CN111390074B - Stirrup device for deformed steel bar - Google Patents

Abstract

The invention discloses a stirrup device for deformed steel bars, which comprises an outer shell, wherein a supporting block is fixedly arranged in the middle of the outer shell, four deformed steel bar supporting holes are arranged in the supporting block, the deformed steel bar supporting holes penetrate through the outer shell, a pressing cavity is arranged in the outer shell, a placing cavity with an upward opening is communicated above the pressing cavity, a sliding cavity is communicated below the pressing cavity, the pressing cavity is backwards opened, a moving cavity is communicated on the right side of the pressing cavity, a shearing cavity is arranged above the moving cavity, a transmission cavity communicated with the pressing cavity is arranged below the moving cavity, a transmission assembly is arranged in the transmission cavity, the device automatically stirrups four deformed steel bars of a foundation on the ground of a building, the manual workload is reduced, the manual work fatigue strength is reduced, the stirrups are firmer, and the manual measurement is avoided through mechanical movement, and the position is more accurate.

Description

Stirrup device for deformed steel bar

Technical Field

The invention relates to the technical field of construction steel, in particular to a stirrup device for deformed steel bars.

Background

The steel that consumes the most at the building site is threaded steel, need carry out the foundation with this steel and build, so need increase intensity, four threaded rods are a unit, need pass through the stirrup to four threaded steel and fix to each distance all needs the stirrup once, very consume time to the stirrup is carried out to the threaded steel at every turn, and very big to workman's intensity of labour, because the stirrup position is by artifical measurement then rule the stirrup, cause the stirrup distance of every section to be difficult unanimous.

The present application illustrates a stirrup device for deformed steel bars, which can solve the above problems.

Disclosure of Invention

Aiming at the technical defects, the invention provides a stirrup device for deformed steel bars, which can overcome the defects.

The stirrup device for the deformed steel bar comprises an outer shell, wherein a supporting block is fixedly arranged in the middle of the outer shell, four deformed steel bar supporting holes are formed in the supporting block, the deformed steel bar supporting holes penetrate through the outer shell, a pressing cavity is formed in the outer shell, a placing cavity with an upward opening is communicated above the pressing cavity, a sliding cavity is communicated below the pressing cavity, the pressing cavity is backwards opened, a moving cavity is communicated on the right side of the pressing cavity, a shearing cavity is arranged above the moving cavity, a transmission cavity communicated with the pressing cavity is arranged below the moving cavity, and a transmission assembly is arranged in the transmission cavity;

the transmission assembly comprises a fixed supporting block cam fixedly arranged on the right end wall of the transmission cavity, a right connecting shaft is arranged in the fixed supporting block cam in a rotating mode, a lead screw is fixedly arranged at the lower end of the right connecting shaft, a sliding block slidably arranged in the right end wall of the transmission cavity is arranged below the fixed supporting block cam, an internal threaded hole is formed in the sliding block, the lead screw is in threaded connection with the internal threaded hole, a guide hole penetrating through the sliding block is formed in the right side of the internal threaded hole, a guide block is slidably arranged in the guide hole, the guide block is fixedly arranged on the lower end wall of the transmission cavity, a motor is fixedly arranged on the left end face of the sliding block, and a stirrup assembly is arranged in;

the stirrup subassembly includes slidable mounting and is in compress tightly the right compact heap in the chamber end wall, right side compact heap right-hand member fixed mounting is equipped with and is located remove the last connecting block of intracavity, terminal surface fixed mounting is equipped with and moves the rack under the last connecting block, it is connected with last drive gear to go up the meshing of moving rack below, last drive gear fixed mounting is in last axis of rotation, go up the axis of rotation front and back end and rotate respectively and install in removing the front and back end wall in chamber, the slip intracavity is equipped with fixed subassembly, slip intracavity slidable mounting is equipped with the stirrup and twists round the piece, stirrup is twisted round piece top and is the last stirrup groove of opening up, it is located to go up stirrup groove top the right stirrup groove of being equipped with opening rightwards in the stirrup and twists round the piece, go up the stirrup groove with the right side stirrup is connected by twisting the chamber between the groove.

