CN117722006A - Splicing device and splicing method for steel templates of constructional engineering - Google Patents

Abstract

The utility model discloses a splicing device and a splicing method for a steel template of a building engineering, comprising a base table, wherein the top of the base table is provided with a driving mechanism, the splicing device also comprises an automatic splicing mechanism at the top of the base table, the automatic splicing mechanism comprises two hollow carrying cases which are slidably arranged at the top of the base table and are oppositely arranged, the hollow carrying cases are provided with splicing grooves, the interiors of the hollow carrying cases are slidably connected with sliding carrying plates, the tops of the sliding carrying plates and the hollow carrying cases are respectively provided with a plurality of universal balls with the same height, the tops of the hollow carrying cases are fixedly connected with a retaining plate, and the hollow carrying cases are provided with limiting mechanisms; the steel forms are horizontally laid on the universal balls and are spliced quickly in the splicing groove, the driving mechanism drives the two hollow carrying boxes and the steel forms above the two hollow carrying boxes to slide in opposite directions to close, and the two hollow carrying boxes are synchronously limited by the limit mechanism to realize accurate splicing of the two lateral steel forms.

Description

Splicing device and splicing method for steel templates of constructional engineering

Technical Field

The utility model belongs to the technical field of steel form splicing auxiliary devices, and particularly relates to a building engineering steel form splicing device and a splicing method.

Background

The steel template is used for concrete pouring and forming, and besides the steel template, a wood template, a plywood template and the like are also used. The steel form is widely applied to the constructional engineering by the characteristics of repeated use, beautiful concrete pouring and forming, and the like.

The steel forms are different according to the user demand and are formed by a plurality of different forms, wherein for the columnar steel forms commonly used, the columnar steel forms are mainly composed of a steel form main body and a splicing block as shown in fig. 1 in the prior art, when the columnar steel forms are used, the two steel forms are clamped, and then are spliced and fixed through a splicing speed and bolts.

Because the quality of steel forms is heavier, be difficult to dock two accurate compound die of steel forms together through the manpower, consequently need to use splicing device to assist the compound die of steel forms. For example, chinese patent of publication No. CN213837757U discloses a device for quickly positioning and accurately assembling steel templates, which belongs to the technical field of steel template assembling devices, and comprises a bottom plate, wherein the rear end of the bottom plate is connected with a backup plate, the front wall of the backup plate is provided with a screw rod groove, a screw rod is arranged in the screw rod groove, the left and right outer walls of the screw rod are symmetrically sleeved with two assembling components, the left outer wall of the backup plate is penetrated with a handle, and by arranging the bottom plate, balls are arranged on the bottom plate, so that the steel templates on the movable bottom plate are relatively labor-saving, and by arranging a screw rod provided with two external threads with opposite rotation directions, the screw rod can drive the two assembling components to move in opposite directions when rotating, and push the two steel templates to the middle, so that the two steel templates are accurately assembled together; however, for the columnar steel templates, the clamping and splicing of the two steel templates can only be realized in an upright mode due to the 'splicing blocks' on the side surfaces of the columnar steel templates, and the clamping of the two steel templates in an upright mode requires manual work to erect the steel templates firstly and then move to a splicing device in an upright posture, so that in the process of erecting the steel templates and transferring the upright steel templates, the steel templates have heavy mass and fewer manpower-stressed positions, and therefore, the large potential safety hazard exists. Therefore, there is a need for a splicing device suitable for splicing columnar steel forms.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides the following technical scheme:

the splicing device comprises a base table, a driving mechanism is arranged at the top of the base table, an automatic splicing mechanism at the top of the base table is further arranged, the automatic splicing mechanism comprises two hollow carrying boxes which are slidably arranged at the top of the base table and are oppositely arranged, splicing grooves are formed in the hollow carrying boxes, sliding carrying plates are slidably connected inside the hollow carrying boxes, a plurality of universal balls with the same height are arranged at the tops of the sliding carrying plates and the hollow carrying boxes, a retaining plate is fixedly connected at the top of the hollow carrying boxes, and a limiting mechanism is arranged on the hollow carrying boxes;

the steel forms are horizontally laid on the universal balls and are spliced quickly in the splicing groove, the driving mechanism drives the two hollow carrying boxes and the steel forms above the two hollow carrying boxes to slide in opposite directions to close, and the two hollow carrying boxes are synchronously limited by the limit mechanism to realize accurate splicing of the two lateral steel forms.

