CN107584053B

CN107584053B - Semi-automatic steel reinforcement cage stirrup installation device

Info

Publication number: CN107584053B
Application number: CN201710795530.3A
Authority: CN
Inventors: 崔凯; 杨振宇; 向勇; 严修发; 张贵超; 于庆强
Original assignee: China Construction Eighth Engineering Division Co Ltd
Current assignee: China Construction Eighth Engineering Division Co Ltd
Priority date: 2017-09-06
Filing date: 2017-09-06
Publication date: 2023-05-02
Anticipated expiration: 2037-09-06
Also published as: CN107584053A

Abstract

The invention discloses a semi-automatic reinforcement cage stirrup installation device, which comprises: the rolling support comprises a rectangular bottom frame and a supporting frame, wherein a keel supporting rod is pivoted on the supporting frame, and a chain wheel are arranged above the keel supporting rod; a top support frame is pivoted on the rectangular bottom frame and is abutted against the keel support rod; the sliding support is provided with a bent lower slide bar at one side; the connecting frame comprises a cuboid connecting cage and an L-shaped bolt rod, wherein each side edge of the bottom surface and the top surface of the cuboid connecting cage is composed of two parallel supporting rods with interval slits; the power device is provided with a rotary drum and is driven to rotate by a motor, and a connecting hole for inserting a bolt rod is formed in the side wall of the rotary drum; the steel bar support comprises a base and a middle column, wherein the middle column is arranged on the base through a bearing, and placing rods are arranged at intervals along the periphery of the bearing.

Description

Semi-automatic steel reinforcement cage stirrup installation device

Technical Field

The invention relates to the technical field of building construction, in particular to a semi-automatic reinforcement cage stirrup installation device.

Background

When the traditional reinforcement cage with the circular cross section is provided with stirrups, the stirrups are sleeved on the periphery of the reinforcement cage in a manual rolling reinforcement cage mode or a segmented stirrup sleeving mode, and then the stirrups are uniformly distributed and respectively bound, so that a large number of workers concentrate on the site where the reinforcement cage stirrups are arranged during processing of the traditional reinforcement cage, and the problems of construction safety, low construction efficiency and the like exist.

Disclosure of Invention

The invention aims to solve the technical problem of providing a stirrup installation device which is semi-automatic and can freely roll a reinforcement cage, so that the number of installation personnel is reduced, the installation efficiency is improved, and the construction safety is ensured.

In order to achieve the technical effects, the invention discloses a semi-automatic reinforcement cage stirrup installation device, which comprises:

the rolling support comprises a rectangular bottom frame and a supporting frame, wherein the rectangular bottom frame is provided with a front cross rod and a rear cross rod, the supporting frame is fixed on the rear cross rod of the rectangular bottom frame, a keel support rod is pivoted on the supporting frame, a matched chain and a sprocket are arranged above the keel support rod, and a limiting piece is arranged at one end, far away from the supporting frame, of the keel support rod; a top support frame is pivoted on the front cross rod of the rectangular bottom frame, and one end of the top support frame, which is far away from the front cross rod, is abutted against the limiting piece of the keel supporting rod;

the sliding support is provided with a bent lower slide bar at one side;

the connecting frame comprises a cuboid connecting cage and an L-shaped bolt rod, wherein each side edge of the bottom surface and the top surface of the cuboid connecting cage is composed of two parallel supporting rods with interval slits, and the two ends of each supporting rod of each side edge of the top surface are extension ends;

the power device is provided with an operation table, a motor and a speed reducer are arranged on the operation table, the speed reducer is connected with the motor through a conveying belt, one side of the speed reducer is connected with a rotary drum through a rotating shaft, one surface of the rotary drum, facing the speed reducer, is closed, one surface of the rotary drum, facing away from the speed reducer, is open, and a connecting hole for inserting the bolt rod is formed in the side wall of the rotary drum;

the invention relates to an improvement of a semiautomatic reinforcement cage stirrup installation device, which comprises a reinforcement bracket, wherein the reinforcement bracket comprises a base and a center column, the center column is installed on the base through a bearing, and horizontal placing rods are arranged at intervals along the periphery of the bearing.

