CN115354871A

CN115354871A - Adjustable buries a location frock

Info

Publication number: CN115354871A
Application number: CN202211036117.6A
Authority: CN
Inventors: 戴伟; 金其涛; 刘双飞; 吴先锋; 巩军; 许家宝; 薛猛; 韩东; 甄真; 贾书伟; 余成云; 陶超; 陈江
Original assignee: Anhui Construction Jiahe Construction Industry Co ltd
Current assignee: Anhui Construction Jiahe Construction Industry Co ltd
Priority date: 2022-08-27
Filing date: 2022-08-27
Publication date: 2022-11-18

Abstract

An adjustable embedded part positioning tool comprises a left wallboard die and a right wallboard die, wherein the wallboard dies are made of channel steel, a transverse sliding rail assembly is arranged above the two wallboard dies, a connecting piece is arranged below one side of the wallboard die, and the connecting piece is connected with the wallboard dies; a first connecting rod is movably connected to the transverse sliding rail assembly through a bolt, and the first connecting rod is in sliding fit with the transverse sliding rail assembly; the vertical sliding rail assemblies are arranged above the transverse sliding rail assemblies, the second connecting rods are movably connected to the vertical sliding rail assemblies through bolts, the lower portions of the first connecting rods and the second connecting rods are connected with the embedded parts through binding, after cement is poured and the strength of the prefabricated wall board reaches a stripping condition, the embedded parts and the corresponding binding between the first connecting rods and the second connecting rods of the tool and the wall board molds on two sides are removed, and finally the tool is transferred to another place for turnover through a travelling crane. The embedded part can be flexibly and accurately positioned according to needs, can be repeatedly recycled and used, and improves the construction efficiency.

Description

Adjustable buries a location frock

Technical Field

The invention relates to an adjustable embedded part positioning tool.

Background

During construction of a building site, after a prefabricated wallboard reinforcement cage is installed, embedded parts are installed, a traditional embedded part positioning and installing tool is directly arranged according to the position of the embedded parts on a drawing during field production, upper supporting rods are arranged in the horizontal direction or the vertical direction of the embedded parts during installation, when more embedded parts are arranged, a plurality of supporting rods are required to be arranged, the workload is large, and the efficiency is low; and traditional buried piece location installation frock adopts welding mode location buried piece position, when producing different components or buried piece position change, needs reequip operations such as cutting, welding, wastes manual work and material, and frock turnover rate and suitability are not high.

Disclosure of Invention

The invention aims to solve the technical problem of providing an adjustable embedded part positioning tool which can flexibly and accurately position an embedded part according to needs, can be repeatedly recycled and used and improves the construction efficiency.

In order to solve the technical problem, the invention provides an adjustable embedded part positioning tool which comprises:

the wallboard mould is made of strip-shaped channel steel with the length direction of the front and back trend, one side, close to each other, of the two wallboard moulds in the left and right directions is arranged as an inner side, and the other side, far away from each other, of the two wallboard moulds is arranged as an outer side;

at least two transverse sliding rail assemblies which are arranged at intervals from front to back and have left and right directions of length direction are arranged above the two wallboard molds, each transverse sliding rail assembly comprises first strip-shaped square steel which is arranged horizontally and has left and right directions of length direction, a first strip-shaped sliding groove which penetrates through the first square steel along the vertical direction is arranged on the first square steel, and the direction of the length direction of the first sliding groove is consistent with the direction of the length direction of the first square steel;

the connecting piece is arranged at the position below the first square steel and corresponding to each wallboard mould, and comprises vertical plates which are vertically arranged and move forwards and backwards, the upper side and the lower side of each vertical plate are respectively provided with an upper flat plate and a lower flat plate which horizontally extend inwards along the left side and the right side, the upper side of each upper flat plate abuts against the lower side of the first square steel, the upper side of each lower flat plate abuts against the lower side of the corresponding upper leg plate of the wallboard mould, the middle area of each upper flat plate is provided with a through hole which vertically penetrates through the upper flat plate and corresponds to the first sliding groove, the diameter of each through hole is matched with the width of the first sliding groove, the threaded end of a first bolt matched with the first sliding groove sequentially penetrates through the first sliding groove and the through hole from top to bottom and abuts against the upper side of the corresponding upper leg plate of the wallboard mould, the twisting end of the first bolt is positioned above the first square steel, the first nut and a second nut which are arranged at an upper interval from top to bottom are screwed on the first bolt, the lower side of the first nut is in tight contact with the upper side of the upper flat plate;

