CN113020846A - Be used for steel reinforcement cage welded processing equipment - Google Patents

Abstract

The application relates to a processing device for welding a reinforcement cage, which is applied to the technical field of the processing device for the reinforcement cage and comprises a conveying device and a rolling device, wherein the conveying device is arranged on one side of the rolling device along the length direction, and the rolling device is provided with a positioning device for assisting the rotation of a framework of the reinforcement cage along the length direction; the positioning device comprises a positioning frame arranged on the rolling device, a connecting piece used for being connected with a framework of the steel bar cage is arranged on the positioning frame, a sliding rail is arranged on the rolling device along the length direction, the positioning frame is arranged on the sliding rail in a sliding mode, a limiting part is arranged on the positioning frame, and the limiting part is used for limiting the movement of the positioning frame. This application can reach supplementary steel reinforcement cage skeleton pivoted effect through locating rack and connecting piece, has saved operator's labour greatly, has improved steel reinforcement cage's preparation efficiency to the potential safety hazard has been avoided.

Description

Be used for steel reinforcement cage welded processing equipment

Technical Field

The application relates to the technical field of steel reinforcement cage processing equipment, in particular to processing equipment for welding a steel reinforcement cage.

Background

The reinforcement cage mainly plays a role similar to the stress of the longitudinal reinforcement of the column, and mainly plays a role of tensile strength, and the compressive strength of the concrete is high but the tensile strength is very low. The pile body concrete is restrained, so that the pile body concrete can bear certain axial tension. And the steel reinforcement cage need use the stirrup coiled material in the in-process of preparation, consequently need transport the stirrup coiled material through conveyor.

Chinese patent No. CN211965763U discloses a reinforcement cage reinforcement winding machine, which comprises a paying-off walking device and a reinforcement winding machine rolling device; the paying-off walking device is arranged on one side of the rolling device of the bar winding machine and comprises a paying-off walking trolley, a paying-off walking trolley track, a paying-off disc and a reinforcing steel bar straightening mechanism; the rolling device of the rib winding machine comprises a main frame, a rolling mechanism, a power mechanism and a transmission mechanism; the transmission mechanism comprises a first transmission shaft and a second transmission shaft, the rolling mechanism is connected with the first transmission shaft and the second transmission shaft through cross universal couplings, the rolling mechanism comprises two sets of parallel rib winding rollers, each rib winding roller set comprises at least two end-to-end rib winding rollers, and the rib winding rollers are connected through the cross universal couplings.

To the correlation technique among the above-mentioned, the inventor thinks, in-process at the preparation steel reinforcement cage, the operator can place the steel reinforcement cage skeleton on the rolling device, does further processing to the steel reinforcement cage skeleton again, and the steel reinforcement cage skeleton needs artifical manual supplementary steel reinforcement cage skeleton to rotate when rotating this moment to consumed a large amount of labours of operator, and had certain potential safety hazard.

Disclosure of Invention

In order to improve artifical supplementary steel reinforcement cage skeleton and rotate, need consume the problem of a large amount of labours of operator, this application provides a processing equipment for steel reinforcement cage welding.

The application provides a processing equipment for steel reinforcement cage welding adopts following technical scheme:

a processing device for welding a reinforcement cage comprises a conveying device and a rolling device, wherein the conveying device is arranged on one side of the rolling device along the length direction, and the rolling device is provided with a positioning device used for assisting the rotation of a reinforcement cage framework along the length direction; the positioning device comprises a positioning frame arranged on the rolling device, a connecting piece used for being connected with a framework of the steel bar cage is arranged on the positioning frame, a sliding rail is arranged on the rolling device along the length direction, the positioning frame is arranged on the sliding rail in a sliding mode, a limiting part is arranged on the positioning frame, and the limiting part is used for limiting the movement of the positioning frame.

Through adopting the above-mentioned technical scheme, in-process at the preparation steel reinforcement cage, the operator places the rolling device with the steel reinforcement cage skeleton that makes in advance on, the operator promotes the locating rack and slides along the length direction of slide rail after that, make the connecting piece peg graft the inside of steel reinforcement cage skeleton, and be connected to the locating rack with the steel reinforcement cage skeleton through the connecting piece on, in order to reach the effect of fixed steel reinforcement cage skeleton, fix the locating rack through the locating part simultaneously, in order to increase the stability of locating rack, thereby the steel reinforcement cage skeleton is at the pivoted in-process, it rotates together on the locating rack to drive the connecting piece, locating rack and connecting piece can reach supplementary steel reinforcement cage skeleton pivoted effect this moment, operator's labour has been saved greatly, the preparation efficiency of steel reinforcement cage is improved, and the potential safety hazard has been avoided.

