CN114193359B - Clamping device is used in production of ingot roof beam support - Google Patents

Abstract

The invention discloses a clamping device for producing a shoe-shaped ingot beam support, which relates to the technical field of shoe-shaped ingot beam support production, and specifically comprises a base, a vertical rod and a servo motor, wherein a connecting protective frame is arranged at the upper end of the base, a support frame is clamped and installed at the upper end of the connecting protective frame, and a connecting platform is fixedly connected to the upper end of the support frame. This clamping device is used in production of ingot beam support, the design of the vertical pole rotation of interact drive between servo motor and the connecting axle, can carry out the relaying of position according to the processing production condition when the centre gripping of ingot beam support, be convenient for classify and place ingot beam support after centre gripping processing production finishes, can drive the removal that the linking plate body carries out the position through the interact between fixed plate and the hydraulic pressure gas pole, can carry out spacing centre gripping to ingot beam support through the removal to position between two linking plate bodies and handle, moreover, the steam generator is simple in structure, need not the manual operation of user, can automize and go on.

Description

Clamping device is used in production of ingot roof beam support

Technical Field

The invention relates to the technical field of ingot beam support production, in particular to a clamping device for ingot beam support production.

Background

The ingot beam is also called as an auxiliary frame, and refers to a device for supporting front and rear axles and a suspension bracket, so that the axles and the suspension bracket are connected with a front frame through the suspension bracket, vibration and noise can be isolated after the device is installed, sound of the ingot beam directly entering a carriage is reduced, and the ingot beam bracket needs to be clamped for auxiliary production in the processing and production process of the ingot beam bracket.

The clamping device of current ingot roof beam support production usefulness carries out the spacing problem of pertinence centre gripping according to some special shapes in the use inconveniently.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a clamping device for producing a shoe-shaped ingot beam bracket, which solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a clamping device for producing a shoe-shaped ingot beam bracket comprises a base, a vertical rod and a servo motor, wherein the upper end of the base is provided with a connecting protective frame, the upper end of the connecting protective frame is clamped and provided with a support frame, the upper end of the support frame is fixedly connected with a connecting platform, the inside of the connecting platform is provided with an auxiliary platform, two sides of the rear end of the connecting platform are welded and connected with connecting side blocks, the inner part of each connecting side block is rotatably provided with a shaft body, the outer surface of the shaft body is provided with an angle scale, the inside of the auxiliary platform is provided with an auxiliary assembly for clamping the shoe-shaped ingot beam bracket, the auxiliary assembly comprises an electric push rod, a push plate and a rubber pad, the outer part of the electric push rod is provided with the push plate, the end surface of the push plate is provided with the rubber pad, the middle part of the connecting platform is provided with a protective cover, the servo motor is arranged inside the protective cover, and the shape of protection casing is hollow out construction, servo motor's externally mounted has the connecting axle, and the outside lower extreme of connecting axle is provided with the switching and assists the pole.

Further, the terminal of switching auxiliary rod is installed and is used for carrying out the counter weight subassembly of counter weight to strutting arrangement, and the counter weight subassembly includes counter weight frame, spacing groove and balancing weight, the inside of counter weight frame is provided with the spacing groove, and the inside slidable mounting of spacing groove has the balancing weight.

Furthermore, the limiting grooves and the balancing weights are in one-to-one correspondence, three groups of limiting grooves and three groups of balancing weights are arranged, and the limiting grooves and the balancing weights are of an integrated structure.

Further, the lower extreme of counter weight subassembly is installed and is used for the supplementary linking subassembly that removes of counter weight frame, and links up the subassembly and include connecting spring, link up bottom plate and slider, connecting spring's lower extreme is installed and is linked up the bottom plate, and links up the lower extreme both sides of bottom plate and all is provided with the slider.

Furthermore, the connection bottom plate is tightly attached to the sliding block, a built-in slide way is installed at the tail end of the sliding block, and the built-in slide way is of a T-shaped structure.

Furthermore, the counterweight frame coincides with the vertical central axis of the connecting springs, and the connecting springs are distributed equidistantly.

Further, the internal surface of support frame is provided with the cross axle, and the outside of cross axle rotates and installs the grip block, the internal surface of grip block is provided with built-in silica gel pad, the terminal internally mounted of grip block has the set board, and the internal thread of set board installs the fastening pivot.

