CN112922164A - Be used for superimposed sheet and cast-in-place roof beam position connecting device - Google Patents

Abstract

For solving above-mentioned technical problem, a be used for superimposed sheet and cast-in-place beam position connecting device, including main part connecting device, reinforcing apparatus, extension length device, through main part connecting device installation other device and can expand direction and extension to whole, reinforcing apparatus makes the more reinforced (rfd) installation of whole connecting device in cast-in-place beam, extension length device can expand the functions such as connection of the horizontal roof beam of connecting device, its characterized in that: the reinforcing device is slidably arranged inside the main body connecting device, and the extension lengthening device is fixedly arranged on the main body connecting device.

Description

Be used for superimposed sheet and cast-in-place roof beam position connecting device

Technical Field

The invention relates to a connecting device, in particular to a connecting device for a composite slab and a cast-in-place beam.

Background

With the development and progress of society, people are continuously building own cities, the traditional building mode is continuously replaced by a novel combined building, namely, the connection between the laminated slab and the cast-in-place beam is realized, and therefore, the invention provides the connecting device for the laminated slab and the cast-in-place beam.

Disclosure of Invention

The invention relates to a connecting device for a composite slab and a cast-in-place beam, in particular to a connecting device for a composite slab and a cast-in-place beam.

For solving above-mentioned technical problem, a be used for superimposed sheet and cast-in-place beam position connecting device, including main part connecting device, reinforcing apparatus, extension length device, through main part connecting device installation other device and can expand direction and extension to whole, reinforcing apparatus makes the more reinforced (rfd) installation of whole connecting device in cast-in-place beam, extension length device can expand the functions such as connection of the horizontal roof beam of connecting device, its characterized in that: the reinforcing device is slidably arranged inside the main body connecting device, and the extension lengthening device is fixedly arranged on the main body connecting device.

As a further optimization of the technical scheme, the invention relates to a position connecting device for a laminated slab and a cast-in-place beam, which comprises a connecting and mounting cylinder, a mounting frame, a control feeding shaft, a matching connecting hole, a bottom connecting column, a bottom connecting hole, a feeding spiral plate, a sliding groove, a limiting hole, an adjusting and controlling toothed ring, a rotary pushing cylinder, a matching block, a sliding groove threaded column, a spring, a sliding plate, a limiting fixing bolt, a mounting matching hole, a bevel gear and a connecting leg, wherein the mounting frame is fixedly mounted inside the connecting and mounting cylinder, the control feeding shaft is rotatably mounted on the mounting frame, the matching connecting hole is arranged on the control feeding shaft, the bottom connecting column is fixedly mounted on the control feeding shaft, the bottom connecting hole is arranged on the bottom connecting column, the feeding spiral plate is fixedly mounted on the control feeding shaft, the sliding groove is arranged on the connecting and mounting cylinder, and the limiting hole is arranged on the, the regulation control ring gear rotates and installs on connecting the installation section of thick bamboo, it installs inside connecting the installation section of thick bamboo to rotate a promotion section of thick bamboo, the installation of cooperation piece is fixed on rotating a promotion section of thick bamboo, spout screw thread post slidable mounting is on the cooperation piece, spout screw thread post and connection installation section of thick bamboo screw-thread fit, the spring mounting is inside connecting the installation section of thick bamboo, sliding plate slidable mounting is inside connecting the installation section of thick bamboo, spacing gim peg installation is fixed inside the sliding plate, the installation mating holes sets up on connecting the installation section of thick bamboo, the bevel gear installation is fixed on control feeding shaft, connecting leg installation is fixed on connecting the.

As a further optimization of the technical scheme, the invention relates to a connecting device for a laminated slab and a cast-in-place beam, which comprises a movable outer shell, a bidirectional limiting slider, a pushing plate, a first spring, a connecting shaft, a matched rotating gear, a sliding matched tooth groove, a clamping plate transmission belt wheel, a spring pushing plate, an arc-shaped spring, a transmission belt, a movable inner shell, a pulling lead screw, a receiving belt wheel and a door baffle plate, wherein the movable outer shell is arranged on the movable groove in a sliding manner, the bidirectional limiting slider is fixedly arranged on the pushing plate, the pushing plate is arranged in the movable outer shell in a sliding manner, the first spring is fixedly arranged on the pushing plate and in the movable outer shell, the connecting shaft is rotatably arranged on the movable inner shell, the matched rotating gear is fixedly arranged on the connecting shaft, the sliding matched tooth groove is arranged on the movable outer shell, the clamping plate, arc spring mounting is fixed on the spring pushing plate and inside cardboard driving pulley, and driving belt installs on cardboard driving pulley and receiving band pulley, and inside the removal shell, pulling lead screw rotate to be installed inside removing the inner shell, and receiving band pulley installation is fixed on the pulling lead screw, and shutter sliding mounting is inside removing the inner shell, shutter and pulling lead screw-thread fit.