Optionally, the connecting piece includes a positioning shaft rotatably connected to the positioning frame, the positioning shaft is sleeved with a positioning ring, the positioning ring is provided with a plurality of guide cylinders along the circumferential direction, a guide rod is slidably connected in each of the plurality of guide cylinders, and one end of each guide rod, which is far away from each guide cylinder, is provided with a tightening rod; the one end of supporting tight pole articulates there is the connecting rod, the epaxial cover in location is equipped with the sliding sleeve, the sliding sleeve slides and sets up epaxially in the location, the one end that supporting tight pole was kept away from to the connecting rod articulates on the sliding sleeve, the location axle has the promotion piece at the one end threaded connection that the holding ring was kept away from to the sliding sleeve.

Through adopting the above technical scheme, at the in-process of connecting steel reinforcement cage skeleton and locating rack, the operator rotates and promotes the piece, make and promote the piece and promote the sliding sleeve along the endwise slip of location axle, and be close to the holding ring, the sliding sleeve promotes through the connecting rod this moment and supports the tight pole and remove to the one side of keeping away from the holding ring, make and support the tight pole and drive the length direction slip of guide bar along the guide cylinder, and the guide cylinder restricts the moving direction of guide bar, thereby the effect to the direction that the tight pole played, and then the stability when increasing the tight pole and removing, when supporting the tight pole and supporting the inner ring of steel reinforcement cage skeleton on tightly, in order to reach the effect of connecting steel reinforcement cage skeleton, and is convenient and fast, operator's reverse operation can break away from the connecting piece from the steel reinforcement cage skeleton.

Optionally, one side of the abutting rod, which is far away from the guide rod, is provided with a clamping seat, and one side of the clamping seat, which is far away from the abutting rod, is provided with a limiting groove.

Through adopting above-mentioned technical scheme, support tight pole when being close to the interior becket of steel reinforcement cage skeleton, the interior becket of steel reinforcement cage skeleton inlays and establishes the spacing groove, and the spacing groove carries on spacingly to the steel reinforcement cage skeleton this moment to increase the firm in connection nature between steel reinforcement cage skeleton and the bracing piece, take place from the condition that supports the tight pole with the reduction steel reinforcement cage skeleton and break away from.

Optionally, a sliding groove is formed in one side, away from the guide rod, of the abutting rod along the length direction, a sliding block is connected in the sliding groove in a sliding mode, the clamping seat is arranged on the sliding block, and a threaded rod in threaded connection with the sliding block is connected in the sliding groove in a rotating mode.

Through adopting above-mentioned technical scheme, the operator rotates the threaded rod for threaded rod drive slider removes along the length direction of spout, and the slider can drive joint seat and together remove this moment, thereby reaches the effect of adjusting joint seat position, so that the accurate cooperation of inner ring of spacing groove and steel reinforcement cage skeleton.

Optionally, the connecting rod includes two adjusting rods and an adjusting screw rod for connecting the two adjusting rods, one of the adjusting rods is hinged to the sliding sleeve, the other adjusting rod is hinged to the abutting rod, the adjusting screw rod is arranged between the two adjusting rods, and the adjusting screw rod is simultaneously in threaded connection with the two adjusting rods.

Through adopting above-mentioned technical scheme, the operator rotates adjusting screw, and two regulation poles of drive are to relative or the one end removal that carries on the back mutually, can realize adjusting the purpose of two distances between the pole to drive the pole that supports and remove, and then the operator of being convenient for is adjusted single pole that supports, so that each pole homoenergetic that supports and the abundant contact of interior lantern ring of steel reinforcement cage skeleton.

Optionally, the positioning frame includes a positioning seat, a positioning rod and a positioning plate, the positioning seat is slidably disposed on the slide rail, the positioning rod is fixed to the positioning seat, the positioning plate is slidably connected to the positioning rod, the positioning rod is rotatably connected to a lead screw along a vertical direction, the lead screw is in threaded connection with the positioning plate, and the connecting member is disposed on the positioning plate.

