CN218893059U

CN218893059U - Electric pole mold transferring mechanism

Info

Publication number: CN218893059U
Application number: CN202223367578.XU
Authority: CN
Inventors: 王力
Original assignee: Fuyuan Futan Electric Pole Manufacturing Co ltd
Current assignee: Fuyuan Futan Electric Pole Manufacturing Co ltd
Priority date: 2022-12-15
Filing date: 2022-12-15
Publication date: 2023-04-21
Anticipated expiration: 2032-12-15

Abstract

The utility model discloses an electric pole mould transferring mechanism, which comprises two transverse conveying mechanisms which transversely extend at the front part and the rear part, wherein a plurality of supporting seats which are arranged front and back are arranged at the left part between the two transverse conveying mechanisms, a plurality of supporting seats for cloth which are arranged front and back are arranged at the right part between the two transverse conveying mechanisms, horizontal plates are fixed on the top surfaces of moving blocks of the two transverse conveying mechanisms, lifting cylinders are fixed on the bottom surfaces of the horizontal plates, the top ends of push rods of the lifting cylinders extend out of the top surfaces of the horizontal plates and are fixed with lifting plates, supporting blocks are fixed in the middle parts of the top surfaces of the lifting plates, and arc-shaped placing grooves are formed on the top surfaces of the supporting blocks; the concrete distribution position that it can install the skeleton installation position that constitutes at all supporting seats and all cloth are with supporting seats constitution, and it can be automatic with the lower mould of skeleton installation position remove place concrete distribution position department, need not to use the crane to play the transport, improves removal effect and machining efficiency greatly, and the operation degree of difficulty greatly reduced.

Description

Electric pole mold transferring mechanism

Technical field:

the utility model relates to the technical field of electric pole manufacturing equipment, in particular to an electric pole mold transfer mechanism.

The background technology is as follows:

in the existing pole manufacturing process, firstly, installing a framework in a lower die, wherein the lower die is required to be placed on a plurality of supporting seats, then installing the framework required to be installed, such as supporting steel bars, ring-shaped pieces and the like in the middle, in the lower die, and then binding and fixing the framework by using a steel wire rope;

then, the lower die with the framework is lifted by a crane and then conveyed to the position above the supporting seat for distributing, then the lower die descends, the lower die is placed on the supporting seat for distributing, and then concrete distributing and installing are carried out.

The device moves from a station for installing the framework to a station for distributing concrete, and is hoisted by a crane, so that the hoisting is troublesome, the effect is poor, and the hoisting of the crane is troublesome.

The utility model comprises the following steps:

the utility model aims to overcome the defects of the prior art, and provides an electric pole mold transfer mechanism which can be arranged at a framework installation position formed by all supporting seats and a concrete cloth position formed by all cloth supporting seats, can automatically move and place a lower mold of the framework installation position at the concrete cloth position, does not need to use a crane to carry, greatly improves the moving effect and the processing efficiency, and greatly reduces the operation difficulty.

The scheme for solving the technical problems is as follows:

the utility model provides an electric pole mould transfer mechanism, including the front portion and two transversely extending transverse conveying mechanism at rear portion, the left part between two transverse conveying mechanisms is equipped with a plurality of supporting seats of arranging back and forth, the right part between two transverse conveying mechanisms is equipped with a plurality of supporting seats of arranging back and forth for cloth, all be fixed with the horizontal plate on the top surface of the movable block of two transverse conveying mechanisms, the bottom surface of horizontal plate is fixed with the lift cylinder, the top of the push rod of lift cylinder stretches out the top surface of horizontal plate and is fixed with the lifter plate, the top surface middle part of lifter plate is fixed with the supporting shoe, the top surface shaping of supporting shoe has the arc standing groove;

the left top surfaces of the two horizontal plates are respectively fixed with a vertical column, and the upper beam is fixed on the top surfaces of the two vertical columns.

The bottom surface of lifter plate is fixed with a plurality of vertical guide bars down, and vertical guide bar plug bush down is in the vertical guide through-hole on the horizontal plate.

The front part and the rear part of the bottom surface of the horizontal plate are both fixed with vertical supporting legs, the bottoms of the vertical supporting legs are fixed with pulleys, the pulleys are inserted into guide grooves of transverse guide rails fixed on the ground, and the transverse guide rails are positioned at one side of the corresponding transverse conveying mechanism.

The transverse conveying mechanism comprises a left fixing seat and a right fixing seat, the left fixing seat and the right fixing seat are fixed on the ground, a driving shaft is movably connected to a vertical plate of the left fixing seat through a bearing, a driving sprocket is fixed on the driving shaft, a driving sprocket is movably connected to a vertical plate of the right fixing seat through a hinge shaft, a chain is tensioned on the driving sprocket and the driving sprocket, and a moving block is fixed on a transverse chain body at the upper part of the chain;

and a driving motor is fixed on the outer wall surface of the vertical plate of the left fixing seat and drives the corresponding driving shaft to rotate.