As a further optimization of the technical scheme, the invention relates to a connecting device for the composite slab and the cast-in-place beam, the extension device include horizontal extension section of thick bamboo, the connecting hole, mounting bracket one, receive bevel gear, the connecting axle, promote the post, promote the dish, the link, spring two, spacing post, release spring, horizontal extension section of thick bamboo installation is fixed on connecting the mounting bracket, the connecting hole sets up on horizontal extension section of thick bamboo, mounting bracket one installation is fixed on connecting the mounting bracket, it fixes on the connecting axle to receive bevel gear installation, it meshes with bevel gear to receive bevel gear, the connecting axle rotates and installs on mounting bracket one, promote post slidable mounting inside the connecting axle, promote the dish installation and fix on promoting the post, the link installation is fixed on promoting the post, spring two suit are on promoting the post, spacing post slidable mounting is inside the connecting axle, release spring installation is fixed on spacing post.

As a further optimization of the technical scheme, the connecting device for the laminated slab and the cast-in-place beam comprises two mounting frames of the main body connecting device, two feeding spiral plates, six rotary pushing cylinders, six matching blocks and six sliding groove threaded columns, sixteen springs, eight sliding plates and sixteen limiting fixing bolts, and a connecting and mounting cylinder is provided with a shackle which is matched and connected with the laminated slab.

As a further optimization of the technical scheme, the device for connecting the laminated slab and the cast-in-place beam comprises two bidirectional limiting slide blocks of a reinforcing device, four pushing plates and four springs, two connecting shafts, two matched rotating gears, two sliding fit tooth grooves, two clamping plate transmission belt wheels, two spring pushing plates, two arc-shaped springs, two transmission belts, two pulling lead screws, two receiving belt wheels and two door stop plates, and certain friction force exists between the movable inner shell and the door stop plates.

The device for connecting the laminated slab and the cast-in-place beam has the beneficial effects that:

the invention relates to a connecting device for a laminated slab and a cast-in-place beam, in particular to a connecting device for a laminated slab and a cast-in-place beam, which realizes the functions of pulling the whole device to move on a cable through a movable mounting device, enabling a rotary feeding device to be sleeved on the cable and rotate around the cable in an annular manner, and enabling a marking device to detect the damage condition of the surface of the cable and then align the damaged condition of the surface of the cable for marking.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first structural diagram of the main body connecting device of the present invention.

Fig. 5 is a second structural schematic diagram of the main body connecting device of the present invention.

Fig. 6 is a third schematic structural view of the main body connecting device of the present invention.

Fig. 7 is a fourth schematic structural view of the main body connecting device of the present invention.

Fig. 8 is a fifth structural schematic view of the main body connecting device of the present invention.

Fig. 9 is a sixth schematic structural view of the main body connecting device of the present invention.

Fig. 10 is a first structural view of the reinforcement device of the present invention.

Fig. 11 is a schematic structural diagram of a second reinforcement device of the present invention.

FIG. 12 is a schematic view of a third embodiment of the present invention

Fig. 13 is a fourth schematic structural view of the reinforcement device of the present invention.

Fig. 14 is a fifth structural schematic diagram of the reinforcing apparatus of the present invention.

FIG. 15 is a first structural diagram of the extension device of the present invention.

FIG. 16 is a schematic structural diagram of an extension device according to the present invention.

FIG. 17 is a third schematic structural view of the extension device of the present invention.