Through adopting above-mentioned technical scheme, the operator rotates the lead screw, and the lead screw drive locating plate removes along the vertical direction of locating lever to reach the effect of adjusting the locating plate height, thereby the operator of being convenient for adjusts the height of connecting piece, and then is convenient for connect the steel reinforcement cage skeleton that adapts to different diameters.

Optionally, two groups of the slide rail, the positioning seat, the positioning rod and the positioning plate are symmetrically arranged along a center line of the rolling device in the length direction, and a buffer member is arranged between the two positioning plates; the buffer piece comprises two guide grooves, a moving frame and a moving block, wherein one of the two guide grooves is fixed on one of the positioning plates, the other guide groove is fixed on the other positioning plate, one end of the moving frame is inserted into one of the two guide grooves, the other end of the moving frame is inserted into the other guide groove, two ends of the guide grooves in the vertical direction are respectively provided with a first spring, and the two first springs are abutted against the moving frame; the movable block is arranged in the movable frame in a sliding mode, two ends of the movable frame in the length direction are respectively provided with a second spring, the two second springs are abutted to the movable block, and the positioning shaft is rotatably arranged on the movable block.

Through adopting above-mentioned technical scheme, when the steel reinforcement cage skeleton rotates on rolling device, remove the frame and can follow the motion that the guide way was vertical direction, the movable block can be along the length direction who removes the frame and be transverse motion, with the flexibility ratio of being connected between increase connecting piece and the positioning seat, remove the frame simultaneously at gliding in-process, compress first spring, and the movable block compresses the second spring, the spring is compressed and has elastic restoring force, and under elastic restoring force effect, with the effect that reaches the buffering movable block, thereby the effect of buffering has been played to the connecting piece, and then the stability of being connected of increase connecting piece and steel reinforcement cage skeleton.

Optionally, the limiting part includes a limiting block disposed on the side wall of the positioning seat, the limiting block is hinged with a limiting frame, a limiting rod matched with the limiting frame is disposed on the side wall of the slide rail, and a plurality of limiting rods are uniformly distributed along the length direction of the slide rail.

Through adopting above-mentioned technical scheme, after connecting piece and steel reinforcement cage skeleton are connected, the operator rotates spacing frame for spacing frame lock is to the gag lever post, and the gag lever post is spacing to spacing frame this moment, in order to reach the effect of fixed spacing frame, thereby spacing frame is fixed the positioning seat, in order to reduce the positioning seat and appear gliding possibility on the track.

Optionally, the limiting frame is connected with a tightening screw at one end of the limiting rod far away from the limiting block through threads, and the tightening screw is connected with a tightening plate in a rotating manner towards one end of the limiting rod.

Through adopting above-mentioned technical scheme, after spacing frame lock to the gag lever post, the operator rotates and supports tight screw rod for support tight screw rod and promote to support tight board and be close to the gag lever post, and support tightly to the gag lever post on, thereby increase the firm in connection nature between gag lever post and the spacing frame, take place with the condition that reduces spacing frame and break away from the gag lever post.

Optionally, the side wall of the positioning seat has been seted up along length direction the spread groove, sliding connection has the connecting block in the spread groove, the connecting block is fixed in on the stopper, threaded connection has the holding screw who contradicts with the spread groove diapire on the stopper.

Through adopting above-mentioned technical scheme, the connecting block can be followed the length direction slip of spread groove, the operator can promote the stopper and remove along the length direction of positioning seat this moment, thereby the operator of being convenient for adjusts the position of stopper, so that the operator establishes the gag lever post with spacing frame cover, the operator rotates clamping screw simultaneously, make clamping screw support tightly on the diapire of spread groove, in order to reach the effect of fixed stopper, thereby increase the firm in connection nature between stopper and the positioning seat, take place with the condition that reduces the stopper and breaks away from the positioning seat.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the effect of assisting the rotation of the framework of the reinforcement cage can be achieved through the positioning frame and the connecting piece, the labor force of an operator is greatly saved, the manufacturing efficiency of the reinforcement cage is improved, and potential safety hazards are avoided;

2. the connecting piece is buffered through the buffer piece, so that the connection stability of the connecting piece and the reinforcement cage framework can be improved;

3. the locating seat is fixed through the locating part, and the possibility that the locating seat slides on the rail can be reduced.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram for embodying a positioning apparatus in an embodiment of the present application.

Fig. 3 is a schematic structural diagram for embodying the connecting member and the buffer member according to the embodiment of the present application.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Fig. 5 is an enlarged schematic view of a portion B in fig. 2.

