CN210475094U - Common plate flange machine capable of automatically turning plates - Google Patents

Abstract

The utility model discloses a plate sharing flange machine capable of automatically turning plates, belonging to the technical field of air pipe production equipment, it includes the frame, the frame top is provided with the flange quick-witted body, flange quick-witted body one end is formed with the feed inlet, the flange quick-witted body is formed with the discharge gate, the one end that the frame is close to the discharge gate is connected with first conveyer belt, the position department that the frame corresponds first conveyer belt one side is connected with the second conveyer belt, the frame rotates and is connected with the upset piece, first turn-over groove has been seted up to the upset piece, the frame rotates and is connected with the upset roller, the width direction setting of frame is followed to the upset roller, a plurality of second turn-over grooves have been seted up to the upset roller side, the frame is connected with the third conveyer belt that sets up along second conveyer belt length direction, the third conveyer belt is located one side that the upset roller kept away from the second conveyer belt, the utility model has the effect of transporting the panel.

Description

Common plate flange machine capable of automatically turning plates

Technical Field

The utility model belongs to the technical field of the technique of tuber pipe production facility and specifically relates to a can automatic upset panel altogether flange machine is related to.

Background

The common-plate flange machine is special equipment for forming flanges at the connection ports of the plates of the air pipes. The common-plate flange system is one of systems with large flange connection quantity for the international air duct manufacturing method, has the characteristic of convenience, and is particularly suitable for air duct production with small cross-sectional area. The plate-shared flange system can be used for large-scale industrial production and is a high-efficiency air pipe flange system. Has good rigidity and stability, and the shape of the sports forming is beautiful and smooth. The simple full-automatic air duct production line can be formed by combining the rib pressing machine, the plate shearing machine, the common-plate flange flanging machine and the like, the machine is rigorous in structure and good in performance, the cost is saved for customers, the expenditure is reduced, and the machine is the best choice for small-sized production customers.

The prior art can refer to Chinese patent with application publication number CN102909246A, which discloses a whole-beam type co-slab flange machine, which is characterized by comprising a frame, wherein a lower whole beam is arranged on the frame, an upper whole beam is arranged on the lower whole beam, a plurality of pairs of gears, a plurality of pairs of press rolls and inclined press rolls are arranged on the upper whole beam, and the upper whole beam is an integral solid steel beam.

The above prior art solutions have the following drawbacks: present flange machine altogether all can only carry out the shaping operation to one side of panel, and in the in-service use, need carry out the shaping operation to the both sides of panel, and at this moment, present flange machine altogether all need manually take out panel, takes feed inlet position department with panel from discharge gate position department to put into the feed inlet again and carry out the shaping operation to the panel opposite side, waste time and energy, inefficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can automatic upset panel altogether flange machine can realize transporting the panel after one side shaping to feed inlet position department and upset to the opposite side by discharge gate position department and towards the effect of the state of feed inlet.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a common-plate flange machine capable of automatically turning plates comprises a machine base, wherein a flange machine body used for processing the plates is arranged at the top of the machine base, a feed inlet is formed in one end of the flange machine body, a discharge outlet is formed in one end, far away from the feed inlet, of the flange machine body, a first conveying belt capable of conveying the plates along the length direction of the machine base is connected to one end, close to the discharge outlet, of the machine base, a second conveying belt parallel to the first conveying belt is connected to the position, corresponding to one end, far away from the discharge outlet, of the first conveying belt, of the machine base, a turning block is rotatably connected to the position, corresponding to the end, far away from the discharge outlet, of the machine base, one side face of the turning block can be abutted to the upper surface of the first conveying belt, the turning block can rotate to the other position, abutted, a first turnover groove for inserting the plates is formed in the end face, close to the discharge hole, of the turnover block; a third conveyor belt arranged along the length direction of the second conveyor belt is arranged at the position, corresponding to one end of the second conveyor belt, far away from the turnover block, of the base; the machine base is connected with a turnover roller in a rotating mode at a position, corresponding to the position between the second conveyor belt and the third conveyor belt, of the machine base, the turnover roller is arranged in the width direction of the machine base, and a plurality of second turnover grooves for inserting plates are formed in the side face of the turnover roller.

Through adopting above-mentioned scheme, being pushed out from the discharge gate when panel, can falling on first conveyer belt, being carried to upset piece position department by first conveyer belt, at this moment, the one end that panel is close to the upset piece is pegged graft in first upset groove, and the upset piece rotates to the position department that corresponds the second conveyer belt top from the position department that corresponds first conveyer belt top, realizes the upset of controlling panel. When panel was conveyed by the second conveyer belt and is pegged graft in second upset groove, the upset roller rotates, moves panel upset to the third conveyer belt on, realizes the positive and negative upset to panel, realizes the effect of the one side that is not buckled with panel towards the flange machine body.

