CN219746154U - Lacing wire double-drive extrusion correction device for assembled building - Google Patents

Abstract

The utility model relates to the field of lacing wire correction equipment for buildings, in particular to a lacing wire double-drive extrusion correction device for assembled buildings, which comprises a lower support frame, a working platform, an installation frame, a left extrusion correction mechanism, a right extrusion correction mechanism and an upper bearing part and a lower bearing part of a workpiece, wherein the bottom of the lower support frame is arranged on the working ground, the upper part of the lower support frame is provided with the working platform, the working platform and the lower support frame are fixedly welded together, the upper part of the working platform is provided with the installation frame, and the lacing wire is corrected by adopting an adjustable double-side extrusion mode, namely: the interval distance between the correction execution components can be realized through the adjustment operation of the interval adjustment component, so that stable and reliable correction pressure meeting the requirements can be provided for the lacing wire during correction.

Description

Lacing wire double-drive extrusion correction device for assembled building

Technical Field

The utility model relates to the field of lacing wire correction equipment for buildings, in particular to a lacing wire double-drive extrusion correction device for an assembled building.

Background

Specifically, the assembled building is a novel building production mode with sustainable development characterized by standardized design, industrial production, assembly construction, integrated decoration and informatization management by taking the prefabricated production of a component factory and the on-site assembly installation as a mode, and has the characteristics of high construction efficiency, convenience in makeup removal and recycling. In the prior art, tie bars are often used as structural components in an assembled building structure, in order to ensure the requirement of field installation and use in the later stage, the requirement on linearity index of the tie bars is higher, and when the conventional tie bar correction device is used, the correction pressure of the tie bars is insufficient (such as a frame type steel bar straightening device with the application number of CN201921399004.6 and an electric automatic steel bar straightening machine with the application number of CN 202010508018.8) easily caused by the problem of self abrasion of a correction wheel, so that the requirement on technical parameters after the correction of the tie bars cannot be ensured, and the installation and use in the later stage are greatly influenced.

Disclosure of Invention

The utility model aims to provide a tie bar double-drive extrusion correction device for an assembled building, which can correct tie bars in an adjustable double-side extrusion mode in a specific operation and use process, can provide stable and reliable correction pressure meeting requirements for the tie bars during correction, and further ensures that the corrected tie bars can meet the subsequent installation and use requirements;

in order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an assembled is lacing wire double drive extrusion correcting unit for building, includes, lower braced frame, work platform, mounting frame, left side extrusion correcting mechanism, right side extrusion correcting mechanism and work piece upper and lower carrier part, lower braced frame's bottom installation arrange on work ground, install work platform in lower braced frame's upper portion, work platform welds together with lower braced frame admittedly, installs the mounting frame in work platform's upper portion, left side extrusion correcting mechanism install in mounting frame's left side position and together with mounting frame fixed mounting, right side extrusion correcting mechanism install in mounting frame's right side position and together with mounting frame fixed mounting, install work piece upper and lower carrier part on lower braced frame, work piece upper and lower carrier part link to each other with lower braced frame is fixed.

The left extrusion correcting mechanism and the right extrusion correcting mechanism have the same structure, and are symmetrically arranged on the mounting frame.

The left side extrusion correction mechanism and the right side extrusion correction mechanism both include, interval adjustment closes piece, installation drive frame, correction execution and closes a mount pad, interval adjustment integration piece install the left side both sides position on the installing frame, install at interval adjustment integration piece's inboard position and install and drive the frame, the installation drives the frame and can carry out X under interval adjustment and close the drive of piece and to adjust, install on the installation drive frame and close a mount pad to carry out, correction execution close the piece and install on closing a mount pad and close a mount pad fastening together with the execution.

