CN113276269A - Networking device and assembling method of steel bar net cage - Google Patents

Networking device and assembling method of steel bar net cage Download PDF

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Publication number
CN113276269A
CN113276269A CN202110609473.1A CN202110609473A CN113276269A CN 113276269 A CN113276269 A CN 113276269A CN 202110609473 A CN202110609473 A CN 202110609473A CN 113276269 A CN113276269 A CN 113276269A
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China
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mesh
cantilever
support
supporting
vertical direction
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CN202110609473.1A
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CN113276269B (en
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邬全兵
李小龙
张琼
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Guangdong Bozhilin Robot Co Ltd
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Guangdong Bozhilin Robot Co Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B23/00Arrangements specially adapted for the production of shaped articles with elements wholly or partly embedded in the moulding material; Production of reinforced objects
    • B28B23/02Arrangements specially adapted for the production of shaped articles with elements wholly or partly embedded in the moulding material; Production of reinforced objects wherein the elements are reinforcing members
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B17/00Details of, or accessories for, apparatus for shaping the material; Auxiliary measures taken in connection with such shaping

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Ceramic Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Manufacturing & Machinery (AREA)
  • Wire Processing (AREA)

Abstract

The invention provides a networking device and an assembling method of a reinforcement cage. The networking device includes: the mesh supporting structure is arranged on the mesh lifting mechanism and used for accommodating a plurality of meshes which are sequentially arranged; at least part of the mesh lifting mechanism is movably arranged along the vertical direction so as to drive the mesh supporting structure and the mesh positioned on the mesh supporting structure to synchronously move; the first cantilever structure is located one side of net piece elevating system, and first cantilever structure includes first cantilever part, and first cantilever part is along the movably setting of vertical direction and first direction to make at least part first cantilever part can wear to establish in the net piece and support the muscle of indulging of at least a pair of net piece with the constant interval, and under the drive of first cantilever part, the muscle of indulging of at least a pair of net piece can be followed vertical direction and removed to buckle structure's preset position, with at least a pair of net piece and buckle structure joint. According to the technical scheme, the net forming device can improve the assembling efficiency of the steel bar net and the buckle structure.

Description

Networking device and assembling method of steel bar net cage
Technical Field
The invention relates to the field of steel bar mesh cage forming, in particular to a mesh assembly device and an assembly method of a steel bar mesh cage.
Background
In the production process of the autoclaved aerated concrete plate, a steel reinforcement cage is required to be added into the plate to enhance the structural stability of the plate, namely, after a single steel reinforcement mesh and a buckle structure are combined into the steel reinforcement cage, the steel reinforcement cage is hung on a steel chisel and inserted into a pouring mould box.
In the prior art, the single steel bar net pieces are connected through the buckle structures and then combined to form the steel bar net cage, the net assembling mode is generally completed manually, and the net assembling mode can be completed only by cooperation of a plurality of people, so that the net assembling efficiency of the steel bar net cage formed by combining the single steel bar net pieces and the buckle structures is reduced, and the production efficiency of the whole autoclaved aerated concrete plate is further reduced.
Disclosure of Invention
The invention mainly aims to provide a networking device and an assembling method of a reinforcement cage, wherein the networking device can improve the assembling efficiency of a reinforcement mesh and a buckle structure.
In order to achieve the above object, according to one aspect of the present invention, there is provided a net assembly for assembling a net and a snap structure, the net assembly comprising: a mesh sheet lifting mechanism; the mesh supporting structure is arranged on the mesh lifting mechanism and used for accommodating a plurality of meshes which are sequentially arranged; at least part of the mesh lifting mechanism is movably arranged along the vertical direction so as to drive the mesh supporting structure and the mesh positioned on the mesh supporting structure to synchronously move; the first cantilever structure is located on one side of the mesh lifting mechanism and comprises a first cantilever portion, the first cantilever portion is movably arranged in the vertical direction and the first direction, so that at least part of the first cantilever portion can penetrate through the mesh and support at least one pair of longitudinal ribs of the mesh at constant intervals, and under the driving of the first cantilever portion, the longitudinal ribs of the mesh can move to the preset position of the buckle structure in the vertical direction, and the mesh and the buckle structure are connected in a clamped mode. Among the above-mentioned technical scheme, net piece elevating system can drive net piece bearing structure and set up at least a pair of net piece on net piece bearing structure and remove along vertical direction, so that the muscle of indulging that is located the top of at least a pair of net piece can be followed vertical direction and removed to the position at buckle structure place, then under first cantilever structure drives, make the aforesaid indulge the muscle can cooperate with buckle structure joint, through net piece bearing structure to the prepositioning of net piece and the accurate positioning of first cantilever structure to the net piece, can improve net piece and buckle structure's connection efficiency effectively, thereby network deployment efficiency has been improved.
Furthermore, one side of the first cantilever part is provided with a plurality of grooves arranged at intervals, and the grooves are matched with the longitudinal ribs of the net piece. Like this, when first cantilever part removed along vertical direction, can arrange the muscle of indulging of net piece in the recess, furtherly, when net piece elevating system drove the net piece and upwards removed, first cantilever part also upwards removed, and the recess provides the power of card income buckle structure for the muscle of indulging of net piece.
Further, the first cantilever structure comprises a plurality of first cantilever parts arranged at intervals along a second direction, and the second direction is perpendicular to the first direction; alternatively, the first cantilever portion comprises one or more first cantilevers. Through the arrangement, when the longitudinal ribs are clamped into the buckle structure, the longitudinal ribs can be supported in the longitudinal direction along the longitudinal ribs, so that the longitudinal ribs are prevented from deforming due to self gravity, and the longitudinal ribs can be better clamped into the buckle structure.
Further, the networking device further comprises a second cantilever structure, the second cantilever structure comprises a second cantilever part corresponding to the first cantilever part, the second cantilever part and the first cantilever part are located on two opposite sides of the mesh lifting mechanism, and the second cantilever part is movably arranged in the vertical direction to be supported below the first cantilever part. Like this, first cantilever can be supported to second cantilever portion to avoid first cantilever to take place to warp because of self gravity, and then make its length direction of edge of first cantilever keep the level, and can be more evenly and steadily will indulge the muscle card and go into in the buckle structure.
Further, the device of netting includes two first cantilever structures and corresponds two second cantilever structures that set up with two first cantilever structures, and two first cantilever structures can keep away from each other to the muscle is indulged to being located the top and being located the below to the net piece respectively and indulging the muscle and support. Like this, can drive two first cantilever structures respectively and keep away from each other to in the buckle that is located the top and is located the buckle of below with the net piece card respectively simultaneously, accomplish automatic network deployment process.
