CN216298436U

CN216298436U - Three-station mesh enclosure winding and welding integrated machine

Info

Publication number: CN216298436U
Application number: CN202122640646.4U
Authority: CN
Inventors: 曾贤兵
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-10-30
Filing date: 2021-10-30
Publication date: 2022-04-15
Anticipated expiration: 2031-10-30

Abstract

The utility model relates to a three-station mesh enclosure winding and welding integrated machine which comprises a rotary support and a main working table, wherein a material changing station, a winding station and a welding station are sequentially distributed on the main working table, three bearing parts which respectively correspond to the material changing station, the winding station and the welding station and are used for placing a mesh enclosure are arranged on the rotary support, and the process of welding the plane and the inclined plane of the mesh enclosure is integrated on the welding station, so that the process of welding the plane and the inclined plane can be simultaneously carried out, the welding efficiency is improved, meanwhile, the integral structure of the welding integrated machine is simplified, and the integral cost of equipment is reduced.

Description

Three-station mesh enclosure winding and welding integrated machine

Technical Field

The utility model relates to the technical field of mesh enclosure production equipment, in particular to a four-station mesh enclosure winding and welding integrated machine.

Background

The patent document with the publication number of CN213224854U discloses a four-station mesh enclosure winding and welding all-in-one machine, and the specification content of the four-station mesh enclosure winding and welding all-in-one machine discloses a four-station mesh enclosure winding and welding all-in-one machine, which comprises a rotary support 1 and a main workbench 2, wherein material changing stations 3, winding stations 4, plane welding stations 5 and inclined plane welding stations 6 are sequentially and uniformly distributed on the main workbench 2, four module frameworks 7 which correspond to the material changing stations 3, the winding stations 4, the plane welding stations 5 and the inclined plane welding stations 6 and are used for placing mesh enclosures are arranged on the rotary support 1, the rotary support 1 performs autorotation motion to enable the four module frameworks 7 to revolve around the central position of the rotary support 1, the rotary support 1 performs reciprocating motion in the vertical direction through a main lifting mechanism 8, and the rotary support 1 performs reciprocating motion in the vertical direction every time when the station is switched.

This welding all-in-one is when welding the screen panel promptly, and plane welding process and inclined plane welding process need separately go on, influence whole machining efficiency, moreover, need be to setting up the space that corresponds plane welding station 5 and inclined plane welding station 6 and corresponding elevating gear and rotary device on the table surface, increased the whole cost of equipment.

Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides a three-station mesh enclosure winding and welding integrated machine, which aims to solve at least one of the technical problems in the prior art to a certain extent.

The purpose of the utility model is realized as follows:

the utility model provides a three-station screen panel wire winding welding all-in-one, including runing rest and main workstation, it has the reloading station to distribute in proper order on the main workstation, wire winding station and welding station, be equipped with three respectively with the reloading station on the runing rest, the supporting part that is used for placing the screen panel that wire winding station and welding station correspond, the runing rest can make three supporting part revolve around the central point of runing rest around the rotation of rotation motion, runing rest connects in can making it make the main elevating system of back and forth motion in vertical direction, the welding station includes the welding machine device, a elevating system, a drive mechanism, be used for to screen panel plane welded plane soldered connection and be used for to screen panel inclined plane welded inclined plane soldered connection.

The welding station is provided with a welding supporting plate, the welding supporting plate moves back and forth in the vertical direction through a first lifting mechanism, and the welding supporting plate rotates by a first driving mechanism.

The welding machine device is provided with a first electrode and a second electrode, the first electrode is electrically connected with the plane welding head and the inclined plane welding head respectively, the second electrode is arranged below the supporting part corresponding to the welding station, and the plane welding head and the inclined plane welding head respectively move close to or away from the second electrode through the corresponding telescopic mechanisms.

The plane welding head is connected with a guide part through a movable connecting mechanism.

The guide part is connected with a plurality of plane welding heads.

The inclined plane soldered connection and guide portion fixed connection, inclined plane soldered connection have the regulation seat, are equipped with on the regulation seat and adjust the bar hole, are equipped with the connecting hole that a plurality of and regulation bar hole correspond on the guide portion, adjust the bar hole and pass through fastener with different connecting holes and be connected and make inclined plane soldered connection and horizontal plane form different inclination.

The supporting part corresponding to the winding station does up-and-down reciprocating motion through the second lifting mechanism, the supporting part corresponding to the winding station does autorotation motion through the second driving mechanism, and a winding head used for guiding the bone line is arranged above the winding station.

The wire winding station further comprises wire cutting pliers, the wire cutting pliers are connected with linear cylinders, and the wire cutting pliers move back and forth close to or far away from the supporting portions corresponding to the wire winding station through the linear cylinders.