The utility model discloses further set up to: the plate conveying device is characterized in that a cylinder body of a push-pull cylinder is fixedly connected to one end, close to the feeding port, of the base, a piston rod of the push-pull cylinder is horizontally arranged, a push-pull block is fixedly connected to the piston rod of the push-pull cylinder and arranged along the length direction of the base, the push-pull cylinder can drive the push-pull block to move from one side, far away from the feeding port, of the third conveying belt to the direction close to the feeding port, and the third conveying belt can convey plates to the position of the push-pull block.

Through adopting above-mentioned scheme, when the third conveyer belt carried panel to push-and-pull piece position department, push-and-pull piece can be under push-and-pull cylinder's drive with panel to the direction propelling movement that is close to the feed inlet, and the one side that makes panel be close to flange machine body gets into flange machine body from the feed inlet and buckles.

The utility model discloses further set up to: and when the third conveyor belt conveys the plate to the position of the push-pull block, one side of the plate close to the push-pull block can be inserted into the push-pull groove.

By adopting the scheme, when the third conveying belt conveys the plate to the position of the push-pull block, the plate can be inserted into the push-pull groove, and the push-pull groove can further limit the plate, so that the plate can be smoothly pushed into the flange machine body.

The utility model discloses further set up to: the machine base is fixedly connected with a first overturning motor at the position corresponding to the overturning block, the first overturning motor is positioned at the position between the first conveying belt and the second conveying belt, and one end of the overturning block is fixedly connected to an output shaft of the first overturning motor.

Through adopting above-mentioned scheme, the upset piece rotates to the position department that corresponds the second conveyer belt top from the position department that corresponds first conveyer belt top under the drive of first upset motor, can realize automatic turning over about panel.

The utility model discloses further set up to: the machine base is fixedly connected with a second overturning motor at the position corresponding to the overturning roller, and the overturning roller is fixedly connected to an output shaft of the second overturning motor.

Through adopting above-mentioned scheme, the upset roller can rotate automatically under the drive of second upset motor, rotates the in-process, can overturn panel to the third conveyer belt on, realizes automatic effect of carrying out the positive and negative upset to panel.

The utility model discloses further set up to: and an elastic buffer layer is fixedly connected to the position, close to the second overturning groove, of the overturning roller.

Through adopting above-mentioned scheme, on the one hand, the buffer layer can reduce the damage of panel to the upset roller of second upset trench position department, and on the other hand, the buffer layer can let the resistance that receives behind panel insertion second upset trench bigger to it is more stable to make panel peg graft.

The utility model discloses further set up to: the machine base is fixedly connected with a vertically arranged side baffle at the position corresponding to one side of the second conveyor belt far away from the first conveyor belt.

Through adopting above-mentioned scheme, the baffle can reduce when panel is by upset piece upset to the second conveyer belt because the probability of inertia departure second conveyer belt, the stability of lifting means operation.

The utility model discloses further set up to: the top of the machine base is close to a support beam fixedly connected to the position of the flange machine body and arranged along the length direction of the machine base, and the length of the support beam is equal to the distance between the feed inlet and the discharge outlet.

By adopting the scheme, in the process that the plate passes through the flange machine body, the bending probability can be reduced under the supporting action of the supporting beam on one side of the plate far away from the flange machine body.

The utility model discloses further set up to: and an insertion groove with the height larger than that of the second overturning groove is formed in the position, close to the second overturning groove, on the surface of the overturning roller.

Through adopting above-mentioned scheme, when panel inserted the second reversal groove, the great height of insertion groove can let panel insert the insertion groove more easily to continue to impel to inserting in the second upset groove, thereby promote the smooth degree of upset roller position department equipment operation.

The utility model discloses further set up to: the position of the turning block close to the first turning groove is fixedly connected with an elastic rubber layer.

Through adopting above-mentioned scheme, the elasticity on rubber layer can effectively disperse panel along with the power of first conveyer belt motion in-process to the upset piece to realize the effect of extension upset piece's life.

To sum up, the utility model discloses following beneficial effect has:

1. the automatic forming device can automatically form one side of a plate and then form the other side of the plate, so that labor is saved;

2. the service life of the equipment can be effectively prolonged;

3. each part of the equipment supplies energy independently, and can be convenient for personnel to adjust the equipment in the whole equipment operation process.