The splicing device is suitable for splicing columnar steel templates, when the splicing device is used for splicing, the steel templates are manually turned into lateral horizontal type steel templates, then the lateral horizontal type steel templates are conveyed to the positions above a plurality of universal balls from between two hollow carrying boxes, then the lateral horizontal type steel templates are horizontally moved to one side close to a resisting plate under the rolling auxiliary action of the universal balls, meanwhile, the splicing is quickly carried into a splicing groove, and the other steel templates matched with the mould are conveyed to the tops of the opposite sliding carrying boards and the hollow carrying boxes in the same way; the steel template is carried at the bottom in a lateral lying mode, so that the manual stress position is large, the carrying is more convenient, and the potential safety hazard is reduced; after placing the steel templates, the driving mechanism drives the two hollow carrying boxes and the horizontal steel templates above the two hollow carrying boxes to slide oppositely and close, and the two horizontal steel templates are matched with the synchronous limiting of the limiting mechanism to realize accurate splicing of the two horizontal steel templates.

As the optimization of the technical scheme, the top of the hollow carrying box is provided with the rectangular guide groove, and the rectangular guide groove is matched with the universal balls at the top of the sliding carrying plate.

When the driving mechanism drives the two sliding carrier plates and the hollow carrier box to close to each other, the sliding carrier plates retract into the hollow carrier box, and at the moment, the rectangular guide grooves can prevent the top of the hollow carrier box from blocking the universal balls at the top of the sliding carrier plates.

As the preferable choice of the technical proposal, the edge part of the inner cavity of the hollow carrying box is fixedly provided with a top block.

By arranging the ejector block, the auxiliary supporting function of the inner cavity of the hollow carrying box is achieved, and the hollow carrying box is prevented from being deformed under pressure due to the high weight of the steel template.

As the preferable of the technical scheme, the driving mechanism comprises an electric machine carrier, a motor, a bidirectional threaded rod and a threaded connecting block;

the motor carrier is fixedly connected to the top of the base table, the motor is fixedly installed at the top of the motor carrier, the two threaded connection blocks are respectively and fixedly installed on one sides of the two hollow carrier boxes, which are far away from each other, the two-way threaded rod is in threaded connection with the two threaded connection blocks, and one end of the two threaded connection blocks is fixed with an output shaft of the motor.

The working principle of the driving mechanism in the utility model is as follows: the motor works to drive the bidirectional threaded rod to rotate, and the bidirectional threaded rod rotates to drive the two threaded connecting blocks to move towards the direction of approaching or separating from each other, so that the two hollow carrying boxes are driven to move towards the direction of approaching or separating from each other.

As the optimization of the technical scheme, the axial cylindrical through hole is formed in the middle of the hollow carrying box and the sliding carrying plate, the bearing is installed in the inner cavity of the cylindrical through hole, and the inner ring of the bearing is fixedly sleeved on the periphery of the bidirectional threaded rod.

The cylindrical through hole is convenient for the passage of the bidirectional threaded rod, and the bearing is arranged, so that the position and the rotation operation stability of the bidirectional threaded rod are further ensured.

As the optimization of the technical scheme, one side, close to each other, of each sliding carrier plate is fixedly connected with a hook slat, the two opposite hook slats are mutually buckled, one side, close to each other, of each sliding carrier plate is provided with a notch, and the notch is used for accommodating the opposite hook slat.

When the driving mechanism drives the hollow carrying cases to move towards the direction of approaching each other, the opposite hook strips enter the notch, the two sliding carrying plates are propped against each other to retract into the hollow carrying cases, and when the driving mechanism drives the hollow carrying cases to slide back to the initial position, the opposite hook strips are buckled with each other, and the sliding carrying plates are pulled by each other to slide out from the hollow carrying cases to the initial position.

As the optimization of the technical scheme, the section of the sliding carrier plate is T-shaped, and the limiting mechanism comprises a limiting plate, a connecting block and a switching rod;

the limiting plate is slidably mounted at the top of the hollow carrying box, the connecting block is slidably connected to the inner wall of the bottom of the hollow carrying box and is fixed to the bottom of the limiting plate, one end of the switching rod is rotatably connected with the connecting block, and the other end of the switching rod is rotatably connected with the sliding carrying plate.