Furthermore, the surface mounting of vertical pole has the adjustment subassembly that is used for carrying on position adjustment, and the adjustment subassembly includes fixed plate and hydraulic pressure gas pole, the surface welded connection of fixed plate has hydraulic pressure gas pole, and fixed plate and hydraulic pressure gas pole be provided with two about the horizontal axis symmetry of vertical pole.

Further, the tip of hydraulic pressure gas pole is provided with the linking plate body, and links up plate body internally mounted and have the mounting groove, the inside of mounting groove is rotated and is provided with the connecting shaft pole, and the end of connecting shaft pole installs the centre gripping plate body, the shape of centre gripping plate body is the arc structure.

Furthermore, the outer surface of the connecting plate body is provided with an auxiliary guide channel, a built-in movable plate is arranged inside the auxiliary guide channel in a sliding mode, and the built-in movable plate is distributed at equal intervals relative to the horizontal plane of the connecting plate body.

The invention provides a clamping device for producing a shoe-shaped ingot beam bracket, which has the following beneficial effects:

the internal clamping shape of the clamping device can be automatically or pre-adjusted according to the shape of the ingot beam support, so that the ingot beam supports with different shapes can be conveniently limited and clamped, the problem of unstable clamping caused by the shape problem when the ingot beam support is clamped is avoided, and can carry out clamping and transferring in different areas, thereby being convenient for a user to transfer the position of the ingot beam bracket after processing required by production and processing, meanwhile, the center of gravity of the whole clamping device can be adaptively adjusted according to the processing area of the ingot beam bracket, the stability of the whole clamping device in the use process is effectively kept, and the inclined angle clamping and limiting can be carried out according to the processing requirement of the ingot beam bracket, can concentrate through the centre gripping to transmit to one side to ingot roof beam support according to the processing completion condition simultaneously, convenient to use person takes.

1. The clamping device for producing the ingot beam support can be used for driving the push plates to move according to the shape and size of the ingot beam support and the requirement of a clamping position in the using process of the clamping device, the electric push rod and the push plates are symmetrically arranged relative to the central axis of the auxiliary platform, so that the distance between the two push plates can be effectively controlled, the reserved space between the two push plates can be flexibly controlled, a user can conveniently place the ingot beam support to be clamped in the clamping device, the ingot beam support can be effectively clamped through the design of pertinence adjustment of the two push plates according to the shape of the ingot beam support, and the problem of shaking generated in the processing and production process of the ingot beam support is effectively avoided;

2. according to the clamping device for producing the ingot beam support, the vertical rod and the switching auxiliary rod can be driven to synchronously rotate through the interaction of the servo motor and the connecting shaft, so that the switching auxiliary rod can be rotated, when the ingot beam support is clamped and machined at the upper end of the connecting platform by utilizing related clamping components in the vertical rod, the whole clamping device can be subjected to counterweight treatment according to the deviation direction of the vertical rod during machining of the ingot beam support, the gravity center of the whole clamping device can be automatically adjusted by utilizing the design of the counterweight block in the clamping device, a user can take out the counterweight block along the design of the limiting groove according to the clamping weight condition of an object, and the weight of the whole counterweight frame can be flexibly controlled;

3. the clamping device for producing the ingot beam bracket can carry out synchronous angle adjustment on the counterweight component connected with the switching auxiliary rod when a servo motor and a connecting shaft drive the vertical rod and the switching auxiliary rod to rotate when the counterweight frame is subjected to counterweight, the connecting spring connected with the bottom of the counterweight component can be matched with the switching auxiliary rod to rotate to carry out elastic adjustment, and meanwhile, the sliding block connected with the connecting spring can carry out synchronous position movement in the built-in slideway, so that the problem that the counterweight frame suspends to increase the larger load of the whole connecting shaft due to the rotation of the switching auxiliary rod when the clamping device is subjected to counterweight can be effectively avoided, the service life of the connecting shaft can be prolonged to a certain extent, and the design of the sliding block and the built-in slideway can effectively limit the position of the sliding block connected with the counterweight frame when the counterweight frame is subjected to position movement, the position stability of the counterweight frame is kept when the counterweight moves;