Preferably, fixed mounting is equipped with down transmission helical gear on the right side links up the epaxial fixed mounting of axle, down transmission helical gear top meshing is connected with and transmits the helical gear, it is on the connecting axle to go up transmission helical gear fixed mounting, the connecting axle rotates to be installed in the transmission chamber right side wall and extend the outer fixed mounting of shell body right-hand member face is equipped with the handle, motor top power connection is equipped with left side and links up the axle, the epaxial fixed mounting of left side link up is equipped with down rotation helical gear, the helical gear top meshing of lower rotation is connected with and rotates the helical gear, it rotates helical gear fixed mounting in the axis of right rotation to go up, right side rotation axis front and back end rotates respectively and installs in the front and back end wall in transmission chamber, it is equipped with fixed mounting to go up rotation.

Preferably, a lower transmission shaft is arranged below the motor in a power connection manner, an upper connection bevel gear is fixedly arranged on the lower transmission shaft, a rear connection bevel gear is arranged below the upper connection bevel gear, the rear connection bevel gear is fixed on a lower connection shaft, the front end and the rear end of the lower connection shaft are respectively rotatably arranged in the front end wall and the rear end wall of the transmission cavity, a right connection bevel gear fixedly arranged on the lower connection shaft is arranged at the rear side of the rear connection bevel gear, the left side of the rear connection bevel gear is connected with a left connection bevel gear in a meshing manner, the left connection bevel gear is fixedly arranged on a rotation connection shaft, the rotation connection shaft is rotatably arranged between the transmission cavity and the sliding cavity, the rotation connection shaft extends into the sliding cavity and is fixedly arranged with a right connection bevel gear, the right connection bevel gear is connected with a left connection bevel gear in a meshing, and the rear side of the left joining helical gear is provided with a lower joining gear fixedly arranged on the gear shaft.

Preferably, a lower rotating gear is meshed and connected with a gear below the upper rotating shaft and is fixedly arranged on the lower rotating shaft, the front end and the rear end of the lower rotating shaft are respectively and rotatably arranged in the front end wall and the rear end wall of the moving cavity, the front side of the lower rotating gear is provided with a left belt pulley fixedly arranged on the lower rotating shaft, the left belt pulley is connected with the right belt pulley through a belt, a lower rack is meshed and connected below the lower rotating gear, a lower connecting block is fixedly arranged on the lower end surface of the lower rack, a lower pressing block which is slidably arranged in the end wall of the pressing cavity is fixedly arranged on the left end surface of the lower connecting block, a hydraulic pump is fixedly arranged in the upper end wall of the compaction cavity, a hydraulic cylinder is connected and arranged under the hydraulic pump in a power way, the lower end of the hydraulic cylinder is fixedly provided with an upper pressing block extending into the pressing cavity, and the upper pressing block is slidably arranged in the pressing cavity.

Preferably, terminal surface fixed mounting is equipped with the turning block under the stirrup wrench movement piece, be equipped with stirrup internal thread hole in the turning block, stirrup internal thread hole internal thread connects and is equipped with the stirrup lead screw, stirrup lead screw fixed mounting be in on the lower end wall in slip chamber, the turning block lower extreme rotates and installs in stirrup sliding block up end, stirrup sliding block front and back end slidable mounting be in the front and back end wall in slip chamber, stirrup sliding block right-hand member face be equipped with the rack that the gear engagement is connected down links up.

Preferably, cut off the interior fixed mounting of chamber lower extreme wall and be equipped with and cut off the motor, cut off motor top power connection and be equipped with the camshaft, fixed mounting is equipped with the cam on the camshaft, the cam left side is equipped with the right movement and presss from both sides the fault block, cut off the intracavity upper end wall and be equipped with the chamber that resets, fixed mounting is equipped with reset spring on the chamber left end wall that resets, reset spring right-hand member face fixed mounting is equipped with links up the piece, terminal surface fixed mounting is in under linking up the piece right side removal presss from both sides fault block up end, the right side removes and presss from both sides fault block left end and extends to put into the intracavity, fixed mounting is equipped with left fixation and presss from both sides the fault.

