CN108356975B - Sectional type barrel-shaped component assembling device - Google Patents

Abstract

The invention discloses a split type cylindrical component assembling device, which comprises a base, wherein an assembling template unit is arranged on the base, and a positioning and splicing unit is arranged in the assembling template unit; the positioning and splicing unit comprises a bearing plate member, a telescopic positioning member and a power member, wherein the telescopic positioning member limits a segment to be assembled of the segmented cylindrical member on the bearing plate member, and the bearing plate member, the segment to be assembled and the telescopic positioning member are driven by the power member to be spliced and assembled by taking the splicing template unit as a template to form the cylindrical member. The device for splicing the hollow pile segments is used for manufacturing the hollow pile segments for the first time, labor force can be saved, labor cost of workers is saved, working efficiency is high, engineering construction period is shortened, engineering cost is reduced, and personal safety of workers can be guaranteed.

Description

Sectional type barrel-shaped component assembling device

Technical Field

The invention belongs to the technical field of bored pile construction, and particularly relates to a split type cylindrical member assembling device.

Background

Along with the development of the progress of construction technology of highway bridge pile foundations, the span of a bridge built on a large river is continuously increased at present, and in order to improve the bearing capacity of the bridge foundations, the pile diameter and the pile length of a bridge pile foundation are correspondingly required to be larger and larger. However, as the pile diameter and pile length are increased, the pile foundation bearing capacity is improved, and the cost of the pile foundation is increased to a larger extent, so that the pile foundation bearing performance is increased and the cost is reduced at the same time, and the pile foundation manufacturing process is started.

Therefore, in order to simultaneously improve the bearing capacity of the pile foundation and reduce the manufacturing cost of the pile foundation, a large-diameter hollow pile has been used. The large-diameter hollow pile can reduce the use of pile body materials while ensuring bearing capacity, and a new direction is developed for the development of pile foundations. Because the diameter is relatively large, the hollow pile cannot be directly manufactured into a whole section in the manufacturing process, only one complete pipe section can be manufactured in a split manner, and finally the manufactured pipe sections are combined into one complete pipe section. At present, the manufacturing process of the duct piece is mature, but in the aspect of duct piece assembly, no related mechanical equipment is used for duct piece assembly, and the duct piece assembly is completely assembled by manpower. Thus, the hollow pile has the following defects in the assembly construction process.

(1) The segment is manually assembled, the labor force is large, and the cost of workers in the assembly process is a large cost.

(2) When the duct piece is assembled manually, the construction efficiency is lower, the construction progress of the hollow pile can be greatly influenced, the engineering construction period is prolonged, and the construction cost of the hollow pile in the construction process is further increased.

(3) When the duct piece is assembled manually, the problem of personal safety can be generated when the duct piece is assembled because the duct piece is relatively large in volume and relatively heavy in mass.

(4) The manual assembly of the segments may not be high enough in the accuracy of the splicing between the segments, which may affect the post construction of the hollow pile.

Disclosure of Invention

The utility model aims at providing a split type cylindric component assembly device, the device can carry out the automatic assembly of split type cylindric component, uses manpower sparingly, improves work efficiency, has improved the equipment precision.

In order to achieve the above object, the present invention is achieved by the following technical scheme:

a split type cylindrical component assembling device comprises a base, wherein an assembling template unit is arranged on the base, and a positioning and splicing unit is arranged in the assembling template unit;

the positioning and splicing unit comprises a bearing plate member, a telescopic positioning member and a power member, wherein the telescopic positioning member limits a segment to be assembled of the segmented cylindrical member on the bearing plate member, and the bearing plate member, the segment to be assembled and the telescopic positioning member are driven by the power member to splice the segment to be assembled by taking the splicing template unit as a template to obtain the cylindrical member.

Optionally, the flexible locating component include at least one first telescopic link and at least one second telescopic link, first telescopic link is given the power transmission of power component and is carried out spacing support to the side direction of loading board component simultaneously to loading board component, the second telescopic link is given the power transmission of power component and is waited to assemble the section of jurisdiction while will wait to assemble the section of jurisdiction spacing on loading board component.

