CN217860884U - Supporting device for mounting barrel equipment - Google Patents

Abstract

The utility model discloses strutting arrangement is used in barrel equipment fixing belongs to the supporting tool field, and the purpose can the barrel equipment of the different diameters of suitability. The method comprises the steps of bottom support roller assembly and side guide roller assembly separated from two sides of the bottom support roller assembly; the side guide roller assemblies on the two sides of the bottom support roller assembly are symmetrically arranged; the bottom support roller assembly comprises a bottom support bracket, a bottom support roller and a first lifting mechanism for driving the bottom support roller to vertically lift; the bottom carrier roller is movably arranged at the top of the bottom support bracket; the side guide roller assembly comprises a side guide bracket, a side guide roller and a first driving mechanism for driving the side guide roller to be far away from or close to the bottom carrier roller; the side guide roller is movably arranged on the side guide bracket through a driving mechanism I; the side guide rollers and the bottom support roller are parallel to each other and distributed along the circumferential direction. The device is suitable for barrel equipment with different diameters by adjusting the distance between the side guide rollers on the two sides. The lifting mechanism is used for adjusting the height position of the bottom carrier roller, so that the bottom carrier roller can always lift the barrel from the bottom of the barrel and form a triangular support with the side guide roller, and the support stability is guaranteed.

Description

Supporting device for mounting barrel equipment

Technical Field

The utility model belongs to the supporting tool field, it is the strutting arrangement for barrel equipment fixing.

Background

In the installation process of large-scale barrel equipment, particularly equipment in the fields of metallurgy and chemical industry, the equipment parts all need to be assembled on site, the general diameter of the barrel equipment is larger, the equipment is heavy, the assembly positioning difficulty is large, and an arc saddle with a jacking system is adopted as a support in a conventional method to carry out the on-site assembly of the barrel equipment such as a ball mill barrel, a mixing machine, a rotary kiln, a cylindrical ore washer, a drying kiln and the like. But the radian of the saddle needs to be matched with that of the barrel equipment, the saddle is poor in universality, and the material waste is large. In addition, in the construction of lining plates for ball mills and the like, the cylindrical body needs to be rotated in the circumferential direction. The bearing seat of the equipment is required to be installed in conventional construction, the hollow shafts at the two ends of the barrel equipment fall into the bearing bush, and the hydraulic lubricating system has operating conditions, so that lining plate construction can be carried out, the barrel needs to be rotated by winding the barrel with the aid of a steel wire rope and the like, the safety is poor, and the construction period is long.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a strutting arrangement is used in barrel equipment fixing, can the barrel equipment of the different diameters of suitability in order to solve the poor problem of commonality that exists when current arc saddle supports the barrel.

The utility model adopts the technical proposal that: the supporting device for mounting the barrel equipment comprises a bottom support roller assembly and side guide roller assemblies respectively arranged at two sides of the bottom support roller assembly; the side guide roller assemblies on the two sides of the bottom support roller assembly are symmetrically arranged;

the bottom support roller assembly comprises a bottom support bracket, a bottom support roller and a first lifting mechanism for driving the bottom support roller to vertically lift; the bottom carrier roller is movably arranged at the top of the bottom support bracket; the side guide roller assembly comprises a side guide bracket, a side guide roller and a first driving mechanism for driving the side guide roller to be far away from or close to the bottom carrier roller; the side guide roller is movably arranged on the side guide bracket through a driving mechanism; the side guide rollers and the bottom support roller are parallel to each other and distributed along the circumferential direction.

Furthermore, the collet bracket comprises a collet bottom plate and a collet top plate which are arranged at an upper and lower relative interval, collet vertical plates are distributed around the centers of the collet bottom plate and the collet top plate, the top ends of the collet vertical plates are fixedly connected with the collet top plate, and the bottom ends of the collet vertical plates are fixedly connected with the collet bottom plate; an installation channel leading to the center of the surrounding area of the bottom support vertical plate is arranged between the bottom support vertical plates; the first driving mechanism is a bottom support hydraulic jack; the center of the bottom support top plate is provided with a through hole; the bottom support hydraulic jack is positioned between the bottom support bottom plate and the bottom support top plate, and the jacking head of the bottom support hydraulic jack penetrates through the through hole.