The beneficial effects are that: this device falls to the ground of building and beats four deformed steel bars of ground and carry out automatic stirrup, has reduced artifical work load and reduce artificial work fatigue strength to stirrup is more firm, owing to avoided artifical the measurement through mechanical movement, and the position is more accurate.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic view of the embodiment of the present invention in the direction B of FIG. 1;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic view of D-D in FIG. 4 according to an embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The stirrup device for the deformed steel bars comprises an outer shell 10, wherein a supporting block 65 is fixedly arranged in the middle of the outer shell 10, four deformed steel bar supporting holes 15 are arranged in the supporting block 65, the deformed steel bar supporting holes 15 penetrate through the outer shell 10, a pressing cavity 11 is arranged in the outer shell 10, an upward-opening placing cavity 71 is communicated above the pressing cavity 11, a sliding cavity 61 is communicated below the pressing cavity 11, the pressing cavity 11 is backwards opened, a moving cavity 20 is communicated on the right side of the pressing cavity 11, a shearing cavity 79 is arranged above the moving cavity 20, a transmission cavity 45 communicated with the pressing cavity 11 is arranged below the moving cavity 20, a transmission assembly is arranged in the transmission cavity 45 and comprises a fixed supporting block cam 67 fixedly arranged on the right end wall of the transmission cavity 45, a right connecting shaft 32 is rotatably arranged in the fixed supporting block cam 67, a lead screw 36 is fixedly arranged at the lower end of the right connecting shaft 32, a sliding block 34 which is slidably arranged in the right end wall of the transmission cavity 45 is arranged below the fixed supporting block cam 67, an internal thread hole 35 is arranged in the sliding block 34, the lead screw 36 is in threaded connection with the internal thread hole 35, a guide hole which penetrates through the sliding block 34 is arranged at the right side of the internal thread hole 35, a guide block 38 is slidably arranged in the guide hole, the guide block 38 is fixedly arranged on the lower end wall of the transmission cavity 45, a motor 37 is fixedly arranged on the left end surface of the sliding block 34, a stirrup assembly is arranged in the moving cavity 20, the stirrup assembly comprises a right pressing block 50 which is slidably arranged in the end wall of the pressing cavity 11, an upper connecting block 16 which is positioned in the moving cavity 20 is fixedly arranged at the right end of the right pressing block 50, and an upper moving rack 19 is, go up and move rack 19 below meshing and be connected with upper rotating gear 18, upper rotating gear 18 fixed mounting is on last axis of rotation 17, upper rotating shaft 17 front and back end rotates respectively to be installed in the front and back end wall that removes chamber 20, be equipped with fixed subassembly in the slip chamber 61, sliding installation is equipped with hoop and turns round piece 62 in the slip chamber 61, hoop turns round piece 62 top and is the last hoop groove 64 of opening up, it is located to go up hoop groove 64 top the right hoop groove 63 that is equipped with opening court to right in the hoop turns round piece 62, go up hoop groove 64 with connect by turning round tight chamber 68 between the right hoop groove 63.

Advantageously, a lower transmission bevel gear 31 is fixedly arranged on the right connecting shaft 32, an upper transmission bevel gear 28 is in meshing connection with the upper part of the lower transmission bevel gear 31, the upper transmission helical gear 28 is fixedly arranged on a connecting shaft 30, the connecting shaft 30 is rotatably arranged in the right end wall of the transmission cavity 45 and extends out of the right end surface of the outer shell 10 to be fixedly provided with a handle 29, a left connecting shaft 33 is arranged above the motor 37 in a power connection way, a lower rotating helical gear 27 is fixedly arranged on the left connecting shaft 33, the upper rotating bevel gear 24 is engaged and connected above the lower rotating bevel gear 27, the upper rotating bevel gear 24 is fixedly arranged on the right rotating shaft 26, the front end and the rear end of the right rotating shaft 26 are respectively and rotatably arranged in the front end wall and the rear end wall of the transmission cavity 45, the rear side of the upper rotating bevel gear 24 is provided with a right belt pulley 25 fixedly mounted on the right rotating shaft 26.