Optionally, the first telescopic link include first mobile jib, first vice pole and first spacing head, first mobile jib and first vice pole mutually nested telescopic connection, first spacing head sets up in the tip of first vice pole, the tip of first mobile jib with power component rotatable coupling.

Optionally, the second telescopic link include second mobile jib, second auxiliary rod and second spacing head, second mobile jib and the mutual nested telescopic connection of second auxiliary rod, the second spacing head sets up in the tip of second auxiliary rod, the tip of second mobile jib with power component fixed connection.

Optionally, the power component include transmission shaft, gear, motor and support frame, the support frame supports the motor fixedly, gear and transmission shaft meshing, provide power for the gear through the motor, the transmission shaft is connected with flexible locating component admittedly.

Optionally, the bearing plate member includes a plate body, at least one friction area is arranged on the inner wall of the plate body, at least one limiting ring is arranged on the outer wall of the plate body along the circumferential direction, and the jack and the pulley are detachably installed under the plate body.

Optionally, assemble the template unit and include the template body, spacing slide and locking component, spacing slide along the circumference setting of template body inner wall, locking component slidingtype card establish and lock spacingly assembling the lamellar body on the inner wall of the template body.

Optionally, the locking component include the cover body, retaining member, cardboard and dop, the cover body slidingtype card is established on the inner wall of the template body, the cardboard inserts and establishes in the cover body and carries out flexible length control through the retaining member, the dop sets up the tip at the cardboard.

Optionally, the assembled template unit further comprises a first support end cover and a second support end cover, wherein the first support end cover and the second support end cover are respectively buckled at two ends of the template body, and support force is provided for the arrangement of the power component and the telescopic positioning component.

Optionally, the split joint casting device further comprises a split joint casting device, wherein the split joint casting device comprises a casting pipe and a casting nozzle arranged on the casting pipe, the casting pipe is circumferentially arranged along the inner side of the split joint template unit, and the casting nozzle is at least arranged at the split joint of the split-type cylindrical member.

The advantages of the invention include:

the device for splicing the hollow pile segments is used for manufacturing the hollow pile segments for the first time, labor force can be saved, labor cost of workers is saved, working efficiency is high, engineering construction period is shortened, engineering cost is reduced, and personal safety of workers can be guaranteed.

Drawings

FIG. 1 is a front isometric view of the entire segmented cylindrical member assembly device of the present disclosure;

FIG. 2 is a rear isometric view of the entire split cylindrical member assembly device of the present disclosure;

FIG. 3 is a schematic view of a positioning splice unit of the split-type cylindrical member assembly device of the present disclosure;

FIG. 4 is a schematic view of the telescopic positioning member of the split cylindrical member assembly device of the present disclosure;

FIG. 5 is a schematic view of a locking member structure of the split-type barrel member assembling device of the present disclosure;

FIG. 6 is a schematic view of a limiting slide way structure of a split-type barrel component assembly device of the present disclosure;

FIG. 7 is a schematic view of the structure of the split-type cylindrical component assembly device of the present disclosure after being added to a splice joint casting;

FIG. 8 is a schematic structural view of a splice joint applicator of the split-type cylindrical member assembly device of the present disclosure;

the reference numerals in the figures are as follows:

1-a base;

the assembly template comprises a 2-assembly template unit, a 21-template body, a 22-first support end cover, a 23-limit slideway, a 24-locking member, a 241-sleeve body, a 242-locking piece, a 243-clamping plate, a 244-clamping head, a 25-second support end cover and a 26-locking member slideway;

the device comprises a 3-positioning splicing unit, a 31-bearing plate component, a 311-friction area, a 312-pulley, a 313-jack, a 314-limiting ring, a 32-telescopic positioning component, a 321-first main rod, a 322-first auxiliary rod, a 323-first limiting head, a 324-transmission shaft force transmission site, a 325-second main rod, a 326-second auxiliary rod, a 327-second limiting head, a 33-transmission shaft, a 331-transmission shaft supporting site, a 34-gear, a 35-motor and a 36-supporting frame;

4-splice joint casting devices, 41-casting pipes, 42-casting spray heads, 43-conveying pipes and 44-casting feed boxes.

Detailed Description

Specific embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the disclosure, are not intended to limit the disclosure.