Further, the bearing seat assembly is provided with a support bottom carrier roller and comprises a bearing seat bottom plate and bearing seat lug plates arranged on the bearing seat bottom plate, and two ends of the bottom carrier roller are movably arranged on the bearing seat lug plates;

a plurality of vertically arranged guide grooves are distributed at the top of the bottom support top plate, the bearing seat bottom plate is freely supported on the bottom support top plate and is positioned in the surrounding area of the guide grooves, and the bearing seat bottom plate is limited along the periphery of the bearing seat bottom plate through the guide grooves; the jacking head of the bottom support hydraulic jack is connected with the bearing seat bottom plate.

Furthermore, a hydraulic motor in transmission connection with the bottom support roller is arranged.

Furthermore, the surface of the bottom carrier roller is provided with a sculpture.

Furthermore, the first driving mechanism comprises a slide rail, a slide block, a connecting rod and a crank, wherein the slide rail, the slide block, the connecting rod and the crank extend vertically; the sliding block is arranged on the vertical sliding rail, is movably matched with the sliding rail along the vertical direction, and is provided with a second jacking mechanism for driving the sliding block to move along the sliding rail; the crank is movably arranged on the side guide bracket through a fixed rotating shaft; one end of the connecting rod is hinged with the sliding block, and the other end of the connecting rod is hinged with the crank; the side guide roller is movably arranged at the top end of the crank.

Further, the slide rail comprises a guide box fixed at the top of the side guide bracket; the guide box is a hollow box body surrounded by side walls and a top wall, and two longitudinal side walls of the guide box are provided with guide grooves extending vertically; the slide block is positioned in the hollow box body, and two ends of the slide block are respectively movably connected with the guide groove; the crank comprises two triangular plates which are parallel and distributed at intervals, the side guide roller is positioned between the two triangular plates, and two ends of the side guide roller are respectively and rotatably connected with the vertex angles of the corresponding triangular plates; the triangular plate and the sliding block are connected through the connecting rod respectively.

Furthermore, the side guide support comprises a side guide bottom plate, a side guide top plate and a side guide plate, the top end of the side guide plate is fixedly connected with the side guide top plate, and the bottom end of the side guide plate is fixedly connected with the side guide bottom plate; an installation channel leading to the inside of the side guide support is arranged between the side guide vertical plates; and the jacking mechanism II is a side guide hydraulic jack, and a jacking head of the side guide hydraulic jack penetrates through the side guide top plate to be connected with the sliding block.

Further, the device comprises a base for supporting the assembly of the bottom carrier roller and the assembly of the side guide roller.

Further, the base is an I-beam or an H-shaped steel beam; the bottom support bracket is connected with the base through a U-shaped clamping plate; the U-shaped groove of the U-shaped clamping plate is horizontally arranged, and the bottom support is positioned in the U-shaped groove of the U-shaped clamping plate and is connected with a top plate bolt of the U-shaped clamping plate; the upper flange plate of the base is positioned in the U-shaped notch of the U-shaped clamping plate, and the top end of a jacking screw rod in threaded fit connection with the bottom plate of the U-shaped clamping plate abuts against the upper flange plate of the base to fix the bottom support bracket and the base; the side guide support is connected with the base through a U-shaped clamping plate.

The utility model has the advantages that: the utility model discloses a strutting arrangement is used in barrel equipment fixing inclines deflector roll and collet roller and distributes along circumference hoop for the collet roller can form the outrigger to the cylinder with both sides side deflector roll. The guide rollers at one driving side are far away from or close to the bottom carrier roller through the driving mechanism, so that the distance between the guide rollers at two sides can be adjusted as required, and the cylinder equipment with different diameters is adapted. The lifting mechanism I is used for adjusting the height position of the bottom carrier roller, so that the bottom carrier roller can lift the barrel from the bottom of the barrel all the time, a triangular support is formed by the bottom carrier roller and the side carrier roller, and the stability of support is guaranteed.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic view of a mounting structure of the collet roller;

FIG. 4 is a schematic view of a side guide roller assembly;

fig. 5 is a partially enlarged view of fig. 2 at a.

In the figure, a shoe roller assembly 1, a shoe support 11, a shoe bottom plate 11A, a shoe top plate 11B, a shoe vertical plate 11C, a guide groove 11D, a shoe carrier roller 12, a first lifting mechanism 13, a bearing seat assembly 14, a bearing seat bottom plate 14A, a bearing seat ear plate 14B, a side guide roller assembly 2, a side guide support 21, a side guide bottom plate 21A, a side guide top plate 21B, a side guide vertical plate 21C, a side guide roller 22, a first driving mechanism 23, a slide rail 23A, a guide box 23A1, a guide groove 23A2, a slide block 23B, a connecting rod 23C, a crank 23D, a second jacking mechanism 23E, a base 3, a U-shaped clamping plate 4 and a jacking screw rod 5.