The invention further improves the semi-automatic reinforcement cage stirrup installation device, which is characterized in that a first sleeve is fixed on the front cross rod of the rectangular bottom frame, the top support frame comprises a pivoting cross rod and a top support cross rod, and the pivoting cross rod is arranged in the first sleeve in a penetrating way and is connected with the top support cross rod through a first connecting rod; the rolling support further comprises an inclined support rod, and two ends of the inclined support rod are fixedly connected with the rectangular bottom frame and the supporting frame respectively.

The semi-automatic reinforcement cage stirrup installation device is further improved in that the support frame comprises a support cross rod, the support cross rod is fixed on the rear cross rod of the rectangular bottom frame through a second connecting rod, a second sleeve is sleeved on the support cross rod, and one end of the keel supporting rod is fixed on the second sleeve.

The semi-automatic reinforcement cage stirrup installation device is further improved in that installation seats are respectively fixed at the two end parts of the keel support rod, the chain wheels are installed on the installation seats, and the chains are installed on the chain wheels at the two end parts of the keel support rod.

The invention further improves the semi-automatic reinforcement cage stirrup installation device, which comprises two support plates and a short shaft, wherein the support plates are fixed on two sides of the end parts of the keel support rods, corresponding grooves are respectively formed in the two support plates, the short shaft is arranged in the chain wheel in a penetrating way and is erected in the grooves of the support plates, and the chains are installed on the chain wheels at the two end parts of the keel support rods.

The invention further improves the semi-automatic steel reinforcement cage stirrup installation device, wherein the sliding support is provided with an I-shaped bottom frame, the I-shaped bottom frame comprises a first bottom rod, a second bottom rod and a third bottom rod which is connected with the first bottom rod and the second bottom rod, vertical rods are respectively arranged on the first bottom rod and the second bottom rod at the two end parts of the third bottom rod, and reinforcing rods are respectively arranged at the two sides of the vertical rods; the top of pole setting is fixed with a horizon bar, horizon bar one end is fixed with the lower slide bar, pole setting of horizon bar other end department upwards extends and forms the extension, and this extension is gone up the cover and is equipped with first sleeve pipe.

The invention further improves the semi-automatic reinforcement cage stirrup installation device, which is characterized in that two parallel middle rods with interval slits are respectively installed on the four side surfaces of the cuboid-shaped connecting cage.

The semi-automatic reinforcement cage stirrup installation device is further improved in that the operation table is fixed on an adjusting support, the adjusting support comprises two second sleeves which are arranged in parallel, adjusting rods are arranged in the second sleeves in a penetrating mode, supporting blocks are respectively arranged at two ends of each adjusting rod, and the bottom end of the operation table is fixed on the second sleeves.

The semi-automatic reinforcement cage stirrup installation device is further improved in that a third sleeve is sleeved on the middle column, a limiting horizontal rod is fixed at the position corresponding to the placement rod along the periphery of the third sleeve, and a limiting vertical rod is connected between the limiting horizontal rod and the placement rod.

According to the semi-automatic steel reinforcement cage stirrup installation device, a steel reinforcement cage is placed on a chain of a rolling support, one end of the steel reinforcement cage is connected with a rotary drum of a power device through a connecting frame and a bolt rod, a round steel bar is placed on a placing rod of the steel reinforcement support, one end of the round steel bar is fixed on the steel reinforcement cage, when the power device rotates, the rotary drum drives the steel reinforcement cage to rotate, the round steel bar is enabled to rotate, and at the moment, the round steel bar is spirally wound on the periphery of the steel reinforcement cage. In addition, when the reinforcement cage rotates, the chains of the rolling support synchronously rotate, so that the reinforcement cage is prevented from being worn.

Drawings

Fig. 1 is a schematic structural view of a rolling bracket of a semi-automatic reinforcement cage stirrup installation device of the invention;

fig. 2 is a schematic structural view of a sliding support of the semi-automatic reinforcement cage stirrup installation device of the invention;

fig. 3 is a schematic structural view of a connecting frame of the semi-automatic reinforcement cage stirrup installation device of the invention;

fig. 4 is a schematic structural view of the reinforcement cage clamped at the extension end of the connecting frame;

fig. 5 is a schematic structural view of a first preferred embodiment of a power unit of the semi-automatic reinforcement cage stirrup mounting apparatus of the present invention;

fig. 6 is a schematic structural view of a second preferred embodiment of the power unit of the semi-automatic reinforcement cage stirrup mounting apparatus of the present invention;

fig. 7 is a schematic structural view of a reinforcing bar support of the semi-automatic reinforcing bar cage stirrup installation device of the present invention;

fig. 8 is a view showing a state of use of the semi-automatic reinforcement cage stirrup mounting apparatus of the present invention;

fig. 9 is an enlarged view at a in fig. 8.