Drawings

FIG. 1 is an overall schematic view of the present embodiment;

FIG. 2 is a partial cross-sectional view of a body portion of the embodiment of the flanged machine;

fig. 3 is a partial cross-sectional view of a protruding first conveyor belt structure of an embodiment;

FIG. 4 is a partial schematic view of a bump-over-bump structure in an embodiment;

FIG. 5 is a partial schematic view of a second belt structure according to an embodiment;

FIG. 6 is a partial schematic view of an embodiment highlighting the location of a third conveyor belt;

FIG. 7 is an enlarged view of portion A of FIG. 6;

fig. 8 is a partial schematic view of a structure of a protruding push-pull cylinder in the embodiment.

In the figure, 1, a machine base; 11. a flange machine body; 111. a feed inlet; 112. a discharge port; 12. a side dam; 13. a push-pull cylinder; 131. a push-pull block; 132. a push-pull groove; 14. a support beam; 2. a turnover mechanism; 21. a first conveyor belt; 22. a second conveyor belt; 23. turning over the block; 231. a first flipping motor; 232. a first overturning groove; 233. a rubber layer; 24. turning over the roller; 241. a second overturning groove; 242. a second turnover motor; 243. inserting the groove; 244. a buffer layer; 25. a third conveyor belt; 3. a plate material.

Detailed Description

Example (b): a common-plate flange machine capable of automatically turning plates 3 is shown in figure 1 and comprises a machine base 1, a flange machine body 11 used for bending the plates 3 is arranged at the top of the machine base 1, and a turning mechanism 2 used for turning the plates 3 is connected to the machine base 1. When using, with 3 one sides propelling movement of panel to flange quick-witted body 11 in, flange quick-witted body 11 can buckle panel 3, and panel 3 after buckling can be overturned by tilting mechanism 2, makes panel 3 not get into flange quick-witted body 11 by the one side of buckling in, realizes the processing of buckling to 3 both sides of panel.

As shown in fig. 1 and 2, an inlet 111 is formed at one end of the flange machine body 11, and an outlet 112 is formed at one end of the flange machine body 11 away from the inlet 111. The top of the machine base 1 is fixedly connected with a supporting beam 14 arranged along the length direction of the machine base 1 at a position close to the flange machine body 11, and the length of the supporting beam 14 is equal to the distance between the feeding hole 111 and the discharging hole 112. During the process that the plate 3 passes through the flange machine body 11, the side of the plate 3 far away from the flange machine body 11 can reduce the probability of bending under the supporting action of the supporting beam 14. Thereby improving the smoothness of the process of the plate 3 passing through the flange machine body 11.

As shown in fig. 3 and 4, the turnover mechanism 2 includes a first conveyor belt 21 connected to one end of the frame 1 near the discharge port 112 and capable of conveying the sheet material 3 in a longitudinal direction of the frame 1. A second conveyor belt 22 (see fig. 1) arranged in parallel with the first conveyor belt 21 is connected to the machine base 1 at a position corresponding to one side of the first conveyor belt 21. The machine base 1 corresponds first conveyer belt 21 and the position department fixedly connected with first upset motor 231 between the second conveyer belt 22, and the output shaft of first upset motor 231 sets up along the length direction of first conveyer belt 21, fixedly connected with upset piece 23 on the output shaft of first upset motor 231, and upset piece 23 can be at the vertical section internal rotation. The end face, close to the discharge hole 112, of the turnover block 23 is provided with a first turnover groove 232 for the plate 3 to be spliced, the first conveyor belt 21 can convey the plate 3 to the position of the turnover block 23, and at the moment, one end, close to the turnover block 23, of the plate 3 can be spliced in the first turnover groove 232. When the plate 3 is pushed out from the discharge port 112, the plate 3 falls on the first conveyor belt 21 and is conveyed to the position of the turning block 23 by the first conveyor belt 21, at this time, one end of the plate 3 close to the turning block 23 is inserted into the first turning groove 232, and the turning block 23 is driven by the first turning motor 231 to rotate from the position corresponding to the upper part of the first conveyor belt 21 to the position corresponding to the upper part of the second conveyor belt 22, so that the plate 3 is turned left and right.

As shown in fig. 4, an elastic rubber layer 233 is fixedly attached to the turning block 23 at a position close to the first turning groove 232. The elasticity of the rubber layer 233 can effectively disperse the force of the plate 3 on the turning block 23 in the process of moving along with the first conveyor belt 21, thereby achieving the effect of prolonging the service life of the turning block 23.

