CN221369701U - Automatic drum type ribbon coiling machine for drum type ribbon - Google Patents

Abstract

The utility model relates to the technical field of braid winding, in particular to an automatic cylindrical braid coiling machine. The novel wire winding device comprises a base, wherein a polished rod is installed on the base through a first bearing seat and a second bearing seat, a wire winding device is movably installed on the polished rod, a limiting rod matched with the wire winding device is further arranged between the first bearing seat and the second bearing seat, one end of the polished rod penetrates out of the first bearing seat to be fixedly connected with an output shaft of a motor installed on the base, a driven shaft is installed on the base on one side of the motor through a third bearing seat and a fourth bearing seat, the driven shaft is connected with the polished rod between the first bearing seat and the motor through a transmission mechanism, one end of the driven shaft penetrates out of the fourth bearing seat to be in butt joint with a cylinder, and the other end of the cylinder is rotatably supported through a pressing mechanism installed on the base. The winding quantity of the ribbon is more than three times of that of a disc type, the number of times of disassembly and assembly and replacement is reduced, the speed is high, the efficiency is high, the winding cost is reduced, and the winding requirement of a large quantity of ribbon can be met.

Description

Automatic drum type ribbon coiling machine for drum type ribbon

Technical field:

The utility model relates to the technical field of braid winding, in particular to an automatic cylindrical braid coiling machine.

The background technology is as follows:

At present, after the meshbelt is woven, the meshbelt is more convenient for transportation, storage and subsequent use, and can be wound into a disc shape after the meshbelt is woven, but most of the meshbelt coiling machines in the current market are used for coiling the meshbelt into a disc shape, so that the disc-shaped meshbelt is less in winding quantity, a plurality of discs are required to be wound, the back and forth disassembly and the replacement are troublesome, the speed is low, the efficiency is low, the winding cost is too high, and the meshbelt coiling machine is not applicable to a large quantity of meshbelt winding processes.

In view of the above, the above problems in the webbing winding process have become a technical problem to be solved in the industry.

The utility model comprises the following steps:

the utility model provides a cylinder type automatic ribbon coiling machine for ribbon, which solves the problems of small winding quantity, low speed and low efficiency of the conventional disc-shaped ribbon.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

The utility model provides an automatic tape coiling machine of drum formula meshbelt, includes the base, install the polished rod through first bearing frame and second bearing frame on the base, movable mounting has the winding displacement ware on the polished rod, still be equipped with between first bearing frame and the second bearing frame with winding displacement ware matched with gag lever post, the one end of polished rod wears out first bearing frame and installs the output shaft of motor on the base and link firmly, the driven shaft is installed through third bearing frame and fourth bearing frame on the base of motor one side, the driven shaft is connected with the polished rod between first bearing frame and the motor through drive mechanism, the one end of driven shaft wears out fourth bearing frame and drum looks butt, the other end of drum carries out rotary support through the hold-down mechanism who installs on the base, the polished rod parallel and the position between drum and first bearing frame and the second bearing frame is corresponding.

The wire arranging device is characterized in that a first touch stop block and a second touch stop block are arranged on the wire arranging device, and a first limit seat and a second limit seat which are matched with the first touch stop block and the second touch stop block are respectively arranged at positions, close to the first bearing seat and the second bearing seat, on the base.

The top of the wire arranging device is provided with a wire-following supporting shaft through angle irons, and the wire-following supporting shaft is provided with a wire-following wheel.

And a plurality of limiting shafts are respectively arranged on the upper side and the lower side of the limiting rod on the wire arranging device.

The transmission mechanism comprises a first belt pulley arranged on a polished rod between the first bearing seat and the motor and a second belt pulley arranged on the driven shaft, and the first belt pulley is connected with the second belt pulley through a transmission belt.

The compressing mechanism comprises a support arranged on a base, a tailstock is movably arranged on the support through a sliding rail, a rotatable thimble is arranged in the tailstock, the thimble rotatably supports the cylinder, and the tailstock is connected with the power mechanism.

One end of the thimble, which is close to the cylinder, is conical.

The power mechanism comprises a hand-operated screw rod or an air cylinder or a hydraulic cylinder.

The height of the thimble is consistent with the height of the driven shaft.

And a protective cover is arranged on the outer sides of the motor, the wire arranging device and the driven shaft.

The utility model adopts the scheme and has the following advantages:

The drum type winding replaces the conventional disc type winding, the ribbon is driven to move back and forth through the ribbon winding device to wind the ribbon on the drum, the winding belt quantity is more than three times that of the disc type winding, the disassembly and assembly replacement times are reduced, the speed is high, the efficiency is high, the winding cost is reduced, and the winding requirement of a large quantity of ribbon can be met.

Description of the drawings:

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic front perspective view of the utility model with the shield removed.