Detailed Description

The invention will be described in further detail with reference to the drawings and detailed description.

As shown in fig. 8, the semi-automatic reinforcement cage stirrup mounting apparatus of the present invention is used to wind and mount a coiled reinforcement bar 70 on the outer circumference of a reinforcement cage 60 to form stirrups 62 of the reinforcement cage 60. The semi-automatic reinforcement cage stirrup installation device comprises a rolling bracket 10, a sliding bracket 20, a connecting frame 30, a power device 40 and a reinforcement bracket 50, wherein the rolling bracket 10 is used for erecting a reinforcement cage 60, and the reinforcement cage 60 is connected with the power device 40 through the connecting frame 30, so that the power device 40 is used for providing power to drive the reinforcement cage 60 to rotate on the rolling bracket 10; the reinforcing bar bracket 50 is used for placing a coiled reinforcing bar 70; when the stirrup 62 is installed, the reinforcement cage 60 slides down onto the ground through the slide bracket 20.

As shown in fig. 1, the rolling stand 10 includes a rectangular bottom frame 11 and a supporting frame 12, the rectangular bottom frame 11 is composed of a front cross bar 111, a rear cross bar 112, and

longitudinal bars

113, 114 connecting the front cross bar 111 and the rear cross bar 112, wherein the supporting frame 12 is fixed on the rear cross bar 112 of the rectangular bottom frame 11. The supporting frame 12 is pivoted with a keel support rod 13, a sprocket 15 and a chain 16 which are matched are arranged above the keel support rod 13, and a limiting piece 14 is arranged at one end, far away from the supporting frame 12, of the keel support rod 13. A top supporting frame 17 is pivotally connected to the front cross bar 111 of the rectangular bottom frame 11, and one end of the top supporting frame 17 away from the front cross bar 111 abuts against the limiting member 14 of the keel supporting rod 13, that is, the top supporting frame 17 is used for abutting and supporting the keel supporting rod 13.

Further, the top support frame 17 includes a pivot rod 171 and a top support rod 172 that are disposed in parallel, a first sleeve 115 is fixed on the front rod 111 of the rectangular bottom frame 11, the pivot rod 171 of the top support frame 17 is inserted into the first sleeve 115, and the pivot rod 171 inserted into the first sleeve 115 is fixedly connected to the top support rod 172 through first connecting

rods

173 and 174, so that the top support frame 17 is pivotally connected to the front rod 111 of the rectangular bottom frame 11 through the pivot rod 171 thereof.

Further, the support frame 12 includes a support cross bar 121 and second connecting

bars

122, 123, two ends of the second connecting

bars

122, 123 are respectively and fixedly connected to the support cross bar 121 and the rear cross bar 112, that is, the support cross bar 121 is fixed on the rear cross bar 112 of the rectangular bottom frame 11 through the second connecting

bars

122, 123. The supporting cross rod 121 is sleeved with a second sleeve 124, and the keel support rod 13 is fixed on the second sleeve 124, so that pivoting of the keel support rod 13 is realized through rotation of the second sleeve 124. The two end parts of the keel support rod 13 are respectively fixed with a mounting seat, the mounting seat is provided with the chain wheel 15, and the chain 16 is arranged on the chain wheel 15 at the two end parts of the keel support rod 13.