Description of reference numerals: 1. a conveying device; 2. a rolling device; 3. a positioning device; 31. a slide rail; 4. a positioning frame; 41. positioning seats; 411. connecting grooves; 42. positioning a rod; 421. a guide hole; 43. positioning a plate; 44. a screw rod; 5. a connecting member; 51. positioning the shaft; 52. a positioning ring; 53. a guide cylinder; 54. a guide bar; 55. a tightening rod; 551. a chute; 552. a slider; 553. a threaded rod; 56. a connecting rod; 561. adjusting a rod; 562. adjusting the screw rod; 57. a sliding sleeve; 58. a pushing block; 59. a clamping seat; 591. a limiting groove; 6. a buffer member; 61. a guide groove; 62. moving the frame; 63. a moving block; 64. a first spring; 65. a second spring; 66. a reinforcing block; 7. a limiting member; 71. a limiting block; 72. a limiting frame; 73. a limiting rod; 74. tightly abutting against the screw rod; 75. a propping plate; 76. connecting blocks; 77. and fixing the screw rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a processing equipment for welding a reinforcement cage.

Referring to fig. 1, the processing equipment comprises a conveying device 1, a rolling device 2 and a positioning device 3, wherein the conveying device 1 is arranged on one side of the rolling device 2 in the length direction and is used for conveying a stirrup coiled material. The positioning device 3 is disposed along the length direction of the rolling device 2, and the rolling device 2 is inserted into the positioning device 3. In the process of manufacturing the reinforcement cage, an operator firstly places the reinforcement cage framework which is manufactured in advance on the rolling device 2. The operator can be connected positioner 3 and steel reinforcement cage skeleton this moment to fix a position the steel reinforcement cage skeleton, thereby supplementary steel reinforcement cage skeleton's rotation, and then increase the stability when steel reinforcement cage skeleton rotates. Then the operator winds the stirrups on the reinforcement cage framework, and welds the stirrups to realize the purpose of manufacturing the reinforcement cage.

Referring to fig. 1 and 2, the positioning device 3 includes two slide rails 31 and a positioning frame 4, the two slide rails 31 are disposed along the length direction of the rolling device 2, and the two slide rails 31 are symmetrically disposed along the center line of the rolling device 2 in the length direction. The locating rack 4 is arranged on the two sliding rails 31 in a sliding mode, the two locating racks 4 are arranged along the length direction of the rolling device 2, and the steel bar cage framework is located between the two supporting racks.

Referring to fig. 1 and 2, the positioning frame 4 includes a positioning seat 41, a positioning rod 42, a positioning plate 43 and a screw rod 44, the positioning seat 41 is slidably disposed on the slide rail 31, a positioning groove is disposed on one side of the positioning seat 41 facing the slide rail 31 along the length direction, and the slide rail 31 is disposed in the positioning groove in a penetrating manner. A plurality of rotating rollers are rotatably connected in the positioning groove along the length direction and are abutted against the upper surface of the slide rail 31, so that the positioning seat 41 can flexibly slide on the slide rail 31.

Referring to fig. 1 and 2, the positioning rod 42 is fixed to one side of the positioning seat 41 departing from the sliding rail 31, a guide hole 421 is opened in the vertical direction of the positioning rod 42 facing the side wall of the rolling device 2, and the guide hole 421 penetrates through the positioning rod 42. The screw rod 44 is arranged along the length direction of the positioning rod 42 and is rotatably connected in the guide hole 421, and one end of the screw rod 44, which is far away from the positioning seat 41, extends out of the positioning rod 42 and is provided with a handle, so that an operator can rotate the screw rod 44 conveniently. One end of the positioning plate 43 along the length direction is inserted into the guide hole 421 and is in threaded connection with the screw rod 44, and an operator rotates the screw rod 44, so that the purpose of lifting the positioning plate 43 can be achieved, and the operator can conveniently adjust the height of the positioning plate 43.