Further, the mesh support structure comprises: a support body; the supporting bodies are arranged on the supporting bodies, the supporting molds are arranged at intervals along the first direction, and any two adjacent supporting molds and part of the supporting bodies are enclosed to form a containing groove for containing the net piece. Therefore, the gaps between the two adjacent supporting molds and the supporting bodies can support the net sheets, so that the net sheets can be stably placed on the net sheet supporting structure, and the net sheets are prevented from falling.
Further, the support body comprises a support frame and a support beam connected with the support frame, a plurality of support molds are arranged at intervals along the length extending direction of the support beam, and two adjacent support molds and part of the support beam enclose an accommodating groove. Therefore, the net sheets can be stably placed on the containing grooves of the net sheet supporting structure, and the net sheets are prevented from falling.
Further, the device of netting still includes the support frame, and net piece elevating system includes: a first drive motor; the first rack is arranged on the support frame along the vertical direction; the first gear is connected with the support body of the mesh support structure, the first gear is meshed with the first rack, and an output shaft of the first driving motor is in driving connection with the first gear. Like this, first gear can drive net piece bearing structure and move along vertical direction for the support frame to drive net piece and move along vertical direction.
Furthermore, the first cantilever structure further comprises a first driving structure in driving connection with the first cantilever part and a second driving structure arranged on the first driving structure, the first driving structure is used for driving the first cantilever part to move along a first direction, the second driving structure is used for driving the first cantilever part to move along a vertical direction, and the first driving structure and the second driving structure both comprise a motor and a gear and rack structure connected with the motor. In the above arrangement, the gear is driven to rotate by the motor, so that the first cantilever part can be driven to move in the vertical direction, and the gear drives the second driving structure and the first cantilever part to move in the first direction, so that the first cantilever part can move in the vertical direction and can move in the horizontal direction.
Further, the networking device further comprises a support frame, the networking device further comprises a sliding rail arranged on the support frame and a sliding block in sliding fit with the sliding rail, and the sliding block is connected with the mesh supporting structure. Through the arrangement, the net supporting structure drives the sliding block to move in the vertical direction along the sliding rail, so that the net supporting structure can slide more smoothly in the vertical direction.
Further, the networking device further comprises a steel rod support connected with the support frame, the steel rod support is provided with an installation through hole for the steel rod to penetrate through, and the peripheral wall of the steel rod is provided with a bulge matched with the buckle structure. Through the arrangement, the interference fit between the steel drill and the buckle structure can be realized, so that the steel drill can overcome the gravity of part of the buckle structure and the net piece, and the net piece is fixed on the steel drill.
Furthermore, the net forming device further comprises a clamping structure arranged on the net piece lifting mechanism, the clamping structure is located on one side of the supporting mold of the net piece supporting structure, and the clamping structure comprises a clamping portion used for clamping longitudinal ribs of the net piece. In the above arrangement, the clamping structure can clamp all the meshes on the mesh supporting structure, thereby preventing the meshes from shaking.
According to another aspect of the invention, an assembling method of a reinforcement cage is provided, the reinforcement cage comprises a mesh and a buckle structure connected with the mesh, the assembling method adopts the above networking device for assembling, and the assembling method comprises the following steps: a placement step of placing a plurality of meshes on the mesh support structure; lifting the mesh supporting structure and the meshes positioned on the mesh supporting structure to a preset height through a mesh lifting mechanism; and a first supporting step of arranging the first cantilever structure in the mesh in a penetrating manner. Among the above-mentioned technical scheme, through placing the net piece on net piece bearing structure, net piece bearing structure can support a plurality of net pieces of arranging in proper order, and net piece elevating system drives net piece bearing structure and sets up the net piece on net piece bearing structure and moves to predetermined position along vertical direction, so that the vertical direction removal to buckle structure place position can be followed to the muscle of indulging that is located the top of net piece, then under first cantilever structure drives, make the aforesaid indulge the muscle can with buckle structure joint cooperation, through net piece bearing structure to the prepositioning of net piece and the accurate support of first cantilever structure to the net piece, can improve net piece and buckle structure's connection efficiency effectively, thereby networking efficiency has been improved.
Further, after the lifting step, the assembly method further comprises: a second supporting step of supporting the second cantilever portion below the first cantilever of the first cantilever structure; and enabling the first cantilever, the mesh lifting mechanism and the second cantilever to synchronously move along the vertical direction so as to drive the longitudinal ribs of the mesh to be in clamping fit with the buckle structure. Among the above-mentioned technical scheme, under net piece elevating system's drive, vertical direction removal can be followed to the net piece to first cantilever and second cantilever portion can provide the power that upwards blocks into buckle structure for the muscle of indulging of the top of net piece, like this, just can cooperate with the muscle of indulging of net piece and buckle structure joint, and above-mentioned process need not artifical the participation, and the consumption of the manpower that has significantly reduced, thereby has increased the network deployment efficiency of steel reinforcement cylinder mould effectively.
Further, before the first moving step, after the second supporting step, the assembling method further includes: and a second moving step of keeping the mesh lifting mechanism at the current position, and moving the first cantilever and the second cantilever part along the vertical direction so as to clamp the longitudinal rib positioned at the top of the mesh and/or the longitudinal rib positioned at the bottom of the mesh into the groove of the first cantilever. Above-mentioned technical scheme, first cantilever is under the supporting role of second cantilever portion, along vertical direction rebound to the muscle of indulging of the top that makes the net piece is located the recess, thereby avoids first cantilever to take place to warp, and then makes first cantilever can be the upward movement more steadily, like this, under the drive of net piece elevating system, indulges the muscle and can follow vertical direction rebound, and first cantilever can provide ascending power for indulging muscle card income buckle structure.