Beneficially, a lower transmission shaft 39 is disposed below the motor 37 in a power connection manner, an upper connection bevel gear 43 is fixedly mounted on the lower transmission shaft 39, a rear connection bevel gear 40 is disposed below the upper connection bevel gear 43, the rear connection bevel gear 40 is fixed on a lower connection shaft 42, front and rear ends of the lower connection shaft 42 are respectively rotatably mounted in front and rear end walls of the transmission cavity 45, a right connection bevel gear 41 fixedly mounted on the lower connection shaft 42 is disposed at a rear side of the rear connection bevel gear 40, a left connection bevel gear 44 is engaged and connected to a left side of the rear connection bevel gear 40, the left connection bevel gear 44 is fixedly mounted on a rotation connection shaft 51, the rotation connection shaft 51 is rotatably mounted between the transmission cavity 45 and the sliding cavity 61, the rotation connection shaft 51 extends into the sliding cavity 61 and is fixedly mounted with a right connection bevel gear 52, the left side of the right connection bevel gear 52 is engaged and connected with a left bevel gear connection 54, the left engaging bevel gear 54 is fixedly mounted on the gear shaft 53, and a lower engaging gear 55 fixedly mounted on the gear shaft 53 is arranged at the rear side of the left engaging bevel gear 54.

Beneficially, a lower transmission gear 21 is arranged below the upper rotating shaft 17 in a gear meshing connection manner, the lower transmission gear 21 is fixedly installed on a lower rotating shaft 23, the front end and the rear end of the lower rotating shaft 23 are respectively rotatably installed in the front end wall and the rear end wall of the moving cavity 20, a left belt pulley 22 fixedly installed on the lower rotating shaft 23 is arranged on the front side of the lower transmission gear 21, the left belt pulley 22 is connected with the right belt pulley 25 through a belt, a lower rack 46 is connected below the lower transmission gear 21 in a meshing manner, a lower connecting block 47 is fixedly installed on the lower end face of the lower rack 46, a lower pressing block 48 slidably installed in the end wall of the pressing cavity 11 is fixedly installed on the left end face of the lower connecting block 47, a hydraulic pump 14 is fixedly installed in the upper end wall of the pressing cavity 11, a hydraulic cylinder 13 is arranged below the hydraulic pump 14 in a power connection manner, an upper pressing block 12 extending into the pressing cavity 11, the upper compaction block 12 is slidably mounted in the compaction chamber 11.

Beneficially, a rotating block 60 is fixedly installed on the lower end face of the stirrup twisting block 62, a stirrup internal thread hole 59 is formed in the rotating block 60, a stirrup lead screw 58 is connected in the stirrup internal thread hole 59 in a threaded manner, the stirrup lead screw 58 is fixedly installed on the lower end wall of the sliding cavity 61, the lower end of the rotating block 60 is rotatably installed in the upper end face of the stirrup sliding block 57, the front end and the rear end of the stirrup sliding block 57 are slidably installed in the front end wall and the rear end wall of the sliding cavity 61, and a rack meshed with the lower linking gear 55 is arranged on the right end face of the stirrup sliding block 57.

Beneficially, fixed mounting is equipped with cuts off motor 78 in cutting off chamber 79 lower extreme wall, power connection is equipped with camshaft 77 above cutting off motor 78, fixed mounting is equipped with cam 76 on the camshaft 77, cam 76 left side is equipped with right side and removes clamping block 75, cut off and be equipped with reset chamber 72 in the chamber 79 upper end wall, fixed mounting is equipped with reset spring 73 on the chamber 72 left end wall that resets, reset spring 73 right end face fixed mounting is equipped with and links up piece 74, link up piece 74 lower extreme face fixed mounting in the right side removes clamping block 75 up end, the right side remove clamping block 75 left end extend to put into the intracavity 71, fixed mounting is equipped with left fixed clamping block 69 on putting into chamber 71 left end wall.

In the initial state: the lower rotating helical gear 27 is gear-engaged with the right pulley 25, and the upper connecting helical gear 43 is gear-disengaged from the right connecting helical gear 41.