Referring to fig. 2 and 3, two sets of positioning seats 41, positioning rods 42, positioning plates 43 and screw rods 44 are symmetrically arranged along the center line of the rolling device 2 in the length direction, and the other set is slidably arranged on the other slide rail 31. And the two positioning plates 43 are simultaneously provided with connecting pieces 5, and the connecting pieces 5 are used for connecting the steel bar cage framework to the positioning frames 4. The connecting piece 5 comprises a positioning shaft 51 rotatably connected to the positioning plate 43, a positioning ring 52 is sleeved on one side of the positioning plate 43 facing the reinforcement cage framework of the positioning shaft 51, and the positioning ring 52 is fixed on the positioning shaft 51. The positioning ring 52 is fixedly connected with a plurality of guide cylinders 53 along the circumferential direction, the number of guide cylinders 53 can be four, and the four guide cylinders 53 are uniformly distributed along the circumferential direction of the positioning ring 52. And a guide rod 54 is connected in the plurality of guide cylinders 53 in a sliding manner, one end of the guide rod 54 far away from the guide cylinders 53 is fixedly connected with a propping rod 55, and the guide rod 54 is perpendicular to the middle part of the propping rod 55.

Referring to fig. 2 and 3, the positioning shaft 51 is sleeved with a sliding sleeve 57 at an end of the positioning ring 52 away from the positioning plate 43, and the sliding sleeve 57 is slidably disposed on the positioning shaft 51. Four connecting rods 56 are uniformly distributed on the sliding sleeve 57 along the peripheral direction, the four connecting rods 56 correspond to the four abutting rods 55 one by one, one end of each connecting rod 56 is hinged to the sliding sleeve 57, and the other end of each connecting rod 56 is hinged to one end, far away from the positioning plate 43, of each abutting rod 55. Meanwhile, a pushing block 58 is screwed on the positioning shaft 51 at one end of the sliding sleeve 57, which is far away from the positioning ring 52, and the pushing block 58 abuts against the sliding sleeve 57.

Referring to fig. 2 and 3, during the process of connecting the reinforcement cage frame, the operator rotates the pushing block 58, so that the pushing block 58 pushes the sliding sleeve 57 to approach along the positioning ring 52, and pushes the abutting rod 55 to approach towards the inner ring of the reinforcement cage frame. At this time, the abutting rod 55 drives the guide rod 54 to slide along the length direction of the guide cylinder 53, and the moving direction of the guide rod 54 is limited by the guide cylinder 53, so as to increase the stability of the abutting rod 55 during moving. When the abutting rod 55 abuts against the inner ring of the steel reinforcement cage framework, the connection between the steel reinforcement cage framework and the positioning frame 4 is realized.

Referring to fig. 3 and 4, a clamping seat 59 is arranged on one side of the abutting rod 55 departing from the guide rod 54, an arc-shaped limiting groove 591 is formed in one side of the clamping seat 59 departing from the abutting rod 55, and the limiting groove 591 is matched with an inner circular ring of the steel reinforcement cage framework. The inner circle of the steel reinforcement cage framework is embedded into the limit groove 591 in the process that the abutting rod 55 approaches the inner circle of the steel reinforcement cage framework. Limiting groove 591 restricts the inner ring of steel reinforcement cage at this moment to increase the fastness of being connected between tight pole 55 and the steel reinforcement cage skeleton, take place with the condition that the tight pole 55 that reduces breaks away from the steel reinforcement cage skeleton.

Referring to fig. 3 and 4, a sliding groove 551 is formed in one side of the abutting rod 55, which is far away from the guide rod 54, along the length direction, a threaded rod 553 is arranged in the sliding groove 551, the threaded rod 553 is rotatably connected to the abutting rod 55, and one end of the threaded rod 553, which is far away from the connecting rod 56, extends out of the abutting rod 55, so that an operator can rotate the threaded rod 553. A sliding block 552 is arranged in the sliding groove 551 in a sliding mode, the sliding block 552 is in threaded connection with the threaded rod 553, and the clamping seat 59 is fixed on the sliding block 552. The operator rotates threaded rod 553, and threaded rod 553 can drive slider 552 and remove along the length direction of spout 551 to be convenient for the operator to adjust the position of joint chair 59, and then be convenient for spacing groove 591 and the interior becket of steel reinforcement cage skeleton carry out accurate cooperation.