By applying the technical scheme of the invention, the mesh supporting structure capable of accommodating a plurality of meshes arranged in sequence is arranged, so that the meshes can be pre-positioned, and the longitudinal ribs of at least one pair of meshes are supported at constant intervals by arranging the first cantilever structure, so that the at least one pair of meshes can be accurately positioned, and the connecting efficiency of the meshes and the buckle structure can be effectively improved, then the mesh supporting structure is arranged on the mesh lifting mechanism, the first cantilever structure can move along the vertical direction and the first direction, so that the mesh lifting mechanism can drive the mesh supporting structure and the at least one pair of meshes arranged on the mesh supporting structure to move along the vertical direction, so that the longitudinal ribs at the outermost side of the meshes can move along the vertical direction to the position of the buckle structure, and then under the drive of the first cantilever structure, the longitudinal ribs can be in clamping fit with the buckle structure, the net piece is pre-positioned by the net piece supporting structure and accurately positioned by the first cantilever structure, so that the connection efficiency of the net piece and the buckle structure can be effectively improved, and the networking efficiency is improved.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:
fig. 1 is a schematic structural diagram of a networking device according to a first embodiment of the present invention;
FIG. 2 illustrates a front view of the networking device of FIG. 1;
FIG. 3 illustrates a partial structural schematic view of the networking device of FIG. 1 (with the mesh support structure, the first cantilever structure, and the second cantilever structure all at an initial height);
FIG. 4 shows a schematic partial structural view of the networking device of FIG. 3 (where the mesh support structure, the first cantilever structure, and the second cantilever structure are at a predetermined height);
FIG. 5 illustrates an assembled schematic view of the mesh support structure and a portion of the mesh lifting mechanism of the networking device of FIG. 1;
FIG. 6 shows a schematic structural view of a mesh lifting mechanism of the networking device of FIG. 1;
FIG. 7 illustrates a partial enlarged view of the networking device of FIG. 6;
FIG. 8 shows a schematic structural diagram of a first cantilever structure of the networking device of FIG. 1;
FIG. 9 shows a schematic structural diagram of a second cantilever structure of the networking device of FIG. 1;
FIG. 10 is a schematic diagram showing the mating of the first cantilever structure and the second cantilever structure of the second embodiment of the present invention;
FIG. 11 is a schematic diagram showing the configuration of the first cantilever structure and the second cantilever structure in cooperation according to a third embodiment of the present invention;
FIG. 12a shows a schematic structural view of another embodiment of the first boom portion of the first boom structure of the networking device of FIG. 1;
figure 12b shows a front view of the first cantilever part of figure 12 a;
FIG. 13 illustrates a schematic structural diagram of another embodiment of a first boom structure of the networking device of FIG. 1; and
fig. 14 is a flowchart illustrating an assembling method of a reinforcement cage according to a first embodiment of the present invention.
Wherein the figures include the following reference numerals:
1. a mesh sheet; 2. a buckle structure; 10. a support frame; 11. a slide rail; 14. a slider; 20. a mesh support structure; 21. a support body; 211. a support frame; 212. a support beam; 22. supporting the mold; 30. a drill steel bracket; 31. steel chisel; 40. a first cantilever structure; 42. a first cantilever portion; 43. a groove; 44. a first cantilever; 45. a second cantilever structure; 46. a second cantilever portion; 47. a support; 50. a mesh sheet lifting mechanism; 51. a first drive motor; 52. a first rack; 53. a first gear; 54. a first drive structure; 55. a second drive structure; 56. a clamping structure; 57. a connecting shaft; 58. and a third drive configuration.
Detailed Description
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.
In the embodiment of the present invention, the first direction is a direction perpendicular to the axes of the longitudinal ribs of the web 1 in the horizontal plane, the second direction is a direction in which the axes of the longitudinal ribs of the web 1 are located, and the vertical direction is perpendicular to the first direction and the second direction. Wherein the vertical direction, the first direction and the second direction are all shown in fig. 1.
Example one
As shown in fig. 1, a networking device is provided according to an embodiment of the present invention. The networking device is used for assembling the net sheet 1 and the buckle structures 2, and comprises a net sheet lifting mechanism 50, a net sheet supporting structure 20 and a first cantilever structure 40. The mesh supporting structure 20 is arranged on the mesh lifting mechanism 50, and the mesh supporting structure 20 is used for accommodating a plurality of meshes 1 which are sequentially arranged; at least part of net piece elevating system 50 sets up movably along vertical direction, in order to drive net piece bearing structure 20 and the net piece 1 synchronous motion that is located net piece bearing structure 20, first cantilever structure 40 is located one side of net piece elevating system 50, first cantilever structure 40 includes first cantilever part 42, first cantilever part 42 is along the movably setting of vertical direction and first direction, in order to make at least part first cantilever part 42 can wear to establish in net piece 1 and support at least a pair of vertical muscle of net piece 1 with the constant interval, and under the drive of first cantilever part 42, at least a pair of vertical muscle of net piece 1 can be followed vertical direction and moved to buckle structure 2's preset position, will at least a pair of net piece 1 and buckle structure 2 joint.
Among the above-mentioned technical scheme, can hold a plurality of net piece bearing structure 20 of arranging in proper order net piece 1 through the setting, can carry out prepositioning to at least a pair of net piece 1 like this to support at least a pair of net piece 1's vertical muscle with the constant interval through setting up first cantilever structure 40, can carry out the accurate positioning to net piece 1 like this, thereby can improve net piece 1 and buckle structure 2's connection efficiency effectively. Further, set up net piece bearing structure 20 on net piece elevating system 50, and first cantilever structure 40 can move along vertical direction and first direction, and like this, net piece elevating system 50 can drive net piece bearing structure 20 and set up net piece 1 on net piece bearing structure 20 and move along vertical direction, so that the muscle of indulging that is located the top of net piece 1 can move to the position at buckle structure 2 place along vertical direction, then under the drive of first cantilever structure 40, make the aforesaid indulge the muscle and can cooperate with buckle structure 2 joint, and like this, through net piece bearing structure 20 to the prepositioning of net piece and the accurate positioning of first cantilever structure 40 to the net piece, can improve net piece 1 and buckle structure 2's connection efficiency effectively, thereby network deployment efficiency has been improved.
Furthermore, the networking process does not need manual participation, and the networking efficiency can be improved.
Specifically, in the first embodiment of the present invention, after the mesh sheet 1 is placed on the mesh sheet supporting structure 20, and the mesh sheet lifting mechanism 50 lifts the vertical rib located at the uppermost position of the mesh sheet to the position below the fastening structure 2, at this time, the first cantilever portion 42 may be adjusted to move the first cantilever portion 42 to the inside of the mesh sheet 1 along the first direction (i.e., the first cantilever portion 42 is located below the outermost vertical rib of the mesh sheet 1), so that when the first cantilever portion 42 is lifted along the vertical direction, the vertical rib of the mesh sheet 1 may be snapped into the fastening structure 2.
It should be noted that, in the first embodiment of the present invention, when the mesh sheet 1 is not placed on the mesh sheet supporting structure 20, the first cantilever portion 42 is located on the left side of the mesh sheet supporting structure 20 in fig. 3 (i.e., the first cantilever portion 42 does not extend below the uppermost or lowermost longitudinal rib of the mesh sheet 1), so that the mesh sheet 1 can be more conveniently placed on the mesh sheet supporting structure 20.