The working principle of the limiting mechanism is as follows: in the process of die assembly of the steel die, the driving mechanism drives the two hollow carrying cases to move towards the direction close to each other, the two sliding carrying plates are propped against each other and slide towards the inside of the sliding carrying plates, at the moment, under the switching action of the switching rod and the connecting action of the connecting block, the two limiting plates on the top of the same hollow carrying case are driven to move towards the direction close to each other, so that the steel die is limited and extruded from two sides, and the two sides of the steel die can be limited by matching with the rolling of universal balls, so that the accuracy of the positions of the two steel die plates during die assembly is ensured.

As the optimization of the technical scheme, the top of the hollow carrying box is fixedly connected with a sliding block plate, and the sliding block plate is slidably connected to the top of the base table.

Through setting up the slider board and not only playing the effect of hollow carrying case auxiliary slip, can suitably raise the height of hollow carrying case moreover, after two steel forms compound die like this, the concatenation piece on two steel forms is not only in same axis position, makes its also have certain high distance apart from the base table top through the lifting of slider board moreover to the staff of being convenient for uses the bolt to splice the installation to the concatenation piece.

The splicing method of the splicing device for the constructional engineering steel templates comprises the following steps:

s1, placing a steel template: firstly, manually overturning a steel template into a lateral horizontal type, then carrying the lateral horizontal type steel template from between two hollow carrying boxes to above a plurality of universal balls, translating the lateral horizontal type steel template to one side close to a resisting plate under the rolling auxiliary action of the universal balls, enabling splicing to quickly enter a splicing groove, and carrying the other matched steel template to the tops of the opposite sliding carrying plates and the hollow carrying boxes in the same way;

s2, splicing the steel templates: the driving mechanism drives the two hollow carrying boxes and the lateral horizontal steel templates above the two hollow carrying boxes to slide oppositely and close, and the two lateral horizontal steel templates are accurately spliced by matching with synchronous limiting of the limiting mechanism.

The beneficial effects of the utility model are as follows:

1. the splicing device is suitable for splicing columnar steel templates, when the splicing device is used for splicing, the steel templates are manually turned into lateral horizontal type steel templates, then the lateral horizontal type steel templates are conveyed to the positions above a plurality of universal balls from between two hollow carrying boxes, then the lateral horizontal type steel templates are horizontally moved to one side close to a resisting plate under the rolling auxiliary action of the universal balls, meanwhile, the splicing is quickly carried into a splicing groove, and the other steel templates matched with the mould are conveyed to the tops of the opposite sliding carrying boards and the hollow carrying boxes in the same way; the steel template is carried at the bottom in a lateral lying mode, so that the manual stress position is large, the carrying is more convenient, and the potential safety hazard is reduced; after the steel templates are placed, the driving mechanism drives the two hollow carrying boxes and the horizontal steel templates above the two hollow carrying boxes to slide oppositely and close, and the two horizontal steel templates are matched with synchronous limiting of the limiting mechanism so as to realize accurate splicing of the two horizontal steel templates;

2. through setting up the slider board and not only playing the effect of hollow carrying case auxiliary slip, can suitably raise the height of hollow carrying case moreover, after two steel forms compound die like this, the concatenation piece on two steel forms is not only in same axis position, makes its also have certain high distance apart from the base table top through the lifting of slider board moreover to the staff of being convenient for uses the bolt to splice the installation to the concatenation piece.

Drawings

FIG. 1 is a schematic view of a cylindrical steel form;

FIG. 2 is a schematic perspective view of the present utility model;

FIG. 3 shows an enlarged view at A in the present utility model;

FIG. 4 is a schematic view showing the internal structure of the hollow carrying case in the utility model;

fig. 5 shows a schematic bottom view of the hollow carrier box in the utility model.