4. according to the clamping device for producing the shoe-shaped gold ingot beam support, the vertical rod is driven to rotate through the interaction between the servo motor and the connecting shaft, the position can be transferred according to the processing production condition when the shoe-shaped gold ingot beam support is clamped, the shoe-shaped gold ingot beam support after clamping processing production is convenient to place in a classified mode, the connecting plate bodies can be driven to move through the interaction between the fixing plate and the hydraulic air rod, the shoe-shaped gold ingot beam support can be limited and clamped through the movement of the position between the two connecting plate bodies, the structure is simple, manual operation of a user is not needed, and automation can be achieved;

5. the clamping device for producing the ingot beam support can lead a user to adjust the clamping area in advance according to the position and the shape of the ingot beam support which needs to be overhauled and clamped, can rotate the connecting shaft lever through the design of the mounting groove, thereby the position of the clamping plate body connected with the connecting shaft lever can be adjusted, the clamping plate body can be fixed by screwing the bolt after the position adjustment is finished, and the ingot beam bracket at the position of the cylindrical structure is convenient to be clamped and limited through the design of the shape structure of the clamping plate body, meanwhile, the position of the built-in movable plate can be moved along the design of the auxiliary guide channel according to the clamping area and the opposite position structure, the built-in movable plate penetrates out of the connecting plate body, and the built-in movable plate after adjustment is convenient to use and is matched with the interaction between the fixed plate and the hydraulic air rod at the same time, so that the ingot beam support can be stably clamped at certain specific positions.

Drawings

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

FIG. 2 is a schematic top view of an auxiliary platform according to the present invention;

FIG. 3 is a schematic view of the internal connection structure of the connection protection frame according to the present invention;

FIG. 4 is a schematic view of the internal connection structure of the shield of the present invention;

FIG. 5 is a schematic view of the internal structure of the stand according to the present invention;

FIG. 6 is an enlarged view of the portion A in FIG. 4 according to the present invention;

FIG. 7 is a schematic view of the connection structure of the angle plate of the present invention.

In the figure: 1. a base; 2. connecting a protective frame; 3. a support frame; 4. a joining platform; 5. an auxiliary platform; 6. a protective cover; 7. a vertical rod; 8. an angle scale; 9. an auxiliary component; 901. an electric push rod; 902. pushing the plate; 903. a rubber pad; 10. a horizontal axis; 11. a collection plate; 12. fastening the rotating shaft; 13. a clamping plate; 14. a silica gel pad is arranged inside; 15. an adjustment assembly; 1501. a fixing plate; 1502. a hydraulic gas lever; 16. a servo motor; 17. a connecting shaft; 18. transferring the auxiliary rod; 19. a counterweight assembly; 1901. a counterweight frame; 1902. a limiting groove; 1903. a balancing weight; 20. an engagement assembly; 2001. a connecting spring; 2002. connecting the bottom plates; 2003. a slider; 21. a built-in slideway; 22. connecting plate bodies; 23. mounting grooves; 24. connecting the shaft lever; 25. clamping the plate body; 26. an auxiliary guide way; 27. a movable plate is arranged inside; 28. connecting the side blocks; 29. a shaft body.

Detailed Description

Referring to fig. 1 to 7, the present invention provides a technical solution: a clamping device for producing a shoe-shaped ingot beam support comprises a base 1, a connecting protective frame 2, a support frame 3, a linking platform 4, an auxiliary platform 5, a protective cover 6, a vertical rod 7, an angle scale 8, an auxiliary assembly 9, an electric push rod 901, a push plate 902, a rubber pad 903, a transverse shaft 10, a gathering plate 11, a fastening rotating shaft 12, a clamping plate 13, a built-in silica gel pad 14, an adjusting assembly 15, a fixing plate 1501, a hydraulic air rod 1502, a servo motor 16, a connecting shaft 17, a switching auxiliary rod 18, a counterweight assembly 19, a counterweight frame 1901, a limiting groove 1902, a counterweight 1903, a linking assembly 20, a connecting spring 2001, a linking bottom plate 2002, a sliding block 2003, a built-in slideway 21, a linking plate body 22, a mounting groove 23, a connecting shaft rod 24, a clamping plate body 25, an auxiliary guide channel 26, a built-in movable plate 27, a linking side block 28 and a shaft body 29, wherein the connecting protective frame 2 is arranged at the upper end of the base 1, and the support frame 3 is clamped at the upper end of the connecting protective frame 2, the upper end of the support frame 3 is fixedly connected with a linking platform 4, an auxiliary platform 5 is arranged inside the linking platform 4, two sides of the rear end of the linking platform 4 are connected with linking side blocks 28 in a welding mode, a shaft body 29 is arranged inside the linking side blocks 28 in a rotating mode, an angle scale 8 is arranged on the outer surface of the shaft body 29, an auxiliary assembly 9 used for clamping a Yuanbao beam support is arranged inside the auxiliary platform 5, the auxiliary assembly 9 comprises an electric push rod 901, a push plate 902 and a rubber pad 903, a push plate 902 is arranged outside the electric push rod 901, the rubber pad 903 is arranged on the end surface of the push plate 902, a protective cover 6 is arranged in the middle of the linking platform 4, a servo motor 16 is arranged inside the protective cover 6, the protective cover 6 is of a hollow structure in shape, a connecting shaft 17 is arranged outside the servo motor 16, and an auxiliary switching rod 18 is arranged at the lower outer end of the connecting shaft 17;