each first square steel is provided with a plurality of second bolts, the twisting ends of the second bolts are positioned above the first square steel, the threaded ends of the second bolts vertically and downwards penetrate through the first sliding grooves and are positioned below the first square steel, third nuts are screwed on the second bolts, the lower sides of the third nuts are attached to the upper side face of the first square steel, a first connecting rod which is vertically arranged is arranged at the position below the first square steel and corresponds to each second bolt, the upper end of each first connecting rod is fixedly provided with a fourth nut, the fourth nuts are screwed with the lower sides of the second bolts at corresponding positions, and the upper sides of the fourth nuts abut against the lower side face of the first square steel;

at least one vertical slide rail assembly which is horizontally arranged and has a front-back trend in the length direction is arranged above the transverse slide rail assembly, the vertical slide rail assembly comprises second strip-shaped square steel which is horizontally arranged and has a front-back trend in the length direction, the second square steel is arranged on the upper side of the first square steel, a second strip-shaped chute which penetrates through the second square steel in the vertical direction is arranged on the second square steel, and the direction of the length direction of the second chute is consistent with the direction of the length direction of the second square steel;

the third bolts which are vertically arranged are arranged on the positions, corresponding to at least two joints with the first square steel, of the second square steel, the screwing ends of the third bolts are positioned above the second square steel, the threaded ends of the third bolts sequentially penetrate through the second sliding groove and the first sliding groove from top to bottom and are positioned below the first square steel, the third bolts are screwed with fifth nuts and sixth nuts which are arranged at intervals up and down, the lower sides of the fifth nuts abut against the upper side surface of the second square steel, and the upper side surfaces of the sixth nuts abut against the lower side surface of the first square steel;

all be equipped with a plurality of fourth bolts on every second square steel, the fourth bolt is twisted the end and is located second square steel top, the vertical second spout that passes downwards of screw thread end of fourth bolt and is located the below of second square steel, the fourth bolt is upwards screwed and is connect the seventh nut, the seventh nut downside pastes with second square steel top surface and pastes mutually and lean on, correspond every fourth bolt department on the second square steel below position and all be equipped with the second connecting rod of a vertical arrangement, every second connecting rod upper end all has set firmly the eighth nut, the eighth nut all connects with the downside of the fourth bolt that corresponds the position soon, and the eighth nut upside all leans on with the counterbalance of the downside of second square steel.

For the sake of simplicity, the adjustable tool for positioning embedded parts is simply referred to as the present tool below.

The use method of the tool comprises the following steps: when the prefabricated wallboard is manufactured, firstly, a wallboard mould is laid and a reinforcement cage is erected in the wallboard mould, after the reinforcement cage is installed, the horizontal position of an embedded part is determined in the horizontal direction, then a transverse sliding rail assembly and a longitudinal sliding rail assembly are installed at specific positions as required, corresponding first connecting rods and corresponding second connecting rods are arranged at the positions, corresponding to the embedded part, of the transverse sliding rail assembly and the longitudinal sliding rail assembly, the lower parts of the first connecting rods and the second connecting rods are connected with the embedded part in a binding mode, all installation steps are completed so far, after the installation is finished, connection and fastening among all parts are confirmed to be reliable, the position of the embedded part is correct, the conditions of looseness and the like cannot occur in the pouring process, and after the defect is detected, pouring concrete enters the production stage of the prefabricated wallboard. Concrete vibration is accomplished, carries out the concrete maintenance, and prefabricated wallboard intensity reaches the condition of form removal after, demolishs the ligature between the corresponding head rod of buried part and this frock, second connecting rod and the wallboard mould of both sides, shifts this frock handling to another department with the driving at last and has enough to meet the need the use.

