CN211333002U - Valve body assembly platform - Google Patents

Abstract

The utility model discloses a valve body assembly platform, valve body assembly platform contains supporting pedestal subassembly, fixed bearing subassembly and movable supporting subassembly, makes through increase and decrease adjusting cushion in adjustment fixed bearing subassembly valve body assembly platform adapts to the not unidimensional valve body of waiting to assemble, makes through the horizontal distance of adjustment movable bearing subassembly and fixed bearing subassembly valve body assembly platform adapts to the not unidimensional valve body of waiting to assemble. The utility model provides a valve body assembly platform makes valve body assembly work go on in order, has improved assembly efficiency, has reduced artifical intensity of labour simultaneously, provides safe assembly environment, has good application prospect.

Description

Valve body assembly platform

Technical Field

The utility model relates to a petrochemical equipment makes the field, concretely relates to valve body assembly platform.

Background

In the prior art, the valve assembly work mainly depends on the operation of workers, the load of the workers is heavy, the labor intensity is high, the working efficiency is low, and casualty accidents frequently occur in the production operation process. The valve body assembly platform is an important auxiliary device for valve production, and the valve body assembly platform is adopted for valve body assembly, so that the assembly is more orderly, convenient and rapid.

SUMMERY OF THE UTILITY MODEL

In order to reduce workman valve body assembly work intensity of labour, improve assembly efficiency, the utility model provides a valve body assembly platform.

The utility model provides a valve body assembly platform, which comprises a supporting seat component, a fixed supporting component and a movable supporting component;

the supporting seat assembly comprises a base, a supporting table, a first supporting pipe and a second supporting pipe; the base is arranged on the ground and is fixedly connected with the supporting platform through the first supporting pipe and the second supporting pipe;

the supporting seat assembly is fixedly connected with the fixed supporting assembly through the supporting table and is connected with the movable supporting assembly through the first supporting pipe;

the fixed supporting assembly comprises a platform supporting block connected to the supporting table and a first upper cushion block connected to the platform supporting block;

the movable supporting assembly comprises a movable supporting block, a second upper cushion block, an adjusting screw and a hand wheel; the second upper cushion block is fixedly connected to the movable supporting block, the hand wheel is fixedly connected to one end of the adjusting screw rod, a hole is formed in the other end of the adjusting screw rod, the adjusting screw rod is driven to move through rotation of the hand wheel, the movable supporting block and the second upper cushion block are driven to move through thread transmission, and the horizontal distance between the movable supporting assembly and the fixed supporting assembly is adjusted;

one end of the valve body to be assembled is borne by the first upper cushion block of the fixed supporting assembly, the other end of the valve body to be assembled is borne by the second upper cushion block of the movable supporting assembly, and the valve body to be assembled is assembled on the valve body assembling platform.

Optionally, the platform support block is i-shaped and comprises a first horizontal bar, a second horizontal bar and a first vertical bar; the platform supporting block is connected with the fixed supporting table through a first cross bar, and is connected with and fixed with a first upper cushion block through a second cross bar;

spiral holes are respectively formed in two ends of a first cross bar of the platform supporting block, spiral holes are also formed in corresponding positions of the supporting table, and two ends of the first cross bar are fixedly connected with the supporting table through bolts, so that the platform supporting block and the supporting table are fixedly connected;

simultaneously, spiral holes are respectively formed in the two ends of a second cross bar of the platform supporting block, spiral holes are also formed in the corresponding positions of the first upper cushion blocks, the two ends of the second cross bar and the first upper cushion blocks are fixedly connected through screws, and the platform supporting block and the first upper cushion blocks are fixedly connected.

Optionally, the movable supporting block is T-shaped and comprises a third horizontal bar and a second vertical bar; the movable supporting block is fixedly connected with a second upper cushion block through a third cross bar and is connected with an adjusting screw rod through a second vertical bar;

the two ends of a third cross bar of the movable supporting block are respectively provided with a spiral hole, the corresponding position of the second upper cushion block is also provided with a spiral hole, and the two ends of the third cross bar are fixedly connected with the second upper cushion block through screws so as to realize the connection and fixation of the movable supporting block and the second upper cushion block;

a second vertical bar of the movable supporting block is provided with a spiral hole, and the adjusting screw rod penetrates through the spiral hole to be in spiral connection with the second vertical bar;

meanwhile, a positioning hole is formed in the position, corresponding to the spiral hole, of the first supporting pipe, the adjusting screw penetrates through the corresponding positioning hole in the first supporting pipe, and then the second vertical rod is connected with the first supporting pipe through the adjusting screw.