When the work is started:

1. four pieces of deformed steel 66 are placed in the four deformed steel support holes 15, and then the stirrup 70 is placed in the placement chamber 71, the shear motor 78 is started, the shear motor 78 drives the cam shaft 77 to rotate, the cam shaft 77 rotates to drive the cam 76 to rotate, the cam 76 rotates to drive the right movable clamping and breaking block 75 to move leftwards, and the right movable clamping and breaking block 75 moves leftwards to shear the stirrup 70 together with the left fixed clamping and breaking block 69.

2. Then the cutting motor 78 is turned off, the right moving block 75 is driven by the reset spring 73 to move rightwards for resetting, the motor 37 is started, the motor 37 drives the lower transmission shaft 39 and the left connecting shaft 33 to rotate, the lower transmission shaft 39 rotates to drive the upper connecting bevel gear 43 to rotate, the left connecting shaft 33 rotates to drive the lower rotating bevel gear 27 to rotate, the lower rotating bevel gear 27 rotates to drive the upper rotating bevel gear 24 to rotate, the upper rotating bevel gear 24 rotates to drive the right rotating shaft 26 to rotate, the right rotating shaft 26 rotates to drive the right belt pulley 25 to rotate, the right belt pulley 25 rotates to drive the left belt pulley 22 to rotate through a belt, the left belt pulley 22 rotates to drive the lower rotating shaft 23 to rotate, the lower rotating shaft 23 rotates to drive the lower rotating gear 21 to rotate, the lower gear 21 rotates to drive the upper gear 18 to rotate and move the lower rack 46 to the left, the upper gear 18 rotates to drive the upper rotating shaft 17 to rotate, the upper rotating shaft 17 rotates to drive the upper moving rack 19 to move to the left, the upper moving rack 19 and the lower rack 46 move to the left so as to bend and press the hoop steel 70 on the upper and lower end surfaces of the upper and lower four pieces of deformed steel 66, and the hoop steel 70 at the lower end is simultaneously pressed into the right hoop groove 63 to enter the tightening cavity 68.

3. Then, the hydraulic pump 14 is started and the motor 37 is started reversely to move the upper moving rack 19 and the lower rack 46 rightwards to return to the initial position, the hydraulic pump 14 drives the hydraulic cylinder 13 to move downwards, the hydraulic cylinder 13 moves downwards to drive the upper pressing block 12 to move downwards, the upper pressing block 12 moves downwards to drive the hoop steel 70 on the upper end surface of the screw steel 66 to be pressed to the left end surface of the screw steel 66 and slide into the torsion chamber 68 through the guide of the upper hoop steel groove 64 and form intersection with the lower part of the hoop steel 70 in the right hoop steel groove 63.

4. Then, the hydraulic pump 14 is reversely started to drive the lower rotating shaft 23 to move upwards to return to the initial position, then the handle 29 is manually rotated, the handle 29 is rotated to drive the connecting shaft 30 to rotate, the connecting shaft 30 is rotated to drive the upper transmission helical gear 28 to rotate, the upper transmission helical gear 28 is rotated to drive the lower transmission helical gear 31 to rotate, the lower transmission helical gear 31 is rotated to drive the right engaging shaft 32 to rotate, the right engaging shaft 32 is rotated to drive the lead screw 36 to rotate, the lead screw 36 is rotated to drive the slide block 34 to move downwards through the guidance of the internal threaded hole 35 and the guide block 38, the slide block 34 moves downwards to drive the motor 37 to move downwards, and the motor 37 moves downwards to separate the lower rotating helical gear 27 from the right belt pulley 25, and the upper connecting helical gear 43 is in gear engagement with the right connecting helical gear 41.