Referring to fig. 3 and 4, the connecting rod 56 includes two adjusting rods 561 and two adjusting screws 562, the center lines of the two adjusting rods 561 are located on the same straight line, one of the adjusting rods 561 is hinged on the sliding sleeve 57, and the other adjusting rod 561 is hinged on the abutting rod 55. The adjusting screw 562 is disposed between the two adjusting rods 561, and the threads at the two ends of the adjusting rods 561 in the length direction are opposite, wherein one end is in threaded connection with one of the adjusting rods 561, and the other end is in threaded connection with the other adjusting rod 561. The operator rotates adjusting screw 562 for adjusting screw 562 drives two regulation poles 561 and is close to each other or keeps away from, in order to reach the effect of adjusting the length of connecting rod 56, thereby be convenient for the operator is solitary to the position of supporting pole 55 do further regulation, and then be convenient for each supporting pole 55 all can be abundant inconsistent with the interior ring of steel reinforcement cage skeleton, further increase the stability of being connected between steel reinforcement cage skeleton and locating rack 4.

Referring to fig. 2 and 3, a buffer member 6 is simultaneously disposed between the two positioning plates 43, the positioning shaft 51 is rotatably connected to the buffer member 6, the buffer member 6 includes two guide grooves 61, a moving frame 62, a moving block 63, a first spring 64 and a second spring 65, one of the two guide grooves 61 is fixed on one of the positioning plates 43, the other guide groove 61 is fixed on the other positioning plate 43, and openings of the two guide grooves 61 are opposite to each other. The moving frame 62 is located between the two guide slots 61, and has one end inserted into one of the guide slots 61 and the other end inserted into the other guide slot 61. At this moment, the movable frame 62 can slide along the vertical direction of the guide groove 61, so that the flexibility of the movable frame 62 in the vertical direction is increased, and the flexibility of the connecting piece 5 is increased or decreased, so that an operator can conveniently connect the connecting piece 5 with a steel bar cage framework.

Referring to fig. 2 and 3, the first spring 64 is provided in two pairs, one pair being disposed in one of the guide grooves 61 and the other pair being disposed in the other guide groove 61. The moving frame 62 is located between the two first springs 64 of the same pair, and one end of each first spring 64 is fixed to the end surface of the guide groove 61, and the other end is fixed to the moving frame 62. The in-process that removes frame 62 and follow the gliding of guide way 61 vertical direction, removes frame 62 and compresses first spring 64, and first spring 64 has elastic restoring force by the compression to under the effect of elastic restoring force, first spring 64 has the effect of buffering energy-absorbing, thereby first spring 64 has played the absorbing effect of buffering to removing frame 62, and then the stability when increasing removal frame 62 and removing.

Referring to fig. 2 and 3, the moving block 63 is slidably coupled within the moving frame 62 and slides in the horizontal direction of the moving frame 62. The positioning shaft 51 is rotatably connected to the moving block 63, a reinforcing block 66 is arranged on one side, away from the reinforcement cage framework, of the moving block 63, and the reinforcing block 66 is fixed to the moving block 63 through a reinforcing rod. The positioning shaft 51 is inserted and rotatably connected to the reinforcing block 66, and at this time, the reinforcing block 66 can improve the balance and stability of the positioning shaft 51 during rotation, so as to reduce the possibility of sliding of the positioning shaft 51 during rotation. Simultaneously the location axle 51 can follow the movable block 63 and remove along the horizontal direction that removes frame 62 to increase the flexibility ratio on the location axle 51 horizontal direction, further promoted the flexibility ratio of location axle 51, so that the operator is quick convenient connect the steel reinforcement cage skeleton.

Referring to fig. 2 and 3, two second springs 65 are provided, and the moving block 63 is located between the two second springs 65, one end of the second spring 65 is fixed to the moving block 63, the other end is fixed to the moving frame 62, and the second springs 65 are always in a partially compressed state. During the process that the moving block 63 slides in the moving block 62, the moving block 63 compresses the second spring 65, and the second spring 65 is compressed to have elastic restoring force, so that the second spring 65 buffers and absorbs energy to the moving block 63 to increase the stability of the moving block 63 during movement.

Referring to fig. 2 and 5, the positioning seat 41 is provided with a limiting member 7 on a side away from the slide rail 31, and the limiting member 7 is used for connecting the positioning seat 41 to the slide rail 31, so as to reduce the possibility of the positioning seat 41 sliding on the slide rail 31 by mistake. The limiting part 7 comprises a limiting block 71 fixed on the side wall of the positioning seat 41, a limiting frame 72 is hinged on the limiting block 71, a limiting rod 73 used in cooperation with the limiting frame 72 is fixedly connected to the side wall of the slide rail 31, and a plurality of limiting rods 73 are uniformly distributed along the length direction of the slide rail 31. After the operator moves the positioning seat 41 to a proper position, the operator rotates the limiting frame 72, the limiting frame 72 is buckled on the limiting rod 73, and the limiting rod 73 limits the limiting frame 72 at the moment, so that the positioning seat 41 is limited, and the stability of the positioning seat 41 is improved.

