CN218174018U - Cardboard conveyer belt upset loading attachment - Google Patents

Abstract

A turnover feeding device for a paperboard conveyor belt comprises a turnover mechanism, a first driving mechanism for driving the turnover mechanism to turn over, and a lifting conveying mechanism which is arranged on the turnover mechanism and can lift along the turnover mechanism; the lifting conveying mechanism comprises a lifting frame, a second driving mechanism for driving the lifting frame to lift, a plurality of conveying belts arranged on the lifting frame in parallel, a third driving mechanism for driving the conveying belts to run and a plurality of conveying roller groups arranged in parallel; the turnover mechanism comprises a turnover frame, a baffle arranged on the front surface of the turnover frame, a transition plate arranged between the turnover frame and the baffle, and a fourth driving mechanism for driving the transition plate to stretch. The lifting conveying mechanism can realize conveying and lifting of stacked paper boards, the turnover mechanism can realize turnover of the stacked paper boards, the whole process automatically conveys, lifts and overturns the leatheroid, manual conveying is not needed, and machining efficiency is improved.

Description

Cardboard conveyer belt upset loading attachment

Technical Field

The utility model belongs to the technical field of the conveyer belt and specifically relates to a cardboard conveyer belt material loading attachment that overturns.

Background

At present in the processing transportation to the cardboard, mostly manual material loading of manual transport is the main, because the cardboard area of treating processing is great and the back quality of piling up is heavier, consequently comparatively wastes time and energy by manual transport material loading, and production efficiency is low.

Disclosure of Invention

The utility model aims to solve the technical problem that a cardboard conveyer belt upset loading attachment is provided, carry, promote and overturn the leatheroid automatically, need not artifical transport, promote machining efficiency.

In order to solve the technical problem, the technical scheme of the utility model is that: a turnover feeding device for a paperboard conveyor belt comprises a turnover mechanism, a first driving mechanism for driving the turnover mechanism to turn over, and a lifting conveying mechanism which is arranged on the turnover mechanism and can lift along the turnover mechanism; the lifting conveying mechanism comprises a lifting frame, a second driving mechanism for driving the lifting frame to lift, a plurality of conveying belts arranged on the lifting frame in parallel, a third driving mechanism for driving the conveying belts to run and a plurality of conveying roller groups arranged in parallel; the turnover mechanism comprises a turnover frame, a baffle arranged on the front surface of the turnover frame, a transition plate arranged between the turnover frame and the baffle, and a fourth driving mechanism for driving the transition plate to stretch. The utility model discloses the principle: the stacked paper boards are conveyed into the lifting conveying mechanism through a forklift, and the third driving mechanism drives the conveying belt to relay and convey the stacked paper boards into the lifting frame; the second driving mechanism drives the lifting frame to lift the stacked paper boards, and after lifting is completed, the first driving mechanism drives the turnover frame to convey the lifting mechanism to communicate and stack the paper boards to turn over, so that the stacked paper boards can enter a conveying device of the next link at a certain angle, and automatic feeding of the paper boards is realized.

As an improvement, the first driving mechanism is a turnover oil cylinder, the back face of the turnover frame is provided with a hinged seat, and a telescopic rod of the turnover oil cylinder is connected with the hinged seat.

As an improvement, two vertical plates arranged in parallel are arranged on two sides of the roll-over stand, the second driving mechanism comprises a second motor arranged on the back of the roll-over stand, a second transmission shaft connected with the second motor, a chain wheel group arranged between the two vertical plates and a chain, the second motor drives the chain through the second transmission shaft and the chain wheel group, and the chain is connected with the lifting frame; the upper end of the vertical plate is rotatably connected with the wallboard through a rotating shaft.

As an improvement, the inner side surface of the vertical plate is provided with a slide rail, the lifting frame is provided with a slide block, and the slide block is provided with two idler wheels for clamping the slide rail.

As an improvement, the third driving mechanism comprises a third motor, a third transmission shaft connected with the third motor and a roller arranged in the conveying belt, the third motor drives the roller through the third transmission shaft, and the roller drives the conveying belt.

As an improvement, the fourth driving mechanism is arranged on a rack on the transition plate, a gear meshed with the rack, a fourth transmission shaft for driving the gear and a fourth motor for driving the fourth transmission shaft, and the transition plate is in sliding connection with the roll-over stand through the matching of the sliding rail and the sliding block.

As an improvement, the two sides of the conveying belt are provided with transverse moving rollers which are pivoted on a first support, the first support is fixed on a cross beam, and a cylinder for driving the cross beam to lift is arranged on the lifting frame.

Compared with the prior art, the utility model the beneficial effect who brings is:

the lifting conveying mechanism can realize conveying and lifting of stacked paper boards, the turnover mechanism can realize turnover of the stacked paper boards, the whole process is automatically used for conveying, lifting and turnover the leatheroid, manual conveying is not needed, and machining efficiency is improved.

Drawings

Fig. 1 is a side view of the present invention.

Fig. 2 is a front perspective view of the matching of the turnover mechanism and the lifting conveying mechanism.

Fig. 3 is a back perspective view of the matching of the turnover mechanism and the lifting conveying mechanism.

Fig. 4 is a bottom view of the turnover mechanism and the lifting conveying mechanism.

Detailed Description

The present invention will be further explained with reference to the drawings.