In the figure: a main body connection device 1; connecting the mounting cylinder 1-1; a mounting frame 1-2; controlling a feeding shaft 1-3; 1-4 of matching connecting holes; 1-5 bottom connecting columns; bottom connecting holes 1-6; feeding screw plates 1-7; 1-8 of a sliding groove; 1-9 of a limiting hole; adjusting and controlling the gear ring 1-10; rotating the pushing cylinder 1-11; 1-12 of a matching block; 1-13 of chute threaded column; springs 1-14; a slide plate 1-15; 1-16 of limit fixing bolts; mounting matching holes 1-17; bevel gears 1-18; connecting legs 1-19; a reinforcement device 2; moving the shell 2-1; a bidirectional limiting slide block 2-2; 2-3 of a push plate; 2-4 parts of a first spring; connecting shafts 2-5; matching with a rotating gear 2-6; 2-7 of a sliding fit tooth groove; 2-8 parts of a clamping plate transmission belt wheel; the spring pushes the plate 2-9; 2-10 parts of arc-shaped spring; 2-11 parts of a transmission belt; moving the inner shells 2-12; pulling the lead screw 2-13; receiving pulleys 2-14; 2-15 parts of a door stop plate; an extension lengthening device 3; transversely expanding the lengthened cylinder 3-1; connecting holes 3-2; a first mounting frame 3-3; receiving bevel gears 3-4; connecting shafts 3-5; 3-6 of a pushing column; pushing the disc 3-7; 3-8 of a connecting frame; 3-9 parts of a second spring; 3-10 parts of a limiting column; pushing out springs 3-11.

Detailed Description

The first embodiment is as follows:

in order to solve the technical problems, the following description and the accompanying drawings 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 provide a connecting device for a laminated slab and a cast-in-place beam, which includes a movable mounting device 1, a rotary feeding device 2, and a marking device 3, wherein the movable mounting device pulls the whole equipment to move on a cable, the rotary feeding device can be sleeved on the cable and rotate around the cable in a ring shape, and the marking device detects the damage condition of the cable surface and then aligns the damage condition for marking, and the connecting device is characterized in that: the rotary feeding device 2 is rotatably arranged on the movable mounting device 1, and the marking device 3 is fixedly arranged on the rotary feeding device 2. The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, and the present embodiment further describes the present embodiment, where the main body connection device 1 includes a connection installation cylinder 1-1, a mounting frame 1-2, a control feeding shaft 1-3, a matching connection hole 1-4, a bottom connection column 1-5, a bottom connection hole 1-6, a feeding spiral plate 1-7, a sliding groove 1-8, a limiting hole 1-9, an adjustment control toothed ring 1-10, a rotation pushing cylinder 1-11, a matching block 1-12, a sliding groove threaded column 1-13, a spring 1-14, a sliding plate 1-15, a limiting fixing bolt 1-16, a mounting matching hole 1-17, a bevel gear 1-18, a bevel gear 1-11, a matching block 1-12, a sliding groove threaded column 1-13, a, The connecting legs 1-19 are characterized in that a main body connecting device 1 is firstly placed in a frame of a cast-in-place beam, poured concrete is poured into a connecting and mounting cylinder 1-1, a feeding screw plate 1-7 is driven to rotate through a rotation control feeding shaft 1-3, the feeding screw plate 1-7 pushes the concrete in the connecting and mounting cylinder 1-1, the main body connecting device 1 is directly mounted in a solidified main body connecting device 1, the connecting legs 1-19 enter the connecting legs 1-19, limiting fixing bolts 1-16 limit the connecting legs 1-19 under the action of springs 1-14, then the two control feeding shafts 1-3 can relatively rotate, and then the control feeding shaft 1-3 of the unset main body connecting device 1 is rotated to carry out the operation if the lower end is lengthened and not solidified, the method comprises the steps of obtaining a connecting and mounting cylinder 1-1 which needs to rotate, driving an adjusting and controlling toothed ring 1-10 to rotate by the connecting cylinder 1-1 through a connecting leg 1-19, driving a rotating and pushing cylinder 1-11 to rotate by the adjusting and controlling toothed ring 1-10, driving a chute threaded column 1-13 to rotate by the rotating and pushing cylinder 1-11 through a matching block 1-12, enabling the chute threaded column 1-13 to move through the threaded matching of the chute threaded column 1-13 and the connecting and mounting cylinder 1-1, then entering a matching connecting hole 1-4 and a bottom end connecting hole 1-6, then connecting two control feeding shafts 1-3, installing and fixing an installing frame 1-2 inside the connecting and mounting cylinder 1-1, controlling the feeding shafts 1-3 to be installed on the installing frame 1-2 in a rotating mode, setting the matching connecting holes 1-4 on the control feeding shafts 1-3, a bottom end connecting post 1-5 is fixedly arranged on a control feeding shaft 1-3, a bottom end connecting hole 1-6 is arranged on the bottom end connecting post 1-5, a feeding spiral plate 1-7 is fixedly arranged on the control feeding shaft 1-3, a sliding groove 1-8 is arranged on a connecting mounting barrel 1-1, a limiting hole 1-9 is arranged on the connecting mounting barrel 1-1, an adjusting control gear ring 1-10 is rotatably arranged on the connecting mounting barrel 1-1, a rotating pushing barrel 1-11 is rotatably arranged inside the connecting mounting barrel 1-1, a matching block 1-12 is fixedly arranged on the rotating pushing barrel 1-11, a sliding groove threaded post 1-13 is slidably arranged on a matching block 1-12, and the sliding groove threaded post 1-13 is in threaded matching with the connecting mounting barrel 1-1, the spring 1-14 is arranged in the connecting and mounting cylinder 1-1, the sliding plate 1-15 is arranged in the connecting and mounting cylinder 1-1 in a sliding manner, the limiting and fixing bolt 1-16 is fixedly arranged in the sliding plate 1-15, the mounting and matching hole 1-17 is arranged on the connecting and mounting cylinder 1-1, the bevel gear 1-18 is fixedly arranged on the feeding control shaft 1-3, and the connecting leg 1-19 is fixedly arranged on the connecting and mounting cylinder 1-1.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the embodiment further describes the embodiment, where the reinforcing device 2 includes a movable outer shell 2-1, a bidirectional limiting slider 2-2, a pushing plate 2-3, a spring one 2-4, a connecting shaft 2-5, a matching rotating gear 2-6, a sliding matching tooth groove 2-7, a card driving pulley 2-8, a spring pushing plate 2-9, an arc spring 2-10, a driving belt 2-11, a movable inner shell 2-12, a pulling screw 2-13, a receiving pulley 2-14, and a door stopper 2-15, and when the connecting mounting cylinder 1-1 is filled with concrete, the concrete is pushed into the movable inner shell 2-12 of the reinforcing device 2, then the movable inner shell 2-12 pushes the movable outer shell 2-1 to slide in the sliding groove 1-8 through the bidirectional limiting slide block 2-2, when the movable outer shell 2-1 drives the bidirectional limiting slide block 2-2 to move to the position of the limiting hole 1-9, the spring I2-4 pushes the push plate 2-3 to drive the bidirectional limiting slide block 2-2 to enter the limiting hole 1-9 to limit and fix the movable outer shell 2-1, and the movable inner shell 2-12 is not limited, then the movable inner shell 2-12 is pushed to move in the movable outer shell 2-1, the movable inner shell 2-12 is pushed to drive the connecting shaft 2-5 arranged on the pushed movable inner shell 2-12, the matched rotating gear 2-6, the clamping plate transmission belt wheel 2-8, The spring pushing plate 2-9, the arc spring 2-10, the transmission belt 2-11, the movable inner shell 2-12, the pulling screw rod 2-13, the receiving belt wheel 2-14 and the door baffle plate 2-15 move, when the movable inner shell 2-12 moves to a certain position, the matching rotating gear 2-6 is meshed with the sliding matching tooth groove 2-7, then when the movable inner shell 2-12 moves continuously, the sliding matching tooth groove 2-7 drives the matching rotating gear 2-6 to rotate, due to the fact that a certain friction force exists when the door baffle plate 2-15 and the door baffle plate 2-15 slide, the matching rotating gear 2-6 drives the spring pushing plate 2-9 to rotate through the connecting shaft 2-5, the arc spring 2-10 is compressed by the rotating spring pushing plate 2-9 at the card plate transmission belt wheel 2-8 and is in a certain range The clamp plate transmission belt wheel 2-8 can not be driven to rotate in the compression amount, so that the movable inner shell 2-12 can be driven to rotate when the arc-shaped spring 2-10 is compressed to a certain amount after the movable outer shell 2-1 slides to a certain position, the clamp plate transmission belt wheel 2-8 drives the pulling screw rod 2-13 to rotate through the transmission belt 2-11, the rotating pulling screw rod 2-13 can pull the door stop plate 2-15 to slide in the movable inner shell 2-12, then the concrete in the connecting and mounting cylinder 1-1 enters the main body connecting device 1 and the cast-in-place beam frame, the reinforcing device 2 reinforces the connection between the main body connecting device 1 and the cast-in-place beam, when the connecting device needs to be transversely expanded, the movable outer shell 2-1 is slidably mounted on the movable groove 1-8, a bidirectional limiting slide block 2-2 is fixedly arranged on a push plate 2-3, the push plate 2-3 is slidably arranged in a movable outer shell 2-1, a spring I2-4 is fixedly arranged on the push plate 2-3 and in the movable outer shell 2-1, a connecting shaft 2-5 is rotatably arranged on a movable inner shell 2-12, a matching rotating gear 2-6 is fixedly arranged on the connecting shaft 2-5, a sliding matching tooth groove 2-7 is arranged on the movable outer shell 2-1, a pallet transmission belt wheel 2-8 is fixedly arranged on the connecting shaft 2-5, a spring push plate 2-9 is fixedly arranged on the connecting shaft 2-5, an arc spring 2-10 is fixedly arranged on the spring push plate 2-9 and in the pallet transmission belt wheel 2-8, a transmission belt 2-11 is arranged on the pallet transmission belt wheel 2-8 and a receiving belt wheel 2-14, the movable inner shell 2-12 is slidably mounted inside the movable outer shell 2-1, the pulling screw rod 2-13 is rotatably mounted inside the movable inner shell 2-12, the receiving belt wheel 2-14 is fixedly mounted on the pulling screw rod 2-13, the door baffle plate 2-15 is slidably mounted inside the movable inner shell 2-12, and the door baffle plate 2-15 is in threaded fit with the pulling screw rod 2-13.