Detailed Description

The invention will be further described with reference to the following drawings and examples:

the supporting device for mounting the cylinder equipment comprises a bottom carrier roller assembly 1 and side guide roller assemblies 2 respectively arranged at two sides of the bottom carrier roller assembly 1, as shown in figures 1 and 2; the side guide roller assemblies 2 on two sides of the bottom carrier roller assembly 1 are symmetrically arranged;

the bottom carrier roller assembly 1 comprises a bottom support bracket 11, a bottom support roller 12 and a first lifting mechanism 13 for driving the bottom carrier roller 12 to vertically lift; the bottom carrier roller 12 is movably arranged at the top of the bottom support bracket 11;

the side guide roller assembly 2 comprises a side guide bracket 21, a side guide roller 22 and a first driving mechanism 23 for driving the side guide roller 22 to move away from or close to the bottom carrier roller 12; the side guide roller 22 is movably arranged on the side guide bracket 21 through a first driving mechanism 23;

the side guide rollers 22 and the bottom support roller 12 are parallel to each other and they are distributed in circumferential direction.

The utility model discloses a strutting arrangement is used in barrel equipment fixing, side guide roller 22 and collet roller 12 distribute along circumference hoop for collet roller 12 and both sides side guide roller 22 can form the outrigger to the cylinder. The first driving mechanism 23 drives the side guide rollers 22 to be far away from or close to the bottom carrier roller 12, so that the distance between the side guide rollers 22 on the two sides can be adjusted as required, and the barrel equipment with different diameters is adapted. The first lifting mechanism 13 is used for adjusting the height position of the bottom carrier roller 12, so that the bottom carrier roller 12 can always lift the barrel from the bottom of the barrel, a triangular support is formed by the bottom carrier roller 12 and the side guide rollers 22, and the stability of support is guaranteed.

The mounting bracket 11 may be of conventional truss or plate construction. In the utility model, preferably, as shown in fig. 3, the collet support 11 comprises a collet bottom plate 11A and a collet top plate 11B which are arranged at a relative interval, a collet vertical plate 11C is distributed around the centers of the collet bottom plate 11A and the collet top plate 11B, the top end of the collet vertical plate 11C is fixedly connected with the collet top plate 11B, and the bottom end is fixedly connected with the collet bottom plate 11A;

an installation channel leading to the center of the surrounding area of the bottom support vertical plate 11C is arranged between the bottom support vertical plates 11C;

the first driving mechanism 23 is a bottom support hydraulic jack;

a through hole is formed in the center of the bottom support top plate 11B; the collet hydraulic jack is positioned between the collet bottom plate 11A and the collet top plate 11B, and the jacking head of the collet hydraulic jack penetrates through the through hole.

The collet support 11 that collet bottom plate 11A, collet roof 11B and collet riser 11C formed is light, and intensity is high.

The collet bottom plate 11A is a plate-shaped structure, is favorable for increasing the contact area with the collet hydraulic jack, and improves the stability of placing the collet hydraulic jack. And the stability of the mounting bracket 11 is ensured. The mounting channel is used for mounting and dismounting the bottom support hydraulic jack. The through-hole on the collet top plate 11B is used for the jacking head that the collet hydraulic pressure is very heavy to pass, plays limiting displacement to collet hydraulic pressure very heavy simultaneously through the first combined action of through-hole and the jacking that the collet hydraulic pressure is very heavy.

In order to adjust the installation height of the bottom carrier roller 12 and ensure that the bottom carrier roller 12 rotates, preferably, a bearing seat assembly 14 supporting the bottom carrier roller 12 is arranged, the bearing seat assembly 14 comprises a bearing seat bottom plate 14A and bearing seat ear plates 14B installed on the bearing seat bottom plate 14A, and two ends of the bottom carrier roller 12 are movably installed on the bearing seat ear plates 14B.

