CN210649166U - Feeding mechanism for pipe seam welding - Google Patents

Abstract

The utility model relates to a welding equipment technical field, concretely relates to feed mechanism for pipe seam welding, which comprises a frame, layer board and upset extracting device, the layer board slope is fixed in the frame, baffle and layer board form the material loading passageway, upset extracting device sets up at the material loading passageway lower extreme, upset extracting device includes the base, the vertical riser that is fixed with in base both sides, be equipped with the returning face plate between the coexistence board, returning face plate both sides middle part is rotated with the riser and is connected, the returning face plate both sides are close to material loading passageway one end and are fixed with the connecting rod, the articulated cylinder that has of riser lower extreme, the one end that the returning face plate was kept away from to the cylinder front end and connecting rod is articulated, two rectangle breachs have been seted up to one side that the returning face plate is close to the material loading passageway, the vertical shelves pole that is fixed with downwardly extending. The feeding mechanism can replace manual feeding of workers, reduces labor burden of the workers, improves production efficiency, and is simple in structure and low in price.

Description

Feeding mechanism for pipe seam welding

Technical Field

The utility model relates to a welding equipment technical field, concretely relates to feed mechanism for pipe seam welding.

Background

The silencer pipe for automobile is a device for reducing the exhaust noise of engine and discharging high-temperature waste gas safely and effectively, and is made up by rolling perforated plate into pipe body whose cross section is C-shaped, then welding the pipe body at the seam (straight seam). When the longitudinal welding, adopt artifical manual material loading more, workman intensity of labour is high, and material loading efficiency is low, and some tubular product stick feed mechanism structures that have now are complicated, and the price is high, increases the manufacturing cost of enterprise.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the problem that above-mentioned exists, designed a feed mechanism for pipe seam welding, this mechanism can replace the manual material loading of workman, alleviates workman's work burden, improves production rate of selling, and simple structure, low price.

In order to realize the technical purpose, reach above-mentioned technological effect, the utility model discloses a realize through following technical scheme:

a feeding mechanism for pipe seam welding comprises a rack, a supporting plate and an overturning material taking device, wherein the supporting plate is obliquely fixed on the rack, baffle plates are fixed on two sides of the supporting plate along the length direction of the supporting plate, a feeding channel is formed by the baffle plates and the supporting plate, and the overturning material taking device is arranged at the lower end of the feeding channel;

the turnover material taking device comprises a base, vertical plates are vertically fixed on two sides of the base, a turnover plate is arranged between the two vertical plates, a rotating shaft is fixed in the middle of two sides of the turnover plate, the rotating shaft is rotatably connected with the vertical plates through a bearing, a connecting rod is fixed at one end, close to a feeding channel, of two sides of the turnover plate, a cylinder is hinged at the lower end of the vertical plate, the front end of the cylinder is hinged with one end, far away from the turnover plate, of the connecting rod, when the front end of the cylinder is completely retracted, the turnover plate is located at a first working position, when the front end of the cylinder is completely extended out, the turnover plate is located at a second working position, when the turnover plate is located at the first working position, one end, close to the feeding channel, of the turnover plate is abutted against the lower end of; when the turnover plate is located at the second working position, one end, close to the feeding channel, of the turnover plate is higher than one end, far away from the feeding channel, of the turnover plate;

two rectangular notches are formed in one side, close to the feeding channel, of the turnover plate, a blocking rod is vertically fixed on the base below the rectangular notches, the horizontal distance between the blocking rod and the lower end of the feeding channel is equal to the diameter of a pipe body to be welded, the upper end of the blocking rod is higher than the upper surface of the turnover plate when the turnover plate is in a first working position, and the upper end of the blocking rod is lower than the upper surface of the turnover plate when the turnover plate is in a second working position;

and a baffle plate extending downwards is fixed at one end of the turnover plate close to the feeding channel.

Furthermore, an included angle of 10-20 degrees is formed between the supporting plate and the horizontal plane, and the distance between the baffles on the two sides of the supporting plate is 5-10mm greater than the length of the pipe body to be welded.

Furthermore, flanges are fixed on two sides of the turnover plate, and the distance between the two flanges is equal to the distance between the baffles on two sides of the supporting plate.

Further, the air cylinder is an SMC CDQ2D20-15DMZ type thin air cylinder.