The tool has the advantages that: this frock adopts the two-way arrangement structure that horizontal sliding rail set spare and vertical sliding rail set spare cooperation formed, and the quantity of head rod and second connecting rod can be adjusted as required to this frock, and head rod, second connecting rod can realize horizontal, fore-and-aft position control respectively through corresponding second bolt, fourth bolt to can be nimble as required pinpoint the piece that buries, and can repeated turnover use, improve the efficiency of construction.

In order to achieve the better using effect of the tool, the preferable scheme is as follows:

preferably, a gasket is arranged between the lower side of the first nut and the upper side of the first square steel, between the lower side of the third nut and the upper side of the first square steel, between the lower side of the fifth nut and the upper side of the second square steel, and between the lower side of the seventh nut and the upper side of the second square steel.

The stress area between the nuts on the upper side of the square steel and the square steel is increased through the gaskets, so that the pressure of the corresponding nuts on the square steel is reduced.

Drawings

Fig. 1 is a schematic structural diagram of the tool.

Fig. 2 is a top view of the present tool.

Fig. 3 isbase:Sub>A sectional viewbase:Sub>A-base:Sub>A of fig. 2.

Fig. 4 is a sectional view B-B of fig. 2.

Detailed Description

Referring to fig. 1-4, an adjustable embedded part 6 positioning tool:

the wallboard mould 1 is made of strip-shaped channel steel with the length direction of the front and back trend, one side, close to each other, of the two wallboard moulds 1 in the left and right directions is arranged as an inner side, and the other side, far away from each other, of the two wallboard moulds 1 is arranged as an outer side, waist plates of the channel steel of the two wallboard moulds 1 are vertically arranged, and leg plates connected to the upper side and the lower side of each waist plate extend outwards in the left and right directions;

two transverse sliding rail assemblies which are arranged at intervals in the front-back direction and have the left-right moving direction in the length direction are arranged above the two wallboard dies 1, each transverse sliding rail assembly comprises first strip-shaped square steel 2 which is arranged horizontally and has the left-right moving direction in the length direction, a first strip-shaped sliding groove 21 which penetrates through the first square steel 2 in the vertical direction is arranged on the first square steel 2, and the moving direction of the first sliding groove 21 in the length direction is consistent with the moving direction of the first square steel 2 in the length direction;

a connecting piece is arranged at the position below the first square steel 2 and corresponding to each wallboard mould 1, the connecting piece comprises a vertical plate 3 which is vertically arranged and moves forward and backward, an upper flat plate 31 and a lower flat plate 32 which horizontally extend inwards along the left and right directions are respectively arranged at the upper side and the lower side of the vertical plate 3, the upper side of the upper flat plate 31 abuts against the lower side of the first square steel 2, the upper side of the lower flat plate 32 abuts against the lower side of the leg plate on the corresponding wallboard mould 1, a through hole which vertically penetrates through the upper flat plate 31 is arranged at the position corresponding to the first sliding chute 21 in the middle area of the upper flat plate 31, the diameter of the through hole is matched with the width of the first sliding chute 21, the threaded end of a first bolt 41 matched with the first sliding chute 21 sequentially penetrates through the first sliding chute 21 and the through hole from top to bottom and abuts against the upper side of the leg plate on the corresponding wallboard mould 1, the screwing end of the first bolt 41 is arranged above the first square steel 2, a first nut 51 and a second nut 52 which are arranged at intervals up and down are screwed on the first bolt 41, wherein the lower side of the first nut 51 is in close contact with the upper side of the first square steel 2, and the upper side of the second nut 52 is in close contact with the lower side of the flat plate 31;