In order to guide the lifting of the bearing seat assembly 14, a plurality of vertically arranged guide grooves 11D are distributed on the top of the bottom support top plate 11B, and the bearing seat bottom plate 14A is freely supported on the bottom support top plate 11B and is positioned in the surrounding area of the guide grooves 11D, and is limited along the periphery of the bearing seat bottom plate 14A through the guide grooves 11D; the jacking head of the bottom-support hydraulic jack is connected with the bearing seat bottom plate 14A.

In the present embodiment, the bearing housing bottom plate 14A is square, and the guide grooves 11D are angle steels provided at four corners of the square bearing housing bottom plate 14A. Of course, the bearing seat bottom plate 14A may also be circular, and when it is circular, the guide groove 11D is an arc-shaped plate. However, if the bearing seat bottom plate 14A is circular, the bearing seat assembly 14 risks rotating axially about the bearing seat bottom plate 14A, and therefore, it is most preferred that the bearing seat bottom plate 14A be square.

To power the bottom rollers 12, the bottom rollers 12 are driven in rotation, and thus the supported cylinders, and preferably a hydraulic motor is provided in driving connection with the bottom rollers 12.

In order to facilitate the rotation of the barrel equipment driven by the bottom carrier roller 12 in the rotation process, preferably, the roller surface of the bottom carrier roller 12 is provided with carved patterns. Of course, the surface of the bottom roller 12 is made of wear-resistant material.

The side guide rollers 22 on both sides guide when the cylinder device rotates. When the hydraulic motor is braked, the side guide rollers 22 on the two sides are close to the middle position where the bottom support roller 12 is located, so that the wrap angle of the bottom support roller is reduced, and further the resistance is increased, so that the roller stops rotating.

The first driving mechanism 23 can be a hydraulic telescopic cylinder and the like, and in the utility model, the first driving mechanism 23 comprises a slide rail 23A, a slide block 23B, a connecting rod 23C and a crank 23D which extend vertically; the sliding block 23B is mounted on the vertical sliding rail 23A, is vertically movably matched with the sliding rail 23A, and is provided with a second jacking mechanism 23E for driving the sliding block 23B to move along the sliding rail 23A; the crank 23D is movably arranged on the side guide bracket 21 through a fixed rotating shaft; one end of the connecting rod 23C is hinged with the sliding block 23B, and the other end of the connecting rod 23C is hinged with the crank 23D; the side guide roller 22 is movably mounted to the top end of the crank 23D.

The first driving mechanism 23 is a slider-crank mechanism including a slide rail 23A, a slider 23B, a link 23C, and a crank 23D. The second jacking mechanism 23E is used for jacking the sliding block 23B, and the connecting rod 23C drives the crank 23D to rotate around the fixed rotating shaft, so that the side guide roller 22 arranged on the crank 23D is driven to swing. The side guide roller assemblies 2 on the two sides are symmetrically arranged, and then the driving mechanisms I23 on the two sides are also symmetrically arranged, so that the swing directions of the side guide rollers 22 on the two sides jacked by the jacking mechanisms II 23E are opposite, the wrap angle formed by the side guide rollers is reduced, and the wrap angle is an included angle enclosed by the side guide roller assemblies 2 on the two sides. And the second jacking mechanism 23E retracts, so that the wrap angle formed by the side guide roller assemblies 2 at the two sides is increased. The wrap angle of the side guide roller is adjusted through the second jacking mechanism 23E so as to adapt to the use of barrel equipment with different diameters.

The slide rail 23A may be made of square steel or i-steel. In the present invention, as shown in fig. 4, the slide rail 23A includes a guide box 23A1 fixed on the top of the side guide bracket 21; the guide box 23A1 is a hollow box body surrounded by side walls and a top wall, and two side walls in the longitudinal direction of the guide box are provided with guide grooves 23A2 extending in the vertical direction; the slide block 23B is positioned in the hollow box body, and two ends of the slide block are movably connected with the guide groove 23A2 respectively. This structure sets up guide slot 23A2 on the lateral wall of guide box 23A1 and as slide rail 23A, and slider 23B is located the hollow box of guide box 23A1, does not occupy additional space for the structure is compacter. And both ends of the sliding block 23B are provided with guide grooves 23A2 which are movably connected with the corresponding guide grooves 23A2, so that the stability and reliability of the up-and-down reciprocating motion of the sliding block 23B are ensured.

The crank 23D comprises two triangular plates which are parallel and distributed at intervals, the side guide roller 22 is positioned between the two triangular plates, and two ends of the side guide roller are respectively and rotatably connected with the vertex angles of the corresponding triangular plates;

the triangular plate and the sliding block 23B are connected through one connecting rod 23C respectively.