The fourth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 for describing the embodiment further, the embodiment 3 includes a transverse extension cylinder 3-1, a connection hole 3-2, a first mounting frame 3-3, a receiving bevel gear 3-4, a connection shaft 3-5, a pushing column 3-6, a pushing plate 3-7, a connection frame 3-8, a second spring 3-9, a limiting column 3-10, and a pushing spring 3-11, wherein the connection legs 1-19 of the connection mounting cylinder 1-1 of the main body connection device 1 are inserted into the connection hole 3-2 of the extension device 3, and the bottom connection column 1-5 pushes the pushing plate 3-7 to move, the pushing disc 3-7 drives the connecting frame 3-8 to rotate through the pushing column 3-6, the moving connecting frame 3-8 can not limit the limiting column 3-10, then the limiting column 3-10 can be pushed into the bottom end connecting hole 1-6 through the pushing spring 3-11, so that the control feeding shaft 1-3 is connected with the connecting shaft 3-5, then the control feeding shaft 1-3 drives the bevel gear 1-18 to rotate, the bevel gear 1-18 rotates through the receiving bevel gear 3-4, the receiving bevel gear 3-4 drives the control feeding shaft 1-3 to the connecting main body connecting device 1 through the connecting shaft 3-5, then in the repeated process, if the main body connecting device is lengthened, two conditions exist, the first condition is that the main body connecting device 1 at the lower end is solidified in the cast-in-place beam, a transverse expanding and lengthening cylinder 3-1 is fixedly arranged on a connecting and installing cylinder 1-1, a connecting hole 3-2 is arranged on the transverse expanding and lengthening cylinder 3-1, an installing frame I3-3 is fixedly arranged on the connecting and installing cylinder 1-1, a receiving bevel gear 3-4 is fixedly arranged on a connecting shaft 3-5, the receiving bevel gear 3-4 is meshed with a bevel gear 1-18, a connecting shaft 3-5 is rotatably arranged on the installing frame I3-3, a pushing column 3-6 is slidably arranged inside the connecting shaft 3-5, a pushing disc 3-7 is fixedly arranged on a pushing column 3-6, a connecting frame 3-8 is fixedly arranged on the pushing column 3-6, a spring II 3-9 is sleeved on the pushing column 3-6, a limiting column 3-10 is slidably arranged inside the connecting shaft 3-5, the push-out spring 3-11 is fixedly arranged on the limiting column 3-10.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the present embodiment further describes an embodiment two, where there are two mounting frames 1-2 of the main body connection device 1, two feeding screw plates 1-7, six rotating and pushing cylinders 1-11, six mating blocks 1-12, and six sliding groove threaded columns 1-13, sixteen springs 1-14, sixteen sliding plates 1-15, sixteen limit fixing bolts 1-16, eight connecting legs 1-19, and a hook ring provided on the connecting mounting cylinder 1-1 and engaged with the mating plate.