A plurality of bearing seats are fixed on the ground between the two left fixing seats, one end of the transmission shaft is connected with the end part of the corresponding driving shaft through a coupler, and the transmission shaft is fixed on the bearing inner ring of the corresponding bearing seat;

the adjacent ends of the two transmission shafts are connected.

The utility model has the outstanding effects that:

the concrete distribution position that it can install the skeleton installation position that constitutes at all supporting seats and all cloth are with supporting seats constitution, and it can be automatic with the lower mould of skeleton installation position remove place concrete distribution position department, need not to use the crane to play the transport, improves removal effect and machining efficiency greatly, and the operation degree of difficulty greatly reduced.

Description of the drawings:

FIG. 1 is a partial top view of the present utility model;

FIG. 2 is a partial cross-sectional view of the present utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2

The specific embodiment is as follows:

1-3, an electric pole mold transfer mechanism comprises two transverse conveying mechanisms 10 extending transversely at the front part and the rear part, wherein a plurality of supporting seats 100 arranged front and back are arranged at the left part between the two transverse conveying mechanisms 10, a plurality of supporting seats 200 for cloth arranged front and back are arranged at the right part between the two transverse conveying mechanisms 10, horizontal plates 20 are fixed on the top surfaces of moving blocks 11 of the two transverse conveying mechanisms 10, lifting oil cylinders 21 are fixed on the bottom surfaces of the horizontal plates 20, the top ends of push rods of the lifting oil cylinders 21 extend out of the top surfaces of the horizontal plates 20 and are fixed with lifting plates 22, supporting blocks 23 are fixed in the middle of the top surfaces of the lifting plates 22, and arc-shaped placing grooves 231 are formed on the top surfaces of the supporting blocks 23;

the vertical columns 24 are fixed to the left top surfaces of the two horizontal plates 20, and the upper beams 25 are fixed to the top surfaces of the two vertical columns 24.

Further, a plurality of lower vertical guide rods 1 are fixed on the bottom surface of the lifting plate 22, and the lower vertical guide rods 1 are inserted into the vertical guide through holes on the horizontal plate 20.

Further, the front and rear parts of the bottom surface of the horizontal plate 20 are respectively fixed with a vertical supporting leg 26, the bottom of the vertical supporting leg 26 is fixed with a pulley 27, the pulley 27 is inserted into a guiding groove of a transverse guiding rail 30 fixed on the ground, and the transverse guiding rail 30 is positioned at one side of the corresponding transverse conveying mechanism 10.

Further, the transverse conveying mechanism 10 includes a left fixing seat 12 and a right fixing seat 13, the left fixing seat 12 and the right fixing seat 13 are fixed on the ground, a driving shaft 14 is movably connected to a vertical plate of the left fixing seat 12 through a bearing, a guiding bearing seat is fixed on the ground at one side of the left fixing seat 12, the driving shaft 14 is fixed on a bearing inner ring of the guiding bearing seat, a driving sprocket 15 is fixed on the driving shaft 14, a driving sprocket 16 is movably connected to a vertical plate of the right fixing seat 13 through a hinge shaft, a chain 17 is tensioned on the driving sprocket 15 and the driving sprocket 16, and a moving block 11 is fixed on an upper transverse chain body of the chain 17;

the outer wall surface of the vertical plate of the left fixing seat 12 is fixed with a driving motor 18, the output shaft of the driving motor 18 is a spline shaft, the spline shaft is inserted into a spline hole at the outer end of the corresponding driving shaft 14, and the spline shaft drives the corresponding driving shaft 14 to rotate. The driving motor 18 is a gear motor, and similarly, a reduction gearbox and a motor may be installed on the ground at the outer side of the left fixing seat 12, and an output shaft of the motor stretches into an input end of the reduction gearbox to perform power input, and an output shaft of the reduction gearbox is connected with the driving shaft 14 to achieve power transmission. Which is a common structure and will not be described in detail here.

Further, a plurality of bearing seats 40 are fixed on the ground between the two left fixing seats 12, one end of a transmission shaft 50 is connected with the end part of the corresponding driving shaft 14 through a coupler, and the transmission shaft 50 is fixed on the bearing inner ring of the corresponding bearing seat 40;

the two transmission shafts 50 are formed with connecting end plates 51 at the adjacent ends, the two connecting end plates 51 are mutually clung, a plurality of through holes corresponding to the front and back are formed at the edge parts of the two connecting end plates 51, and nylon rods 60 are clamped in the corresponding two through holes.

When the framework installing device is used, the lower die for installing the framework is firstly placed at the place where all corresponding supporting seats 100 are placed, namely framework installing positions, through devices such as a crane, the front end and the rear end of the lower die extend out of the foremost end and the rearmost end of the supporting seats 100, then the framework is installed in a cavity on the lower die, and the framework is composed of a plurality of transversely arranged steel bars and ring bodies, and the ring bodies and the steel bars are bound.