The side guide frames 21 may adopt a conventional truss structure or a plate structure.

Preferably, the side guide support 21 comprises a side guide bottom plate 21A, a side guide top plate 21B and a side guide plate 21C, the top end of the side guide plate 21C is fixedly connected with the side guide top plate 21B, and the bottom end of the side guide plate 21C is fixedly connected with the side guide bottom plate 21A;

an installation channel leading to the inside of the side guide support 21 is arranged between the side guide vertical plates 21C;

the second jacking mechanism 23E is a side guide hydraulic jack, and a jacking head of the side guide hydraulic jack penetrates through the side guide top plate 21B to be connected with the sliding block 23B.

The side guide bracket 21 formed by the side guide bottom plate 21A, the side guide top plate 21B and the side guide vertical plate 21C is light in weight and high in strength.

The side guide bottom plate 21A is of a plate-shaped structure, so that the contact area between the side guide bottom plate and the side guide hydraulic jack is increased, and the placing stability of the side guide hydraulic jack is improved. And is favorable for ensuring the stability of the installation of the side guide bracket 21. The mounting channel is used for mounting and dismounting the side guide hydraulic jack.

In order to connect the bottom roller assembly 1 and the side roller assembly 2 together, a base 3 is included for supporting the bottom idler roller assembly 1 and the side roller assembly 2. The base 3 is an I-beam or an H-shaped steel beam;

as shown in fig. 5, the collet bracket 11 is connected with the base 3 through a U-shaped clamping plate 4; the U-shaped groove of the U-shaped clamping plate 4 is horizontally arranged, and the bottom support bracket 11 is positioned in the U-shaped groove of the U-shaped clamping plate 4 and is connected with a top plate bolt of the U-shaped clamping plate 4; the upper flange plate of the base 3 is positioned in the U-shaped groove of the U-shaped clamping plate 4, and the top end of the jacking screw rod 5 which is in threaded fit connection with the bottom plate of the U-shaped clamping plate 4 abuts against the upper flange plate fixing bottom support 11 of the base 3 and the base 3.

Similarly, the side guide support 21 is connected with the base 3 through the U-shaped clamping plate 4 in the same way as the bottom support 11 is connected with the base 3.

Claims (10)

1. Strutting arrangement is used in barrel equipment fixing, its characterized in that: the device comprises a bottom carrier roller assembly (1) and side guide roller assemblies (2) respectively arranged at two sides of the bottom carrier roller assembly (1); the side guide roller assemblies (2) on the two sides of the bottom carrier roller assembly (1) are symmetrically arranged;

the bottom carrier roller assembly (1) comprises a bottom support bracket (11), a bottom support roller (12) and a first lifting mechanism (13) for driving the bottom carrier roller (12) to vertically lift; the bottom carrier roller (12) is movably arranged at the top of the bottom support bracket (11);

the side guide roller assembly (2) comprises a side guide bracket (21), a side guide roller (22) and a first driving mechanism (23) for driving the side guide roller (22) to be far away from or close to the bottom carrier roller (12); the side guide roller (22) is movably arranged on the side guide bracket (21) through a first driving mechanism (23);

the side guide rollers (22) and the bottom support roller (12) are parallel to each other and distributed along the circumferential direction.

2. The support device for cylinder equipment installation according to claim 1, wherein: the collet support (11) comprises a collet bottom plate (11A) and a collet top plate (11B) which are arranged at an upper-lower relative interval, collet vertical plates (11C) are distributed around the centers of the collet bottom plate (11A) and the collet top plate (11B), the top ends of the collet vertical plates (11C) are fixedly connected with the collet top plate (11B), and the bottom ends of the collet vertical plates are fixedly connected with the collet bottom plate (11A);

an installation channel leading to the center of the surrounding area of the bottom support vertical plate (11C) is arranged between the bottom support vertical plates (11C);

the first driving mechanism (23) is a bottom support hydraulic jack;

a through hole is formed in the center of the bottom support top plate (11B); the collet hydraulic jack is positioned between the collet bottom plate (11A) and the collet top plate (11B), and the jacking head of the collet hydraulic jack penetrates through the through hole.