The interval adjustment integration piece comprises an adjustment support, an adjustment screw rod, a guide rod and an adjustment screw sleeve, wherein the adjustment support is fixedly arranged on the installation frame, the adjustment screw sleeve is arranged on the adjustment support, a threaded through hole is formed in the adjustment screw sleeve, the adjustment screw rod is arranged in the threaded through hole in a threaded fit mode, the guide rod is arranged on the inner side of the adjustment support, and one end of the guide rod is fixedly connected with the adjustment support.

Furthermore, an adjusting hand wheel is arranged at the outer side end of the adjusting screw rod, and the adjusting hand wheel is fixedly arranged with the outer side end of the adjusting screw rod.

The two sides of the installation driving frame are provided with smooth through holes, the installation driving frame is arranged on the guide rod through the smooth through holes and is in damping sliding contact with the guide rod, the bearing seat is arranged at the middle part of the installation driving frame, the bearing is arranged in the supporting seat, and the inner side end of the adjusting screw is arranged at the inner ring part of the bearing in a tight fit manner.

The correction execution assembly comprises a driving motor, a rotating shaft, a correction wheel body and a driving wheel disc, wherein a guide sliding rail is arranged on the upper portion of an installation frame, a sliding block is arranged on the guide sliding rail and is clamped and installed on the guide sliding rail in a sliding mode, the side face of the driving motor is installed on the sliding block, the rotating shaft is installed on an execution assembly installation seat through a bearing, the driving wheel disc is installed on the rotating shaft, the correction wheel body is fixedly installed on the driving wheel disc, and the outer end of the rotating shaft is connected with the power output end of the driving motor.

The beneficial effects of the utility model are as follows: the tie bar double-drive extrusion correction device for the fabricated building has the advantages of scientific overall structural design, simple and convenient installation, operation and use, and the tie bar double-drive extrusion correction device for the fabricated building has the following advantages when being specifically operated and used:

1. the distance adjustment can be realized, and the stable and reliable extrusion force is ensured; the lacing wire double-drive extrusion correction device of the utility model adopts an adjustable double-side extrusion mode to correct lacing wires, namely: the interval distance between the matched components can be corrected through the adjustment operation of the interval adjustment component, so that stable and reliable correction pressure meeting the requirements can be provided for the lacing wire during correction, and the lacing wire after correction can meet the subsequent installation and use requirements;

2. the correction operation efficiency is high; the lacing wire double-drive extrusion correction device adopts a double-drive and direct-contact drive structure design, can realize stable and rapid extrusion feeding of lacing wire bodies under a state of large extrusion acting force when correcting lacing wires for an assembled building, and has higher correction operation efficiency;

drawings

FIG. 1 is a schematic diagram of the overall structure of a lacing wire double-drive extrusion correction device of the utility model;

FIG. 2 is a schematic diagram of the left and right squeeze correction mechanisms according to the present utility model;

FIG. 3 is a schematic view of a spacing adjustment member according to the present utility model;

FIG. 4 is a schematic view of the structure of the correction actuator assembly according to the present utility model;

the reference numerals in the figures are: the device comprises a 1-lower supporting frame, a 2-working platform, a 3-mounting frame, a 4-left side extrusion correcting mechanism, a 5-right side extrusion correcting mechanism, a 6-workpiece upper and lower bearing part, a 7-lacing wire piece, a 41-interval adjusting piece, a 42-mounting driving frame, a 43-correction executing piece, a 44-execution piece mounting seat, a 411-adjusting support, a 412-adjusting screw rod, a 413-guide rod, a 414-bearing, a 415-adjusting screw sleeve, a 416-adjusting hand wheel, a 431-driving motor, a 432-rotating shaft, a 433-correcting wheel body, a 434-driving wheel disc, a 435-coupling and a 436-positioning key.

Description of the embodiments

Specific example 1: in order to make the technical solution of the present utility model better understood by those skilled in the art, the present utility model is further described in detail below with reference to the drawings and the detailed description, and it should be noted that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly or indirectly connected to the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "left" and "right" used in the present document to indicate orientation are each based on the specific structure shown in the drawings, and do not constitute a limitation on the structure.