Optionally, the movable supporting block further comprises a guide shaft, two ends of the guide shaft are respectively perforated through the movable supporting block and the first supporting pipe, and the movable supporting block is connected with the guide shaft through a second vertical bar;

the second vertical bar is provided with a through hole, a positioning hole is formed in the position, corresponding to the through hole, of the first supporting pipe, and the guide shaft penetrates through the through hole in the second vertical bar and the positioning hole in the corresponding first supporting pipe;

and spiral holes are respectively formed at two ends of the guide shaft and are in threaded connection with corresponding screws.

Optionally, the first upper cushion block and the second upper cushion block are both provided with arc-shaped openings; the through pipes of the valve body to be assembled, which are connected with the flanges at the two ends, are respectively placed on the arc-shaped openings of the first upper cushion block and the second upper cushion block; when the valve body assembling platforms are arranged simultaneously, the valve body assembling platforms respectively comprise a supporting seat assembly, a fixed supporting assembly and a movable supporting assembly, and share a base and a supporting platform.

Optionally, the movable supporting block further comprises a first fixing block, and the first fixing block is welded on one side, close to the second vertical bar, of the first supporting pipe; the adjusting screw rod also penetrates through a spiral hole formed in the first fixing block.

Optionally, the movable supporting block further comprises a second fixing block, and the second fixing block is welded on one side, close to the second vertical bar, of the first supporting pipe; the guide shaft also penetrates through a through hole formed in the second fixing block.

Optionally, the adjusting screw rod is further provided with a hexagonal nut in a penetrating manner, and the movable supporting assembly after moving is fixed in position through screwing and locking of the hexagonal nut.

Optionally, a side edge of one end of the second vertical bar, which is far away from the third horizontal bar, of the movable supporting block is welded and fixed with the supporting block, the supporting block is provided with a screw hole connecting screw, and the movable supporting assembly is supported by screwing out the screw and tightly abutting against the base.

Optionally, the fixed support assembly further comprises a first adjusting cushion block, and the first adjusting cushion block is arranged at a connection position of the platform support block and the first upper cushion block;

the first adjusting cushion block is provided with a through hole or a spiral hole or is in a U-shaped structure, so that a bolt for connecting the platform supporting block and the first upper cushion block can pass through the first adjusting cushion block;

the movable supporting assembly further comprises a second adjusting cushion block, and the second adjusting cushion block is arranged at the connecting position of the movable supporting block and the second upper cushion block;

the second adjusting cushion block is provided with a through hole or a spiral hole or is in a U-shaped structure, so that a bolt for connecting the movable supporting block and the second upper cushion block can pass through the second adjusting cushion block.

The utility model provides a valve body assembly platform can be that numerous and diverse valve body assembly work goes on in order, improves assembly efficiency, can also reduce valve body assembly work's intensity of labour simultaneously, provide a safer assembly operation environment.

Drawings

Fig. 1 is a schematic view of a combined structure of two valve body assembly platforms provided by the present invention;

FIG. 2 is a schematic view of a stationary support assembly;

FIG. 3 is a schematic view of a movable support assembly;

fig. 4 is a schematic view of an assembly platform carrying four valve bodies to be assembled.

Detailed Description

The present invention will be further described by the following detailed description of preferred embodiments thereof, which is to be read in connection with the accompanying drawings.

The utility model provides a valve body assembly platform contains bearing seat subassembly, fixed bearing subassembly and movable supporting subassembly.

As shown in fig. 1, the bearing block assembly includes a base 1, a bearing table 2, a first bearing pipe 3, and a second bearing pipe 4; the base 1 is placed on the ground, and the first support pipe 3 and the second support pipe 4 are welded to the base 1 at one end and to the support table 2 at the other end, respectively, to complete the support base assembly.

The fixed supporting component is fixedly arranged on the supporting table 2, and the movable supporting component is connected with the first supporting pipe 3.