3. The supporting device for cylinder equipment installation according to claim 2, wherein:

the bearing seat assembly (14) is provided with a support bottom carrier roller (12), the bearing seat assembly (14) comprises a bearing seat bottom plate (14A) and bearing seat ear plates (14B) arranged on the bearing seat bottom plate (14A), and two ends of the bottom carrier roller (12) are movably arranged on the bearing seat ear plates (14B);

a plurality of guide grooves (11D) which are vertically arranged are distributed at the top of the bottom support top plate (11B), the bearing seat bottom plate (14A) is freely supported on the bottom support top plate (11B) and is positioned in the surrounding area of the guide grooves (11D), and the bearing seat bottom plate (14A) is limited along the periphery of the bearing seat bottom plate (14A) through the guide grooves (11D); the jacking head of the bottom-support hydraulic jack is connected with a bearing seat bottom plate (14A).

4. A cartridge unit installation support apparatus according to claim 3, wherein: and is provided with a hydraulic motor which is in transmission connection with the bottom support roller (12).

5. The cartridge unit installation support apparatus of claim 4, wherein: the surface of the bottom carrier roller (12) is provided with carved patterns.

6. The support device for cylinder equipment installation according to claim 1, wherein: the first driving mechanism (23) comprises a slide rail (23A), a slide block (23B), a connecting rod (23C) and a crank (23D), wherein the slide rail (23A), the slide block (23B), the connecting rod (23C) and the crank (23D) extend vertically;

the sliding block (23B) is mounted on the vertical sliding rail (23A), is vertically movably matched with the sliding rail (23A), and is provided with a second jacking mechanism (23E) for driving the sliding block (23B) to move along the sliding rail (23A); the crank (23D) is movably arranged on the side guide bracket (21) through a fixed rotating shaft; one end of the connecting rod (23C) is hinged with the sliding block (23B), and the other end of the connecting rod (23C) is hinged with the crank (23D); the side guide roller (22) is movably arranged at the top end of the crank (23D).

7. The supporting device for cylinder equipment installation according to claim 6, wherein: the slide rail (23A) comprises a guide box (23A 1) fixed at the top of the side guide bracket (21);

the guide box (23A 1) is a hollow box body surrounded by side walls and a top wall, and two side walls in the longitudinal direction of the guide box are provided with guide grooves (23A 2) extending in the vertical direction;

the sliding block (23B) is positioned in the hollow box body, and two ends of the sliding block (23B) are movably connected with the guide groove (23A 2) respectively;

the crank (23D) comprises two triangular plates which are parallel and distributed at intervals, the side guide roller (22) is positioned between the two triangular plates, and two ends of the side guide roller are respectively and rotatably connected with the vertex angles of the corresponding triangular plates;

the triangular plate and the sliding block (23B) are respectively connected through the connecting rod (23C).

8. The cartridge unit mounting support apparatus of claim 7, wherein: the side guide support (21) comprises a side guide bottom plate (21A), a side guide top plate (21B) and a side guide vertical plate (21C), the top end of the side guide vertical plate (21C) is fixedly connected with the side guide top plate (21B), and the bottom end of the side guide vertical plate is fixedly connected with the side guide bottom plate (21A);

an installation channel leading to the inside of the side guide support (21) is arranged between the side guide vertical plates (21C);

the second jacking mechanism (23E) is a side guide hydraulic jack, and a jacking head of the side guide hydraulic jack penetrates through the side guide top plate (21B) to be connected with the sliding block (23B).

9. The supporting device for cylinder equipment installation according to any one of claims 1 to 8, wherein: comprises a base (3) for supporting a bottom carrier roller assembly (1) and a side guide roller assembly (2).

10. The cartridge device mounting support apparatus of claim 9, wherein:

the base (3) is an I-beam or an H-shaped steel beam;

the collet support (11) is connected with the base (3) through a U-shaped clamping plate (4);

the U-shaped groove of the U-shaped clamping plate (4) is horizontally arranged, and the bottom support bracket (11) is positioned in the U-shaped groove of the U-shaped clamping plate (4) and is connected with a top plate bolt of the U-shaped clamping plate (4); the upper flange plate of the base (3) is positioned in the U-shaped groove of the U-shaped clamping plate (4), and the top end of a jacking screw rod (5) in threaded fit connection with the bottom plate of the U-shaped clamping plate (4) abuts against the upper flange plate of the base (3) to fix the bottom support bracket (11) and the base (3);

the side guide support (21) is connected with the base (3) through a U-shaped clamping plate (4).

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