Specifically, in the first embodiment of the present invention, the mesh supporting structure 20 is connected to the mesh elevating mechanism 50, and the mesh supporting structure 20 is disposed inside the mesh elevating mechanism 50, so that when part of the mesh elevating mechanism 50 moves in the vertical direction, the mesh supporting structure 20 can be driven to move in the vertical direction, and the mesh 1 is driven to move in the vertical direction.
Preferably, in a preferred embodiment of the present invention, as shown in fig. 1, the net forming device further includes a support frame 10 and a drill steel bracket 30 provided to the support frame 10. The drill steel bracket 30 is provided with a mounting through hole for the drill steel 31 to penetrate out. By using the drill rod bracket 30, the drill rod 31 can be in an upright state, which facilitates the subsequent assembly process.
Specifically, in the first embodiment of the present invention, the steel rod 31 may support the fastening structure 2, and in the process of connecting the longitudinal rib on the mesh sheet 1 with the fastening structure 2, the steel rod 31 may prevent the fastening structure 2 from moving, so that the longitudinal rib is better connected with the fastening structure 2.
Preferably, in the first embodiment of the present invention, three drill steel brackets 30 are arranged at intervals along the second direction, so that the three positions in the front, middle and rear of the longitudinal bar in fig. 1 can be connected with the buckle structure 2 in the axial direction of the longitudinal bar. Of course, in an alternative embodiment one, which is not shown in the drawings, four or five etc. drill steel supports 30 may be provided in the second direction.
As shown in fig. 1 and 2, in the first embodiment of the present invention, the mesh support structure 20 includes a support body 21 and a plurality of support molds 22. Wherein, a plurality of support moulds 22 set up in supporting body 21, and a plurality of support moulds 22 set up along first direction interval, and two arbitrary adjacent support moulds 22 and partial holding tank that support body 21 and enclose and be used for holding net piece 1.
In the above technical solution, the mesh sheets 1 are placed in the gaps between the plurality of supporting molds 22 of the mesh sheet supporting structure 20 one by one, so that the gaps between two adjacent supporting molds 22 and the supporting bodies 21 can support the mesh sheets 1, so that the mesh sheets 1 can be stably placed on the mesh sheet supporting structure 20, and the mesh sheets 1 are prevented from falling.
It should be noted that, in the first embodiment of the present invention, the supporting mold 22 and the supporting beam 212 are detachably disposed on the supporting frame 211, so that the mesh sheet 1 can be firstly placed on the supporting mold 22 and the supporting beam 212 by other devices, and then the assembled assembly of the supporting mold 22 and the supporting beam 212 and the mesh sheet 1 on the assembly are transported to the supporting frame 211 by other transporting devices, so that the networking efficiency of the whole apparatus can be improved.
Specifically, in the first embodiment of the present invention, as shown in fig. 1 to 3, the support body 21 includes a support frame 211 and a support beam 212 connected to the support frame 211, the plurality of support molds 22 are arranged at intervals along a length extending direction of the support beam 212, and two adjacent support molds 22 and a part of the support beam 212 enclose a receiving groove.
Preferably, in order to facilitate the installation of the supporting mold 22, the supporting beam 212 is provided with a plurality of mounting grooves arranged at intervals, and by providing a plurality of mounting grooves, the supporting mold 22 can be arranged in the mounting grooves, so as to better support the mesh sheet 1.
As shown in fig. 1, the supporting frame 211 of the mesh supporting structure 20 includes a longitudinal beam and a cross beam connected to the longitudinal beam, and the longitudinal beam of the supporting frame 211 is connected to the longitudinal beam of the supporting frame 10 through a lifting guide. The lifting guide member may be a linear guide and a slider adapted thereto, one of the linear guide and the slider is mounted on a longitudinal beam of the supporting frame 211, and the other of the linear guide and the slider is disposed on a longitudinal beam of the supporting frame 10. The lifting drive enables the mesh support structure 20 to be arranged in a liftable manner in the storage space of the support frame 10.
Specifically, the process of disposing the mesh support structure 20 in the mesh elevating mechanism 50 is: the support frame 10 has openings at both ends, and a mesh transportation line is used for transporting a part of the mesh support structure 20, and the outlet of the mesh transportation line is connected to the opening at one end of the support frame 10, so that the mesh transportation line can transport a part of the mesh support structure 20 to two beams of the support frame 211, and then fix a part of the mesh support structure 20 (i.e. the support beam 212 and the support mold 22 located on the support beam 212) to two beams of the support frame 211 by means of detachable fasteners (such as bolts, etc.). For convenience of operation, the mesh transportation line is disposed at one end of the support frame 10, and the buckle transportation line is disposed at the opposite end of the support frame 10, so that manual work can be performed on the mesh transportation line and the buckle transportation line to operate a part of the mesh supporting structure 20 (i.e., the supporting beam 212 and the supporting mold 22 on the supporting beam 212) and the buckle mold. One such operation is to feed the mesh support structure 20 on the mesh transport line, i.e. to install a plurality of meshes on the mesh support structure, so that the mesh support structure carries the plurality of meshes into the storage space of the support frame 10.
In order to better support the mesh sheet 1, a plurality of supporting beams 212 are arranged at intervals along the second direction (namely, the axial direction of the longitudinal ribs of the mesh sheet 1), and a plurality of supporting molds 22 are mounted on each supporting beam 212, so that not only can a plurality of mesh sheets 1 be simultaneously supported, but also the mesh sheet 1 can be better supported along the second direction, and the deformation of the longitudinal ribs of the mesh sheet 1 is avoided.
Preferably, in the first embodiment of the present invention, the supporting mold 22 is a supporting plate, and the supporting plate is hollow. Of course, in an embodiment not shown in the drawings, the supporting molds 22 may be supporting columns or the like, as long as a plurality of supporting molds 22 are arranged at intervals, and the gap between two adjacent supporting molds 22 can accommodate the mesh sheet 1.
As shown in fig. 3 and 4, in the first embodiment of the present invention, a plurality of grooves 43 are formed at intervals on one side of the first cantilever portion 42, and the grooves 43 are engaged with the longitudinal ribs of the mesh sheet 1.
Among the above-mentioned technical scheme, when the muscle that indulges in the outside of net piece is located buckle structure 2's below, first cantilever part 42 is along first direction horizontal motion to indulge the muscle from the outside of net piece 1 (for example, the muscle that indulges that is located the top of net piece 1 and/or the net piece lie in the below and pass, until a plurality of recess 43 that set up along first direction interval align with a plurality of muscle that indulge that are located a plurality of net pieces outsides, like this, when first cantilever part 42 moves along vertical direction, can place the muscle that indulges of net piece 1 in recess 43, furtherly, when net piece elevating system 50 drives net piece rebound, first cantilever part 42 also rebound, recess 43 provides the power of blocking in buckle structure 2 for the muscle that indulges of net piece 1.
