CN213998280U - Derivation mechanism and multipoint welding machine - Google Patents

Abstract

The embodiment of the utility model provides a relate to welding equipment technical field, disclose a derivation mechanism and multipoint type welding seam machine. The utility model comprises a forming rod, wherein a plurality of leading-out grooves are arranged on the surface of the forming rod along the axis direction; the center of the guide disc is provided with a first guide-out hole, and the edge of the first guide-out hole is provided with a plurality of guide-out pieces, so that the guide-out pieces are respectively matched in the guide-out grooves, and the guide disc can slide along the forming rod; the pushing component comprises a pushing sheet and a pushing rod, the pushing sheet is connected with the leading-out disc, the pushing rod is connected with the pushing sheet, and the pushing component is used for pushing the leading-out disc to slide along the forming rod. The embodiment of the utility model provides a derive mechanism and multipoint type welding seam machine can solve and follow wire rod surface extrusion back with wire mesh, and wire mesh is comparatively inseparable with the wire rod laminating, and wire mesh and the difficult separation that separates of wire rod have reduced machining efficiency's problem.

Description

Derivation mechanism and multipoint welding machine

Technical Field

The embodiment of the utility model provides a relate to welding equipment technical field, in particular to derive mechanism and multipoint mode welding seam machine.

Background

The cylindrical screen is made of metal wire mesh and has the functions of filtering molten material flow and increasing material flow resistance, so as to filter out mechanical impurities and improve mixing or plasticizing effect. It has the performances of acid resistance, alkali resistance, temperature resistance, wear resistance, etc., and is mainly used for air conditioners, purifiers, smoke exhaust ventilators, air filters, dehumidifiers, dust removers, etc., and is suitable for various filtering, dust removal and separation requirements. In the process of processing the cylindrical filter screen, the metal wire mesh needs to be curled into a cylinder shape, and then two ends of the metal wire mesh are welded to manufacture the cylindrical filter screen. At present, a metal wire mesh is wrapped on the surface of a metal rod and pressure is applied to the metal wire mesh so that the metal wire mesh and the surface of the metal rod are attached to form a cylinder shape, and folding processing is finished.

The inventor finds that the following problems exist in the practical operation: after the metal wire mesh is extruded and formed along the surface of the metal rod, the metal wire mesh is tightly attached to the metal rod, the metal wire mesh is difficult to separate from the metal rod, and the processing efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a derive mechanism and multipoint mode welding seam machine for can solve following wire rod surface extrusion with wire mesh after, wire mesh is comparatively inseparable with the wire rod laminating, and wire mesh and the difficult separation of wire rod have reduced machining efficiency's problem.

In order to solve the above technical problem, an embodiment of the present invention provides a lead-out mechanism, which includes a forming rod, wherein a plurality of lead-out grooves are formed on the surface of the forming rod along an axial direction; the guide plate is provided with a first guide hole at the center, the first guide hole is a round hole, the edge of the first guide hole is provided with a plurality of guide sheets, the guide sheets are respectively connected with the guide plate and protrude towards the circle center of the first guide hole, and the forming rod is sleeved in the first guide hole so that the guide sheets are respectively matched in the guide grooves and the guide plate can slide along the forming rod; the pushing component comprises a pushing sheet and a pushing rod, the pushing sheet is connected with the leading-out disc, the pushing rod is connected with the pushing sheet, and the pushing component is used for pushing the leading-out disc to slide along the forming rod.

In addition, still include the regulation platform, the regulation platform includes regulating part and lower regulating part, goes up the regulating part pressfitting in the top of regulating part down, and the surface that goes up regulating part and lower regulating part contacted all is equipped with the adjustment tank, and the shaping pole is worn to locate in the adjustment tank to it is fixed with the centre gripping of lower regulating part to make to go up regulating part. Through setting up the regulation platform to divide into upper adjustment portion and lower adjustment portion with the regulation platform, add the fixed shaping pole of upper adjustment portion and lower adjustment portion centre gripping during processing, and can adjust the length that the shaping pole self-regulating tank extends according to wire mesh's size.

In addition, the pushing sheet is provided with a second leading-out hole, and the forming rod sequentially penetrates through the first leading-out hole, the second leading-out hole and the adjusting groove. Through setting up the second and leading out the hole for promote the piece and can with derive a set coincidence setting, promote the piece and drive the effect of deriving out the dish and remove better.

In addition, the catch bar has two, and two catch bars are connected with the both ends of catch sheet respectively, and all are located one side that the catch sheet deviates from the derivation dish. Both ends through promoting the piece all set up a catch bar for the motion of promoting the piece is more stable.

In addition, still include the bearing frame, the bearing frame is connected with the one end that upper adjustment portion is kept away from to lower adjustment portion to support the regulation platform. Bear the frame through setting up and support the regulation platform for the fixed shaping pole of regulation platform centre gripping is more stable.

