein a fixing plate for installing on the operation surface is fixedly arranged at the bottom of the fixing seat, and an oblong through hole for installing the connecting rod is arranged on the fixing plate.

4. The operation platform for installing power generation equipment according to claim 1, wherein two guide plates arranged in the vertical direction are fixedly installed on the fixing base, and the pressing plate is slidably arranged between the two guide plates.

5. The operation platform for installing power generation equipment according to claim 4, wherein the two sides of the pressing plate, which are close to the guide plate, are fixedly provided with sliding blocks, and the guide plate is provided with sliding grooves which are in sliding fit with the sliding blocks.

6. The operation platform for installation of power generation equipment according to claim 5, wherein the slider is provided protruding from a top surface of the pressing plate, and the pushing block is provided between the two sliders.

7. The power plant mounting console as set forth in claim 5, wherein the pressing portion on the pressing plate is slidably fitted to one side face of the guide plate.

8. The operation platform for installing power generation equipment according to claim 1, wherein an elastic member for pushing the pressing plate to move upward is further provided between the fixing base and the pressing plate.

9. The operation platform for installing power generation equipment according to claim 2, wherein the cross section of the stopper in the horizontal direction is a circular structure.

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