The sixth specific implementation mode:

the third embodiment is further described by referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17. the third embodiment is further described by the third embodiment, the reinforcing device 2 has two bidirectional limiting slide blocks 2-2, four pushing plates 2-3 and four springs one 2-4, two connecting shafts 2-5, two matching rotating gears 2-6, two sliding matching tooth grooves 2-7, two pallet driving pulleys 2-8, two spring pushing plates 2-9, two arc springs 2-10, two driving belts 2-11, two pulling screws 2-13, two receiving pulleys 2-14, and two door baffles 2-15, and a certain friction force exists between the moving inner shell 2-12 and the door baffles 2-15. The working principle of the invention is as follows:

a working principle of a connecting device for a laminated slab and a cast-in-place beam is that before use, whether the connection condition between the devices meets requirements is checked, firstly, a main body connecting device 1 is placed in a frame of the cast-in-place beam, then poured concrete is poured into a connecting installation cylinder 1-1, a feeding shaft 1-3 is controlled to drive a feeding spiral plate 1-7 to rotate through rotation, the feeding spiral plate 1-7 pushes the concrete in the connecting installation cylinder 1-1, when the concrete in the connecting installation cylinder 1-1 is filled, the concrete is pushed into a movable inner shell 2-12 of a reinforcing device 2, then the movable inner shell 2-12 pushes a movable outer shell 2-1 to slide in a sliding groove 1-8 through a bidirectional limiting sliding block 2-2, and when the movable outer shell 2-1 drives the bidirectional limiting sliding block 2-2 to move to a limiting hole 1-9, the first spring 2-4 drives the two-way limiting sliding block 2-2 to enter the limiting hole 1-9 through pushing the pushing plate 2-3 to limit and fix the movable outer shell 2-1, the movable inner shell 2-12 is not limited, then the movable inner shell 2-12 is pushed to move in the movable outer shell 2-1, the movable inner shell 2-12 is pushed to drive the connecting shaft 2-5 arranged on the pushed movable inner shell 2-12, the matched rotating gear 2-6, the clamping plate driving belt wheel 2-8, the spring pushing plate 2-9, the arc-shaped spring 2-10, the driving belt 2-11, the movable inner shell 2-12, the pulling screw rod 2-13, the receiving belt wheel 2-14 and the door stopping plate 2-15 to move, and when the movable inner shell 2-12 moves to a certain position, the matched rotating gear 2-6 and the sliding matched tooth groove 2-15 can be driven to move 7, meshing is carried out, then when the movable inner shell 2-12 continues to move, the sliding fit tooth grooves 2-7 drive the fit rotating gears 2-6 to rotate, due to the fact that a certain friction force exists when the door baffle plates 2-15 and the door baffle plates 2-15 slide, the fit rotating gears 2-6 drive the spring push plates 2-9 to rotate through the connecting shafts 2-5, the rotating spring push plates 2-9 compress the arc-shaped springs 2-10 at the card board transmission belt wheels 2-8 and cannot drive the card board transmission belt wheels 2-8 to rotate within a certain compression amount, and therefore the movable inner shell 2-12 drives the card board transmission belt wheels 2-8 to rotate when the arc-shaped springs 2-10 are compressed to a certain amount after the movable outer shell 2-1 slides to a certain position, the clamping plate driving belt wheels 2-8 drive the pulling screw rods 2-13 to rotate through the driving belts 2-11, the rotating pulling screw rods 2-13 can pull the door stop plates 2-15 to slide in the movable inner shells 2-12, then concrete in the connecting and mounting cylinder 1-1 enters the main body connecting device 1 and the cast-in-place beam frame, the reinforcing device 2 reinforces the connection between the main body connecting device 1 and the cast-in-place beam, when the connecting device needs to be transversely expanded, connecting legs 1-19 on the connecting and mounting cylinder 1-1 of the main body connecting device 1 are inserted into connecting holes 3-2 of the expanding and lengthening device 3, meanwhile, the bottom end connecting columns 1-5 can push the pushing discs 3-7 to move, the pushing discs 3-7 drive the connecting frames 3-8 to rotate through the pushing columns 3-6, the movable connecting frame 3-8 can not limit the limiting columns 3-10, then the limiting columns 3-10 can be pushed into the bottom end connecting holes 1-6 through the pushing springs 3-11, so that the control feeding shafts 1-3 are connected with the connecting shafts 3-5, then the control feeding shafts 1-3 drive the bevel gears 1-18 to rotate, the bevel gears 1-18 rotate through the receiving bevel gears 3-4, the receiving bevel gears 3-4 drive the control feeding shafts 1-3 of the connecting main body connecting device 1 to rotate through the connecting shafts 3-5, then the repeated process is carried out, if the main body connecting device is lengthened, two conditions exist, the first condition is that the main body connecting device 1 at the lower end is solidified in a cast-in-place beam, the main body connecting device 1 is directly installed in the solidified main body connecting device 1, the connecting legs 1-19 enter the connecting legs 1-19, the limiting fixing bolts 1-16 limit the connecting legs 1-19 under the action of the springs 1-14, then the two control feeding shafts 1-3 can rotate oppositely, then the feeding shafts 1-3 are controlled by rotating the non-solidified main body connecting device 1 to perform the operation, if the lower end is lengthened and not solidified, the rotating connecting and installing cylinder 1-1 is needed, the connecting and installing cylinder 1-1 drives the adjusting and controlling toothed rings 1-10 to rotate through the connecting legs 1-19, the adjusting and controlling toothed rings 1-10 drive the rotating and pushing cylinder 1-11 to rotate, the rotating and pushing cylinder 1-11 drives the chute threaded columns 1-13 to rotate through the matching blocks 1-12, and the chute threaded columns 1-13 are in threaded matching with the connecting and installing cylinder 1-1 to enable the chute threaded columns 1-13 to move and then the chute threaded columns 1-13 to move Enter the matching connecting holes 1-4 and the bottom end connecting holes 1-6 and then connect the two control feeding shafts 1-3.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a be used for superimposed sheet and cast-in-place beam position connecting device, includes main part connecting device (1), reinforcing apparatus (2), extension device (3), its characterized in that: the reinforcing device (2) is slidably arranged in the main body connecting device (1), and the extension lengthening device (3) is fixedly arranged on the main body connecting device (1).