Preferably, in the embodiment of the present invention, the plurality of grooves 43 are uniformly arranged on the first cantilever portion 42 at intervals, so that the first cantilever portion 42 can penetrate through the mesh sheet 1 and support the longitudinal ribs of the mesh sheet 1 at constant intervals, and further, the longitudinal ribs can be accurately positioned.
As shown in fig. 3 and 13, in one embodiment, a support strip having the above-mentioned groove 43 may be provided on the surface of the first cantilever portion 42. Of course, as shown in fig. 12a and 12b, the groove 43 may be directly formed on the surface of the first cantilever portion 42 by laser cutting or the like.
Specifically, as shown in fig. 12a and 12b, the groove 43 is a variable diameter groove having a large head end and a small head end which are correspondingly disposed, the large head end extends to the outer edge of the first cantilever portion 42, a circular groove matched with the longitudinal rib is disposed at one end of the small head end far away from the large head end, and a stop wall of the longitudinal rib is formed at the joint of the side avoiding surfaces of the circular groove and the small head end, so that the longitudinal rib is better placed in the groove.
Preferably, the bottom wall of the groove 43 is curved so as to be able to better conform to the outer wall surface of the longitudinal rib of the mesh sheet to stably support the longitudinal rib.
In the first embodiment of the present invention, the position of the groove 43 should be as close to the drill steel 31 as possible, because the groove 43 not only aligns the uppermost longitudinal rib of the mesh sheet 1 with the snap structure 2, but also provides a force for the longitudinal rib to snap into the snap structure 2 upwards.
In the first embodiment of the present invention, the plurality of grooves 43 arranged at intervals are matched with the plurality of longitudinal ribs located at the outermost side of the plurality of mesh sheets 1 in a one-to-one correspondence manner.
As shown in fig. 8, in the first embodiment of the present invention, the first cantilever structure 40 includes a plurality of first cantilever portions 42 arranged at intervals along a second direction, and the second direction is perpendicular to the first direction. Each first cantilever portion 42 includes a first cantilever 44. Of course, in other embodiments, as shown in fig. 13, each first cantilever portion 42 may also include two first cantilevers 44.
Among the above-mentioned technical scheme, through setting up a plurality of first cantilever parts 42 that set up along the second direction interval, when will indulge the muscle card and go into buckle structure 2, can realize the support to indulging the muscle along the length direction who indulges the muscle to avoid indulging the muscle and taking place to warp because of self gravity, make indulge the muscle and can go into buckle structure 2 better.
In the first embodiment of the present invention, the plurality of first cantilever portions 42 spaced apart from each other in the second direction are provided corresponding to the plurality of drill rod holders 30 spaced apart from each other in the second direction.
Preferably, as shown in fig. 3 and 4, in the first embodiment of the present invention, when the first cantilever part 42 includes one first cantilever 44, one first cantilever 44 is disposed on one side of each of the drill rod supports 30, and the first cantilever 44 can support the longitudinal ribs of the mesh sheet 1 to be snapped into the snap structure 2.
Preferably, as shown in fig. 1 and 13, in the first embodiment of the present invention, two first cantilever arms 44 may be respectively disposed on two sides of each drill rod bracket 30, so that the deformation of the longitudinal ribs of the mesh sheet 1 is small, and the mesh sheet 1 can be more smoothly clamped into the buckle structure 2.
As shown in fig. 2, 3 and 4, in the first embodiment of the present invention, the mesh forming apparatus further includes a second cantilever structure 45 disposed on the supporting frame 10, the second cantilever structure 45 includes a second cantilever portion 46 corresponding to the first cantilever 44, the second cantilever portion 46 and the first cantilever 44 are disposed on opposite sides of the mesh lifting mechanism 50, and the second cantilever portion 46 is movably disposed along the vertical direction to be supported below the first cantilever 44.
In the above technical solution, when the first cantilever 44 moves to the lower side of the uppermost longitudinal rib of the mesh 1 along the first direction, the second cantilever portion 46 moves upward along the vertical direction until one end of the second cantilever portion 46 contacts with one end of the first cantilever 44, at this time, the second cantilever portion 46 is located below the first cantilever 44, and the second cantilever portion 46 can support the first cantilever 44, so as to prevent the first cantilever 44 from deforming due to its own gravity, and further keep the first cantilever 44 horizontal along the length direction thereof. Then, under the condition that the position of the mesh sheet lifting mechanism 50 is kept unchanged, the second cantilever portion 46 and the first cantilever 44 move in the vertical direction at the same speed until the uppermost longitudinal ribs of the mesh sheet 1 are led into the corresponding grooves 43 one by one, so that the longitudinal ribs can be clamped into the buckle structures 2 more uniformly and stably.
Preferably, in the first embodiment of the present invention, the second cantilever portions 46 are disposed in one-to-one correspondence with the first cantilevers 44 along the second direction, so that the second cantilever portions 46 can better support the first cantilever portions 42.
As shown in fig. 3, when the mesh support structure 20 is at the initial height, the first and second cantilever structures 40, 45 are both positioned above the mesh support structure 20. Under the drive of the mesh lifting mechanism 50, the mesh supporting structure 20 and the mesh arranged on the mesh supporting structure 20 are lifted to a preset height, and the first cantilever structure 40 and the second cantilever structure 45 are also lifted by a preset distance, so as to ensure that the first cantilever structure 40 can support the longitudinal ribs which are positioned at the top of the mesh 1, and the second cantilever structure 45 is supported below the first cantilever structure 40. At this time, the controller controls the first cantilever structure 40, the second cantilever structure 45 and the mesh supporting structure 20 to be lifted for a distance at the same time, so that the longitudinal ribs of the mesh can be clamped into the buckle structure 2, and the assembly process of the mesh and the buckle structure is completed.
As shown in fig. 5 and 6, in the first embodiment of the present invention, the lifting drive member of the mesh lifting mechanism 50 includes a first drive motor 51, a first rack 52, and a first gear 53. Wherein, the first rack 52 is arranged on the support frame 10 along the vertical direction; the first gear 53 is connected with the support body 21 of the mesh support structure 20, the first gear 53 is meshed with the first rack 52, and an output shaft of the first driving motor 51 is in driving connection with the first gear 53.
In the above technical solution, the first driving motor 51 drives the first gear 53 to rotate, and the first gear 53 is meshed with the first rack 52, so that the first gear 53 can drive the mesh supporting structure 20 to move in the vertical direction relative to the supporting frame 10, and thus drive the mesh 1 to move in the vertical direction.