As shown in fig. 5, a side guard 12 disposed along the length direction of the second conveyor belt 22 is fixedly connected to the machine base 1 at a position corresponding to a side of the second conveyor belt 22 away from the first conveyor belt 21. The baffle can reduce the probability that the plate 3 flies out of the second conveyor belt 22 due to inertia when being turned over to the second conveyor belt 22 by the turning block 23, and the running stability of the equipment is improved.

As shown in fig. 5 and 6, the machine base 1 is rotatably connected with the turning roller 24 at a position corresponding to one end, close to the feed inlet 111, of the second conveyor belt 22, the turning roller 24 is arranged along the width direction of the machine base 1, the side surface of the turning roller 24 is provided with a plurality of second turning grooves 241 arranged along the length direction of the turning shaft, all the second turning grooves 241 are arranged along the circumference array of the longitudinal section of the turning roller 24, the second conveyor belt 22 can transport the plate 3 to the position of the turning roller 24, and at the moment, one end, close to the turning roller 24, of the plate 3 can be inserted into the second turning groove 241. The machine base 1 is fixedly connected with a second turnover motor 242 at the position corresponding to the turnover roller 24, and the turnover roller 24 is fixedly connected to the output shaft of the second turnover motor 242. The side of the machine base 1 close to the turning roller 24 is connected with a third conveyor belt 25 arranged along the length direction of the second conveyor belt 22, and the third conveyor belt 25 is positioned on the side of the turning roller 24 far away from the second conveyor belt 22. When panel 3 is pegged graft in second upset groove 241, upset roller 24 can rotate under the drive of second upset motor 242, moves panel 3 upset to third conveyer belt 25 on, realizes the positive and negative upset to panel 3, realizes the effect of the one side that is not buckled with panel 3 towards flange machine body 11.

As shown in fig. 7, an insertion groove 243 having a height greater than that of the second flipping groove 241 is opened on the surface of the flipping roller 24 near the second flipping groove 241. The insertion groove 243 is provided to allow the sheet material 3 to be more easily inserted into the second flipping groove 241. A buffer layer 244 having elasticity is fixedly connected to the turning roller 24 at a position close to the second turning groove 241. On the one hand, buffer layer 244 can reduce the damage of panel 3 to the upset roller 24 of second upset groove 241 position department, and on the other hand, buffer layer 244 can let the resistance that panel 3 received after inserting second upset groove 241 bigger to it is more stable to make panel 3 peg graft.

As shown in fig. 8, a cylinder body of the push-pull cylinder 13 is fixedly connected to one end of the machine base 1 close to the feeding port 111, and a piston rod of the push-pull cylinder 13 is horizontally arranged. A push-pull block 131 arranged along the length direction of the machine base 1 is fixedly connected to the piston rod of the push-pull cylinder 13. The push-pull cylinder 13 can drive the push-pull block 131 to move from the side of the third conveyor belt 25 far away from the feeding hole 111 to the direction close to the feeding hole 111, and the third conveyor belt 25 can convey the plate 3 to the position of the push-pull block 131. The surface of the push-pull block 131 close to the feeding hole 111 is provided with a push-pull groove 132, and when the third conveyor belt 25 conveys the plate 3 to the position of the push-pull block 131, one side of the plate 3 close to the push-pull block 131 can be inserted into the push-pull groove 132. When the third conveyor belt 25 conveys the plate 3 to the position of the push-pull block 131, the push-pull block 131 can push the plate 3 to the direction close to the feed opening 111 under the driving of the push-pull cylinder 13, so that the side of the plate 3 close to the flange machine body 11 enters the flange machine body 11 from the feed opening 111 to be bent.