Reference numerals

10. A base table; 20. a driving mechanism; 21. a motor carrier; 22. a motor; 23. a two-way threaded rod; 24. a threaded connecting block; 30. an automatic splicing mechanism; 31. a hollow carrying case; 32. sliding the carrier plate; 33. a universal ball; 34. a retaining plate; 35. a hooked strip; 36. a splice groove; 37. a notch; 38. a top block; 40. a limiting mechanism; 41. a limiting plate; 42. a connecting block; 43. a transfer rod; 50. a slider plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the embodiments.

As shown in fig. 2

The device comprises a base table 10, a driving mechanism 20 is arranged at the top of the base table 10, the splicing device further comprises an automatic splicing mechanism 30 at the top of the base table 10, the automatic splicing mechanism 30 comprises two hollow carrying cases 31 which are slidably arranged at the top of the base table 10 and are oppositely arranged, splicing grooves 36 are formed in the hollow carrying cases 31, sliding carrying plates 32 are slidably connected inside the hollow carrying cases 31, a plurality of universal balls 33 with the same height are arranged at the tops of the sliding carrying plates 32 and the hollow carrying cases 31, a retaining plate 34 is fixedly connected at the top of the hollow carrying cases 31, and a limiting mechanism 40 is arranged on the hollow carrying cases 31;

the steel templates lie horizontally on the universal balls 33 and are spliced quickly in the splicing groove 36, the driving mechanism 20 drives the two hollow carrying boxes 31 and the steel templates above the two hollow carrying boxes to slide oppositely and close, and the two horizontal steel templates are matched with the synchronous limiting of the limiting mechanism 40 so as to realize accurate splicing of the two horizontal steel templates.

The splicing device is suitable for splicing columnar steel templates, during splicing, the steel templates are manually turned to be lateral, then the lateral steel templates are conveyed to the positions above the universal balls 33 from between the two hollow carrying boxes 31, then the lateral steel templates are translated to one side close to the abutting plate 34 under the rolling auxiliary action of the universal balls 33, meanwhile, the splicing is fast carried into the splicing groove 36, and the other steel templates matched with the mold are conveyed to the tops of the opposite sliding carrying plates 32 and the hollow carrying boxes 31 in the same way; the steel template is carried at the bottom in a lateral lying mode, so that the manual stress position is large, the carrying is more convenient, and the potential safety hazard is reduced; after the steel templates are placed, the driving mechanism 20 drives the two hollow carrying boxes 31 and the lateral horizontal steel templates above the two hollow carrying boxes to slide oppositely and close, and the two lateral horizontal steel templates are accurately spliced by matching with synchronous limiting of the limiting mechanism 40.

A rectangular guide groove is formed in the top of the hollow carrier box 31, and the rectangular guide groove is matched with a universal ball 33 on the top of the sliding carrier plate 32; when the driving mechanism 20 drives the two sliding carrier plates 32 and the hollow carrier box 31 to close to each other, the sliding carrier plates 32 retract into the hollow carrier box 31, and the rectangular guide grooves can prevent the top of the hollow carrier box 31 from blocking the universal balls 33 on the top of the sliding carrier plates 32.

The driving mechanism 20 comprises a motor carrier 21, a motor 22, a bidirectional threaded rod 23 and a threaded connecting block 24; the motor carrier 21 is fixedly connected to the top of the base table 10, the motor 22 is fixedly arranged on the top of the motor carrier 21, the two threaded connecting blocks 24 are respectively and fixedly arranged on one sides of the two hollow carrier boxes 31, which are far away from each other, the two-way threaded rod 23 is in threaded connection with the two threaded connecting blocks 24, and one end of the two threaded connecting blocks is fixed with an output shaft of the motor 22; the driving mechanism 20 of the present utility model operates in the following manner: the motor 22 operates to drive the bi-directional threaded rod 23 to rotate, and the bi-directional threaded rod 23 rotates to drive the two threaded connection blocks 24 to move toward or away from each other, thereby driving the two hollow carrier boxes 31 to move toward or away from each other.

The middle parts of the hollow carrier box 31 and the sliding carrier plate 32 are provided with axial cylindrical through holes, the inner cavity of each cylindrical through hole is provided with a bearing, and the inner ring of each bearing is fixedly sleeved on the periphery of the bidirectional threaded rod 23; the cylindrical through hole is convenient for the passage of the bidirectional threaded rod 23, and the position and the rotation operation stability of the bidirectional threaded rod 23 are further ensured by arranging the bearing.