Compared with the prior art, the beneficial effects of the utility model are as follows:

when the cylinder drives the turnover plate to the second working position, the pipe bodies to be welded on the turnover plate roll downwards to be fed, meanwhile, the baffle plate fixed at one end of the turnover plate close to the feeding channel is blocked at the lower end of the feeding channel, so that the other pipe bodies to be welded on the feeding channel are prevented from rolling downwards, the turnover plate is driven by the cylinder to perform continuous feeding through the reciprocating motion of the cylinder, the manual feeding of workers can be replaced, the labor burden of the workers is reduced, the production efficiency is improved, the structure is simple, and the price is low.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the turnover plate of the turnover material taking device of the present invention when the turnover plate is in the first working position.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a frame, 2-a supporting plate, 21-a baffle, 3-a base, 4-a vertical plate, 5-a turnover plate, 51-a flange, 52-a rectangular notch, 53-a rotating shaft, 54-a connecting rod, 6-a stop lever, 7-an air cylinder, 8-a baffle plate and 9-a pipe body to be welded.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-2, a feeding mechanism for pipe seam welding comprises a rack 1, a supporting plate 2 and an overturning material-taking device, wherein the supporting plate 2 is obliquely fixed on the rack 1, an included angle of 10-20 degrees is formed between the supporting plate 2 and a horizontal plane, baffles 21 are fixed on two sides of the supporting plate 2 along the length direction of the supporting plate 2, the distance between the baffles 21 on the two sides is 5-10mm greater than the length of a pipe body 9 to be welded, the baffles 21 and the supporting plate 2 form a feeding channel, the feeding channel is used for placing the pipe body 9 to be welded and serves as a storage bin, in the embodiment, the diameter of the pipe body to be welded is 35mm, the length of the pipe body to be welded is 605mm, the length of the feeding channel is 1000mm, the;

the turnover material taking device comprises a base 3, vertical plates 4 are vertically fixed on two sides of the base 3, a turnover plate 5 is arranged between the two vertical plates 4, flanges 51 are fixed on two sides of the turnover plate 5, the distance between the two flanges 51 is equal to the distance between baffles 21 on two sides of a supporting plate 2, a rotating shaft 53 is fixed in the middle of two sides of the turnover plate 5, the rotating shaft 53 is rotatably connected with the vertical plates 4 through bearings, a connecting rod 54 is fixed on one end of two sides of the turnover plate 5 close to a feeding channel, a cylinder 7 is hinged at the lower end of the vertical plate 4, the front end of the cylinder 7 is hinged with one end of the connecting rod 54 far away from the turnover plate 5, the cylinder 7 is an SMC CDQ2D20-15DMZ thin cylinder, a magnetic ring is arranged in the cylinder, the installation form is a double-lug ring shape, the cylinder diameter is 20mm, the stroke is 15mm, the action mode is double-acting, when the front end of the cylinder 7 is, when the front end of the cylinder 7 is completely extended, the turnover plate 5 is driven by the connecting rod 54 to rotate anticlockwise around the rotating shaft 53, and the turnover plate 5 is in a second working position; two rectangular notches 52 are formed in one side, close to the feeding channel, of the turnover plate 5, a blocking rod 6 is vertically fixed on the base 3 below the rectangular notches 52, and the horizontal distance between the blocking rod 6 and the lower end of the feeding channel is equal to the diameter of the pipe body 9 to be welded;

when the turnover plate 5 is located at the first working position, one end, close to the feeding channel, of the turnover plate 5 is lower than one end, far away from the feeding channel, of the turnover plate 5, one end, close to the feeding channel, of the turnover plate 5 is abutted against the lower end of the feeding channel, the upper end of the baffle rod 6 is higher than the upper surface of the turnover plate 5, and at the moment, one to-be-welded pipe body 9 located at the lower end of the feeding channel rolls to the turnover plate 5 and is blocked by the baffle rod 6;

when the turnover plate 5 is located at the second working position, one end, close to the feeding channel, of the turnover plate 5 is higher than one end, far away from the feeding channel, of the turnover plate 5, the upper end of the stop rod 6 is lower than the upper surface of the turnover plate 5, and at the moment, the pipe body 9 to be welded, which is located on the turnover plate, rolls downwards to perform feeding; a material baffle plate 8 extending downwards is fixed at one end, close to the feeding channel, of the turnover plate 5, and when the turnover plate 5 is located at the second working position, the material baffle plate 8 is blocked at the lower end of the feeding channel to prevent the rest of to-be-welded pipe bodies 9 on the feeding channel from rolling downwards;

the air cylinder 7 controls the turnover plate 5 to be switched between the first working position and the second working position so as to complete continuous feeding.