After the installation is completed, the two driving motors 18 are operated simultaneously, so that the two chains 17 are operated, and the two horizontal plates 20 are moved, wherein the two driving motors 18 cannot guarantee hundred percent synchronous operation, so that a plurality of nylon rods 60 are arranged between the connecting end plates 51 of the two driving shafts 50 for flexible connection, and when the two driving motors 18 are operated at the beginning, the two driving shafts 50 cannot rotate simultaneously, the rotation deviation of the two driving shafts 50 is counteracted by the deformation of the nylon rods 60, and the normal operation of the two driving shafts 50 is guaranteed.

After a certain period of use, the nylon rod 60 is damaged, and the nylon rod is a wearing part and can be replaced.

At the two horizontal plates 20, which move to the right, to the skeleton installation place and under the front and rear ends of the lower mold, then, the two driving motors 18 stop running, push rods of the two lifting cylinders 21 push the lifting plates 22 to lift the supporting blocks 23, so that the front and rear ends of the lower mold are in the corresponding arc-shaped placing grooves 231, the bottom surfaces of the front and rear ends of the lower mold are pressed against the bottom surfaces of the corresponding arc-shaped placing grooves 231, and along with the lifting of the supporting blocks 23, the lower mold is lifted and removed from all the supporting seats 100, then, the driving motors 18 run, the lower mold is moved right to the right above all the supporting seats 200 for cloth, then, push rods of the two lifting cylinders 21 retract, the lower mold is lowered, the bottom surfaces of the lower mold are pressed against the top placing grooves of all the supporting seats 200 for cloth, namely, the concrete cloth positions, and simultaneously, along with the continuous lowering of the lifting plates 22, the lower mold is separated from all the supporting blocks 23, so that the lower mold is transferred, the lower mold is good in carrying effect, and the crane is not required to be convenient to operate.

The above embodiments are only for illustrating the present utility model, not for limiting the present utility model, and various changes and modifications may be made by one of ordinary skill in the relevant art without departing from the spirit and scope of the present utility model, and therefore, all equivalent technical solutions are also within the scope of the present utility model, and the scope of the present utility model is defined by the claims.

Claims

1. The utility model provides an electric pole mould transfer mechanism, includes anterior and two lateral extension's of rear portion lateral conveying mechanism (10), and the left part between two lateral conveying mechanism (10) is equipped with a plurality of supporting seats (100) of arranging around, and the right part between two lateral conveying mechanism (10) is equipped with a plurality of supporting seats (200) for cloth of arranging around, its characterized in that: a horizontal plate (20) is fixed on the top surfaces of the moving blocks (11) of the two transverse conveying mechanisms (10), a lifting oil cylinder (21) is fixed on the bottom surface of the horizontal plate (20), the top end of a push rod of the lifting oil cylinder (21) extends out of the top surface of the horizontal plate (20) and is fixed with a lifting plate (22), a supporting block (23) is fixed in the middle of the top surface of the lifting plate (22), and an arc-shaped placing groove (231) is formed in the top surface of the supporting block (23);

vertical columns (24) are fixed on the top surfaces of the left parts of the two horizontal plates (20), and upper beams (25) are fixed on the top surfaces of the two vertical columns (24).

2. An electric pole mold transfer mechanism as recited in claim 1, wherein: the bottom surface of lifter plate (22) is fixed with a plurality of vertical guide bars (1) down, and vertical guide bar (1) plug bush is in the vertical guide through-hole on horizontal plate (20).

3. An electric pole mold transfer mechanism as recited in claim 1, wherein: vertical supporting legs (26) are fixed at the front part and the rear part of the bottom surface of the horizontal plate (20), pulleys (27) are fixed at the bottoms of the vertical supporting legs (26), the pulleys (27) are inserted into guide grooves of transverse guide rails (30) fixed on the ground, and the transverse guide rails (30) are positioned at one side of the corresponding transverse conveying mechanism (10).

4. An electric pole mold transfer mechanism as recited in claim 1, wherein: the transverse conveying mechanism (10) comprises a left fixing seat (12) and a right fixing seat (13), the left fixing seat (12) and the right fixing seat (13) are fixed on the ground, a driving shaft (14) is movably connected to a vertical plate of the left fixing seat (12) through a bearing, a driving sprocket (15) is fixed on the driving shaft (14), a driving sprocket (16) is movably connected to a vertical plate of the right fixing seat (13) through a hinge shaft, a chain (17) is tensioned on the driving sprocket (15) and the driving sprocket (16), and a movable block (11) is fixed on an upper transverse chain body of the chain (17);

a driving motor (18) is fixed on the outer wall surface of the vertical plate of the left fixing seat (12), and the driving motor (18) drives the corresponding driving shaft (14) to rotate.

5. An electric pole mold transfer mechanism as recited in claim 1, wherein: a plurality of bearing seats (40) are fixed on the ground between the two left fixing seats (12), one end of a transmission shaft (50) is connected with the end part of a corresponding driving shaft (14) through a coupler, and the transmission shaft (50) is fixed on the bearing inner ring of the corresponding bearing seat (40);

the adjacent ends of the two transmission shafts (50) are connected.