Further, the mounting base comprises two support plates 131 and a short shaft, the two support plates 131 are respectively fixed at two sides of the end parts of the keel supporting rod 13, the two support plates 131 are respectively provided with corresponding grooves, the short shaft is arranged in the chain wheel 15 in a penetrating manner and is erected in the grooves of the two support plates 131, and the chain 16 is arranged on the chain wheel 15 at the two end parts of the keel supporting rod 13. In this embodiment, the short shaft is a bolt 132, and a nut 133 is used in cooperation with the bolt 132, and when the bolt 132 passes through the sprocket 15 and is mounted in the groove of the support plate 131, the nut 133 is used for locking and fixing the bolt 132, so as to prevent the bolt 132 from falling out of the groove. In this embodiment, the rolling stand 10 further includes two diagonal braces 18, one ends of the two diagonal braces 18 are respectively fixed to the

vertical bars

113 and 114 of the rectangular bottom frame 11, and the other ends of the two diagonal braces 18 are respectively fixed to the second connecting

bars

122 and 123 of the supporting frame 12. From this, the one end of fossil fragments branch 13 is fixed on second sleeve 124, is fixed with locating part 14 on the bottom surface of fossil fragments branch 13 other end, the top support horizontal pole 172 of top support frame 17 supports and leans on the locating part 14 of fossil fragments branch 13 bottom surface, realizes the top support to fossil fragments branch 13, guarantees that fossil fragments branch 13 remain stable and balanced when steel reinforcement cage 60 is placed on chain 16. When the processing of the stirrup 62 of the reinforcement cage 60 is completed, the end of the keel strut 13 with the stop 14 fixed thereto is lifted, the jacking frame 17 loses abutment, falls freely and places the jacking rail 172 on the diagonal brace 18.

Further, the keel support rod 13 may be square steel or square steel tube, in this embodiment, in order to facilitate lifting of the keel support rod 13, the inside of the keel support rod 13 is hollow, and is made of square steel tube, and in other embodiments, the material of the keel support rod 13 may be selected according to the actual installation requirement. The limiting part 14 mainly plays a role in limiting the top supporting frame 17, and can be made of square steel or square steel tubes or steel bar heads. In this embodiment, the limiting member 14 is made of square steel pipe.

As shown in fig. 2, the sliding support 20 has an i-shaped bottom frame 21, the i-shaped bottom frame 21 includes a first bottom rod 211, a second bottom rod 212 parallel to the first bottom rod 211, and a third bottom rod 213 connecting the first bottom rod 211 and the second bottom rod 212, wherein, the first bottom rod 211 and the second bottom rod 212 at two ends of the third bottom rod 213 are respectively provided with a

vertical rod

221 and 222, i.e. a vertical rod 221 is provided at a junction point of the first bottom rod 211 and the third bottom rod 213, a vertical rod 222 is provided at a junction point of the second bottom rod 212 and the third bottom rod 213, two sides of the vertical rod 221 and the vertical rod 222 are respectively provided with a reinforcing rod 23, and bottom ends of the reinforcing rod 23 are respectively fixed on the first bottom rod 211 and the second bottom rod 212. In the present embodiment, the third bottom bar 213 is also provided with a vertical bar 223 at a middle position. A horizontal rod 24 is fixed at the top ends of the

vertical rods

221, 222 and 223, and a bent lower slide rod 25 is fixed at one end of the horizontal rod 24, namely, at the position where the horizontal rod 24 is fixedly connected with the vertical rod 221; the upright pole 222 at the other end of the horizontal rod 24 extends upwards to form an extension section, and the extension section of the upright pole 222 is sleeved with the first sleeve 26. Thus, when the top frame 17 of the rolling stand 10 falls onto the diagonal brace 18, the keel pole 13 is lowered, and the reinforcement cage 60 on the chain 16 falls onto the horizontal bar 24 on the slide stand 20, and slides onto the ground via the lower slide bar 25. In order to avoid the cage 60 touching the horizontal bar 24 as it rolls over the chain 16, the cage 60 is worn out, so the chain 16 is mounted at a higher level than the horizontal bar 24. The first sleeve 26 has a blocking effect to prevent the steel reinforcement cage 60 from falling when rolling, and on the other hand, the first sleeve 26 is contacted with the first sleeve 26 when the steel reinforcement cage 60 rolls, so that the first sleeve 26 also rotates to avoid abrasion to the steel reinforcement cage 60.

