CN217531591U - Double-station cold and hot oil pressure forming machine - Google Patents

Abstract

The utility model relates to a double-station cold and hot oil pressure forming machine, which comprises a first pressing device and a second pressing device which are arranged at intervals, wherein a first transfer device which spans the first pressing device and the second pressing device is arranged in the space between the upper pressing component and the lower pressing component of the first pressing device and the second pressing device, and the first transfer device is provided with a gripper mechanism which is arranged downwards; and a second transfer device is arranged below the first transfer device at the interval between the first pressing device and the second pressing device, and the second transfer device and the first transfer device are vertically arranged. The utility model discloses an utilize the automatic transfer device of two sets of vertical distributions to combine hot press unit and cold press unit to be integral structure, two sets of moulds of cooperation can alternate operation to improved the efficiency of cold and hot oil pressure processing, moreover every equipment only need operate alone can, can practice thrift the human cost, this equipment structure is compact, occupation space is little.

Description

Double-station cold and hot oil pressure forming machine

The technical field is as follows:

the utility model relates to an automatic mechanical equipment technical field refers in particular to a duplex position cold and hot oil pressure make-up machine.

The background art comprises the following steps:

in the field of shoes, clothes and other products, a seamless sewing technology is often adopted, and in the technology, materials are pressed together in a hot pressing mode and a cold pressing mode. At present, in the processing process, the transfer of the mold between the hot pressing unit and the cold pressing unit is mainly carried out by the operation or the carrying of workers, the mold filled with materials is firstly taken onto a hot pressing machine for hot pressing, then is taken onto the cold pressing for pressing and shaping, and then is carried away from the cold pressing forming unit. Obviously, in this way, the waiting time of the equipment is long and the efficiency is low, the transfer of the materials and the molds can be completed even by cooperation of a plurality of persons, the labor intensity of the operation of workers is increased invisibly, and the overall production efficiency is low.

The utility model has the following contents:

the utility model aims at overcoming the above-mentioned weak point of prior art, provide a cold and hot oil pressure make-up machine in duplex position.

The utility model adopts the technical proposal that: a double-station cold and hot oil pressure forming machine comprises a first pressing device and a second pressing device which are arranged at intervals, wherein the first pressing device and the second pressing device are respectively provided with an upper pressing assembly and a lower pressing assembly; a first transfer device spanning the first pressing device and the second pressing device is arranged in a space between the upper pressing component and the lower pressing component of the first pressing device and the second pressing device, and the first transfer device is provided with a downward gripper mechanism; and a second transfer device is arranged at the interval between the first pressing device and the second pressing device and below the first transfer device, the second transfer device and the first transfer device are vertically arranged and extend to form a feeding and discharging station, and a transfer station is formed at the position of the second transfer device below the first transfer device.

The gripper mechanism comprises a gripper fixing seat arranged on the first transfer device and gripper air cylinders respectively arranged at four corners of the gripper fixing seat, the output end of each gripper air cylinder is arranged downwards and is respectively connected with a gripper angle plate, namely, the gripper angle plates are driven by the gripper air cylinders to lift the mold, and then the mold is moved to the first pressing device or the second pressing device by the first transfer device, or the pressed mold is lifted to leave the pressing device and is placed back to the second transfer device to be moved away.

The first transfer device comprises chain wheel sets respectively arranged at the outer sides of the first pressing device and the second pressing device, two closed chains connected with the two chain wheel sets and a first motor for driving a chain wheel shaft of one chain wheel set; the chain wheel set is suspended at the outer sides of the first pressing device and the second pressing device through a group of side bracket assemblies respectively, and a chain wheel shaft of the chain wheel set is in a horizontal state and is vertical to the moving direction of the first transfer device; the space between the two chain wheels of the chain wheel group in the same group is larger than the width of the upper pressing component and the lower pressing component, the hand grip fixing seat is installed on the chain section above the hand grip fixing seat, and the width of the hand grip fixing seat is larger than the distance between the two closed chains.

The second transfer device comprises a transfer rack, a pair of guide rails which are arranged on the transfer rack in parallel, a sliding seat arranged on the guide rails, a synchronous belt transmission mechanism for driving the sliding seat to reciprocate along the guide rails and a second motor; the synchronous belt transmission mechanism comprises a synchronous belt wheel set and a synchronous belt wheel shaft which are respectively arranged at two ends of the transfer rack, and two synchronous belts which are respectively connected with the synchronous belt wheel set, and two ends of the sliding seat are respectively connected with the two synchronous belts; the second motor also drives one group of synchronous pulley shafts through the other group of synchronous pulleys; the second motor drives one group of synchronous wheel shafts to rotate, so that the synchronous belts drive the sliding seat to reciprocate along the guide rail, and the die is transferred from the feeding and discharging station to the transfer station.