5. Then starting the motor 37, so that the upper connecting helical gear 43 rotates to drive the right connecting helical gear 41 to rotate, the right connecting helical gear 41 rotates to drive the lower connecting shaft 42 to rotate, the lower connecting shaft 42 rotates to drive the rear connecting helical gear 40 to rotate, the rear connecting helical gear 40 rotates to drive the left connecting helical gear 44 to rotate, the left connecting helical gear 44 rotates to drive the rotating connecting shaft 51 to rotate, the rotating connecting shaft 51 rotates to drive the right connecting helical gear 52 to rotate, the right connecting helical gear 52 rotates to drive the left connecting helical gear 54 to rotate, the left connecting helical gear 54 rotates to drive the gear shaft 53 to rotate, the gear shaft 53 rotates to drive the lower connecting gear 55 to rotate, the lower connecting gear 55 rotates to drive the stirrup rack 56 to move downwards, the stirrup rack 56 moves downwards to drive the stirrup sliding block 57 to move downwards, the stirrup sliding block 57 moves downwards to drive the rotating block 60 to move downwards, the rotating block 60 moves downwards to pass through the stirrup screw 58 to enable the rotating block 60 to rotate simultaneously, the rotating block 60 moves downwards and rotates to drive the stirrup twisting block 62 to move downwards and rotate, the stirrup twisting block 62 rotates to twist and fix the stirrup steel 70 in the tightening cavity 68 on the threaded steel 66, then the motor 37 is started reversely to enable the stirrup twisting block 62 to move upwards, then the motor 37 is turned off to complete the resetting of the device, then the device moves backwards for a fixed distance, and then the stirrup fixing of the next position is carried out on four threaded steels 66.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (6)

1. The utility model provides a stirrup device for screw-thread steel, includes the shell body, its characterized in that: a supporting block is fixedly arranged in the middle of the outer shell, four deformed steel bar supporting holes are formed in the supporting block and penetrate through the outer shell, a pressing cavity is formed in the outer shell, a placing cavity with an upward opening is communicated above the pressing cavity, a sliding cavity is communicated below the pressing cavity, the pressing cavity is backwards opened, a moving cavity is communicated on the right side of the pressing cavity, a shearing cavity is arranged above the moving cavity, a transmission cavity communicated with the pressing cavity is arranged below the moving cavity, and a transmission assembly is arranged in the transmission cavity;

the transmission assembly comprises a fixed supporting block cam fixedly arranged on the right end wall of the transmission cavity, a right connecting shaft is arranged in the fixed supporting block cam in a rotating mode, a lead screw is fixedly arranged at the lower end of the right connecting shaft, a sliding block slidably arranged in the right end wall of the transmission cavity is arranged below the fixed supporting block cam, an internal threaded hole is formed in the sliding block, the lead screw is in threaded connection with the internal threaded hole, a guide hole penetrating through the sliding block is formed in the right side of the internal threaded hole, a guide block is slidably arranged in the guide hole, the guide block is fixedly arranged on the lower end wall of the transmission cavity, a motor is fixedly arranged on the left end face of the sliding block, and a stirrup assembly is arranged in;

the stirrup subassembly includes slidable mounting and is in compress tightly the right compact heap in the chamber end wall, right side compact heap right-hand member fixed mounting is equipped with and is located remove the last connecting block of intracavity, terminal surface fixed mounting is equipped with and moves the rack under the last connecting block, it is connected with last drive gear to go up the meshing of moving rack below, last drive gear fixed mounting is in last axis of rotation, go up the axis of rotation front and back end and rotate respectively and install in removing the front and back end wall in chamber, the slip intracavity is equipped with fixed subassembly, slip intracavity slidable mounting is equipped with the stirrup and twists round the piece, stirrup is twisted round piece top and is the last stirrup groove of opening up, it is located to go up stirrup groove top the right stirrup groove of being equipped with opening rightwards in the stirrup and twists round the piece, go up the stirrup groove with the right side stirrup is connected by twisting the chamber between the groove.