The using method comprises the following steps: when the flange machine is used, one side of the plate 3 is inserted into the feed port 111, and the plate 3 is bent by the flange machine body 11 and pushed out from the discharge port 112. At this time, the sheet material 3 falls on the first conveyor belt 21, is turned left and right by the turning block 23, falls on the second conveyor belt 22, is then turned right and left by the turning roller 24, and falls on the third conveyor belt 25. At this moment, the side of the plate 3 which is not bent can be opposite to the flange machine body 11, when the plate 3 is conveyed to the position of the pushing and pulling block 131 by the third conveyor belt 25, the pushing and pulling block 131 can push the plate 3 to the direction of the flange machine body 11, so that the side of the plate 3 which is not bent enters from the feed inlet 111, and the effect of automatically bending the two sides of the plate 3 is realized.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a can overturn board altogether flange machine of panel automatically, includes frame (1), frame (1) top is provided with flange machine body (11) that are used for carrying out panel (3) processing, feed inlet (111) have been seted up to flange machine body (11) one end, keep away from flange machine body (11) discharge gate (112), its characterized in that have been seted up to the one end of feed inlet (111): one end of the machine base (1) close to the discharge hole (112) is connected with a first conveying belt (21) capable of conveying the plate (3) along the length direction of the machine base (1), a second conveyor belt (22) which is arranged in parallel with the first conveyor belt (21) is connected at the position of the machine base (1) corresponding to one side of the first conveyor belt (21), the machine base (1) is rotatably connected with an overturning block (23) at the position corresponding to one end of the first conveyor belt (21) far away from the discharge hole (112), one side surface of the turning block (23) can be abutted against the upper surface of the first conveyor belt (21), the overturning block (23) can rotate to the position where the other side surface of the overturning block (23) is abutted with the upper surface of the second conveyor belt (22), a first overturning groove (232) for inserting the plate (3) is formed in the end face, close to the discharge hole (112), of the overturning block (23);

a third conveyor belt (25) arranged along the length direction of the second conveyor belt (22) is arranged at one end of the machine base, which corresponds to the second conveyor belt (22) and is far away from the turning block (23);

frame (1) corresponds second conveyer belt (22) with position department between third conveyer belt (25) rotates and is connected with upset roller (24), upset roller (24) are followed the width direction of frame (1) sets up, a plurality of confession panel (3) male second upset grooves (241) have been seted up to upset roller (24) side.

2. A co-slab flange machine capable of automatically turning slabs according to claim 1, characterized in that: the plate conveying device is characterized in that a cylinder body of a push-pull cylinder (13) is fixedly connected to one end, close to the feeding hole (111), of the base (1), a piston rod of the push-pull cylinder (13) is horizontally arranged, a push-pull block (131) is fixedly connected to the piston rod of the push-pull cylinder (13) and arranged along the length direction of the base (1), the push-pull cylinder (13) can drive the push-pull block (131) to move from one side, far away from the feeding hole (111), of the third conveying belt (25) to the direction close to the feeding hole (111), and the third conveying belt (25) can convey a plate (3) to the position of the push-pull block (131).

3. A co-slab flange machine capable of automatically turning slabs according to claim 2, characterized in that: and a push-pull groove (132) is formed in the surface, close to the feeding hole (111), of the push-pull block (131), and when the third conveyor belt (25) conveys the plate (3) to the position of the push-pull block (131), one side, close to the push-pull block (131), of the plate (3) can be inserted into the push-pull groove (132).

4. A co-slab flange machine capable of automatically turning slabs according to claim 1, characterized in that: the machine base (1) is fixedly connected with a first overturning motor (231) at a position corresponding to the overturning block (23), the first overturning motor (231) is located at a position between the first conveyor belt (21) and the second conveyor belt (22), and one end of the overturning block (23) is fixedly connected to an output shaft of the first overturning motor (231).

5. A co-slab flange machine capable of automatically turning slabs according to claim 1, characterized in that: the machine base (1) is fixedly connected with a second overturning motor (242) at a position corresponding to the overturning roller (24), and the overturning roller (24) is fixedly connected to an output shaft of the second overturning motor (242).

6. A co-slab flange machine capable of automatically turning slabs according to claim 1, characterized in that: an elastic buffer layer (244) is fixedly connected to the position, close to the second overturning groove (241), of the overturning roller (24).

7. A co-slab flange machine capable of automatically turning slabs according to claim 1, characterized in that: the machine base (1) is fixedly connected with a side baffle (12) which is arranged along the length direction of the machine base (1) at the position corresponding to one side, away from the first conveyor belt (21), of the second conveyor belt (22).

8. A co-slab flange machine capable of automatically turning slabs according to claim 1, characterized in that: the top of the machine base (1) is close to the position of the flange machine body (11), and a supporting beam (14) arranged along the length direction of the machine base (1) is fixedly connected with the top of the machine base.

9. A co-slab flange machine capable of automatically turning slabs according to claim 1, characterized in that: an insertion groove (243) with the height larger than that of the second overturning groove (241) is formed in the position, close to the second overturning groove (241), on the surface of the overturning roller (24).

10. A co-slab flange machine capable of automatically turning slabs according to claim 1, characterized in that: the position of the turning block (23) close to the first turning groove (232) is fixedly connected with an elastic rubber layer (233).

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