The utility model discloses an utilize two sets of vertical distribution's automatic transfer device to combine hot press unit and cold press unit to be integral structure, two sets of moulds of cooperation can alternate operation to improved the efficiency of cold and hot oil pressure processing, moreover every equipment only need operate alone can, can practice thrift the human cost, this equipment compact structure, occupation space are little.

Description of the drawings:

FIG. 1 is an overall perspective view of the present invention;

fig. 2 and 3 are a front view and a plan view of the present invention;

fig. 4 is a partial enlarged view of the present invention.

The specific implementation mode is as follows:

as shown in fig. 1-4, the present invention relates to a double-station cold and hot oil pressure forming machine, which includes a first pressing device 1 and a second pressing device 2 arranged at intervals, wherein the first pressing device 1 and the second pressing device 2 respectively have an upper pressing component 11 (21) and a lower pressing component 12 (22); wherein: a first transfer device 3 stretching across the first pressing device 1 and the second pressing device 2 is arranged in a space between the upper pressing component 11 (21) and the lower pressing component 12 (22) of the first pressing device 1 and the second pressing device 2, and the first transfer device 3 is provided with a downward gripper mechanism 4; a second transfer device 5 is arranged at the interval between the first pressing device 1 and the second pressing device 2 and below the first transfer device 3, the second transfer device 5 and the first transfer device 1 are vertically arranged and extend to form a feeding and discharging station A, and a transfer station B is formed at the position of the second transfer device 5 below the first transfer device 3. In this embodiment, the first pressing device 1 is a hot oil pressure processing station, and the second pressing device 2 is a cold oil pressure processing station.

Specifically, the gripper mechanism 4 comprises gripper fixing seats 41 arranged on the first transfer device 3 and gripper air cylinders 42 respectively arranged at four corners of the gripper fixing seats 41, wherein the output end of each gripper air cylinder 42 is arranged downwards and is respectively connected with a gripper angle plate 43, namely, the gripper angle plates 43 are driven by the gripper air cylinders 42 to lift the mold, and then the mold is moved to the first pressing device 1 or the second pressing device 2 by the first transfer device 3, or the pressed mold is lifted to leave the pressing device and is placed back to the second transfer device 5 for removal;

the first transfer device 3 comprises chain wheel sets 31 respectively arranged at the outer sides of the first pressing device 1 and the second pressing device 2, two closed chains 32 connecting the two chain wheel sets 31 and a first motor 33 driving a chain wheel shaft of one chain wheel set; the chain wheel set 31 is respectively suspended outside the first pressing device 1 and the second pressing device 2 through a group of side bracket components 34, and a chain wheel shaft of the chain wheel set 31 is in a horizontal state and is vertical to the moving direction of the first transferring device 3; the distance between the two chain wheels of the same chain wheel set 3 is greater than the widths of the upper pressing component 11 (21) and the lower pressing component 12 (22), the gripper fixing seat 41 is installed on the chain section above, and the width of the gripper fixing seat 41 is greater than the distance between the two closed chains 32;

the second transfer device 5 includes a transfer frame 51, a pair of guide rails 52 mounted in parallel on the transfer frame 51, a slide 53 provided on the guide rails 52, a synchronous belt transmission mechanism 54 for driving the slide 53 to reciprocate along the guide rails 52, and a second motor 55; the synchronous belt transmission mechanism 54 comprises a synchronous belt wheel set and a synchronous belt wheel shaft which are respectively arranged at two ends of the transfer rack, and two synchronous belts which are respectively connected with the synchronous belt wheel set, and two ends of the sliding seat are respectively connected with the two synchronous belts; the second motor 55 also drives one of the timing pulley shafts through the other timing pulley; the second motor 55 drives one set of the synchronous wheel shafts to rotate, so that the synchronous belt transmission mechanism 54 drives the slide carriage 53 to reciprocate along the guide rail 52, and the mold is transferred between the loading and unloading station a and the transfer station B.