In addition, the bearing frame is also provided with two trepanning supports, the trepanning supports are provided with trepanning, and the two push rods are respectively arranged in the trepanning in a penetrating mode. Through setting up trepanning support, support the catch bar, improved the stability of catch bar.

In addition, the molding rod is a hollow rod. Through setting up the shaping pole and being hollow rod, save the cost.

The utility model discloses an embodiment still provides a multipoint mode welding seam machine, including foretell derivation mechanism.

The utility model discloses embodiment is for prior art, after using wire mesh along shaping pole surface extrusion, wire mesh and the surface laminating of shaping pole. Promote the piece through using the pushing part and slide along the surface of shaping pole, inlay the piece of deriving in the derivation groove after with wire mesh's edge butt, will drive wire mesh and slide along the surface of shaping pole jointly, until the surface landing from the shaping pole, be convenient for separate into the cylindric wire mesh and the shaping pole that will curl, improved work efficiency.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

Fig. 1 is a schematic structural view of a lead-out mechanism according to a first embodiment of the present invention;

fig. 2 is a schematic front view of a lead-out mechanism according to a first embodiment of the present invention;

fig. 3 is a schematic structural view of a multipoint welding machine according to a first embodiment of the present invention;

fig. 4 is a schematic structural view of a multipoint welding machine according to a first embodiment of the present invention;

fig. 5 is a schematic structural view of a multipoint welding machine according to a first embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will explain in detail each embodiment of the present invention with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in various embodiments of the invention, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments. The following embodiments are divided for convenience of description, and should not constitute any limitation to the specific implementation manner of the present invention, and the embodiments may be mutually incorporated and referred to without contradiction.

The first embodiment of the present invention relates to a lead-out mechanism, and as shown in fig. 1 to 2, the lead-out mechanism includes a forming rod 300, a lead-out disk 400, and a pushing member 500. The surface of the molding rod 300 is provided with a plurality of lead-out grooves 310 in the axial direction. The center position of the guiding disc 400 is provided with a first guiding hole 410, the first guiding hole 410 is a circular hole, the edge of the first guiding hole 410 is provided with a plurality of guiding sheets 411, the guiding sheets 411 are respectively connected with the guiding disc 400 and protrude towards the center position of the first guiding hole 410, the forming rod 300 is sleeved in the first guiding hole 410, so that the guiding sheets 411 are respectively matched in the guiding groove 310, and the guiding disc 400 can slide along the forming rod 300. The pushing member 500 includes a pushing tab 510 and a pushing rod 520, the pushing tab 510 is connected to the lead-out tray 400, the pushing rod 520 is connected to the pushing tab 510, and the pushing member 500 is used to push the lead-out tray 400 to slide along the forming rod 300.

In this embodiment, after the wire mesh a is extruded along the surface of the molding rod 300, the wire mesh a is attached to the surface of the molding rod 300. By using the pushing member 500 to push the leading-out piece 411 to slide along the surface of the forming rod 300, after the leading-out piece 411 embedded in the leading-out groove 310 abuts against the edge of the wire mesh a, the wire mesh a is driven to slide along the surface of the forming rod 300 together until the wire mesh a slides off the surface of the forming rod 300, so that the wire mesh a curled into a cylindrical shape is separated from the forming rod 300, and the working efficiency is improved.

The guiding mechanism further comprises an adjusting table 700, the adjusting table comprises an upper adjusting portion 710 and a lower adjusting portion 720, the upper adjusting portion 710 is pressed above the lower adjusting portion 720, adjusting grooves 711 are formed in the surfaces, contacted with each other, of the upper adjusting portion 710 and the lower adjusting portion 720, and the forming rod 300 is arranged in the adjusting grooves 711 in a penetrating mode, so that the upper adjusting portion 710 and the lower adjusting portion 720 clamp and fix the forming rod 300. By providing the adjusting table 700 and dividing the adjusting table 700 into the upper adjusting portion 710 and the lower adjusting portion 720, the forming rod 300 is clamped and fixed by the upper adjusting portion 710 and the lower adjusting portion 720 during processing, and the length of the forming rod 300 extending from the adjusting groove 711 can be adjusted according to the size of the wire mesh a.

The pushing plate 510 has a second outlet hole 511, and the forming rod 300 is sequentially inserted into the first outlet hole 410, the second outlet hole 511 and the adjusting groove 711. Through setting up second escape aperture 511 for promote piece 510 and derive dish coincidence setting, promote the effect that the piece drove the removal of derivation dish better.

The number of the push rods 520 is two, and the two push rods 520 are respectively connected with two ends of the push sheet 510 and are both located on one side of the push sheet 510 departing from the guide disc 400. The movement of the push sheet 510 is more stable by providing one push rod 520 at each end of the push sheet 510.

The guiding mechanism further includes a carrier 730, and the carrier 730 is connected to an end of the lower adjustment portion 720 away from the upper adjustment portion 710 to support the adjustment table 700. The adjusting table 700 is supported by the bearing frame 730, so that the adjusting table 700 clamps the fixed forming rod 300 more stably.