Fig. 3 is a schematic rear perspective view of the utility model with the shield removed.

In the figure, 1, a base, 2, a first bearing seat, 3, a second bearing seat, 4, a polished rod, 5, a wire arranging device, 6, a limiting rod, 7, a motor, 8, a third bearing seat, 9, a fourth bearing seat, 10, a driven shaft, 11, a cylinder, 12, a first touch stop block, 13, a second touch stop block, 14, a first limiting seat, 15, a second limiting seat, 16, angle irons, 17, a wire arranging wheel, 18, a limiting shaft, 19, a first belt pulley, 20, a second belt pulley, 21, a driving belt, 22, a bracket, 23, a sliding rail, 24, a tail seat, 25, a thimble, 26, a protective cover, 27 and a lifting lug.

The specific embodiment is as follows:

in order to clearly illustrate the technical features of the present solution, the present utility model will be described in detail below with reference to the following detailed description and the accompanying drawings.

As shown in fig. 1-3, an automatic drum type ribbon coiling machine comprises a base 1, wherein a polish rod 4 is installed on the base 1 through a first bearing seat 2 and a second bearing seat 3, a ribbon wire device 5 is movably installed on the polish rod 4, a limit rod 6 matched with the ribbon wire device 5 is further arranged between the first bearing seat 2 and the second bearing seat 3, one end of the polish rod 4 penetrates out of the first bearing seat 2 to be fixedly connected with an output shaft of a motor 7 installed on the base 1, a driven shaft 10 is installed on the base 1 on one side of the motor 7 through a third bearing seat 8 and a fourth bearing seat 9, the driven shaft 10 is connected with the polish rod 4 between the first bearing seat 2 and the motor 7 through a transmission mechanism, one end of the driven shaft 10 penetrates out of the fourth bearing seat 9 to be abutted against a cylinder 11, the other end of the cylinder 11 is rotatably supported through a pressing mechanism installed on the base 1, and the polish rod 4 between the cylinder 11 and the first bearing seat 2 and the second bearing seat 3 is parallel and corresponds in position.

The wire arranging device 5 is provided with a first touch stop block 12 and a second touch stop block 13, and a first limit seat 14 and a second limit seat 15 matched with the first touch stop block 12 and the second touch stop block 13 are respectively arranged at positions, close to the first bearing seat 2 and the second bearing seat 3, on the base 1. When the first touching stop block 12 of the wire arranging device 5 touches the first limit seat 14, the wire arranging device 5 switches the moving direction, and when the second touching stop block 13 of the wire arranging device 5 touches the second limit seat 15, the wire arranging device 5 switches the moving direction again, so that the reciprocating movement of the wire arranging device 5 on the polish rod 4 is realized. The internal detailed structure of the wire arranging device 5 is the prior art, and will not be described herein.

The top of the wire arranging device 5 is provided with a wire-following supporting shaft through an angle iron 16, the wire-following supporting shaft is provided with a wire-following wheel 17, and the wire-following wheel 17 drives the braid to weave and wind back and forth on the cylinder 11.

A plurality of limiting shafts 18 are respectively arranged on the upper side and the lower side of the limiting rod 6 on the wire arranging device 5, the limiting shafts 18 are matched with the limiting rod 6, the reciprocating motion of the wire arranging device 5 is realized, and the wire arranging device 5 is prevented from rotating.

The transmission mechanism comprises a first belt pulley 19 arranged on the polished rod 4 between the first bearing seat 2 and the motor 7, and a second belt pulley 20 arranged on the driven shaft 10, wherein the first belt pulley 19 is connected with the second belt pulley 20 through a transmission belt 21. When the motor 7 rotates, the polish rod 4 is driven to rotate, the polish rod 4 drives the first belt pulley 19 to rotate, the first belt pulley 19 drives the second belt pulley 20 to rotate through the transmission belt 21, and the second belt pulley 20 drives the driven shaft 10 to rotate.

The compressing mechanism comprises a support 22 arranged on the base 1, a tailstock 24 is movably arranged on the support 22 through a sliding rail 23, a rotatable thimble 25 is arranged in the tailstock 24, the thimble 25 rotatably supports the cylinder 11, and the tailstock 24 is connected with the power mechanism.

The end of the thimble 25 near the cylinder 11 is conical, so that the thimble can be conveniently inserted into a central through hole of the cylinder 11 to support the cylinder 11.

The power mechanism comprises a hand-operated screw rod, an air cylinder or a hydraulic cylinder, the power mechanism drives the tailstock 24 to move along the sliding rail 23, and the tailstock 24 drives the thimble 25 to move to compress the cylinder 11.

The height of the thimble 25 is consistent with the height of the driven shaft 10 so as to keep the cylinder 11 between the thimble and the driven shaft in a horizontal position after being clamped.