The utility model has the beneficial effects that:

the process of welding the plane and the inclined plane of the mesh enclosure is integrated on the welding station, so that the process of welding the plane and the inclined plane can be simultaneously carried out, the welding efficiency is improved, meanwhile, the integral structure of the welding all-in-one machine is simplified, and the integral cost of the equipment is reduced.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

Fig. 1 is a first schematic structural diagram according to an embodiment of the present invention.

Fig. 2 is a second schematic structural diagram according to an embodiment of the present invention.

Fig. 3 is a third schematic structural diagram according to an embodiment of the present invention.

FIG. 4 is an exploded view of an embodiment of the present invention.

Detailed Description

The utility model is further described with reference to the following figures and examples.

Referring to fig. 1-4, the three-station mesh enclosure winding and welding integrated machine comprises a rotary support 1 and a main workbench 2, wherein a material changing station 3, a winding station 4 and a welding station 5 are sequentially distributed on the main workbench 2, three bearing parts 6 which are respectively corresponding to the material changing station 3, the winding station 4 and the welding station 5 and used for placing a mesh enclosure are arranged on the rotary support 1, the rotary support 1 can rotate to enable the three bearing parts 6 to revolve around the central position of the rotary support 1, the rotary support 1 is connected with a main lifting mechanism 7 which can enable the rotary support to reciprocate in the vertical direction, and the welding station 5 comprises a welding machine device 51, a first lifting mechanism 52, a first driving mechanism 53, a plane welding head 54 used for welding the plane of the mesh enclosure and an inclined plane welding head 55 used for welding the inclined plane of the mesh enclosure.

The welding station 5 has a welding pallet which reciprocates up and down by a first lifting mechanism 52 and rotates by a first driving mechanism 53.

The welder device 51 has a first electrode 511 and a second electrode 512, the first electrode 511 is electrically connected to the plane welding head 54 and the bevel welding head 55, the second electrode 512 is disposed below the supporting portion 6 corresponding to the welding station 5, and the plane welding head 54 and the bevel welding head 55 move toward or away from the second electrode 512 through the corresponding telescopic mechanisms.

The process of welding the plane and the inclined plane of the mesh enclosure is integrated on the welding station 5, so that the process of welding the plane and the inclined plane can be simultaneously carried out, the welding efficiency is improved, meanwhile, the integral structure of the welding all-in-one machine is simplified, and the integral cost of the equipment is reduced.

Further, the plane welding head 54 is connected with a guide part 56 through a movable connecting mechanism, so that the plane welding part can perform welding processing aiming at different positions on the mesh enclosure, and the equipment can meet the processing requirements of more mesh enclosures of different models.

Furthermore, the guide portion 56 is connected with a plurality of plane welding heads 54, the area of the plane portion of the general mesh enclosure, which needs to be welded, is relatively large in the welding process, and the plane welding of different positions of the mesh enclosure can be simultaneously realized by arranging the plurality of plane welding heads 54 on the guide portion 56, so that the welding efficiency is improved.

Furthermore, the inclined plane welding head 55 is fixedly connected with the guide part 56, the inclined plane welding head 55 is provided with an adjusting seat 57, an adjusting strip-shaped hole 571 is arranged on the adjusting seat 57, a plurality of connecting holes 561 corresponding to the adjusting strip-shaped hole 571 are arranged on the guide part 56, the adjusting strip-shaped hole 571 is connected with different connecting holes 561 through a fastening device, so that the inclined plane welding head 55 forms different inclination angles with the horizontal plane, and the inclined plane welding head 55 can meet the processing requirements of more mesh enclosures of different models.

Furthermore, the supporting part 6 corresponding to the winding station 4 reciprocates up and down by the second lifting mechanism 41, the supporting part 6 corresponding to the winding station 4 rotates by the second driving mechanism 42, and the winding head 43 for guiding the bone thread is arranged above the winding station 4.

Further, wire winding station 4 still includes wire cutting pliers 44, and wire cutting pliers 44 is connected with sharp cylinder 45, and wire cutting pliers 44 makes the reciprocating motion that is close to or keeps away from supporting portion 6 that wire winding station 4 corresponds through sharp cylinder 45, need not to carry out the wire cutting action through the manual work to the screen panel of accomplishing the wire winding process, has improved machining efficiency.

The working process of the utility model is as follows:

a worker firstly places the mesh enclosure framework to be processed on the bearing part 6 of the material changing station 3, the rotary support 1 is lifted under the action of the main lifting mechanism 7, and the mesh enclosure framework to be processed is moved to the position of the winding station 4 along with the bearing part 6 under the action of the rotation of the rotary support 1.