Specifically, as shown in fig. 1 and 7, in the first embodiment of the present invention, the number of the first gears 53 is four, and the first gears 53 are distributed at four corner positions of the mesh support structure 20, and correspondingly, the number of the first racks 52 is also four, and the first racks are arranged corresponding to the first gears 53, so that the mesh support structure 20 can be driven to move along the vertical direction more smoothly, and the mesh support structure 20 is prevented from being inclined. Of course, in alternative embodiments not shown in the drawings, the number of the first gear 53 and the first rack 52 may each be provided as three or five, and so on.
Specifically, as shown in fig. 2, 5 and 6, in the first embodiment of the present invention, the mesh sheet lifting mechanism 50 further includes a connecting shaft 57, and two first gears 53 engaged with the first rack 52 are connected by the connecting shaft 57 along the second direction, two ends of the connecting shaft 57 are respectively provided with a coupler, and the connecting shaft 57 is connected with the gear shafts of the two first gears 53 by the couplers, so that the first driving motor 51 can be provided to drive the first gears 53 respectively located at the front end and the rear end of the mesh sheet supporting structure 20 in fig. 1 to synchronously move, so that the two first gears 53 drive the mesh sheet supporting structure 20 to stably move upward. Of course, in an alternative embodiment not shown in the drawings, one first drive motor 51 may be provided for each first gear 53.
Of course, in an alternative embodiment not shown in the drawings, the mesh elevating mechanism 50 may be configured as a screw-nut structure, and by matching the screw and the nut, the rotational motion of the motor is converted into a linear motion of the nut along the axis of the screw, and by disposing the mesh supporting structure 20 on the nut, the mesh supporting structure 20 can be driven to move in the vertical direction.
Alternatively, in the first embodiment of the present invention, the mesh sheet lifting mechanism 50 may be a linear electric cylinder, a linear motor, or the like, as long as the mesh sheet support structure 20 can be moved in the vertical direction.
As shown in fig. 1 and 8, in the first embodiment of the present invention, the first cantilever structure 40 further includes a first driving structure 54 in driving connection with the first cantilever portion 42 and a second driving structure 55 disposed on the first driving structure 54, the first driving structure 54 is used for driving the first cantilever portion 42 to move along the first direction, the second driving structure 55 is used for driving the first cantilever portion 42 to move along the vertical direction, and each of the first driving structure 54 and the second driving structure 55 includes a motor and a rack-and-pinion structure connected to the motor.
In the above arrangement, the first cantilever portion 42 is disposed on the gear of the second driving structure 55, and the gear and the rack are engaged with each other, and the gear is driven by the motor to rotate, so that the first cantilever portion 42 can be driven to move along the vertical direction, the second driving structure 55 provided with the first cantilever portion 42 is connected with the gear of the first driving structure 54, and the gear and the rack are engaged with each other, so that the gear drives the second driving structure 55 and the first cantilever portion 42 to move along the first direction, and further the first cantilever portion 42 can move along the vertical direction and the horizontal direction.
Similarly, as shown in fig. 9, the second cantilever structure 45 further includes a third driving structure 58 in driving connection with the second cantilever portion 46, and the third driving structure 58 is configured to drive the second cantilever portion 46 to move along the vertical direction, where a principle that the second cantilever portion 46 is movably disposed along the vertical direction is the same as a principle that the first cantilever portion 42 is movably disposed along the vertical direction, and details are not repeated here.
It should be noted that, as shown in fig. 4, in the first embodiment of the present invention, the second cantilever structure 45 is located on one side (i.e., the right side in fig. 4) of the mesh sheet supporting structure 20, and since the second cantilever structure 45 mainly supports the end of the first cantilever portion 42 of the first cantilever structure 40, the cantilever structure is prevented from being deformed, so that the longitudinal bars of the mesh sheet can be better supported, and therefore, the second cantilever structure 45 can be lifted and lowered along the vertical direction, and the structure of the entire networking device is compact. Of course, in an alternative embodiment not shown in the drawings, a driving structure capable of driving the second cantilever structure 45 to move in the horizontal direction may also be provided according to actual needs.
Preferably, as shown in fig. 1 and 8, in the first embodiment of the present invention, the first boom structure 40 further includes a bracket 47 connected to the support frame 10, one end of the bracket 47 is connected to the support frame 10, the other end of the bracket 47 is supported on the ground, and the rack of the first driving structure 54 is disposed on the bracket 47, so that the first boom portion 42, the first driving structure 54, and the second driving structure 55 can be stably supported.
Preferably, as shown in fig. 1 and 2, in the first embodiment of the present invention, the second cantilever structure 45 is disposed on the supporting frame 10. Of course, in an alternative embodiment not shown in the drawings, the second cantilever structure 45 may also be arranged in the same way as the first cantilever structure 40.
As shown in fig. 1 and 6, in the first embodiment of the present invention, the networking device further includes a support frame 10, the networking device further includes a slide rail 11 disposed on the support frame 10 and a slider 14 slidably engaged with the slide rail 11, and the slider 14 is connected to the mesh support structure 20.
Through the arrangement, the net supporting structure 20 drives the sliding block 14 to move in the vertical direction along the sliding rail 11, so that the net supporting structure 20 can slide more smoothly in the vertical direction.
Preferably, in the first embodiment of the present invention, the first suspension arm structure 40 and the second suspension arm structure 45 are both provided with a guiding structure similar to a slider and a slide rail, and the principle thereof is consistent with the above-mentioned matching structure of the slider 14 and the slide rail 11 arranged between the support frame 10 and the mesh support structure 20, and will not be described herein again, so that the first suspension arm portion 42 can move more smoothly in the vertical direction or the first direction, and the second suspension arm portion 46 can move more smoothly in the vertical direction.
As shown in fig. 1 and 2, in the first embodiment of the present invention, a plurality of steel rods 31 are provided on the steel rod support 30, the plurality of steel rods 31 are provided at intervals on the support frame 10 along the first direction, and a protrusion engaged with the fastening structure 2 is provided on the outer circumferential wall of the steel rods 31.
Through the setting, the purpose of assembling a plurality of net pieces and a plurality of buckle structures 2 can be realized, the outer wall surface of the steel chisel 31 is provided with the bulge, the interference fit between the steel chisel 31 and the buckle structures 2 can be realized, the steel chisel 31 can overcome the gravity of the partial buckle structures 2 and the net pieces, and the net pieces are fixed on the steel chisel 31.
Preferably, in the first embodiment of the present invention, a plurality of the drill steel brackets 30 are disposed along a second direction perpendicular to the first direction (i.e., an axial direction of the longitudinal bar), so as to connect a plurality of positions of the longitudinal bar with the clip structure 2 in the axial direction of the longitudinal bar, thereby making it possible to further stabilize the reinforcement cage.