The motor 7, the wire arranging device 5 and the driven shaft 10 are provided with a protective cover 26 on the outer side.

Lifting lugs 27 are arranged at two opposite corners of the base 1 respectively, so that lifting and moving are facilitated.

Working principle:

During operation, a worker firstly installs one end of the cylinder 11 at the end part of the driven shaft 10, then operates the pressing mechanism to act, enables the thimble 25 to be matched with the driven shaft 10 to press and fix the cylinder 11, and because the thimble 25 can rotate in the tailstock 24, the cylinder 11 can rotate along with the driven shaft 10, the worker winds one end of the braid around the wire winding wheel 17 on the cylinder 11 for one circle, then starts the motor 7, an output shaft of the motor 7 drives the polished rod 4 to rotate on one hand, the wire arranging device 5 reciprocates along the polished rod 4 when the polished rod 4 rotates, and on the other hand, the polished rod 4 drives the driven shaft 10 to rotate through the transmission mechanism, the driven shaft 10 drives the cylinder 11 to synchronously rotate again, and drives the braid to wind on the cylinder 11 when the cylinder 11 rotates to match with the reciprocating motion of the wire arranging device 5, so that the braid is uniformly wound on the cylinder 11. After the winding of one cylinder 11 is completed, a worker operates the pressing mechanism to release and take down the cylinder 11, and then replaces the new cylinder 11 to repeat the steps, and as the length of the cylinder 11 is far longer than that of the disc, the winding quantity of the cylinder 11 is more than three times that of the disc, the disassembly and assembly replacement times are reduced during winding, the speed is high, the efficiency is high, the winding cost is reduced, and the winding requirement of a large quantity of mesh belts can be met.

The above embodiments are not to be taken as limiting the scope of the utility model, and any alternatives or modifications to the embodiments of the utility model will be apparent to those skilled in the art and fall within the scope of the utility model.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (10)

1. An automatic tape coiling machine of drum formula meshbelt, its characterized in that: the novel wire winding device comprises a base, the polished rod is installed through first bearing frame and second bearing frame on the base, movable mounting has the winding device on the polished rod, still be equipped with between first bearing frame and the second bearing frame with winding device matched with gag lever post, the first bearing frame is worn out to the one end of polished rod links firmly with the output shaft of installing the motor on the base, the driven shaft is installed through third bearing frame and fourth bearing frame on the base of motor one side, the driven shaft is connected through the polished rod between drive mechanism and first bearing frame and the motor, the fourth bearing frame is worn out to the one end of driven shaft and drum looks butt, the other end of drum carries out rotary support through the hold-down mechanism who installs on the base, the polished rod between drum and first bearing frame and the second bearing frame is parallel and the position is corresponding.

2. A cylindrical webbing automatic coiling machine as in claim 1, wherein: the wire arranging device is characterized in that a first touch stop block and a second touch stop block are arranged on the wire arranging device, and a first limit seat and a second limit seat which are matched with the first touch stop block and the second touch stop block are respectively arranged at positions, close to the first bearing seat and the second bearing seat, on the base.

3. A cylindrical webbing automatic coiling machine as in claim 1, wherein: the top of the wire arranging device is provided with a wire-following supporting shaft through angle irons, and the wire-following supporting shaft is provided with a wire-following wheel.

4. A cylindrical webbing automatic coiling machine as in claim 1, wherein: and a plurality of limiting shafts are respectively arranged on the upper side and the lower side of the limiting rod on the wire arranging device.

5. A cylindrical webbing automatic coiling machine as in claim 1, wherein: the transmission mechanism comprises a first belt pulley arranged on a polished rod between the first bearing seat and the motor and a second belt pulley arranged on the driven shaft, and the first belt pulley is connected with the second belt pulley through a transmission belt.

6. A cylindrical webbing automatic coiling machine as in claim 1, wherein: the compressing mechanism comprises a support arranged on a base, a tailstock is movably arranged on the support through a sliding rail, a rotatable thimble is arranged in the tailstock, the thimble rotatably supports the cylinder, and the tailstock is connected with the power mechanism.

7. A cylindrical webbing automatic coiling machine as recited in claim 6, wherein: one end of the thimble, which is close to the cylinder, is conical.

8. A cylindrical webbing automatic coiling machine as recited in claim 6, wherein: the power mechanism comprises a hand-operated screw rod or an air cylinder or a hydraulic cylinder.

9. A cylindrical webbing automatic coiling machine as recited in claim 6, wherein: the height of the thimble is consistent with the height of the driven shaft.

10. A cylindrical webbing automatic coiling machine as in claim 1, wherein: and a protective cover is arranged on the outer sides of the motor, the wire arranging device and the driven shaft.