The fixed bearing assembly comprises a platform bearing block 5 and a first upper cushion block 61, and the bearing table 2 and the first upper cushion block 61 are connected through the platform bearing block 5.

The platform support block 5 is i-shaped, and as shown in fig. 2, the platform support block can be divided into a first horizontal bar 51, a second horizontal bar 52 and a first vertical bar 53, the platform support block 5 can be integrally formed, and two ends of the first vertical bar 53 can be respectively connected and fixed with the first horizontal bar 51 and the second horizontal bar 52 by welding. The platform supporting block 5 is fixedly connected with the supporting table 2 through a first cross bar 51, and fixedly connected with a first upper cushion block 61 through a second cross bar 52.

Two ends of the first cross bar 51 are respectively provided with a spiral hole, and the supporting platform 2 is also provided with a spiral hole at a corresponding position; at the two ends of the first horizontal bar 51, the screw holes on the first horizontal bar 51 and the corresponding screw holes on the supporting table 2 are respectively threaded by using the hexagon socket head cap screws 15, so that the two ends of the first horizontal bar 51 are fixedly connected with the supporting table 2, and the platform supporting block 5 is fixedly connected with the supporting table 2. The inner hexagon bolt 15 can be additionally provided with a flat pad and an elastic pad according to needs when passing through the spiral hole, and the flat pad and the elastic pad are not marked and shown in the figure; the hexagon socket head cap screw 15 can be connected and fixed by a nut arranged in a matching way if necessary.

Two ends of the second horizontal bar 52 are respectively provided with a spiral hole, and the corresponding position on the first upper cushion block 61 is also provided with a spiral hole; threaded connection is realized by respectively adopting the socket head cap screws 16 to penetrate the spiral hole in the first upper cushion block 61 and the spiral hole corresponding to the second cross bar 52, and the two ends of the first upper cushion block 61 and the second cross bar 52 are fixedly connected, so that the first upper cushion block 61 and the platform supporting block 5 are fixedly connected.

The movable supporting component comprises a movable supporting block 8, a second upper cushion block 62, an adjusting screw 9, a guide shaft 10 and a hand wheel 11. In the movable supporting assembly, the second upper cushion block 62 is fixedly connected to the movable supporting block 8, the hand wheel 11 is fixedly connected to one end of the adjusting screw 9, the other end of the adjusting screw 9 penetrates through the movable supporting block 8 and the first supporting pipe 3, and meanwhile, two ends of the guide shaft 10 respectively penetrate through the movable supporting block 8 and the first supporting pipe 3.

As shown in fig. 3, the movable support block 8 is T-shaped and can be divided into a third horizontal bar 81 and a second vertical bar 82, and the movable support block 8 can be integrally formed or one end of the second vertical bar 82 can be fixedly connected with the third horizontal bar 81 by welding. In the movable support assembly, the movable support block 8 is fixedly connected with the second upper cushion block 62 through a third cross bar 81, and is connected with the adjusting screw 9 and the guide shaft 10 through a second vertical bar 82.

In the movable supporting assembly, two ends of a third cross bar 81 are respectively provided with a spiral hole, and the corresponding position on the second upper cushion block 62 is also provided with a spiral hole; threaded connection is realized by respectively adopting the socket head cap screws 17 to penetrate the spiral hole in the second upper cushion block 62 and the corresponding spiral hole of the third cross bar 81, so that the second upper cushion block 62 is fixedly connected with the two ends of the third cross bar 81, and the second upper cushion block 62 is fixedly connected with the movable supporting block 8.

As shown in fig. 4, a valve body to be assembled is borne by a first upper cushion block 61 and a second upper cushion block 62, a through pipe of one end of the valve body to be assembled, which is connected with a flange, is arranged on the first upper cushion block 61, and a through pipe of the other end of the valve body to be assembled, which is connected with the flange, is arranged on the second upper cushion block 62; the first upper cushion block 61 and the second upper cushion block 62 are provided with arc-shaped openings, so that the valve body to be assembled placed on the first upper cushion block is stable and is not easy to roll.