Referring to fig. 2 and 5, one end of the limiting frame 72, which is far away from the limiting block 71, is in threaded connection with a tightening screw 74, one end of the tightening screw 74, which faces the limiting rod 73, is in rotational connection with a tightening plate 75, and the tightening plate 75 is in sliding connection with the inside of the limiting frame 72. The side of the tightening plate 75 facing the limiting rod 73 is arc-shaped and matches with the outer surface of the tightening rod 55. The operator rotates the tightening screw 74, so that the tightening screw 74 pushes the tightening plate 75 to approach the limiting rod 73 and tighten the limiting rod 73. At this time, the limit rod 73 fixes the abutting plate 75 to achieve the effect of fixing the limit frame 72, thereby reducing the occurrence of the situation that the limit frame 72 is separated from the limit rod 73 in an ascending way.

Referring to fig. 2 and 5, the side wall of the positioning seat 41 departing from the sliding rail 31 has a connecting groove 411 along the length direction, the connecting groove 411 has a connecting block 76 slidably connected thereto, and the connecting block 76 and the limiting block 71 are integrally formed. At this time, the operator can push the limiting block 71 to drive the connecting block 76 to slide in the connecting groove 411, so that the operator can adjust the position of the limiting block 71, and the operator can accurately match the limiting frame 72 with the limiting rod 73. And the limiting block 71 is provided with a fixing screw 77 penetrating through the connecting block 76 at the same time, and the end surface of the fixing screw 77 abuts against the bottom wall of the connecting groove 411. An operator rotates the fixing screw 77, so that the fixing screw 77 abuts against the bottom wall of the connecting groove 411 to achieve the effect of fastening the limiting block 71, and the occurrence of the situation that the limiting block 71 mistakenly slides in the limiting groove 591 is reduced.

The implementation principle of the processing equipment for welding the reinforcement cage is as follows: in the process of fixing the steel reinforcement cage framework, an operator pushes the positioning frame 4 to be close to the steel reinforcement cage framework, and inserts the positioning shaft 51 into the steel reinforcement cage framework. The operator then rotates the pusher block 58 so that the pusher block 58 pushes the sliding sleeve 57 closer to the fixed ring. At this moment, the sliding sleeve 57 pushes the abutting rod 55 to be close to the inner ring of the steel reinforcement cage through the connecting rod 56 until the inner ring of the steel reinforcement cage is embedded in the limiting groove 591, so that the effect of connecting the steel reinforcement cage and the positioning frame 4 is achieved. Then, the operator rotates the limiting frame 72 reversely, so that the limiting frame 72 is buckled on the limiting rod 73, the abutting plate 75 abuts on the limiting rod 73, the limiting frame 72 is fixed, and the limiting frame 72 fixes the positioning seat 41. Meanwhile, an operator rotates the fixing screw 77 to fix the limiting block 71, so that the stability between the positioning seat 41 and the slide rail 31 is increased, and the stability of the positioning seat 41 is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a processing equipment for steel reinforcement cage welded, includes conveyor (1) and rolling device (2), and conveyor (1) sets up in one side of rolling device (2) along length direction, its characterized in that: the rolling device (2) is provided with a positioning device (3) used for assisting the rotation of the steel bar cage framework along the length direction;

positioner (3) are including setting up locating rack (4) on rolling device (2), be equipped with on locating rack (4) and be used for connecting piece (5) with the steel reinforcement cage skeleton, rolling device (2) are equipped with slide rail (31) along length direction, locating rack (4) slide to set up on slide rail (31), be equipped with locating part (7) on locating rack (4), locating part (7) are used for restricting the removal of locating rack (4).