the specific operation is as follows, the clamping device can be driven to move the push plates 902 according to the size of the shape of the ingot beam support and the requirement of the clamping position in the using process, the electric push rod 901 can be used to drive the push plates 902 to move, and the electric push rod 901 and the push plates 902 are symmetrically arranged about the central axis of the auxiliary platform 5, so that the distance between the two push plates 902 can be effectively controlled, the space reserved between the two push plates 902 can be flexibly controlled, a user can conveniently place the ingot beam support to be clamped in the electric push rod 901, the ingot beam support can be effectively clamped by the design of performing targeted adjustment between the two push plates 902 according to the shape of the ingot beam support, the problem of shaking generated in the processing and production process of the ingot beam support can be effectively avoided, and the angle disc 8 can be rotated by the interaction of the connecting side block 28 and the shaft body 29, the rotation through angle scale 8 is convenient for the user to guide the collection to the ingot beam support after the production is ended, and usable angle scale 8's design can be observed the inclination of vertical pole 7 moreover, and the convenient to use person observes the ingot beam support length that carries out processing.

As shown in fig. 1, fig. 3 and fig. 4, a counterweight assembly 19 for balancing the support device is installed at the end of the adapter rod 18, and the counterweight assembly 19 includes a counterweight frame 1901, a limiting groove 1902 and a counterweight block 1903, the limiting groove 1902 is disposed inside the counterweight frame 1901, the counterweight block 1903 is slidably installed inside the limiting groove 1902, the limiting groove 1902 and the counterweight block 1903 are designed in a one-to-one correspondence manner, three sets of limiting grooves 1902 and counterweight block 1903 are disposed, and the limiting groove 1902 and the counterweight frame 1901 are of an integrated structure;

can drive vertical pole 7 and switching through the interact of servo motor 16 and connecting axle 17 and assist pole 18 to carry out synchronous rotation, thereby assist the rotation of pole 18 through the switching, can utilize the inside relevant centre gripping subassembly of vertical pole 7 to carry out centre gripping man-hour to the ingot beam support in linking up 4 upper ends of platform, can add man-hour partial direction of vertical pole 7 to whole clamping device carries out the counter weight according to the ingot beam support, inside design that utilizes balancing weight 1903 can carry out automatic position control to whole clamping device's focus, and can take out balancing weight 1903 according to the design that the centre gripping weight condition user to article can be along spacing groove 1902, the weight of whole counter weight frame 1901 of nimble control.

As shown in fig. 4, a connection assembly 20 for assisting movement of the counterweight frame 1901 is installed at a lower end of the counterweight assembly 19, the connection assembly 20 includes a connection spring 2001, a connection bottom plate 2002 and sliders 2003, the connection bottom plate 2002 is installed at the lower end of the connection spring 2001, the sliders 2003 are respectively arranged on two sides of the lower end of the connection bottom plate 2002, the connection bottom plate 2002 and the sliders 2003 are tightly attached, an internal slide rail 21 is installed at a tail end of the slider 2003, the internal slide rail 21 is in a "T" shape, the counterweight frame 1901 is overlapped with a vertical central axis of the connection spring 2001, and the connection springs 2001 are distributed at equal intervals;