Specific example 1: as shown in fig. 1 of the specification of the present utility model, the dual-drive extrusion correction device for tie bars for an assembled building mainly includes a lower support frame 1, a work platform 2, a mounting frame 3, a left extrusion correction mechanism 4, a right extrusion correction mechanism 5 and an upper and lower workpiece bearing part 6, wherein the lower support frame 1 is used for mounting and bearing the work platform 2, the bottom of the lower support frame 1 is arranged on a horizontal work floor, the upper part of the lower support frame 1 is provided with the work platform 2 for mounting and bearing the mounting frame 3, the work platform 2 and the lower support frame 1 are fixedly welded together, the upper part of the work platform 2 is provided with the mounting frame 3, the bottom of the mounting frame 3 is fixedly arranged with the work platform 2, the left extrusion correction mechanism 4 and the right extrusion correction mechanism 5 are used for correcting the tie bars 7, the left extrusion correction mechanism 4 is arranged at the left part of the mounting frame 3 and fixedly arranged with the mounting frame 3, the right extrusion correction mechanism 5 is arranged at the right part of the mounting frame 3 and fixedly arranged with the mounting frame 3, the upper and lower workpiece bearing part 6 is fixedly arranged on the lower workpiece bearing part 6.

As shown in fig. 2 of the present disclosure, the left squeeze correction mechanism 4 and the right squeeze correction mechanism 5 for correcting the tie bar 7 have the same structure, the left squeeze correction mechanism 4 and the right squeeze correction mechanism 5 are symmetrically mounted on the mounting frame 3, specifically, the left squeeze correction mechanism 4 and the right squeeze correction mechanism 5 include a spacing adjustment member 41, a mounting driving frame 42, a correction execution member 43 and an execution member mounting seat 44, wherein the spacing adjustment member 41 is used for adjusting the spacing distance between the correction execution member 43, the spacing adjustment member 41 is fixedly mounted on the left side two sides of the mounting frame 3, the mounting driving frame 42 for adapting the installation of the execution member mounting seat 44 is mounted on the inner side of the spacing adjustment member 41, the mounting driving frame 42 is capable of performing X-direction adjustment under the driving of the spacing adjustment member 41, the execution member mounting seat 44 for installing the correction execution member 43 is mounted on the mounting driving frame 42, and the correction execution member 43 is mounted on the execution member mounting seat 44 and fastened together with the execution member mounting seat 44 during mounting.

As shown in fig. 3 of the specification of the present utility model, the distance adjusting and integrating member 41 for adjusting the distance between the correction executing members 43 includes an adjusting support 411, an adjusting screw 412, a guide rod 413 and an adjusting screw sleeve 415, wherein the adjusting support 411 is used for mounting and bearing the guide rod 413 and the adjusting screw sleeve 415, the body of the adjusting support 411 is fixedly mounted on the mounting frame 3, the adjusting screw sleeve 415 is mounted on the adjusting support 411, a threaded through hole for adapting to the mounting of the adjusting screw 412 is formed in the adjusting screw sleeve 415, the adjusting screw 412 is mounted in the threaded through hole in a threaded fit manner, two groups of guide rods 413 for guiding the mounting driving frame 42 are mounted on the inner side of the adjusting support 411, one end of the guide rod 413 is fixedly connected with the adjusting support 411, smooth through holes are formed on two sides of the mounting driving frame 42, the mounting driving frame 42 is arranged on the guide rod 413 through the smooth through holes and is in sliding contact with the guide rod 413, a bearing seat is mounted in the middle portion of the mounting driving frame 42, the inner ring 412 is mounted in the bearing seat through a tight fit manner.