As shown in fig. 3, the connecting frame 30 includes a rectangular parallelepiped connecting cage 31 and an L-shaped latch rod 32, each side of the bottom and top surfaces of the rectangular parallelepiped connecting cage 31 is composed of two

parallel struts

311, 312 having a gap therebetween, and two ends of the strut 311 of each side of the top surface extend to both sides to form extension ends 3110, and the extension sections 3110 of the struts 311 of adjacent sides of the top surface are staggered to form staggered gaps for clamping the reinforcing hoops 61 and the main ribs 63 of the reinforcement cage 60. In this embodiment, the two ends of the supporting rod 312 on each side of the bottom surface also extend to two sides to form the extending ends 3120, so that the bottom surface and the top surface of the connecting cage 31 are not needed to be distinguished when the connecting frame 30 is used, and installation time is saved. Preferably, four sides of the connecting cage 31 are all provided with a supporting rod 313, and two parallel middle rods 314 with interval slits are respectively arranged on the four sides of the connecting cage 31, and two ends of the middle rods 314 are respectively fixed at the middle positions of the supporting rod 311 and the supporting rod 312. The middle rod 314 has a reinforcing function, and is convenient for inserting and fixing the latch rod 32. Referring to fig. 4, when the reinforcement cage 60 is fixedly coupled to the coupling cage 31, the joint between the reinforcing band 61 and the main rib 63 is engaged in the staggered gap formed by the extending end 3110 or the extending end 3120, thereby clamping the reinforcement cage 60.

As shown in fig. 5, the power device 40 has an operation table 41, a motor 42 and a speed reducer 44 are mounted on the operation table 41, the speed reducer 44 is connected with the motor 42 through a conveyor belt 43, a drum 46 is connected to one side of the speed reducer 44 facing away from the motor 42 through a rotating shaft 45, a surface of the drum 46 facing the speed reducer 44 is a closed shape 462, a surface facing away from the speed reducer 44 is an open shape 461, and a connecting hole 463 for inserting the latch rod 32 is formed in a side wall of the drum 46. Accordingly, the opening of the drum 46 is engaged with the connecting cage 31, and the latch rod 32 has one end inserted into the slit of the connecting cage 31 and the other end inserted into the connecting hole 463, thereby connecting and fastening the drum 46 and the connecting cage 31. When the motor 42 is started, mechanical energy is transmitted to the speed reducer 44 through the transmission belt 43, the speed reducer 44 is used for reducing the speed, the rotating drum 46 is driven to rotate through the rotating shaft 45, and the rotating drum 46 is connected with the reinforcement cage 60 through the connecting frame 30, so that the rotating drum 46 drives the reinforcement cage 60 to rotate.

Further, the console 41 is fixed on an adjusting bracket, the adjusting bracket includes two parallel second sleeves 411, an adjusting rod 412 is disposed in the second sleeves 411 in a penetrating manner, two ends of the adjusting rod 412 are respectively provided with a supporting block 413, and the bottom end of the console 41 is fixed on the second sleeves 411. As shown in fig. 5, in the first preferred embodiment, the supporting block 413 is in a strip shape, two adjusting rods 412 are provided, one end portion corresponding to each of the two adjusting rods 412 is fixed on one side of one supporting block 413, and the other end portion corresponding to each of the two adjusting rods 412 is fixed on one side of the other supporting block 413, so that the two adjusting rods 412 are connected into a whole through the supporting block 413. In the second preferred embodiment, as shown in fig. 6, the number of the supporting blocks 413 is 4, that is, the ends of the two adjusting rods 412 are respectively provided with one supporting block 413. In actual construction, a constructor can select the arrangement mode of the supporting blocks 413 according to actual requirements. In the present embodiment, in order to secure the support stability of the support block 413, the support block 413 is provided in an elongated shape. The height of the support blocks 413 is greater than the diameter of the second sleeve 411, whereby the movement of the operating platform 41 can be achieved by the movement of the second sleeve 411 when the length of the reinforcement cage 60 is different. In use, lubricating oil can be smeared in the second sleeve 411, reducing friction when the second sleeve 411 slides. Thus, the supporting block 413 functions as a support on the one hand and as a limit for the sliding movement of the second sleeve 411 on the other hand.

As shown in fig. 7, the reinforcing bar stand 50 includes a base 51 and a center post 53, the center post 53 is mounted at a middle position of the base 51 through a bearing 52, and horizontally disposed placement bars 54 are fixed at intervals along the outer circumference of the bearing 52, in this embodiment, the number of placement bars 54 is four, and the four placement bars 54 are disposed at equal intervals. A third sleeve 55 is sleeved on the middle column 53, a limit horizontal rod 56 is fixed at a position corresponding to the placement rod 54 along the periphery of the third sleeve 55, and a limit vertical rod 57 is connected between the limit horizontal rod 56 and the placement rod 54. The coiled steel bars 70 are placed on the placing rods 54 and sleeved on the periphery of the limiting vertical rods 57, and the limiting vertical rods 57 limit the coiled steel bars 70, so that large deflection of the coiled steel bars 70 during rotation is avoided. Preferably, a limiting pile 540 is mounted on the end of the placement rod 54, and further limits the coiled steel bar 70.