In the present disclosure, unless otherwise indicated, the use of directional terms such as "upper and lower" generally refer to those defined with reference to the drawings of the corresponding drawings, and "inner and outer" refer to those of the corresponding component profiles.

As shown in fig. 1 to 8, a split type cylindrical member assembling device of the present disclosure includes a base 1, an assembling template unit 2 is provided on the base 1, and a positioning and splicing unit 3 is provided in the assembling template unit 2; the positioning and splicing unit 3 comprises a bearing plate member 31, a telescopic positioning member 32 and a power member, wherein the telescopic positioning member 32 limits a segment to be assembled of the segmented cylindrical member on the bearing plate member 31, and the power member drives the bearing plate member 31, the segment to be assembled and the telescopic positioning member 32 to splice the segment to be assembled by taking the splicing template unit 2 as a template to assemble the cylindrical member. The assembling device of the invention puts the pipe piece to be assembled on the bearing plate member 31, fixes the pipe piece on the bearing plate member 31 by utilizing the telescopic positioning member 32, the telescopic positioning member is convenient to install and fix, then starts the power member, withdraws the first pipe piece to the appointed position for fixing, then rotates and moves the bearing plate member to the initial position, places the second pipe piece, repeats the above operation until the pipe piece is spliced into a complete pipe joint, and links the adjacent pipe pieces by using steel strands so as to form the pipe joint into a whole. The hollow pile segment spliced by adopting the assembling device can greatly improve segment splicing precision, saves labor and is safe to operate.

In the embodiment of the present disclosure, the telescopic positioning member 32 includes at least one first telescopic rod that transmits the power of the power member to the carrier plate member 31 while limiting and supporting the lateral direction of the carrier plate member 31, and at least one second telescopic rod that transmits the power of the power member to the segment to be assembled while limiting the segment to be assembled on the carrier plate member 31. For example, the telescopic end of the first telescopic rod is clamped at the side part of the bearing plate member 31, and when the power member drives the first telescopic rod to rotate, the bearing plate member 31 is pushed to rotate by the pushing force of the first telescopic rod; furthermore, the second telescopic rod pushes the pipe piece to be assembled on the bearing plate member 31, friction force between the pipe piece to be assembled and the bearing plate member 31 is increased, the second telescopic rod is driven by the power member to perform circumferential movement together with the tightly pushed pipe piece to be assembled and the bearing plate member 31 when the pipe piece to be assembled is pushed tightly, the first telescopic rod and the second telescopic rod are matched for use, the tightly pushed and driven circumferential movement of the pipe piece to be assembled and the bearing plate member 31 is completed cooperatively, and the telescopic structure is convenient to install and detach. The best setting mode, such as the structure in fig. 3, sets up a first telescopic link respectively in the both sides of loading board component 31, sets up a second telescopic link in the centre of two first telescopic links, and the first telescopic link of both sides can guarantee the motion power of enough thrust to carry out loading board component 31 and the section of jurisdiction of waiting to assemble on it, simultaneously, the setting structure of both sides can make things convenient for the motion requirement of the different thrust direction of both sides when circumference motion.

In the embodiment of the present disclosure, the first telescopic link includes a first main link 321, a first sub link 322, and a first limiting head 323, the first main link 321 and the first sub link 322 are connected telescopically nested with each other, the first limiting head 323 is provided at an end of the first sub link 322, and an end of the first main link 321 is rotatably connected with the power member. The second telescopic rod comprises a second main rod 325, a second auxiliary rod 326 and a second limiting head 327, the second main rod 325 and the second auxiliary rod 326 are mutually nested and connected in a telescopic way, the second limiting head 327 is arranged at the end part of the second auxiliary rod 326, and the end part of the second main rod 325 is fixedly connected with the power component. For example, a first telescopic rod is arranged at the left and the right, and a second telescopic rod is arranged in the middle; the first main rod 321 is a square hollow steel tube, the top of the first main rod 321 is connected with a power component through a pin bolt, the first main rod 321 can rotate around the pin bolt, the lower part of the first main rod 321 is connected with the first auxiliary rod 322 through a bolt, the length can be automatically adjusted in a telescopic manner according to the requirement, the end part of the first auxiliary rod 322 is an L-shaped clamping device, namely a first limiting head 323, and is used for fixing the bearing plate component 31; the structure of the first telescopic rod is the same as that of the second telescopic rod, except that the second limiting head 327 of the second telescopic rod with a T-shaped end is used for supporting the duct piece, and fixing the duct piece on the bearing plate member 31.