As shown in fig. 1 and 5, in the first embodiment of the present invention, the mesh forming device further includes a clamping structure 56 disposed on the mesh sheet lifting mechanism 50, the clamping structure 56 is located at one side of the mesh sheet supporting structure 20, and the clamping structure 56 includes a clamping portion for clamping the longitudinal ribs of the mesh sheet 1.
In the above arrangement, the clamping structure 56 can clamp all of the mesh sheets 1 on the mesh sheet support structure 20, thereby preventing the mesh sheets 1 from shaking.
It should be noted that, in the first embodiment of the present invention, the clamping structure 56 includes the clamping jaw and a driving structure for driving the clamping jaw to clamp the mesh sheet 1, and the clamping structure 56 may adopt an existing structure as long as the function of clamping and loosening the mesh sheet 1 can be realized, which is not described herein again.
Preferably, in the first embodiment of the present invention, the clamping structure 56 should be as close as possible to the position of the steel chisel 31, so that the clamping structure 56 not only can clamp and position the lowermost longitudinal rib of the mesh sheet 1, but also can provide a force for clamping another buckling structure downwards.
In addition, in the first embodiment of the present invention, the networking device further includes a controller, and the first driving motor and the motors of the other driving structures are electrically connected to the controller, so that the lifting of the mesh lifting mechanism 50, the first cantilever structure 40, the second cantilever structure 45, and other components can be controlled, the process of automatically assembling the mesh and the buckle structure is realized, and the work efficiency is improved.
As shown in fig. 14, according to another aspect of the present invention, an embodiment of the present invention provides an assembling method of a reinforcement cage, where the reinforcement cage includes a mesh sheet 1 and a fastening structure 2 connected to the mesh sheet 1, and the assembling method is performed by using the above-mentioned networking apparatus, and the assembling method includes: a placement step of placing a plurality of mesh sheets 1 on the mesh sheet support structure 20; a lifting step of lifting the mesh supporting structure 20 and the mesh 1 positioned on the mesh supporting structure 20 to a preset height by using the mesh lifting mechanism 50; a first supporting step of passing the first cantilever structure 40 through the mesh sheet 1.
Among the above-mentioned technical scheme, through placing net piece 1 on net piece bearing structure 20, net piece bearing structure 20 can support and preposition a plurality of net pieces 1 that arrange in proper order, net piece elevating system 50 drives net piece bearing structure 20 and sets up net piece 1 on net piece bearing structure 20 and moves to preset position along vertical direction, so that the muscle of indulging that is located the top of net piece 1 can be followed vertical direction and moved to the position at buckle structure 2 place, then under first cantilever structure 40's drive, make the aforesaid indulge the muscle and can cooperate with buckle structure joint, through net piece bearing structure 20 to net piece 1 prepositioning and first cantilever structure 40 to net piece 1's accurate support, can improve net piece 1 and buckle structure 2's connection efficiency effectively, thereby network deployment efficiency has been improved. And the networking process does not need manual participation, and the networking efficiency can be effectively improved.
In the first embodiment of the present invention, the predetermined height means that the uppermost longitudinal rib of the mesh sheet 1 is located below the fastening structure 2.
As shown in fig. 14, in the first embodiment of the present invention, after the lifting step, the assembling method further includes: a second supporting step of supporting the second cantilever portion 46 below the first cantilever 44 of the first cantilever structure 40; and a first moving step of synchronously moving the first cantilever 44, the mesh lifting mechanism 50 and the second cantilever part 46 along the vertical direction to drive the longitudinal ribs of the mesh 1 to be in clamping fit with the buckle structure 2.
Among the above-mentioned technical scheme, under the drive of net piece elevating system 50, net piece 1 can be followed vertical direction and removed to first cantilever 44 and second cantilever part 46 can provide the power that upwards blocks into buckle structure 2 for the muscle of indulging of the top of net piece 1, like this, just can cooperate with the muscle of indulging of net piece 1 and buckle structure 2 joint, and above-mentioned process need not artifical the participation, and the consumption of the manpower that has significantly reduced, thereby has increased the network deployment efficiency of steel reinforcement cylinder mould effectively.
As shown in fig. 14, in the first embodiment of the present invention, before the first moving step, after the second supporting step, the assembling method further includes: and a second moving step of holding the mesh-sheet lifting mechanism 50 at the current position, and moving the first cantilever 44 and the second cantilever portion 46 in the vertical direction so that the uppermost longitudinal rib of the mesh sheet 1 is caught in the groove 43 of the first cantilever 44.
Above-mentioned technical scheme, first cantilever 44 is under the supporting role of second cantilever part 46, along vertical direction rebound to make the muscle of indulging of the top of net piece 1 be located recess 43, thereby avoid first cantilever 44 to take place to warp, and then make first cantilever 44 can upwards move more steadily, like this, under the drive of net piece elevating system 50, indulge the muscle and can follow vertical direction rebound, and first cantilever 44 can provide ascending power for indulging muscle card income buckle structure 2.
Example two
Unlike the first embodiment, as shown in fig. 10, in the second embodiment of the present invention, the first cantilever structure 40 includes two first cantilever portions 42 having a predetermined distance. Likewise, the second cantilever structure 45 includes two second cantilever portions 46 with a predetermined distance, and the second cantilever portions 46 are used for supporting the first cantilever portion 42, so as to prevent the first cantilever portion 42 from deforming, and to ensure that the longitudinal ribs of the mesh are better supported.
It should be noted that the predetermined distance is required to ensure that the two first cantilever portions 42 can simultaneously correspond to the outermost longitudinal ribs (i.e., the uppermost longitudinal rib and the lowermost longitudinal rib) of the support mesh. For example, can set up and preset the vertical distance between the muscle that indulges that is located the outside that the distance equals the net piece, like this, through promoting whole first cantilever structure 40, under the drive of two first cantilevers 44, the muscle card that indulges that is located the top of net piece is gone into and is installed in the last buckle of drill rod 31, also can realize the mesh piece lie in the mesh piece indulge the muscle card of the below and go into the purpose in the buckle down to improve the packaging efficiency.
The remaining structure of the second embodiment is the same as that of the first embodiment, and the description thereof is omitted.
EXAMPLE III
Different from the first embodiment, as shown in fig. 11, the mesh forming apparatus includes two first cantilever structures 40 and two second cantilever structures 45 disposed corresponding to the two first cantilever structures 40, and the two first cantilever structures 40 can be away from each other to support the uppermost longitudinal rib and the lowermost longitudinal rib of the mesh sheet, respectively.