In use, referring to fig. 1 to 7, the semiautomatic reinforcement cage stirrup mounting device of the present invention first places a plurality of rolling brackets 10 at intervals according to the length of the reinforcement cage 60, and places a sliding bracket 20 at a position close to each rolling bracket 10, and a power unit 40 is placed at the end position of the reinforcement cage 60. When the stirrup 62 is installed, the reinforcement cage 60 is placed on the chain 16 of the rolling bracket 10, at this time, the top support frame 17 of the rolling bracket 10 is abutted against the limiting piece 14, then the connecting frame 30 is placed at one end of the reinforcement cage 60, so that the main reinforcement 63 and the reinforcing hoop 61 of the reinforcement cage 60 are clamped and fixed in the staggered gap formed by the extending ends 3110 of the top support rods 311 of the connecting cage 31, the bottom of the connecting cage 31 is sleeved on the sleeve 46 of the power device 40, and meanwhile, one end of the bolt rod 32 is inserted into the connecting hole 463 of the rotary drum 46, and the other end of the bolt rod 32 is inserted into the gap of the connecting cage 31, thereby connecting and fastening the reinforcement cage 60, the connecting frame 30 and the rotary drum 46 of the power device 40. Thereafter, the round bar 70 is placed on the placement rod 54 of the bar bracket 50, and one end of the round bar 70 is connected to the reinforcement cage 60. After the placement of the reinforcement cage 60 and the coiled reinforcement 70 is completed, the motor 42 is started, the motor 42 drives the rotary drum 46 to rotate, the rotary drum 46 further drives the reinforcement cage 60 to roll, and at the same time, the coiled reinforcement 70 starts to rotate under the drive of the reinforcement cage 60. Thus, while the reinforcement cage 60 rolls, the coiled reinforcement 70 is spirally wound around the outer circumference of the reinforcement cage 60 as the reinforcement cage 60 rolls to form the stirrup 62. When the reinforcement cage 60 rolls, the chain 16 of the rolling bracket 10 rotates along with the rolling of the reinforcement cage 60, and the first sleeve 26 of the sliding bracket 20 also rotates along with the rolling of the reinforcement cage 60 when the reinforcement cage 60 contacts, thereby avoiding abrasion to the reinforcement cage 60. After winding is completed, the motor 42 is turned off, the interval between the stirrups 62 is manually adjusted and controlled, and the stirrups 62 are bound and fixed.

After the stirrup 62 is installed, a supporting rod is inserted into the hollow position of the keel supporting rod 13, one end of the keel supporting rod 13, which is fixedly provided with the limiting piece 14, is lifted through the supporting rod, the top supporting frame 17 at the abutting position does not fall onto the diagonal supporting rod 18 at the moment, the height of the keel supporting rod 13 is lowered, the height of the chain 16 is lowered, the reinforcement cage 60 slides onto the horizontal rod 24 of the sliding support 20 from the chain 16 at the moment, and the reinforcement cage 60 is pushed manually, so that the reinforcement cage 60 rolls onto the ground along the lower sliding rod 25, and the installation operation of the stirrup 62 is completed. When the keel supporting rod 13 is used next time, the top supporting frame 17 is lifted to be abutted against the limiting piece 14, so that the keel supporting rod 13 is supported. If the length of the reinforcement cage 60 is longer or shorter, the second sleeve 411 can be moved along the adjusting rod 412 by pushing the operating platform 41, so that the power device 40 can be moved, and the reinforcement cages 60 with different lengths can be adapted.