In the embodiment of the disclosure, the power component comprises a transmission shaft 33, a gear 34, a motor 35 and a supporting frame 36, the supporting frame 36 supports and fixes the motor 35, the gear 34 is meshed with the transmission shaft 33, the motor 35 provides power for the gear 34, the transmission shaft 33 is fixedly connected with the telescopic positioning component 32, the power component is a core for providing power for the whole device, the motor 35 drives the gear 34, the gear 34 transmits power to the transmission shaft 33 through meshing force, a transmission shaft force transmission site 324 is arranged on the transmission shaft 33, the telescopic positioning component 32 is fixed on the transmission shaft force transmission site 324, and then the carrier plate component 31 is driven to convey the pipe piece to a designated position. The motor 35 is a high-power motor, mainly provides a power source for the whole power system, the lower part is connected with the supporting frame 36 through bolts, the supporting frame 36 is made of angle steel and mainly used for placing the motor, and the motor can control the rotation direction of the motor through a switch, so that the rotation direction of the bearing plate member 31 can be effectively controlled. The gear 34 is clamped on the rotor of the motor, and when the motor rotates, the gear 34 is driven to drive the transmission shaft 33, and the gear 34 plays a role in transmission, namely, the kinetic energy of the motor is transmitted to the transmission shaft 33. The transmission shaft 33 is a circular steel pipe with teeth on the surface, is made of high-strength and light-weight steel, and mainly transmits the kinetic energy of the gear 34 to the telescopic positioning member 32. A transmission shaft supporting point 331 is arranged at the end part of the transmission shaft 33, and the transmission shaft supporting point 331 is an annular shaft structure which is used for supporting the transmission shaft 33 in the assembled template unit 2, but does not influence the transmission of the rotation power of the transmission shaft 33; the transmission shaft force transmission site 324 is a steel pipe with teeth on the inner wall and smooth in appearance, the teeth on the inner wall of the transmission shaft force transmission site 324 are meshed with the teeth on the transmission shaft 33, the transmission shaft 33 drives the transmission shaft force transmission site 324, and the transmission shaft force transmission site 324 transmits power to the telescopic positioning component 32.

The bearing plate member 31 comprises a plate body, at least one friction area 311 is arranged on the inner wall of the plate body, at least one limiting ring 314 is arranged on the outer wall of the plate body, and a jack 313 and a pulley 312 can be arranged below the plate body. For example, the plate body is a section of 60-degree arc-shaped steel plate and is mainly used for bearing the segments to be spliced and conveying the segments to the designated positions; the friction area 311 is a rectangular rubber plate and is fixed on the plate body, and the rectangular rubber plate is loaded with the pipe piece to be spliced; the limiting ring 314 is made of a semi-annular steel pipe, is welded at the bottom of the plate body and is used for fixing the plate body on the limiting slide way 23, so that the bearing plate member 31 can rotate along the limiting slide way 23 in a circumferential direction, and meanwhile, the bearing plate member 31 can be effectively prevented from being separated from the limiting slide way 23. The pulley 312 is used for moving the bearing plate member 31, the pulley 312 is a member which can be detached and installed on the plate body at any time, when all the duct pieces on the plate body are assembled, the pulley 312 is installed and fixed at the bottom of the plate body, and at the moment, the bearing plate member can be pushed to move the assembled duct pieces out; the upper portion of the jack 313 is connected with a thin steel plate, the strength is high, the weight is light, a bolt rod with a screw is arranged at the top and extends out to be screwed on the bottom surface of the plate body, the jack 313 can be used for adjusting the height of the pulley 312, when the duct piece combination splicing above the plate body is completed, the pulley 312 is screwed on the bottom of the plate body, the jack 313 is pressed to enable the pulley 312 to land, the bearing plate member 31 is jacked up, the bearing plate member 31 is separated from the limiting slide rail 23, and the bearing plate member 31 is pushed to push the combined cylindrical member out of the spliced template unit 2.