when the counterweight frame 1901 is counterbalanced, the counterweight assembly 19 connected with the switching auxiliary rod 18 can be synchronously angularly adjusted when the servo motor 16 and the connecting shaft 17 drive the vertical rod 7 and the switching auxiliary rod 18 to rotate, the connecting spring 2001 connected with the bottom of the counterweight assembly 19 can be matched with the switching auxiliary rod 18 to rotate to elastically adjust, and the sliding block 2003 connected with the connecting spring 2001 can be synchronously moved in the built-in slideway 21, so that the problem that the counterweight frame 1901 is suspended to increase the large load of the whole connecting shaft 17 due to the rotation of the switching auxiliary rod 18 when the clamping device is counterbalanced can be effectively avoided, the service life of the connecting shaft 17 can be prolonged to a certain extent, and the design of the shape structures of the sliding block 2003 and the built-in slideway 21 can effectively limit the position of the sliding block 2003 connected with the counterweight frame 1901 when the counterweight frame 1901 is moved in position, the position of the counterweight frame 1901 is kept stable during counterweight movement.

As shown in fig. 3 and 4, a transverse shaft 10 is arranged on the inner surface of the support frame 3, a clamping plate 13 is rotatably mounted on the outer portion of the transverse shaft 10, a built-in silicone pad 14 is arranged on the inner surface of the clamping plate 13, a gathering plate 11 is mounted inside the tail end of the clamping plate 13, a fastening rotating shaft 12 is mounted on the inner thread of the gathering plate 11, an adjusting assembly 15 for adjusting the position is mounted on the surface of the vertical rod 7, the adjusting assembly 15 comprises a fixing plate 1501 and a hydraulic air rod 1502, the surface of the fixing plate 1501 is welded with the hydraulic air rod 1502, and the fixing plate 1501 and the hydraulic air rod 1502 are symmetrically arranged about the transverse central axis of the vertical rod 7;

through the interact between servo motor 16 and the connecting axle 17 drives the rotatory design of vertical pole 7, can carry out the forwarding of position according to the processing production condition when to the centre gripping of ingot beam support, be convenient for classify the ingot beam support after centre gripping processing production finishes and place, can drive linking plate body 22 through the interact between fixed plate 1501 and the hydraulic pressure gas pole 1502 and carry out the removal of position, can carry out spacing centre gripping to ingot beam support through the removal to position between two linking plate bodies 22 and handle, moreover, the steam generator is simple in structure, need not the manual operation of user, can automize and go on.

As shown in fig. 4, 5 and 6, a connecting plate 22 is disposed at an end of the hydraulic air rod 1502, a mounting groove 23 is disposed inside the connecting plate 22, a connecting shaft 24 is rotatably disposed inside the mounting groove 23, a clamping plate 25 is disposed at an end of the connecting shaft 24, the clamping plate 25 is arc-shaped, an auxiliary guide channel 26 is disposed on an outer surface of the connecting plate 22, a built-in movable plate 27 is slidably disposed inside the auxiliary guide channel 26, and the built-in movable plates 27 are equidistantly distributed with respect to a horizontal plane of the connecting plate 22;

the clamping area can be adjusted in advance by a user according to the position and the shape of the ingot beam support to be overhauled and clamped, the connecting shaft lever 24 can be rotated through the design of the mounting groove 23, so that the clamping plate body 25 connected with the connecting shaft lever 24 can be adjusted in position, and after the adjustment in position is finished, the clamping plate body can be fixed by screwing the bolt, and the ingot beam bracket with the cylindrical structure position is convenient to be clamped and limited through the design of the shape structure of the clamping plate body 25, while the built-in movable plate 27 can be positionally moved along the design of the auxiliary guide way 26 according to the clamping area and the different position structure, so that the built-in movable plate 27 passes through the connecting plate 22, the adjusted built-in movable plate 27 can be used to cooperate with the fixed plate 1501 and the hydraulic air rod 1502 to stably clamp the ingot beam support at certain positions.