The main lifting mechanism 7 is reset, the second lifting mechanism 41 moves upwards and is connected with the bearing part 6, the second driving mechanism 42 drives the bearing part 6 to rotate, the winding head 43 guides the bone line to wind on the mesh cover under the rotation state of the bearing part 6, after the bone line of the mesh cover is wound, the second driving mechanism 42 stops rotating, the wire cutting pliers 44 moves to the position of the bearing part 6 under the action of the linear air cylinder 45 and cuts the tail end of the bone line, after the cutting pliers 44 resets along with the linear air cylinder 45, the second lifting mechanism 41 moves downwards, the main lifting mechanism 7 lifts the bearing part 6 upwards again, and the mesh cover wound with the bone line is moved to the position of the welding station 5 along with the bearing part 6 under the action of the rotary support 1.

The main lifting mechanism 7 is reset, the first lifting mechanism 52 moves upwards and is connected with the supporting part 6, the first driving mechanism 53 drives the supporting part 6 to perform intermittent rotation, the first lifting mechanism 52 performs lifting and descending once after the plane welding head 54 and the inclined plane welding head 55 are welded one by one, the first driving mechanism 53 drives the supporting part 6 to rotate for a set angle, the first lifting mechanism 52 and the first driving mechanism 53 are matched for multiple times to complete the welding action on the whole screen cover, finally, the first lifting mechanism 52 moves downwards, the main lifting mechanism 7 lifts upwards to lift the supporting part 6 again, the screen cover which is welded is moved to the position of a feeding station along with the supporting part 6 under the action of the rotating support 1, and workers can take down the screen cover which is machined and remount the screen cover to be machined again.

The above examples are only preferred embodiments of the present invention, and other embodiments of the present invention are possible. Those skilled in the art can make equivalent changes or substitutions without departing from the spirit of the present invention, and such equivalent changes or substitutions are included in the scope set forth in the claims of the present application.

Claims

1. A three-station mesh enclosure winding and welding integrated machine comprises a rotary bracket (1) and a main workbench (2), a material changing station (3), a winding station (4) and a welding station (5) are sequentially distributed on the main workbench (2), the rotary bracket (1) is provided with three bearing parts (6) which are respectively corresponding to the material changing station (3), the winding station (4) and the welding station (5) and are used for placing a mesh enclosure, the rotary bracket (1) can rotate to lead the three bearing parts (6) to revolve around the central position of the rotary bracket (1), the rotary bracket (1) is connected with a main lifting mechanism (7) which can lead the rotary bracket (1) to reciprocate in the vertical direction, the welding station (5) is characterized by comprising a welding machine device (51), a first lifting mechanism (52), a first driving mechanism (53), a plane welding head (54) for welding the plane of the mesh enclosure and an inclined plane welding head (55) for welding the inclined plane of the mesh enclosure;

the welding station (5) is provided with a welding supporting plate, the welding supporting plate moves back and forth in the vertical direction through a first lifting mechanism (52), and the welding supporting plate rotates by a first driving mechanism (53);

the welding machine device (51) is provided with a first electrode (511) and a second electrode (512), the first electrode (511) is respectively and electrically connected with a plane welding head (54) and an inclined plane welding head (55), the second electrode (512) is arranged below a supporting part (6) corresponding to the welding station (5), and the plane welding head (54) and the inclined plane welding head (55) respectively move close to or away from the second electrode (512) through corresponding telescopic mechanisms.

2. The three-station mesh enclosure winding and welding all-in-one machine as claimed in claim 1, wherein: the plane welding head (54) is connected with a guide part (56) through a movable connecting mechanism.

3. The three-station mesh enclosure winding and welding all-in-one machine as claimed in claim 2, wherein: the guide portion (56) is connected with a plurality of plane welding heads (54).

4. The three-station mesh enclosure winding and welding all-in-one machine as claimed in claim 2, wherein: the inclined plane welding head (55) is fixedly connected with the guide portion (56), the inclined plane welding head (55) is provided with an adjusting seat (57), an adjusting strip-shaped hole (571) is formed in the adjusting seat (57), a plurality of connecting holes (561) corresponding to the adjusting strip-shaped hole (571) are formed in the guide portion (56), and the adjusting strip-shaped hole (571) is connected with different connecting holes (561) through a fastening device to enable the inclined plane welding head (55) to form different inclination angles with the horizontal plane.

5. The three-station mesh enclosure winding and welding all-in-one machine as claimed in claim 1, wherein: and the bearing part (6) corresponding to the winding station (4) does reciprocating motion in the vertical direction through a second lifting mechanism (41), the bearing part (6) corresponding to the winding station (4) does autorotation motion through a second driving mechanism (42), and a winding head (43) for guiding a bone line is arranged above the winding station (4).

6. The three-station mesh enclosure winding and welding all-in-one machine as claimed in any one of claims 1 to 5, wherein: the wire winding station (4) further comprises a wire cutting pliers (44), the wire cutting pliers (44) are connected with a linear cylinder (45), and the wire cutting pliers (44) move back and forth close to or far away from the corresponding bearing part (6) of the wire winding station (4) through the linear cylinder (45).