The movable supporting assembly further comprises a first fixing block 12 and a second fixing block 13, and the first fixing block 12 and the second fixing block 13 are fixedly welded on one side, close to the second vertical bar 82, of the first supporting pipe 3; the first fixing block 12 is provided with a spiral hole, and a positioning hole is formed in the corresponding position on the first supporting pipe 3; the second fixing block 13 is provided with a through hole, and the corresponding position on the first supporting tube 3 is provided with another positioning hole.

In the movable support assembly, the second vertical rod 82 is provided with a spiral hole and a through hole. A spiral hole formed in the second vertical bar 82, a spiral hole formed in the first fixing block 12, and a positioning hole formed in the first supporting tube 3 at corresponding positions, wherein the three holes are located at the same horizontal position; one end of the adjusting screw rod 9 is connected with the fixed hand wheel 11, the other end of the adjusting screw rod passes through the three holes in sequence, and the adjusting screw rod 9 is in threaded connection with the second vertical bar 82 and the first fixed block 12.

The hand wheel 11 can be designed into a steering wheel shape or a fixed rocker 14 is connected to the hand wheel 11 so as to conveniently rotate the hand wheel 11, the adjusting screw rod 9 is driven to screw in and screw out at the first fixed block 12 through rotation of the hand wheel 11, and then the movable supporting assembly is driven to move through spiral transmission, so that adjustment of the horizontal distance between the movable supporting assembly and the fixed supporting assembly is achieved, and the valve body assembling platform is suitable for valve body equipment with different lengths and sizes. A flat pad can be additionally arranged between the hand wheel 11 and the second vertical bar 82 as required to avoid mutual scratch between the surface of the hand wheel 11 and the surface of the second vertical bar 82, and the flat pad is not marked and shown in the figure.

The guide shaft 10 may be a polish rod; a through hole formed in the second vertical bar 82, a through hole formed in the second fixing block 13, and another positioning hole formed in a corresponding position on the first support tube 3, the three holes being in the same horizontal position; one end of the guide shaft 10 passes through the through hole on the second vertical bar 82 and extends out to one side of the second vertical bar 82 far away from the first supporting pipe 3; the other end of the guide shaft 10 passes through the through hole of the second fixing block 13 and the other positioning hole at the corresponding position of the first supporting pipe 3, and extends out to the side of the first supporting pipe 3 away from the second vertical bar 82.

The two ends of the guide shaft 10 are respectively provided with a spiral hole along the axial direction, and are provided with corresponding inner hexagon screws 18 to realize threaded connection, so that the guide shaft 10 is tightly connected, and the moving range of the movable supporting component is limited. When the socket head cap screw 18 is screwed to the guide shaft 10, a washer may be added as needed to buffer the interaction force between the socket head cap screw 18 and the guide shaft 10 and protect the surface of the member from being scratched, and the washer is not shown in fig. 1.

The adjusting screw 9 is also provided with a hexagon nut 21 in a penetrating way. On the adjusting screw 9, the hexagon nut 21 may be disposed between the second vertical bar 82 and the first fixing block 12, and after the hand wheel 11 rotates to adjust the horizontal distance between the movable supporting component and the fixed supporting component to adapt to the length of the valve body to be assembled, the hexagon nut 21 may be screwed tightly against the first fixing block 12, so as to lock the position of the movable supporting component, and ensure the stability of the movable supporting component at the adjusted position.

The side edge of one end of the second vertical bar 82, which is far away from the third transverse bar 81, is connected with a fixed supporting block 14 through welding; the support block 14 is provided with a spiral hole, a hexagon socket head cap screw 19 penetrates through the spiral hole to realize threaded connection, the movable support assembly is adjusted and fixed, the hexagon socket head cap screw 19 is screwed into and extends out of the spiral hole of the support block 14 to tightly support the base 1, and the movable support assembly is supported, so that the movable support assembly for bearing the valve body to be assembled is more stable.

The fixed supporting component and the movable supporting component respectively comprise an adjusting cushion block. In the fixed bearing assembly, a first adjusting cushion block 71 is arranged at the joint of the first upper cushion block 61 and the two ends of the second cross bar 52; in the movable bolster assembly, a second adjusting block 72 is provided at the junction of the second upper block 62 and the ends of a third cross bar 81. The first upper cushion block 61 and the second upper cushion block 62 are respectively heightened by the first adjusting cushion block 71 and the second adjusting cushion block 72, so that the valve body assembling platform can flexibly adapt to valve bodies to be assembled with different heights.