In the embodiment of the disclosure, the assembling template unit 2 comprises a template body 21, a limiting slide way 23 and a locking member 24, wherein the limiting slide way 23 is arranged along the circumference of the inner wall of the template body 21, and the locking member 24 is slidably clamped on the inner wall of the template body 21 to lock and limit a sheet body to be assembled. The template body 21 is a fixed and load-bearing structure and is a tubular member, the whole structure is made of high-strength and light steel plates, the high strength can ensure that the whole device cannot deform in the operation process, the limiting slide way 23 is a circular tube type ring body member, and the limiting slide way is matched with the limiting ring 314 on the bearing plate member 31 to limit the movement track of the bearing plate member 31; preferably, the assembled formwork unit 2 further comprises a first supporting end cover 22 and a second supporting end cover 25, the first supporting end cover 22 and the second supporting end cover 25 are respectively buckled at two ends of the formwork body 21, supporting force is provided for setting of the power component and the telescopic positioning component 32, the bottom of the formwork body 21 is connected with the base 1 and transmits the weight of the whole device to the ground, the base 1 is a bearing structure of the whole device, all loads on the upper part are transmitted to the ground, the base 1 is of two identical structures, the two sides of the whole device are symmetrically placed along the axis direction of the formwork cylinder, and a space of about 30cm is reserved in the middle and used as a sliding channel of the pulley 312. In addition, the base 1 also has the function of stabilizing the whole device.

In the embodiment of the present disclosure, the locking member 24 includes a sleeve 241, a locking piece 242, a clamping plate 243, and a clamping head 244, the sleeve 241 is slidably clamped on the inner wall of the template 21, the clamping plate 243 is inserted into the sleeve 241 and is controlled by the telescopic length of the locking piece 242, and the clamping head 244 is disposed at the end of the clamping plate 243. The locking members 24 are used for fixing the segments to be assembled, are arranged on the inner wall of the template body 21, are uniformly arranged at positions, close to the end parts, of the template body 21 along the circumferential direction, and are preferably arranged at intervals of 60 degrees along the circumferential direction, the tops of the locking members are fixedly connected with locking member sliding grooves 26 formed in the inner wall of the template body 21 through convex buckles, and the best locking member sliding grooves 26 are arranged along the axial direction of the template body 21. The entirety of the locking member 24 is made of lightweight sheet steel and is adapted to segments of different wall thicknesses and is movable back and forth in the locking member chute 26 to find a suitable location for securing the segments. The locking piece 242 is a bolt member, and the telescopic length of the clamping plate 243 is adjusted to adapt to the duct pieces with different thicknesses through tightness of the bolt.

In the embodiment of the disclosure, the splice joint casting device 4 is further included, the splice joint casting device 4 comprises a casting pipe 41 and casting spray heads 42 arranged on the casting pipe 41, the casting pipe 41 is circumferentially arranged along the inner side of the spliced template unit 2, and the casting spray heads 42 are at least arranged at the splice joints of the segmented cylindrical members. The splice joint casting device 4 is used for casting cement paste between the spliced pipe joint connection joints, so that the spliced pipe joint connection is stronger, and water flow is prevented from entering in the application. Preferably, the splice joint casting device consists of the following parts: pouring tube 41, pouring spout 42, transport tube 43 and pouring headbox 44. The pouring pipes 41 distribute and convey the cement paste in the transport pipes to the pouring nozzles 42, and are made of a circular steel pipe and a thin steel plate, and have enough space for conveying the cement paste and enough strength to prevent the cement paste from overflowing from the pipes. The pouring nozzle 42 sprays cement slurry to the joint of the pipe pieces to seal the joint front tightly. The transport pipe 43 is used for transporting cement slurry. The casting box 44 is used for containing gas and cement slurry, and consists of the following parts: the cement slurry pressing device comprises a gas storage tank, a storage tank and a connector, wherein the gas storage tank is made of thin steel plates, has high strength and light weight and is used for storing gas to provide air pressure for pressing cement slurry in the storage tank out. The connector is used for connecting the gas storage tank and the storage tank, and conveying gas in the gas storage tank to the storage tank. The storage tank is used for storing cement slurry, and the cement slurry in the storage tank is conveyed into the conveying pipe under pressure by gas from the gas storage tank.