2. A processing apparatus for reinforcement cage welding according to claim 1, wherein: the connecting piece (5) comprises a positioning shaft (51) which is rotatably connected to the positioning frame (4), a positioning ring (52) is sleeved on the positioning shaft (51), a plurality of guide cylinders (53) are arranged on the positioning ring (52) along the circumferential direction, a guide rod (54) is connected in each guide cylinder (53) in a sliding manner, and a tightening rod (55) is arranged at one end, far away from the guide cylinders (53), of each guide rod (54);

the one end of supporting pole (55) articulates there is connecting rod (56), the cover is equipped with sliding sleeve (57) on location axle (51), sliding sleeve (57) slide to set up on location axle (51), the one end that supporting pole (55) was kept away from in connecting rod (56) articulates on sliding sleeve (57), location axle (51) has the promotion piece (58) at the one end threaded connection that sliding sleeve (57) kept away from holding ring (52).

3. A processing apparatus for reinforcement cage welding according to claim 2, wherein: one side of the abutting rod (55) departing from the guide rod (54) is provided with a clamping seat (59), and one side of the clamping seat (59) departing from the abutting rod (55) is provided with a limiting groove (591).

4. A processing apparatus for reinforcement cage welding according to claim 3, wherein: one side of the abutting rod (55) departing from the guide rod (54) is provided with a sliding groove (551) along the length direction, a sliding block (552) is connected in the sliding groove (551) in a sliding mode, the clamping seat (59) is arranged on the sliding block (552), and a threaded rod (553) in threaded connection with the sliding block (552) is connected in the sliding groove (551) in a rotating mode.

5. A processing apparatus for reinforcement cage welding according to claim 2, wherein: the connecting rod (56) comprises two adjusting rods (561) and adjusting screws (562) used for connecting the two adjusting rods (561), one of the adjusting rods (561) is hinged to the sliding sleeve (57), the other adjusting rod (561) is hinged to the abutting rod (55), the adjusting screws (562) are arranged between the two adjusting rods (561), and the adjusting screws (562) are simultaneously in threaded connection with the two adjusting rods (561).

6. A processing apparatus for reinforcement cage welding according to claim 1, wherein: the positioning frame (4) comprises a positioning seat (41), a positioning rod (42) and a positioning plate (43), the positioning seat (41) is arranged on the sliding rail (31) in a sliding mode, the positioning rod (42) is fixed on the positioning seat (41), the positioning plate (43) is connected to the positioning rod (42) in a sliding mode, the positioning rod (42) is connected with a lead screw (44) in a rotating mode along the vertical direction, the lead screw (44) is in threaded connection with the positioning plate (43), and the connecting piece (5) is arranged on the positioning plate (43).

7. A processing equipment for welding of reinforcement cages according to claim 6, characterized in that: two groups of the sliding rail (31), the positioning seat (41), the positioning rod (42) and the positioning plate (43) are symmetrically arranged along the central line of the rolling device (2) in the length direction, and a buffer part (6) is arranged between the two positioning plates (43);

the buffer piece (6) comprises two guide grooves (61), two moving frames (62) and two moving blocks (63), wherein one guide groove (61) is fixed on one positioning plate (43), the other guide groove (61) is fixed on the other positioning plate (43), one end of each moving frame (62) is inserted into one guide groove (61), the other end of each moving frame is inserted into the other guide groove (61), two ends of each guide groove (61) in the vertical direction are provided with a first spring (64), and the two first springs (64) are abutted to the moving frames (62);

the moving block (63) is arranged in the moving frame (62) in a sliding mode, two ends of the moving frame (62) in the length direction are provided with a second spring (65), the two second springs (65) abut against the moving block (63), and the positioning shaft (51) is rotatably arranged on the moving block (63).

8. A processing equipment for welding of reinforcement cages according to claim 6, characterized in that: the locating part (7) comprises a limiting block (71) arranged on the side wall of the locating seat (41), a limiting frame (72) is hinged to the limiting block (71), a limiting rod (73) matched with the limiting frame (72) is arranged on the side wall of the sliding rail (31), and a plurality of limiting rods (73) are uniformly distributed along the length direction of the sliding rail (31).

9. A processing apparatus for reinforcement cage welding according to claim 8, wherein: the limiting frame (72) is in threaded connection with a tight screw (74) at one end, far away from the limiting block (71), of the limiting rod (73), and the tight screw (74) is rotatably connected with a tight plate (75) towards one end of the limiting rod (73).

10. A processing apparatus for reinforcement cage welding according to claim 8, wherein: connecting groove (411) have been seted up along length direction to the lateral wall of positioning seat (41), sliding connection has connecting block (76) in connecting groove (411), connecting block (76) are fixed in on stopper (71), threaded connection has fixing screw (77) inconsistent with connecting groove (411) diapire on stopper (71).

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