2. A stirrup device for deformed steel bars according to claim 1, wherein: fixed mounting is equipped with down transmission helical gear on the right side links up the epaxial fixed mounting of axle, down transmission helical gear top meshing connection has last transmission helical gear, go up transmission helical gear fixed mounting on the connecting axle, the connecting axle rotates to be installed extend in the transmission chamber right side end wall the outer fixed mounting of shell body right-hand member face is equipped with the handle, motor top power connection is equipped with left linking axle, the epaxial fixed mounting of left side linking is equipped with down transmission helical gear, the meshing connection of lower transmission helical gear top has last transmission helical gear, go up transmission helical gear fixed mounting on the right axis of rotation, right side rotation axis front and back end rotates respectively and installs in the front and back end wall of transmission chamber, it is equipped with fixed mounting to go up the transmission helical gear rear side be equipped with the epaxial right belt.

3. A stirrup device for deformed steel bars according to claim 2, wherein: the power connection below the motor is provided with a lower transmission shaft, the lower transmission shaft is fixedly provided with an upper connection bevel gear, a rear connection bevel gear is arranged below the upper connection bevel gear, the rear connection bevel gear is fixed on a lower connection shaft, the front end and the rear end of the lower connection shaft are respectively rotatably arranged in the front end wall and the rear end wall of the transmission cavity, the rear side of the rear connection bevel gear is provided with a right connection bevel gear fixedly arranged on the lower connection shaft, the left side of the rear connection bevel gear is meshed with a left connection bevel gear, the left connection bevel gear is fixedly arranged on a rotation connection shaft, the rotation connection shaft is rotatably arranged between the transmission cavity and the sliding cavity, the rotation connection shaft extends into the sliding cavity and is fixedly provided with a right connection bevel gear, the left side of the right connection bevel gear is meshed with a left connection bevel gear, and the, and the rear side of the left joining helical gear is provided with a lower joining gear fixedly arranged on the gear shaft.

4. A stirrup device for deformed steel bars according to claim 2, wherein: a lower rotating gear is meshed and connected with a gear below the upper rotating shaft and is fixedly arranged on the lower rotating shaft, the front end and the rear end of the lower rotating shaft are respectively and rotatably arranged in the front end wall and the rear end wall of the moving cavity, the front side of the lower rotating gear is provided with a left belt pulley fixedly arranged on the lower rotating shaft, the left belt pulley is connected with the right belt pulley through a belt, a lower rack is meshed and connected below the lower rotating gear, a lower connecting block is fixedly arranged on the lower end surface of the lower rack, a lower pressing block which is slidably arranged in the end wall of the pressing cavity is fixedly arranged on the left end surface of the lower connecting block, a hydraulic pump is fixedly arranged in the upper end wall of the compaction cavity, a hydraulic cylinder is connected and arranged under the hydraulic pump in a power way, the lower end of the hydraulic cylinder is fixedly provided with an upper pressing block extending into the pressing cavity, and the upper pressing block is slidably arranged in the pressing cavity.

5. A stirrup device for deformed steel bars according to claim 3, wherein: the utility model discloses a stirrup twisting block, including the stirrup, the stirrup is turned round piece, and the lower extreme of the stirrup is installed on the lower extreme wall of slip chamber, the stirrup is turned round piece lower extreme fixed mounting and is equipped with the turning block, be equipped with stirrup internal thread hole in the turning block, stirrup internal thread hole internal thread connects and is equipped with the stirrup lead screw, stirrup lead screw fixed mounting be in on the lower end wall of slip chamber, the turning block lower extreme rotates and installs in stirrup sliding block up end, stirrup sliding block front and back end slidable mounting be in the front and back end wall of slip chamber, stirrup sliding block right-hand member face be equipped with.

6. A stirrup device for deformed steel bars according to claim 1, wherein: cut off the interior fixed mounting of chamber lower wall and be equipped with and cut off the motor, cut off motor top power connection and be equipped with the camshaft, fixed mounting is equipped with the cam on the camshaft, the cam left side is equipped with the right side and removes the clamp broken block, cut off and be equipped with the chamber that resets in the chamber upper end wall, fixed mounting is equipped with reset spring on the chamber left end wall that resets, reset spring right-hand member face fixed mounting is equipped with links up the piece, terminal surface fixed mounting is in under linking the piece remove on the right side and press from both sides broken block up end, remove on the right side and press from both sides broken block left end and extend to put into the intracavity, fixed mounting is equipped with left fixation clamp broken block on putting.

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