2. The device as claimed in claim 1, wherein the connecting means comprises: the main body connecting device (1) comprises a connecting and mounting cylinder (1-1), a mounting frame (1-2), a control feeding shaft (1-3), a matching connecting hole (1-4), a bottom connecting column (1-5), a bottom connecting hole (1-6), a feeding spiral plate (1-7), a sliding groove (1-8), a limiting hole (1-9), an adjusting and controlling toothed ring (1-10), a rotating and pushing cylinder (1-11), a matching block (1-12), a sliding groove threaded column (1-13), a spring (1-14), a sliding plate (1-15), a limiting fixing bolt (1-16), a mounting matching hole (1-17), a bevel gear (1-18) and a connecting leg (1-19), wherein the mounting frame (1-2) is fixedly mounted inside the connecting and mounting cylinder (1-1), the control feeding shaft (1-3) is rotatably arranged on the mounting frame (1-2), the matching connecting hole (1-4) is arranged on the control feeding shaft (1-3), the bottom connecting column (1-5) is fixedly arranged on the control feeding shaft (1-3), the bottom connecting hole (1-6) is arranged on the bottom connecting column (1-5), the feeding spiral plate (1-7) is fixedly arranged on the control feeding shaft (1-3), the sliding groove (1-8) is arranged on the connecting mounting cylinder (1-1), the limiting hole (1-9) is arranged on the connecting mounting cylinder (1-1), the adjusting control gear ring (1-10) is rotatably arranged on the connecting mounting cylinder (1-1), the rotating pushing cylinder (1-11) is rotatably arranged inside the connecting mounting cylinder (1-1), the matching block (1-12) is fixedly installed on the rotary pushing cylinder (1-11), the sliding groove threaded column (1-13) is slidably installed on the matching block (1-12), the sliding groove threaded column (1-13) is in threaded matching with the connecting installation cylinder (1-1), the spring (1-14) is installed inside the connecting installation cylinder (1-1), the sliding plate (1-15) is slidably installed inside the connecting installation cylinder (1-1), the limiting fixing bolt (1-16) is fixedly installed inside the sliding plate (1-15), the installation matching hole (1-17) is arranged on the connecting installation cylinder (1-1), the bevel gear (1-18) is fixedly installed on the control feeding shaft (1-3), and the connecting leg (1-19) is fixedly installed on the connecting installation cylinder (1-1).