each first square steel 2 is provided with a second bolt 42, the twisting end of each second bolt 42 is positioned above the first square steel 2, the threaded end of each second bolt 42 vertically and downwards penetrates through the first sliding groove 21 and is positioned below the first square steel 2, each second bolt 42 is connected with a third nut 53 in a screwed mode, the lower side of each third nut 53 is attached to the upper side face of the first square steel 2, a first connecting rod 61 which is vertically arranged is arranged at the position, corresponding to each second bolt 42, below the first square steel 2, the upper end of each first connecting rod 61 is fixedly provided with a fourth nut 54, each fourth nut 54 is connected with the lower side of the corresponding second bolt 42 in a screwed mode, and the upper side of each fourth nut 54 abuts against the lower side face of the first square steel 2;

two vertical slide rail assemblies which are horizontally arranged and have front and back trends in the length direction are arranged above the transverse slide rail assembly, each vertical slide rail assembly comprises a second elongated square steel 7 which is horizontally arranged and has a front and back trend in the length direction, each second square steel 7 is arranged on the upper side of the corresponding first square steel 2, a second elongated sliding groove 71 which penetrates through each second square steel 7 in the vertical direction is arranged on each second square steel 7, and the direction of the length of each second sliding groove 71 is consistent with the direction of the length of each second square steel 7;

a third bolt 43 which is vertically arranged is arranged at the position of the second square steel 7 corresponding to the joint of the two first square steels 2, the screwing end of the third bolt 43 is positioned above the second square steel 7, the thread end of the third bolt 43 sequentially passes through the second sliding chute 71 and the first sliding chute 21 from top to bottom and is positioned below the first square steel 2, a fifth nut 55 and a sixth nut 56 which are arranged at intervals up and down are screwed on the third bolt 43, the lower side of the fifth nut 55 abuts against the upper side surface of the second square steel 7, and the upper side surface of the sixth nut 56 abuts against the lower side surface of the first square steel 2;

each second square steel 7 is provided with a fourth bolt 44, the twisting end of each fourth bolt 44 is located above the second square steel 7, the threaded end of each fourth bolt 44 vertically and downwards penetrates through the corresponding second sliding groove 71 and is located below the second square steel 7, a seventh nut 57 is screwed on the fourth bolt 44, the lower side of the seventh nut 57 is attached to the upper side of the second square steel 7, a second connecting rod 62 which is vertically arranged is arranged at the position, corresponding to each fourth bolt 44, of the lower side of the second square steel 7, an eighth nut 58 is fixedly arranged at the upper end of each second connecting rod 62, the eighth nuts 58 are screwed with the lower sides of the fourth bolts 44 at corresponding positions, and the upper sides of the eighth nuts 58 are abutted against the lower sides of the second square steel 7.

And gaskets 59 are arranged between the lower side of the first nut 51 and the upper side of the first square steel 2, between the lower side of the third nut 53 and the upper side of the first square steel 2, between the lower side of the fifth nut 55 and the upper side of the second square steel 7 and between the lower side of the seventh nut 57 and the upper side of the second square steel 7.

The use method of the tool comprises the following steps: when the prefabricated wallboard is manufactured, firstly, the wallboard mould 1 is laid and a reinforcement cage is erected in the wallboard mould, after the reinforcement cage is installed, the horizontal position of the embedded part 6 is determined in the horizontal direction, then a transverse sliding rail assembly and a longitudinal sliding rail assembly are installed at specific positions as required, corresponding first connecting rods 61 and second connecting rods 62 are arranged at the positions, corresponding to the embedded part 6, of the transverse sliding rail assembly and the longitudinal sliding rail assembly, the lower parts of the first connecting rods 61 and the second connecting rods 62 are connected with the embedded part 6 in a binding mode, all installation steps are completed, after the installation is finished, the connection and fastening among all parts are confirmed to be reliable, the position of the embedded part 6 is correct, the conditions that looseness cannot occur in the pouring process are ensured, and after the error is detected, the poured concrete enters the production stage of the prefabricated wallboard. Concrete vibration is accomplished, carries out the concrete maintenance, and after prefabricated wallboard intensity reached the form removal condition, demolish the ligature between the corresponding head rod 61 of buried piece 6 and this frock, second connecting rod 62 and the wallboard mould 1 of both sides, shift this frock handling to another turnover use with the driving at last.