As shown in fig. 4 of the specification of the present utility model, the correction actuator 43 for performing correction operation on the tie bar 7 includes a driving motor 431, a rotation shaft 432, a correction wheel body 433, and a driving wheel disc 434, wherein a guide rail is installed at an upper portion of the installation frame 3, a slider is disposed on the guide rail, the slider is snap-fitted on the guide rail by sliding, during installation, a side surface of the driving motor 431 is installed on the slider, a support bearing is installed on the actuator mounting seat 44, the rotation shaft 432 is installed on the actuator mounting seat 44 by the support bearing, the driving wheel disc 434 is installed on the rotation shaft 432, the driving wheel disc 434 is drawn down together with the rotation shaft 432 by a positioning key 436, the correction wheel body 433 for directly contacting the tie bar 7 is fixedly installed on the driving wheel disc 434, and an outer end of the rotation shaft 432 is connected with a power output end of the driving motor 431 by a coupling 435.

The utility model relates to an installation and use process of a lacing wire double-drive extrusion correction device for an assembled building in specific installation and use, which comprises the following steps:

1. the installation process comprises the following steps: firstly, an installer can install and arrange the bottom of the lower support frame 1 on a horizontal working ground to ensure stable contact between the support frame and the horizontal working ground, then arrange the working platform 2 at the top part of the lower support frame 1 and fixedly weld the lower support frame 1 together, the installation is completed, the operator can install and arrange the bottom of the installation frame 3 on the working platform 2, fixedly install the left side extrusion correcting mechanism 4 at the left side part of the installation frame 3, fixedly install the right side extrusion correcting mechanism 5 at the right side part of the installation frame 3 to ensure symmetrical installation and arrangement of the two parts, and simultaneously, lay a guide slide rail at the upper part of the installation frame 3, clamp the slide block on the guide slide rail, and install the driving motor 431 and the slide block in the correction executing assembly 43 together through a connecting piece, so that the installation process of the utility model is completed;

2. the operation process comprises the following steps: firstly, an operator can place one end of the lacing wire 7 to be corrected on the upper and lower workpiece bearing parts 6, the upper and lower workpiece bearing parts 6 are in a liftable structure (can be a hydraulic cylinder lifting mechanism or a worm wheel lifting mechanism), the working ends of the upper and lower workpiece bearing parts 6 are controlled to be lifted, at the moment, the working ends of the upper and lower workpiece bearing parts 6 can lift one end of the lacing wire 7 to be corrected to the feeding stations (namely the positions between the correction wheel bodies 433) of the correction wheel bodies 433 on the left side extrusion correction mechanism 4 and the right side extrusion correction mechanism 5, at the moment, the driving motors 431 in the left side extrusion correction mechanism 4 and the right side extrusion correction mechanism 5 are controlled to be started, at the moment, the driving motors 431 in the left side extrusion correction mechanism 4 drive the rotating shafts 432 to rotate clockwise, the rotating shafts 432 drive the wheel discs 434 and the correction wheel bodies 433 to rotate clockwise, the driving motor 431 in the right extrusion correcting mechanism 5 drives the rotating shaft 432 to rotate anticlockwise, the rotating shaft 432 drives the wheel disc 434 and the correcting wheel body 433 to rotate anticlockwise, at this time, the lacing wire 7 enters the left extrusion correcting mechanism 4 and the correcting wheel body 433 in the right extrusion correcting mechanism 5 to carry out correcting operation under the driving of the correcting wheel body 433, when the interval distance between the correcting wheel bodies 433 needs to be adjusted, a user can rotate a rotating hand wheel in the interval adjustment integrating piece 41 through rotating the hand wheel, the rotating hand wheel can drive the adjusting screw 412 to rotate, at this time, under the action of screw pushing force, the adjusting screw 412 can drive the mounting driving frame 42, the executing piece mounting seat 44 and the correcting executing piece 43 to move and adjust leftwards and rightwards in X, at this time, the left extrusion correcting mechanism 4, the distance between the correction actuating members 43 in the right squeeze correction mechanism 5 is adjusted, so that the effective squeeze force between the correction wheel bodies 433 is ensured, and the correction effect on the tie bar members 7 is ensured.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (7)