In conclusion, when the clamping device for producing the ingot beam bracket is used, the clamping device can be selected to be independently used according to the use requirement, or the clamping device is arranged outside other devices to be matched with each other for use, when the clamping device is used in a matched mode, a user pulls the connecting protective frames 2 towards the outside, so that the two connecting protective frames 2 are separated from the supporting frame 3, then the clamping plate 13 can be rotated by taking the transverse shaft 10 as the center, the clamping plate 13 is placed outside a rod body required to be installed, the fastening rotating shaft 12 is arranged inside the assembling plate 11 in a threaded mode after the position adjustment is finished, then the clamping device can be locked by using a nut, the user can conveniently install the clamping device, when the clamping device is used, the electric push rod 901 can be used for driving the push plate 902 to move in position, and the electric push rods 901 and 902 are symmetrically arranged about the central axis of the auxiliary platform 5, thereby effectively controlling the distance between the two push plates 902, flexibly controlling the reserved space between the two push plates 902, facilitating the user to place the ingot beam bracket to be clamped in, effectively clamping the ingot beam bracket by the design of pertinence adjustment between the two push plates 902 according to the shape of the ingot beam bracket, simultaneously pre-adjusting the clamping area by the user, rotating the connecting shaft rod 24 by the design of the mounting groove 23, thereby adjusting the position of the clamping plate body 25 connected with the connecting shaft rod 24, fixing by screwing the bolt after the position adjustment is finished, facilitating the clamping and limiting of the ingot beam bracket with a cylindrical structure position by the design of the shape structure of the clamping plate body 25, and simultaneously moving the built-in movable plate 27 along the design of the auxiliary guide channel 26 according to the clamping area and the opposite position structure, the built-in movable plate 27 penetrates out of the connecting plate body 22, the built-in movable plate 27 after adjustment is convenient to use, the fixed plate 1501 and the hydraulic air rod 1502 are matched to interact with each other to stably clamp some specific positions of the ingot beam support, then the vertical rod 7 is driven to rotate through the interaction between the servo motor 16 and the connecting shaft 17, the position can be transferred according to the processing and production conditions during clamping of the ingot beam support, the ingot beam support after clamping and processing is convenient to be placed in a classified mode, meanwhile, the inclination angle of the vertical rod 7 can be observed through the design of the angle disc 8, a user can conveniently observe the length of the ingot beam support for processing, the connecting plate body 22 can be driven to move through the interaction between the fixed plate 1501 and the hydraulic air rod 1502, and the ingot beam support can be subjected to limiting and clamping treatment through the movement of the position between the two connecting plate bodies 22, finally, when the counterweight frame 1901 is counterbalanced, when the servo motor 16 and the connecting shaft 17 drive the vertical rod 7 and the switching auxiliary rod 18 to rotate, the counterweight assembly 19 connected with the switching auxiliary rod 18 can be synchronously adjusted in angle, the connecting spring 2001 connected with the bottom of the counterweight assembly 19 can be matched with the switching auxiliary rod 18 to rotate to be elastically adjusted, and meanwhile, the sliding block 2003 connected with the connecting spring 2001 can be synchronously moved in the built-in slideway 21, so that the problem that the counterweight frame 1901 is suspended to increase the large load of the whole connecting shaft 17 due to the rotation of the switching auxiliary rod 18 when the clamping device is counterbalanced can be effectively avoided, the service life of the connecting shaft 17 can be prolonged to a certain extent, and the design of the shape structures of the sliding block 2003 and the built-in slideway 21 can effectively limit the position of the sliding block 2003 connected with the counterweight frame 1901 when the counterweight frame 1901 is moved in position, keep the stability of counter weight frame 1901 position when carrying out the counter weight removal, when carrying out the counter weight, can drive vertical pole 7 and switching through servo motor 16 and connecting axle 17 interact and assist pole 18 and carry out synchronous rotation, thereby through the rotation to switching assistance pole 18, can utilize the inside relevant centre gripping subassembly of vertical pole 7 to carry out centre gripping man-hour to ingot beam support linking platform 4 upper end, can add man-hour according to ingot beam support and carry out the counter weight processing to whole clamping device with the partial direction of vertical pole 7, inside utilizes the design of balancing weight 1903 can carry out automatic position control to whole clamping device's focus, and can take out balancing weight 1903 along the design of spacing groove 1902 according to the centre gripping weight condition user to article, the weight of whole counter weight frame 1901 of nimble control.