Through holes or spiral holes are formed in the first adjusting cushion block 71 and the second adjusting cushion block 72, or the first adjusting cushion block and the second adjusting cushion block are of U-shaped structures; in the fixed bearing assembly, the socket head cap screw 16 can penetrate through the first adjusting cushion block 71 to fixedly connect the first upper cushion block 61, the first adjusting cushion block 71 and the platform bearing block 5; in the movable support assembly, the socket head cap screw 17 can penetrate through the second adjusting cushion block 72 to fixedly connect the second upper cushion block 62, the second adjusting cushion block 72 and the movable support block 8.

The utility model provides a valve body assembly platform can adjust in a flexible way in order to adapt to not unidimensional size waiting to assemble the valve body, reduces assembly personnel's working strength, provides safer assembly environment, simultaneously, makes things convenient for going on in order of assembly work, improves assembly efficiency, has good application prospect.

In addition, for further improvement valve body assembly efficiency, the utility model discloses can be simultaneously and build a plurality of valve body assembly platform, realize the assembly operation to a plurality of valve bodies. Fig. 1 is a schematic structural diagram of two valve body assembly platforms which are arranged symmetrically and share a base 1 and a supporting platform 2, fixed supporting components of the two platforms are adjacent to each other, and movable supporting components are respectively located at two ends of the base 1 and the supporting platform 2, so that the two valve bodies can be assembled at the same time without mutual influence.

Fig. 4 is a schematic view of four valve body assembling platforms which share the base 1 and the supporting platform 2, the respective fixed supporting components are close to each other, and the movable supporting components are respectively located at the periphery of the base 1 and the supporting platform 2, so that the four valve bodies can be assembled at the same time.

By analogy, in practical application, the assembly platforms can be freely combined and constructed according to production requirements to enlarge productivity, for example, six valve body assembly platforms can be combined and constructed to assemble six valve bodies at the same time, and the like. In the above embodiments of the present invention, a detailed description is given to any one of the valve body assembling platforms, and the content thereof may be extended to an embodiment in which a plurality of valve body assembling platforms are built, which is not described herein again.

While the present invention has been described in detail with reference to the preferred embodiments thereof, it should be understood that the above description should not be taken as limiting the present invention. Numerous modifications and alterations to the present invention will become apparent to those skilled in the art upon reading the foregoing description. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (10)

1. A valve body assembling platform is characterized by comprising a bearing seat assembly, a fixed bearing assembly and a movable bearing assembly;

the supporting seat assembly comprises a base, a supporting table, a first supporting pipe and a second supporting pipe; the base is arranged on the ground and is fixedly connected with the supporting platform through the first supporting pipe and the second supporting pipe;

the supporting seat assembly is fixedly connected with the fixed supporting assembly through the supporting table and is connected with the movable supporting assembly through the first supporting pipe;

the fixed supporting assembly comprises a platform supporting block connected to the supporting table and a first upper cushion block connected to the platform supporting block;

the movable supporting assembly comprises a movable supporting block, a second upper cushion block, an adjusting screw and a hand wheel; the second upper cushion block is fixedly connected to the movable supporting block, the hand wheel is fixedly connected to one end of the adjusting screw rod, a hole is formed in the other end of the adjusting screw rod, the adjusting screw rod is driven to move through rotation of the hand wheel, the movable supporting block and the second upper cushion block are driven to move through thread transmission, and the horizontal distance between the movable supporting assembly and the fixed supporting assembly is adjusted;

one end of the valve body to be assembled is borne by the first upper cushion block of the fixed supporting assembly, the other end of the valve body to be assembled is borne by the second upper cushion block of the movable supporting assembly, and the valve body to be assembled is assembled on the valve body assembling platform.