The tool has the advantages that: this frock adopts the two-way arrangement structure that horizontal sliding rail set spare and vertical sliding rail set spare cooperation formed, and this frock can adjust the quantity of head rod 61 and second connecting rod 62 as required, and head rod 61, second connecting rod 62 can be through corresponding second bolt 42, fourth bolt 44 realize respectively horizontal, fore-and-aft position control to can be nimble as required carry out accurate positioning to burying piece 6, and can repeated turnover use, improve the efficiency of construction.

The stress area between the nuts on the upper side of all the square steels and the square steels is increased through the gaskets 59, and therefore the pressure of the corresponding nuts on the square steels is reduced.

Claims

1. The utility model provides an adjustable buries a location frock which characterized in that:

at least two transverse sliding rail assemblies which are arranged at intervals in the front-back direction and have the left-right moving direction in the length direction are arranged above the two wallboard dies, each transverse sliding rail assembly comprises first strip-shaped square steel which is arranged horizontally and has the left-right moving direction in the length direction, a first strip-shaped sliding groove which penetrates through the first square steel in the vertical direction is arranged on the first square steel, and the moving direction of the first sliding groove in the length direction is consistent with the moving direction of the first square steel in the length direction;

the upper side and the lower side of the vertical plate are respectively provided with an upper flat plate and a lower flat plate which horizontally extend inwards along the left and right directions, the upper side of the upper flat plate abuts against the lower side surface of the first square steel, the upper side of the lower flat plate abuts against the lower side surface of the leg plate on the upper side of the corresponding wallboard mould, the middle area of the upper flat plate is provided with a through hole which vertically penetrates through the upper flat plate corresponding to the first sliding chute, the diameter of the through hole is matched with the width of the first sliding chute, the threaded end of a first bolt matched with the first sliding chute sequentially penetrates through the first sliding chute and the through hole from top to bottom and abuts against the upper side surface of the leg plate on the upper side of the corresponding wallboard mould, the screwing end of the first bolt is positioned above the first square steel, a first nut and a second nut which are arranged at an upper interval from top to bottom are screwed on the first bolt, the lower side of the first nut is in close contact with the upper side surface of the first square steel, and the upper side surface of the second nut is in close contact with the lower side surface of the upper flat plate;

each first square steel is provided with a plurality of second bolts, the twisting ends of the second bolts are positioned above the first square steel, the thread ends of the second bolts vertically penetrate through the first sliding grooves downwards and are positioned below the first square steel, the second bolts are connected with third nuts in a screwing mode, the lower sides of the third nuts are attached to the upper side faces of the first square steel in a leaning mode, a first connecting rod which is vertically arranged is arranged at the position, corresponding to each second bolt, below the first square steel, the upper end of each first connecting rod is fixedly provided with a fourth nut, the fourth nuts are connected with the lower sides of the second bolts at corresponding positions in a screwing mode, and the upper sides of the fourth nuts are abutted against the lower side faces of the first square steel;

at least one vertical slide rail assembly which is horizontally arranged and has a front-back direction in the length direction is arranged above the transverse slide rail assembly, the vertical slide rail assembly comprises second elongated square steel which is horizontally arranged and has a front-back direction in the length direction, the second square steel is arranged on the upper side of the first square steel, a second elongated sliding groove which penetrates through the second square steel in the vertical direction is arranged on the second square steel, and the direction of the length direction of the second sliding groove is consistent with the direction of the length direction of the second square steel;

2. The adjustable embedded part positioning tool according to claim 1, characterized in that: gaskets are arranged between the lower side of the first nut and the upper side of the first square steel, between the lower side of the third nut and the upper side of the first square steel, between the lower side of the fifth nut and the upper side of the second square steel and between the lower side of the seventh nut and the upper side of the second square steel.