Claims (7)

1. The utility model provides a clamping device is used in production of ingot roof beam support, a serial communication port, including base (1), vertical pole (7) and servo motor (16), the upper end of base (1) is provided with connects and protects frame (2), and connects the upper end card of protecting frame (2) and install support frame (3), the upper end fixedly connected with of support frame (3) links up platform (4), and links up the inside of platform (4) and be provided with auxiliary platform (5), it has linking side piece (28) to link up platform (4) rear end both sides welded connection, and the inside rotation that links up side piece (28) is provided with axis body (29), the outside surface mounting of axis body (29) has angle scale (8), the inside of auxiliary platform (5) is provided with and is used for carrying out auxiliary assembly (9) of centre gripping to ingot roof beam support, and auxiliary assembly (9) include electric putter (901), The electric push rod (901) is externally provided with a push plate (902), the end surface of the push plate (902) is provided with a rubber pad (903), the middle of the connecting platform (4) is provided with a protective cover (6), the servo motor (16) is arranged inside the protective cover (6), the protective cover (6) is of a hollow structure, the servo motor (16) is externally provided with a connecting shaft (17), the lower end of the outer part of the connecting shaft (17) is provided with a switching auxiliary rod (18), the tail end of the switching auxiliary rod (18) is provided with a counterweight assembly (19) for balancing the supporting device, the counterweight assembly (19) comprises a counterweight frame (1901), a limiting groove (1902) and a counterweight block (1903), the counterweight frame (1901) is internally provided with a limiting groove (1902), and the counterweight block (1903) is slidably arranged inside the limiting groove (1902), the lower end of the counterweight component (19) is provided with a connecting component (20) used for assisting in moving the counterweight frame (1901), the connecting component (20) comprises a connecting spring (2001), a connecting bottom plate (2002) and a sliding block (2003), the lower end of the connecting spring (2001) is provided with the connecting bottom plate (2002), the sliding blocks (2003) are arranged on two sides of the lower end of the connecting bottom plate (2002), the surface of the vertical rod (7) is provided with an adjusting component (15) used for adjusting the position, the adjusting component (15) comprises a fixing plate (1501) and a hydraulic air rod (1502), the surface of the fixing plate (1501) is connected with the hydraulic air rod (1502) in a welding mode, the fixing plate (1501) and the hydraulic air rod (1502) are symmetrically arranged on the transverse central axis of the vertical rod (7), the switching auxiliary rod (18) is fixedly connected with the counterweight frame (1901), and the switching auxiliary rod (18) is of a cylindrical structure, the vertical central axis of the switching auxiliary rod (18) is coincident with the vertical central axis of the vertical rod (7).

2. The clamping device for ingot beam support production of claim 1, wherein the limiting grooves (1902) and the balancing weights (1903) are designed in a one-to-one correspondence manner, three sets of limiting grooves (1902) and balancing weights (1903) are provided, and the limiting grooves (1902) and the balancing weights (1901) are of an integrated structure.

3. The clamping device for the ingot beam bracket production as claimed in claim 1, wherein the engagement bottom plate (2002) is closely attached to the sliding block (2003), the end of the sliding block (2003) is provided with the built-in slideway (21), and the built-in slideway (21) is in a T-shaped structure.

4. The clamping device for ingot beam support production as claimed in claim 1, wherein the weight frame (1901) coincides with the vertical central axis of the connecting springs (2001), and the connecting springs (2001) are distributed equidistantly.

5. The clamping device for ingot beam support production according to claim 1, wherein the inner surface of the supporting frame (3) is provided with a cross shaft (10), the outer part of the cross shaft (10) is rotatably provided with a clamping plate (13), the inner surface of the clamping plate (13) is provided with a built-in silica gel pad (14), the tail end of the clamping plate (13) is internally provided with an aggregation plate (11), and the inner thread of the aggregation plate (11) is provided with a fastening rotating shaft (12).

6. The clamping device for ingot beam support production according to claim 1, wherein the end of the hydraulic air rod (1502) is provided with a connecting plate body (22), a mounting groove (23) is installed inside the connecting plate body (22), a connecting shaft rod (24) is rotatably installed inside the mounting groove (23), the end of the connecting shaft rod (24) is provided with a clamping plate body (25), and the clamping plate body (25) is in an arc shape.

7. The clamping device for ingot beam support production according to claim 6, wherein an auxiliary guide channel (26) is installed on the outer surface of the connecting plate body (22), and a built-in movable plate (27) is slidably installed inside the auxiliary guide channel (26), and the built-in movable plate (27) is equidistantly distributed with respect to the horizontal plane of the connecting plate body (22).

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