The semi-automatic reinforcement cage stirrup installation device has the following beneficial effects:

1) When the reinforcement cage rolls due to the arrangement of the chain and the chain wheel, the chain rolls synchronously, so that the situation that other support devices of the reinforcement cage cannot rotate synchronously with the reinforcement cage and the reinforcement cage is worn is avoided;

2) The sliding support is arranged, so that the reinforcement cage can be conveniently lowered, and the operation efficiency is improved; the first sleeve prevents the reinforcement cage from falling off the chain when rolling on one hand, so as to play a role in blocking, and on the other hand, after the reinforcement cage contacts with the first sleeve when rolling, the first sleeve can synchronously rotate, so that the reinforcement cage is prevented from being worn, and a protection effect is played;

3) Because the power device has heavy weight and inconvenient movement, the adjusting bracket is arranged at the bottom of the operating platform, thereby being convenient for the movement of the operating platform and saving the manpower.

The present invention has been described in detail with reference to the drawings and embodiments, and one skilled in the art can make various modifications to the invention based on the above description. Accordingly, certain details of the illustrated embodiments are not to be taken as limiting the invention, which is defined by the appended claims.

Claims

1. Semi-automatic steel reinforcement cage stirrup installation device, its characterized in that includes:

the sliding support is provided with a bent lower slide bar at one side;

the steel bar support comprises a base and a middle column, wherein the middle column is arranged on the base through a bearing, and horizontal placing rods are arranged at intervals along the periphery of the bearing;

a first sleeve is fixed on the front cross rod of the rectangular bottom frame, the top support frame comprises a pivoting cross rod and a top support cross rod, and the pivoting cross rod is arranged in the first sleeve in a penetrating manner and is connected with the top support cross rod through a first connecting rod; the rolling support further comprises an inclined support rod, and two ends of the inclined support rod are fixedly connected with the rectangular bottom frame and the supporting frame respectively.

2. The semi-automatic reinforcement cage stirrup mounting device as set forth in claim 1, wherein: the supporting frame comprises a supporting cross rod, the supporting cross rod is fixed on the rear cross rod of the rectangular bottom frame through a second connecting rod, a second sleeve is sleeved on the supporting cross rod, and one end of the keel supporting rod is fixed on the second sleeve.

3. The semi-automatic reinforcement cage stirrup mounting device as set forth in claim 1, wherein: and the two end parts of the keel support rod are respectively fixed with a mounting seat, the mounting seats are provided with the chain wheels, and the chains are arranged on the chain wheels at the two end parts of the keel support rod.

4. A semiautomatic reinforcement cage stirrup mounting device as set forth in claim 3, characterized in that: the installation seat comprises two support plates and a short shaft, the support plates are fixed on two sides of the end parts of the keel support rods, corresponding grooves are respectively formed in the two support plates, the short shaft is arranged in the chain wheel in a penetrating mode and is erected in the grooves of the support plates, and the chain is installed on the chain wheels at the two end parts of the keel support rods.

5. The semi-automatic reinforcement cage stirrup mounting device as set forth in claim 1, wherein: the sliding support is provided with an I-shaped bottom frame, the I-shaped bottom frame comprises a first bottom rod, a second bottom rod and a third bottom rod connected with the first bottom rod and the second bottom rod, vertical rods are respectively arranged on the first bottom rod and the second bottom rod at the two end parts of the third bottom rod, and reinforcing rods are respectively arranged on two sides of the vertical rods; the top of pole setting is fixed with a horizon bar, horizon bar one end is fixed with the lower slide bar, pole setting of horizon bar other end department upwards extends and forms the extension, and this extension is gone up the cover and is equipped with first sleeve pipe.

6. The semi-automatic reinforcement cage stirrup mounting device as set forth in claim 1, wherein: two parallel middle rods with interval slits are respectively arranged on the four side faces of the cuboid connecting cage.

7. The semi-automatic reinforcement cage stirrup mounting device as set forth in claim 1, wherein: the operation panel is fixed on an adjusting bracket, the adjusting bracket comprises two second sleeves which are arranged in parallel, an adjusting rod is arranged in the second sleeves in a penetrating mode, supporting blocks are respectively arranged at two ends of the adjusting rod, and the bottom end of the operation panel is fixed on the second sleeves.

8. The semi-automatic reinforcement cage stirrup mounting device as set forth in claim 2, wherein: the center post is sleeved with a third sleeve, a limit horizontal rod is fixed at the corresponding position of the placement rod along the periphery of the third sleeve, and a limit vertical rod is connected between the limit horizontal rod and the placement rod.