The utility model discloses the operation process of equipment as follows: placing a mold with materials on the upper part on a feeding and discharging station A formed at the outer end of a second transfer device 5, transferring the mold to a transfer station B between two pressing devices and below a first transfer device 3 through the second transfer device 5, moving a gripper mechanism 4 on the first transfer device 3 downwards in a gripper opening state (namely, the gripper angle plate 43 is positioned at a low point position), enabling a gripper cylinder 42 to work to enable the gripper angle plate 43 to move upwards so as to lift the mold, moving the gripper cylinder 42 to enable the gripper angle plate 43 to move downwards to place the mold on a lower pressing component 12 of the first pressing device 1 after moving to a station where the first pressing device 1 is positioned, then enabling the first transfer device 3 to drive the gripper mechanism 4 to leave, enabling the first pressing device 1 to perform pressing operation on the mold, enabling the first transfer device 1 to drive the gripper mechanism 4 to lift the mold from the first pressing device 1 and transfer the mold to the second pressing device 2 after the first pressing operation is completed, enabling the gripper mechanism 4 to separate, and enabling the second pressing device 2 to perform second pressing operation; during the second pressing, the gripper mechanism 4 transfers the second material-sheathed mold sent from the feeding and discharging station A of the second transfer device 5 to the first pressing device 1 for pressing; after the former set of moulds are pressed for the second time, the gripper mechanism 4 transfers the former set of moulds from the second pressing device 2 back to the second transfer device 5, namely, the transfer station B, and the second transfer device 5 transfers the first set of moulds back to the feeding and discharging station A, so that the materials formed in the moulds are taken out and then placed into new materials; the two sets of dies can alternately operate in such a circulating way.

The utility model discloses an utilize two sets of vertical distribution's automatic transfer device to combine hot press unit and cold press unit to be integral structure, two sets of moulds of cooperation can alternate operation to improved the efficiency of cold and hot oil pressure processing, moreover every equipment only need operate alone can, can practice thrift the human cost, this equipment compact structure, occupation space are little.

It is to be understood that the above embodiments are merely exemplary embodiments that have been employed to illustrate the principles of the present invention, and that the present invention is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.

Claims (4)

1. A double-station cold and hot oil pressure forming machine comprises a first pressing device and a second pressing device which are arranged at intervals, wherein the first pressing device and the second pressing device are respectively provided with an upper pressing assembly and a lower pressing assembly; the method is characterized in that: a first transfer device spanning the first pressing device and the second pressing device is arranged in a space between the upper pressing component and the lower pressing component of the first pressing device and the second pressing device, and the first transfer device is provided with a downward gripper mechanism; and a second transfer device is arranged at the interval between the first pressing device and the second pressing device and below the first transfer device, the second transfer device and the first transfer device are vertically arranged and extend to form a feeding and discharging station, and a transfer station is formed at the position of the second transfer device below the first transfer device.

2. The double-station cold-hot oil pressure forming machine according to claim 1, characterized in that: the gripper mechanism comprises a gripper fixing seat arranged on the first transfer device and gripper cylinders respectively arranged at four corners of the gripper fixing seat, and the output end of each gripper cylinder is downwards arranged and is respectively connected with a gripper angle plate.

3. The double-station cold-hot oil pressure forming machine according to claim 2, characterized in that: the first transfer device comprises chain wheel sets respectively arranged at the outer sides of the first pressing device and the second pressing device, two closed chains connected with the two chain wheel sets and a first motor for driving a chain wheel shaft of one chain wheel set; the chain wheel set is respectively suspended at the outer sides of the first pressing device and the second pressing device through a group of side bracket components, and a chain wheel shaft of the chain wheel set is in a horizontal state and is vertical to the moving direction of the first transfer device.

4. The double-station cold-hot oil press forming machine according to claim 1, characterized in that: the second transfer device comprises a transfer rack, a pair of guide rails which are arranged on the transfer rack in parallel, a sliding seat arranged on the guide rails, a synchronous belt transmission mechanism for driving the sliding seat to reciprocate along the guide rails and a second motor; the synchronous belt transmission mechanism comprises a synchronous belt wheel set and a synchronous belt wheel shaft which are respectively arranged at two ends of the transfer rack, and two synchronous belts which are respectively connected with the synchronous belt wheel set, and two ends of the sliding seat are respectively connected with the two synchronous belts; the second motor drives one of the synchronous pulley shafts through the other synchronous pulley.

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