2. The valve body mounting platform of claim 1, wherein said platform support block is i-shaped and includes a first cross bar, a second cross bar, and a first vertical bar; the platform supporting block is connected with the fixed supporting table through a first cross bar, and is connected with and fixed with a first upper cushion block through a second cross bar;

spiral holes are respectively formed in two ends of a first cross bar of the platform supporting block, spiral holes are also formed in corresponding positions of the supporting table, and two ends of the first cross bar are fixedly connected with the supporting table through bolts, so that the platform supporting block and the supporting table are fixedly connected;

simultaneously, spiral holes are respectively formed in the two ends of a second cross bar of the platform supporting block, spiral holes are also formed in the corresponding positions of the first upper cushion blocks, the two ends of the second cross bar and the first upper cushion blocks are fixedly connected through screws, and the platform supporting block and the first upper cushion blocks are fixedly connected.

3. The valve body mounting platform of claim 1, wherein said movable support block is T-shaped and includes a third horizontal bar and a second vertical bar; the movable supporting block is fixedly connected with a second upper cushion block through a third cross bar and is connected with an adjusting screw rod through a second vertical bar;

the two ends of a third cross bar of the movable supporting block are respectively provided with a spiral hole, the corresponding position of the second upper cushion block is also provided with a spiral hole, and the two ends of the third cross bar are fixedly connected with the second upper cushion block through screws so as to realize the connection and fixation of the movable supporting block and the second upper cushion block;

a second vertical bar of the movable supporting block is provided with a spiral hole, and the adjusting screw rod penetrates through the spiral hole to be in spiral connection with the second vertical bar;

meanwhile, a positioning hole is formed in the position, corresponding to the spiral hole, of the first supporting pipe, the adjusting screw penetrates through the corresponding positioning hole in the first supporting pipe, and then the second vertical rod is connected with the first supporting pipe through the adjusting screw.

4. The valve body assembly platform of claim 3, wherein the movable support block further comprises a guide shaft, two ends of the guide shaft are respectively perforated through the movable support block and the first support pipe, and the movable support block is connected with the guide shaft through a second vertical rod;

the second vertical bar is provided with a through hole, a positioning hole is formed in the position, corresponding to the through hole, of the first supporting pipe, and the guide shaft penetrates through the through hole in the second vertical bar and the positioning hole in the corresponding first supporting pipe;

and spiral holes are respectively formed at two ends of the guide shaft and are in threaded connection with corresponding screws.

5. The valve body mounting platform of claim 1, wherein said first upper spacer and said second upper spacer each define an arcuate opening; the through pipes of the valve body to be assembled, which are connected with the flanges at the two ends, are respectively placed on the arc-shaped openings of the first upper cushion block and the second upper cushion block; when the valve body assembling platforms are arranged simultaneously, the valve body assembling platforms respectively comprise a supporting seat assembly, a fixed supporting assembly and a movable supporting assembly, and share a base and a supporting platform.

6. The valve body mounting platform of claim 3, wherein said movable support block further comprises a first anchor block welded to a side of said first support tube adjacent said second vertical bar; the adjusting screw rod also penetrates through a spiral hole formed in the first fixing block.

7. The valve body mounting platform of claim 4, wherein said movable support block further comprises a second fixed block welded to a side of said first support tube adjacent said second vertical bar; the guide shaft also penetrates through a through hole formed in the second fixing block.

8. The valve body assembling platform of claim 1, wherein the adjusting screw further comprises a hexagonal nut, and the movable supporting component is fixed in position after being moved by screwing and locking the hexagonal nut.

9. The valve body mounting platform of claim 3, wherein the second vertical bar of the movable support block is welded to a fixed support block at an end of the second vertical bar remote from the third horizontal bar, the support block is provided with a screw hole for connecting a screw, and the movable support assembly is supported by screwing the screw out against the base.

10. The valve body mounting platform of claim 1, wherein said stationary support assembly further comprises a first spacer block, said first spacer block being disposed at a junction of said platform support block and said first upper spacer block;

the first adjusting cushion block is provided with a through hole or a spiral hole or is in a U-shaped structure, so that a bolt for connecting the platform supporting block and the first upper cushion block can pass through the first adjusting cushion block;

the movable supporting assembly further comprises a second adjusting cushion block, and the second adjusting cushion block is arranged at the connecting position of the movable supporting block and the second upper cushion block;

the second adjusting cushion block is provided with a through hole or a spiral hole or is in a U-shaped structure, so that a bolt for connecting the movable supporting block and the second upper cushion block can pass through the second adjusting cushion block.

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