As shown in fig. 3

The two sliding carrier plates 32 are fixedly connected with the hooked strip plates 35 on the sides close to each other, the two opposite hooked strip plates 35 are mutually buckled, the notches 37 are formed on the sides close to each other of the two sliding carrier plates 32, and the notches 37 are used for accommodating the opposite hooked strip plates 35; when the driving mechanism 20 drives the two hollow boxes 31 to move toward each other, the opposing hook strips 35 enter the notches 37, the two slide carriers 32 are pressed against each other to retract into the interior of the hollow boxes 31, and when the driving mechanism 20 drives the hollow boxes 31 to slide back to the initial position, the opposing hook strips 35 are caught by each other, and pull the slide carriers 32 from the interior of the hollow boxes 31 to slide out to the initial position.

As shown in fig. 4

A top block 38 is fixedly arranged at the edge part of the inner cavity of the hollow carrying box 31; by arranging the top block 38, the auxiliary supporting function of the inner cavity of the hollow carrying box 31 is realized, and the hollow carrying box 31 is prevented from being pressed and deformed due to the high weight of the steel template.

The section of the sliding carrier plate 32 is T-shaped, and the limiting mechanism 40 comprises a limiting plate 41, a connecting block 42 and a switching rod 43; the limiting plate 41 is slidably mounted on the top of the hollow carrying case 31, the connecting block 42 is slidably connected to the inner wall of the bottom of the hollow carrying case 31 and is fixed with the bottom of the limiting plate 41, one end of the switching rod 43 is rotationally connected with the connecting block 42, and the other end of the switching rod is rotationally connected with the sliding carrying plate 32; the limiting mechanism 40 works in the following principle: in the process of die assembly of the steel forms, the driving mechanism 20 drives the two hollow carrier boxes 31 to move towards the direction of approaching each other, the two sliding carrier plates 32 are propped against each other and slide towards the inside of the sliding carrier plates 32, at the moment, under the switching action of the switching rod 43 and the connecting action of the connecting block 42, the two limiting plates 41 on the top of the same hollow carrier box 31 are driven to move towards the direction of approaching each other, so that the steel forms are limited and extruded from two sides, and the two sides of the steel forms can be limited by matching with the rolling of the universal balls 33, so that the accuracy of the positions of the two steel forms during die assembly is ensured.

As shown in fig. 5

The top of the hollow carrying box 31 is fixedly connected with a sliding block plate 50, and the sliding block plate 50 is slidably connected to the top of the bottom table 10; through setting up slider board 50 not only plays the effect of hollow carrying case 31 auxiliary slip, can suitably raise the height of hollow carrying case 31 moreover, like this after two steel forms compound die, the concatenation piece on two steel forms is not only in same axis position, makes its certain altitude distance apart from the base frame 10 top also through the lifting of slider board 50 moreover to the staff uses the bolt to splice the installation to the concatenation piece of being convenient for.

The splicing method of the splicing device for the constructional engineering steel templates comprises the following steps:

s1, placing a steel template: firstly, manually overturning a steel template into a lateral horizontal type, then carrying the lateral horizontal type steel template from between two hollow carrying boxes 31 to above a plurality of universal balls 33, then translating the lateral horizontal type steel template to one side close to a retaining plate 34 under the rolling auxiliary action of the universal balls 33, enabling splicing to enter a splicing groove 36 quickly, and carrying the other matched steel template to the tops of the opposite sliding carrying plates 32 and the hollow carrying boxes 31 in the same way;

s2, splicing the steel templates: the driving mechanism 20 drives the two hollow carrying boxes 31 and the lateral horizontal steel templates above the two hollow carrying boxes to slide oppositely and close, and the two lateral horizontal steel templates are accurately spliced by matching with synchronous limiting of the limiting mechanism 40.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting.