Like this, also need set up two second drive structures 55, like this, can drive two first cantilever structure 40 respectively and keep away from each other to in the buckle structure that is located the top and the buckle structure that is located the below is blocked respectively to the net piece simultaneously, accomplish automatic network deployment process.
The other structures in the third embodiment are the same as those in the first embodiment, and are not described herein again.
It should be noted that, the technical features of the embodiments may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects: through setting up the net piece bearing structure that can hold a plurality of nets of arranging in proper order, can carry out prepositioning to the net piece like this to support with the vertical muscle of invariable interval net piece through setting up first cantilever structure, can carry out the accurate positioning to the net piece like this, thereby can improve net piece and buckle structure's connection efficiency effectively. Further, set up net piece bearing structure on net piece elevating system, first cantilever structure can move along vertical direction and first direction, thus, net piece elevating system can drive net piece bearing structure and set up the net piece on net piece bearing structure and move along vertical direction, so that the muscle of indulging that is located the outside of net piece can move to the position at buckle structure place along vertical direction, then under first cantilever structure's drive, the muscle can cooperate with buckle structure joint to the aforesaid indulging, through net piece bearing structure to the prepositioning of net piece and the accurate positioning of first cantilever structure to the net piece, can improve net piece and buckle structure's connection efficiency effectively, thereby networking efficiency has been improved.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (15)

1. The utility model provides a network deployment device, its characterized in that, network deployment device is used for assembling net piece and buckle structure, network deployment device includes:
a mesh sheet lifting mechanism;
the mesh supporting structure is arranged on the mesh lifting mechanism and used for accommodating a plurality of meshes which are sequentially arranged;
at least part of the mesh lifting mechanism is movably arranged along the vertical direction so as to drive the mesh supporting structure and the mesh positioned on the mesh supporting structure to synchronously move;
the first cantilever structure is located on one side of the mesh lifting mechanism and comprises a first cantilever portion, the first cantilever portion is movably arranged in the vertical direction and the first direction, so that at least part of the first cantilever portion can penetrate through the mesh and support at least one pair of longitudinal ribs of the mesh at constant intervals, and under the driving of the first cantilever portion, at least one pair of longitudinal ribs of the mesh can move in the vertical direction to the preset position of the buckle structure, and at least one pair of mesh is clamped with the buckle structure.
2. The networking device according to claim 1, wherein a plurality of spaced grooves are formed in one side of the first cantilever portion, and the grooves are matched with the longitudinal ribs of the mesh.
3. The networking device according to claim 1, wherein the first cantilever structure includes a plurality of the first cantilever portions arranged at intervals in a second direction, the second direction being perpendicular to the first direction; alternatively, the first cantilever portion comprises one or more first cantilevers.
4. The networking device according to claim 1, further comprising a second cantilever structure, wherein the second cantilever structure includes a second cantilever portion corresponding to the first cantilever portion, the second cantilever portion and the first cantilever portion are located on opposite sides of the mesh lifting mechanism, and the second cantilever portion is movably disposed in a vertical direction so as to be supported below the first cantilever portion.
5. The networking device according to claim 4, wherein the networking device comprises two first cantilever structures and two second cantilever structures arranged corresponding to the two first cantilever structures, and the two first cantilever structures can be away from each other so as to support the uppermost longitudinal rib and the lowermost longitudinal rib of the mesh sheet respectively.
6. The networking device of claim 1, wherein the mesh support structure comprises:
a support body;
the supporting body is provided with a plurality of supporting molds, the supporting molds are arranged at intervals along a first direction, and any two adjacent supporting molds and part of the supporting body are enclosed to form a containing groove for containing the mesh.
7. A networking device according to claim 6, wherein the support body comprises a support frame and a support beam connected with the support frame, a plurality of support molds are arranged at intervals along the length extension direction of the support beam, and the accommodating groove is defined by two adjacent support molds and a part of the support beam.
8. The networking device of any one of claims 1 to 7, further comprising a support frame, the mesh lifting mechanism comprising:
a first drive motor;
the first rack is arranged on the supporting frame along the vertical direction;
the first gear is connected with the support body of the mesh support structure, the first gear is meshed with the first rack, and an output shaft of the first driving motor is in driving connection with the first gear.
9. The networking device according to any one of claims 1 to 5, wherein the first boom structure further includes a first driving structure in driving connection with the first boom portion and a second driving structure provided to the first driving structure, the first driving structure is configured to drive the first boom portion to move along the first direction, the second driving structure is configured to drive the first boom portion to move along the vertical direction, and each of the first driving structure and the second driving structure includes a motor and a rack and pinion structure connected to the motor.
10. The networking device according to any one of claims 1 to 7, further comprising a support frame, wherein the networking device further comprises a slide rail disposed on the support frame and a slider slidably engaged with the slide rail, and the slider is connected with the mesh support structure.
11. The networking device according to any one of claims 1 to 7, further comprising a drill steel bracket connected to the support frame, wherein the drill steel bracket is provided with a mounting through hole for a drill steel to pass through, and a protrusion for engaging with the snap structure is provided on the outer circumferential wall of the drill steel.
12. The networking device of any one of claims 1 to 7, further comprising a clamping structure provided to the mesh lifting mechanism, the clamping structure being located on one side of a support mold of the mesh support structure, the clamping structure comprising a clamping portion for clamping longitudinal bars of a mesh.
13. A method of assembling a reinforcement cage comprising a mesh and a snap-fit arrangement connected to the mesh, the method being assembled using the apparatus of any one of claims 1 to 12, the method comprising:
a placement step of placing a plurality of meshes on the mesh support structure;
lifting the mesh supporting structure and the mesh positioned on the mesh supporting structure to a preset height through the mesh lifting mechanism;
and a first supporting step of arranging the first cantilever structure in the mesh in a penetrating manner.
14. The method of assembling a rebar cage of claim 13, further comprising, after the lifting step:
a second supporting step of supporting a second cantilever portion below a first cantilever of the first cantilever structure;
and enabling the first cantilever, the mesh lifting mechanism and the second cantilever part to synchronously move along the vertical direction so as to drive the longitudinal rib of the mesh to be in clamping fit with the buckle structure.
15. The method of assembling a rebar cage of claim 14, wherein prior to the first moving step, after the second supporting step, the method further comprises:
and a second moving step of keeping the mesh lifting mechanism at the current position, and moving the first cantilever and the second cantilever part in the vertical direction to enable the longitudinal rib positioned at the top of the mesh and/or the longitudinal rib positioned at the bottom of the mesh to be clamped into the groove of the first cantilever.
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