1. The utility model provides an assembled is tieing two extrusion correcting unit that drive for building, a serial communication port, including under braced frame (1), work platform (2), installing frame (3), left side extrusion correcting mechanism (4), right side extrusion correcting mechanism (5) and work piece upper and lower carrier (6), work platform (2) are installed on the upper portion of under braced frame (1), work platform (2) are in the same place with under braced frame (1) solid welding, install installing frame (3) on the upper portion of work platform (2), left side extrusion correcting mechanism (4) are installed in the left side position of installing frame (3) and are in the same place with installing frame (3) fixed mounting, right side extrusion correcting mechanism (5) are installed in the right side position of installing frame (3) and are in the same place with installing frame (3) fixed mounting, install work piece upper and lower carrier (6) on under braced frame (1), work piece upper and lower carrier (6) are fixed continuous with under braced frame (1).

2. The tie bar double-drive extrusion correction device for the fabricated building according to claim 1, wherein the left extrusion correction mechanism (4) and the right extrusion correction mechanism (5) have the same structure, and the left extrusion correction mechanism (4) and the right extrusion correction mechanism (5) are symmetrically arranged on the mounting frame (3).

3. The tie bar double-drive extrusion correction device for the fabricated building according to claim 2, wherein the left extrusion correction mechanism (4) and the right extrusion correction mechanism (5) comprise a spacing adjustment piece (41), an installation driving frame (42), a correction execution piece (43) and an execution piece installation seat (44), the spacing adjustment piece (41) is installed at two left side positions on the installation frame (3), the installation driving frame (42) is installed at the inner side position of the spacing adjustment piece (41), the execution piece installation seat (44) is installed on the installation driving frame (42), and the correction execution piece (43) is installed on the execution piece installation seat (44) and fastened with the execution piece installation seat (44).

4. The tie bar double-drive extrusion correction device for the fabricated building according to claim 3, wherein the distance adjusting and integrating piece (41) comprises an adjusting support (411), an adjusting screw rod (412), a guide rod (413) and an adjusting threaded sleeve (415), the adjusting support (411) is fixedly installed on the installation frame (3), the adjusting threaded sleeve (415) is installed on the adjusting support (411), a threaded through hole is formed in the adjusting threaded sleeve (415), the adjusting screw rod (412) is installed in the threaded through hole in a threaded fit mode, the guide rod (413) is installed on the inner side of the adjusting support (411), and one end of the guide rod (413) is fixedly connected with the adjusting support (411).

5. The tie bar double-drive extrusion correction device for the fabricated building according to claim 4, further characterized in that an adjusting hand wheel (416) is installed at the outer side end of the adjusting screw (412), and the adjusting hand wheel (416) is fixedly installed with the outer side end of the adjusting screw (412).

6. The tie bar double-drive extrusion correction device for the fabricated building according to claim 4, wherein smooth through holes are machined on two sides of the installation driving frame (42), the installation driving frame (42) is arranged on the guide rod (413) through the smooth through holes, a bearing seat is installed in the middle part of the installation driving frame (42), a bearing is installed in the supporting seat, and the inner side end of the adjusting screw (412) is installed at the inner ring part of the bearing in a tight fit mode.

7. The tie bar double-drive extrusion correction device for the fabricated building according to claim 3, wherein the correction execution assembly (43) comprises a driving motor (431), a rotating shaft (432), a correction wheel body (433) and a driving wheel disc (434), a guide sliding rail is installed on the upper portion of the installation frame (3), a sliding block is arranged on the guide sliding rail, the side face of the driving motor (431) is installed on the sliding block, the rotating shaft (432) is installed on an execution assembly installation seat (44) through a bearing, the driving wheel disc (434) is installed on the rotating shaft (432), the correction wheel body (433) is fixedly installed on the driving wheel disc (434), and the outer end of the rotating shaft (432) is connected with the power output end of the driving motor (431).