The preferred embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, but the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solutions of the present disclosure within the scope of the technical concept of the present disclosure, and all the simple modifications belong to the protection scope of the present disclosure.

In addition, the specific features described in the foregoing embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, the present disclosure does not further describe various possible combinations.

Moreover, any combination between the various embodiments of the present disclosure is possible as long as it does not depart from the spirit of the present disclosure, which should also be construed as the disclosure of the present disclosure.

Claims (3)

1. The split type cylindrical component assembling device is characterized by comprising a base (1), wherein an assembling template unit (2) is arranged on the base (1), and a positioning and splicing unit (3) is arranged in the assembling template unit (2);

the positioning and splicing unit (3) comprises a bearing plate member (31), a telescopic positioning member (32) and a power member, wherein the telescopic positioning member (32) limits a segment to be assembled of the segmented cylindrical member on the bearing plate member (31), and the bearing plate member (31), the segment to be assembled and the telescopic positioning member (32) are driven by the power member to splice the segment to be assembled by taking the splicing template unit (2) as a template to obtain the cylindrical member;

the telescopic positioning member (32) comprises at least one first telescopic rod and at least one second telescopic rod, the first telescopic rod transmits power of the power member to the bearing plate member (31) and simultaneously limits and supports the lateral direction of the bearing plate member (31), and the second telescopic rod transmits the power of the power member to the pipe piece to be assembled and simultaneously limits the pipe piece to be assembled on the bearing plate member (31);

the first telescopic rod comprises a first main rod (321), a first auxiliary rod (322) and a first limiting head (323), the first main rod (321) and the first auxiliary rod (322) are mutually nested and are connected in a telescopic mode, the first limiting head (323) is arranged at the end portion of the first auxiliary rod (322), and the end portion of the first main rod (321) is rotatably connected with the power component;

the second telescopic rod comprises a second main rod (325), a second auxiliary rod (326) and a second limiting head (327), the second main rod (325) and the second auxiliary rod (326) are mutually nested and connected in a telescopic manner, the second limiting head (327) is arranged at the end part of the second auxiliary rod (326), and the end part of the second main rod (325) is fixedly connected with the power component;

the power component comprises a transmission shaft (33), a gear (34), a motor (35) and a support frame (36), wherein the support frame (36) supports and fixes the motor (35), the gear (34) is meshed with the transmission shaft (33), the motor (35) provides power for the gear (34), and the transmission shaft (33) is fixedly connected with the telescopic positioning component (32);

the bearing plate member (31) comprises a plate body, at least one friction area (311) is arranged on the inner wall of the plate body, at least one limiting ring (314) is arranged on the outer wall of the plate body along the circumferential direction, and a jack (313) and a pulley (312) are detachably arranged under the plate body;

the assembly template unit (2) comprises a template body (21), a limiting slide way (23) and a locking member (24), wherein the limiting slide way (23) is arranged along the circumferential direction of the inner wall of the template body, and the locking member (24) is slidably clamped on the inner wall of the template body (21) to lock and limit an assembly sheet body;

the locking component (24) comprises a sleeve body (241), a locking piece (242), a clamping plate (243) and a clamping head (244), wherein the sleeve body (241) is slidably clamped on the inner wall of the template body (21), the clamping plate (243) is inserted into the sleeve body (241) and used for controlling the telescopic length through the locking piece (242), and the clamping head (244) is arranged at the end part of the clamping plate (243).

2. The assembling device for the split cylindrical member according to claim 1, wherein the assembling template unit (2) further comprises a first support end cover (22) and a second support end cover (25), and the first support end cover (22) and the second support end cover (25) are respectively buckled at two end parts of the template body (21) to provide supporting force for the arrangement of the power member and the telescopic positioning member (32).

3. The split type cylindrical member assembling device according to claim 1, further comprising a splice joint casting device (4), wherein the splice joint casting device (4) comprises a casting pipe (41) and casting spray heads (42) arranged on the casting pipe (41), the casting pipe (41) is circumferentially arranged along the inner side of the split type template unit (2), and the casting spray heads (42) are arranged at least at the splice joint of the split type cylindrical member.

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