Claims (9)

1. The utility model provides a building engineering steel template splicing device, including base table (10), base table (10) top is provided with actuating mechanism (20), its characterized in that, splicing device still includes base table (10) top's automatic splicing mechanism (30), automatic splicing mechanism (30) are including two hollow carrying case (31) that slidable mounting is at base table (10) top and opposite direction set up, splice groove (36) have been seted up on hollow carrying case (31), hollow carrying case (31) inside sliding connection has sliding carrier plate (32), sliding carrier plate (32) and hollow carrying case (31) top all install a plurality of universal balls (33) of equiheight, hollow carrying case (31) top fixedly connected with butt plate (34), be provided with stop gear (40) on hollow carrying case (31);

the steel forms lie on the universal balls (33) horizontally and are spliced quickly in the splicing groove (36), the driving mechanism (20) drives the two hollow carrying boxes (31) and the steel forms above the two hollow carrying boxes and horizontally on the sides of the two hollow carrying boxes to slide oppositely and close, and the synchronous limiting of the limiting mechanism (40) is matched to realize the accurate splicing of the two lateral steel forms.

2. The splicing device for the steel templates of the constructional engineering according to claim 1, wherein a rectangular guide groove is formed in the top of the hollow carrying case (31), and the rectangular guide groove is matched with a universal ball (33) on the top of the sliding carrying plate (32).

3. The splicing device for building engineering steel templates according to claim 1, wherein a top block (38) is fixedly arranged at the edge part of the inner cavity of the hollow carrying box (31).

4. The building engineering steel form splicing device according to claim 1, wherein the driving mechanism (20) comprises a motor carrier (21), a motor (22), a bidirectional threaded rod (23) and a threaded connection block (24);

the motor carrier (21) is fixedly connected to the top of the base table (10), the motor (22) is fixedly arranged on the top of the motor carrier (21), the two threaded connecting blocks (24) are respectively and fixedly arranged on one sides of the two hollow carrier boxes (31) which are far away from each other, the two-way threaded rod (23) is in threaded connection with the two threaded connecting blocks (24), and one end of the two threaded connecting blocks is fixed with an output shaft of the motor (22).

5. The splicing device for building engineering steel templates according to claim 4, wherein axial cylindrical through holes are formed in the middle of the hollow carrying box (31) and the sliding carrying plate (32), bearings are mounted in inner cavities of the cylindrical through holes, and inner rings of the bearings are fixedly sleeved on the periphery of the bidirectional threaded rod (23).

6. The splicing device for constructional engineering steel templates according to claim 1, wherein two sides of the sliding carrier plates (32) close to each other are fixedly connected with hooked strips (35), the two opposite hooked strips (35) are mutually buckled, notches (37) are formed in the sides of the two sliding carrier plates (32) close to each other, and the notches (37) are used for accommodating the opposite hooked strips (35).

7. The splicing device for the constructional engineering steel templates according to claim 1, wherein the cross section of the sliding carrier plate (32) is T-shaped, and the limiting mechanism (40) comprises a limiting plate (41), a connecting block (42) and a switching rod (43);

limiting plate (41) slidable mounting is at the top of hollow year case (31), and connecting block (42) sliding connection is on the bottom inner wall of hollow year case (31) and fixed mutually with the bottom of limiting plate (41), and the one end and the connecting block (42) rotation of transfer pole (43) are connected, and the other end and the rotation of slip carrier plate (32) are connected.

8. The building engineering steel form splicing device according to claim 1, wherein a sliding block plate (50) is fixedly connected to the top of the hollow carrying box (31), and the sliding block plate (50) is slidably connected to the top of the base table (10).

9. A splicing method applied to the splicing device for the constructional engineering steel templates according to any one of claims 1 to 8, characterized in that the splicing method comprises the following steps:

s1, placing a steel template: firstly, manually overturning a steel template into a lateral horizontal type, then carrying the lateral horizontal type steel template from between two hollow carrying boxes (31) to the positions above a plurality of universal balls (33), then translating the lateral horizontal type steel template to the side close to a retaining plate (34) under the rolling auxiliary effect of the universal balls (33) and enabling splicing to quickly enter a splicing groove (36), and carrying the other matched steel template to the tops of the opposite sliding carrying plates (32) and the hollow carrying boxes (31) in the same way;

s2, splicing the steel templates: the driving mechanism (20) drives the two hollow carrying boxes (31) and the horizontal steel templates above the two hollow carrying boxes to slide oppositely and close, and the two horizontal steel templates are matched with the synchronous limiting of the limiting mechanism (40) to realize accurate splicing of the two horizontal steel templates.