When the device is used, a plurality of pipe bodies to be welded 9 are sequentially placed on a feeding channel, a cylinder 7 is started, when the cylinder 7 drives the turnover plate 5 to a first working position, the pipe bodies to be welded 9 at the lower end of the feeding channel roll to the turnover plate 5 from the lower end of the feeding channel under the push of self gravity and the rest of the pipe bodies to be welded, and are stopped by a stop rod 6 when rolling to the stop rod 6, the stop rod 6 controls only one pipe body to be welded 9 to roll to the turnover plate 5 at each time, when the cylinder 7 drives the turnover plate 5 to a second working position, the upper end of the stop rod 6 is lower than the upper surface of the turnover plate 5, at the moment, the pipe bodies to be welded 9 on the turnover plate 5 roll downwards to carry out feeding, meanwhile, a baffle plate 8 fixed at one end, close to the feeding channel, of the turnover plate 5 is stopped at the lower end of the feeding channel, the rest of the pipe bodies to be welded on the feeding channel is prevented from rolling downwards, can replace manual material loading of workman, alleviate workman's work burden, improve production efficiency, and simple structure, low price.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art should be able to make changes, alterations, additions or substitutions within the scope of the present invention.

Claims (4)

1. The utility model provides a feed mechanism for pipe seam welding which characterized in that: the automatic feeding device comprises a rack, a supporting plate and an overturning material taking device, wherein the supporting plate is obliquely fixed on the rack, baffle plates are fixed on two sides of the supporting plate along the length direction of the supporting plate, a feeding channel is formed by the baffle plates and the supporting plate, and the overturning material taking device is arranged at the lower end of the feeding channel;

the turnover material taking device comprises a base, vertical plates are vertically fixed on two sides of the base, a turnover plate is arranged between the two vertical plates, a rotating shaft is fixed in the middle of two sides of the turnover plate, the rotating shaft is rotatably connected with the vertical plates through a bearing, a connecting rod is fixed at one end, close to a feeding channel, of two sides of the turnover plate, a cylinder is hinged at the lower end of the vertical plate, the front end of the cylinder is hinged with one end, far away from the turnover plate, of the connecting rod, when the front end of the cylinder is completely retracted, the turnover plate is located at a first working position, when the front end of the cylinder is completely extended out, the turnover plate is located at a second working position, when the turnover plate is located at the first working position, one end, close to the feeding channel, of the turnover plate is abutted against the lower end of; when the turnover plate is located at the second working position, one end, close to the feeding channel, of the turnover plate is higher than one end, far away from the feeding channel, of the turnover plate;

two rectangular notches are formed in one side, close to the feeding channel, of the turnover plate, a blocking rod is vertically fixed on the base below the rectangular notches, the horizontal distance between the blocking rod and the lower end of the feeding channel is equal to the diameter of a pipe body to be welded, the upper end of the blocking rod is higher than the upper surface of the turnover plate when the turnover plate is in a first working position, and the upper end of the blocking rod is lower than the upper surface of the turnover plate when the turnover plate is in a second working position;

and a baffle plate extending downwards is fixed at one end of the turnover plate close to the feeding channel.

2. The feed mechanism for pipe seam welding according to claim 1, characterized in that: the included angle between the supporting plate and the horizontal plane is 10-20 degrees, and the distance between the baffle plates on the two sides of the supporting plate is 5-10mm greater than the length of the pipe body to be welded.

3. The feed mechanism for pipe seam welding according to claim 2, characterized in that: flanges are fixed on two sides of the turnover plate, and the distance between the two flanges is equal to the distance between the baffles on two sides of the supporting plate.

4. The feed mechanism for pipe seam welding according to claim 1, characterized in that: the cylinder is an SMC brand CDQ2D20-15DMZ type thin cylinder.

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