3. The device as claimed in claim 1, wherein the connecting means comprises: the reinforcing device (2) comprises a movable outer shell (2-1), a bidirectional limiting slide block (2-2), a pushing plate (2-3), a spring I (2-4), a connecting shaft (2-5), a matched rotating gear (2-6), a sliding fit tooth groove (2-7), a clamping plate transmission belt wheel (2-8), a spring pushing plate (2-9), an arc spring (2-10), a transmission belt (2-11), a movable inner shell (2-12), a pulling lead screw (2-13), a receiving belt wheel (2-14) and a door baffle plate (2-15), wherein the movable outer shell (2-1) is slidably arranged on the movable groove (1-8), the bidirectional limiting slide block (2-2) is fixedly arranged on the pushing plate (2-3), the pushing plate (2-3) is slidably arranged in the movable outer shell (2-1), the first spring (2-4) is fixedly arranged on the pushing plate (2-3) and inside the movable outer shell (2-1), the connecting shaft (2-5) is rotatably arranged on the movable inner shell (2-12), the matched rotating gear (2-6) is fixedly arranged on the connecting shaft (2-5), the sliding fit tooth groove (2-7) is arranged on the movable outer shell (2-1), the pallet transmission belt wheel (2-8) is fixedly arranged on the connecting shaft (2-5), the spring pushing plate (2-9) is fixedly arranged on the connecting shaft (2-5), the arc spring (2-10) is fixedly arranged on the spring pushing plate (2-9) and inside the pallet transmission belt wheel (2-8), the transmission belt (2-11) is arranged on the pallet transmission belt wheel (2-8) and the receiving belt wheel (2-14), the movable inner shell (2-12) is slidably mounted inside the movable outer shell (2-1), the pulling screw rod (2-13) is rotatably mounted inside the movable inner shell (2-12), the receiving belt wheel (2-14) is fixedly mounted on the pulling screw rod (2-13), the door baffle plate (2-15) is slidably mounted inside the movable inner shell (2-12), and the door baffle plate (2-15) is in threaded fit with the pulling screw rod (2-13).

4. The device as claimed in claim 1, wherein the connecting means comprises: the extension lengthening device (3) comprises a transverse extension lengthening cylinder (3-1), a connecting hole (3-2), a first mounting frame (3-3), a receiving bevel gear (3-4), a connecting shaft (3-5), a pushing column (3-6), a pushing disk (3-7), a connecting frame (3-8), a second spring (3-9), a limiting column (3-10) and a pushing spring (3-11), wherein the transverse extension lengthening cylinder (3-1) is fixedly arranged on the connecting mounting cylinder (1-1), the connecting hole (3-2) is arranged on the transverse extension lengthening cylinder (3-1), the first mounting frame (3-3) is fixedly arranged on the connecting mounting cylinder (1-1), and the receiving bevel gear (3-4) is fixedly arranged on the connecting shaft (3-5), the receiving bevel gear (3-4) is meshed with the bevel gear (1-18), the connecting shaft (3-5) is rotatably installed on the first installation frame (3-3), the pushing column (3-6) is installed inside the connecting shaft (3-5) in a sliding mode, the pushing disc (3-7) is installed and fixed on the pushing column (3-6), the connecting frame (3-8) is installed and fixed on the pushing column (3-6), the second spring (3-9) is sleeved on the pushing column (3-6), the limiting column (3-10) is installed inside the connecting shaft (3-5) in a sliding mode, and the pushing spring (3-11) is installed and fixed on the limiting column (3-10).

5. The device as claimed in claim 2, wherein the connecting means comprises: the number of the mounting frames (1-2) of the main body connecting device (1) is two, the number of the feeding spiral plates (1-7) is two, the number of the rotary pushing cylinders (1-11), the number of the matching blocks (1-12) and the number of the sliding groove threaded columns (1-13) are six, the number of the springs (1-14), the number of the sliding plates (1-15) and the number of the limiting fixing bolts (1-16) are sixteen, the number of the connecting legs (1-19) is eight, and the connecting mounting cylinders (1-1) are provided with hook rings which are matched and connected with the laminated plates.

6. A connection device for a laminated slab and a cast-in-place beam as claimed in claim 3, wherein: the reinforcing device is characterized in that the number of the two-way limiting sliding blocks (2-2) of the reinforcing device (2) is two, the number of the pushing plates (2-3) and the number of the springs I (2-4) are four, the number of the connecting shafts (2-5), the number of the matched rotating gears (2-6), the number of the sliding fit tooth grooves (2-7), the number of the clamping plate transmission belt wheels (2-8), the number of the spring pushing plates (2-9), the number of the arc springs (2-10), the number of the transmission belts (2-11), the number of the pulling lead screws (2-13), the number of the receiving belt wheels (2-14) and the number of the door blocking plates (2-15) are two, and certain friction force exists between the movable inner shells (.

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