The bearing frame 730 is further provided with two trepanning supports 731, the trepanning supports 731 are provided with trepanning 732, and the two push rods 520 penetrate through the trepanning 732 respectively. Through setting up trepanning support 731, support catch 520, improved catch 520's stability.

The shaped bar 300 is a hollow bar. Cost is saved by providing the molding rod 300 as a hollow rod.

The utility model discloses an embodiment still provides a multipoint mode welding seam machine, including foretell derivation mechanism.

As shown in fig. 3 to 5, when the metal wire mesh is processed, the metal wire mesh a is placed on the placing plate 230, the second telescopic rod 220 drives the second forming portion 210 to extend out of the first telescopic hole 231, the surface of the extended second forming portion 210 with the forming arc surface 211 supports the metal wire mesh a, and drives the metal wire mesh a to move upwards continuously until the metal wire mesh a abuts against the forming rod 300, then the second forming portion 210 drives the metal wire mesh a to move upwards continuously, the forming arc surface 211 on the surface of the second forming portion 210 is extruded with the metal wire mesh a between the forming rod 300, and the forming arc surface 211 is matched with the forming rod 300, so that the metal wire mesh a is wrapped on the lower half portion of the forming rod 300. Then, the first telescopic rods 120 on the left and right sides drive the first forming portions 110 to move toward the direction of approaching each other, the tips of the abutting plates 112 push the edges of the two ends of the wire mesh a to approach each other until the edges of the two ends of the wire mesh a are completely abutted, the two abutting plates 112 are finally abutted, the guiding arc surfaces 113 arranged on the edges of the two abutting plates 112 approaching each other and the forming arc surfaces 211 form a complete cylinder cavity, the cylinder cavity is sleeved on the surface of the forming rod 300, and the wire mesh a is located in the cylinder cavity, so that the wire mesh a is completely attached to the surface of the forming rod 300, and the bending process of the wire mesh a is completed.

Then, the feeding rod 610 drives the multi-point welding head 620 to fall down, the multi-point welding head 620 completes welding at the butt joint of the two ends of the wire mesh a, and the pushing rod 520 drives the pushing sheet 510 to move from one end of the forming rod 300 to the other end, and the guiding disc 400 connected with the pushing sheet 510 and sleeved on the forming rod 300 slides along the surface of the forming rod 300. When the plurality of leading-out pieces 411 contact the edge of the wire mesh a, the wire mesh a is driven to move towards one end of the forming rod 300 together until falling off, and leading-out and separation of the wire mesh a are completed.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and claims of the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprise" or "comprises", and the like, means that the element or item listed before "comprises" or "comprising" covers the element or item listed after "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, which may also change accordingly when the absolute position of the object being described changes.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims (8)

1. A payout mechanism, comprising:

the surface of the forming rod is provided with a plurality of guide-out grooves along the axis direction;

the guide plate is provided with a first guide hole at the center, the first guide hole is a round hole, the edge of the first guide hole is provided with a plurality of guide pieces, the guide pieces are respectively connected with the guide plate and protrude towards the circle center of the first guide hole, and the forming rod is sleeved in the first guide hole so that the guide pieces are respectively matched in the guide grooves and can slide along the forming rod;

the pushing component comprises a pushing sheet and a pushing rod, the pushing sheet is connected with the guiding disc, the pushing rod is connected with the pushing sheet, and the pushing component is used for pushing the guiding disc to slide along the forming rod.

2. The guiding mechanism according to claim 1, further comprising an adjusting table, wherein the adjusting table comprises an upper adjusting portion and a lower adjusting portion, the upper adjusting portion is pressed above the lower adjusting portion, adjusting grooves are formed in the surfaces of the upper adjusting portion and the lower adjusting portion, which are in contact with each other, and the forming rod is inserted into the adjusting grooves, so that the upper adjusting portion and the lower adjusting portion clamp and fix the forming rod.

3. The guiding mechanism as claimed in claim 2, wherein the pushing plate is provided with a second guiding hole, and the forming rod is sequentially inserted into the first guiding hole, the second guiding hole and the adjusting groove.

4. The delivery mechanism of claim 3, wherein there are two push rods, and the two push rods are respectively connected to two ends of the push sheet and are both located on a side of the push sheet facing away from the delivery tray.

5. The feed-out mechanism of claim 4, further comprising a carrier coupled to an end of the lower adjustment portion distal from the upper adjustment portion to support the adjustment stage.

6. The guiding mechanism as claimed in claim 5, wherein the bearing frame is further provided with two trepanning brackets, the trepanning brackets are provided with trepanning holes, and the two pushing rods are respectively arranged in the trepanning holes in a penetrating mode.

7. The payout mechanism as defined in claim 6 wherein said shaped bar is a hollow bar.

8. A multipoint welding machine comprising a lead-out mechanism according to any of claims 1 to 7.

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