As shown in fig. 1, a cardboard conveyer belt turning and feeding device comprises a turning mechanism 2, a first driving mechanism 1 for driving the turning mechanism 2 to turn, and a lifting and conveying mechanism 3 installed on the turning mechanism 2 and capable of lifting along the turning mechanism 2.

As shown in fig. 2 to 4, the turnover mechanism 2 includes a turnover frame 29, a baffle plate 21 disposed on the front surface of the turnover frame 29, a transition plate 23 disposed between the turnover frame 29 and the baffle plate 21, and a fourth driving mechanism for driving the transition plate 23 to extend and retract. The surface of the baffle 21 is smooth, the baffle 21 is connected with the roll-over stand 29 through a plurality of fixing frames, a gap is arranged between the baffle 21 and the roll-over stand 29, and the transition plate 23 is arranged in the gap. The roll-over stand 29 is formed by welding a steel structure, two parallel vertical plates 22 are arranged on two sides of the roll-over stand 29, the two vertical plates 22 are connected into a whole through connecting plates, the vertical plate 22 close to the inner side is connected with the roll-over stand 29 through a bolt, and an installation gap is formed between the two vertical plates 22. The upper end of the vertical plate 22 is rotatably connected with the wall plate through a rotating shaft 24, and the first driving mechanism 1 can drive the turnover frame 29 to turn over around the rotating shaft 24. The fourth driving mechanism is arranged on a rack 27 on the transition plate 23, a gear 26 meshed with the rack 27, a fourth transmission shaft 28 for driving the gear 26 and a fourth motor 25 for driving the fourth transmission shaft 28, and the transition plate 23 is in sliding connection with the roll-over stand 29 through the matching of a sliding rail and a sliding block; when the conveying distance of the stacked paper boards needs to be prolonged, the fourth driving mechanism drives the transition plate 23 to extend out from the bottom of the baffle plate 21, the stacked paper boards enter the transition plate 23 from the baffle plate 21 for transition, and when the transition plate 23 is not needed, the transition plate 23 is collected at the bottom of the baffle plate 21.

As shown in fig. 2 to 4, the lifting and conveying mechanism 3 includes a lifting frame 38, a second driving mechanism for driving the lifting frame 38 to lift, a plurality of conveying belts 34 arranged in parallel on the lifting frame 38, a third driving mechanism for driving the conveying belts 34 to operate, and a plurality of conveying roller sets 33 arranged in parallel. The lifting conveying mechanism 3 and the turnover mechanism 2 are arranged at 90 degrees, and the lifting frame 38 is formed by welding steel structures. The second driving mechanism comprises a second motor 36 installed on the back of the roll-over stand 29, a second transmission shaft 37 connected with the second motor 36, and a chain wheel set 36 and a chain which are arranged between the two vertical plates 22, the second motor 36 drives the chain through the second transmission shaft 37 and the chain wheel set 36, the chain is connected with the lifting frame 38, and the lifting of the lifting frame 38 is realized through the forward and reverse rotation of the second motor 36. The inner side surface of the vertical plate 22 is provided with a slide rail 221, the lifting frame 38 is provided with a slide block 222, and the slide block 222 is provided with two rollers for clamping the slide rail 221, so as to improve the lifting stability of the lifting frame 38. The third driving mechanism comprises a third motor 31, a third transmission shaft 39 connected with the third motor 31 and a roller arranged in the conveying belt 34, the third motor 31 drives the roller through the third transmission shaft 39, the roller drives the conveying belt 34, and the conveying belt 34 can transfer the stacked paper boards to the interior of the lifting frame 38 in a relay manner. The two sides of the conveying belt 34 are provided with transverse moving rollers 32, the transverse moving rollers 32 are pivoted on a first support 381, the first support 381 is fixed on a cross beam 382, and an air cylinder 383 for driving the cross beam 382 to ascend and descend is arranged on the lifting frame 38; when the stack of sheets on the lift frame 38 needs to be moved laterally, the air cylinder lifts the laterally moving roller 32, and the stack of sheets is lifted and separated from the conveyor belt 34, at which time the stack of sheets can be manually moved laterally.

As shown in fig. 1, the first driving mechanism 1 is a turnover cylinder 11, the back of the turnover frame 29 is provided with a hinged seat 12, an expansion link of the turnover cylinder 11 is connected with the hinged seat 12, and the turnover mechanism is driven to rotate around a rotating shaft by the expansion of the turnover cylinder 11, so as to realize turnover.

The utility model discloses the principle: the stacked paper boards are sent into the lifting conveying mechanism 3 through a forklift, and the third driving mechanism drives the conveying belt 34 to relay and send the stacked paper boards into the lifting frame 38; the second driving mechanism drives the lifting frame 38 to lift the stacked paper boards, and after the lifting is completed, the first driving mechanism 1 drives the turnover frame 29 to enable the lifting conveying mechanism 3 to be communicated with the stacked paper boards to turn over, so that the stacked paper boards can enter a conveying device of the next link at a certain angle, and the automatic feeding of the paper boards is realized.

Claims (7)

1. The utility model provides a cardboard conveyer belt upset loading attachment which characterized in that: the device comprises a turnover mechanism, a first driving mechanism for driving the turnover mechanism to turn over and a lifting conveying mechanism which is arranged on the turnover mechanism and can lift along the turnover mechanism; the lifting conveying mechanism comprises a lifting frame, a second driving mechanism for driving the lifting frame to lift, a plurality of conveying belts arranged on the lifting frame in parallel, a third driving mechanism for driving the conveying belts to run and a plurality of conveying roller groups arranged in parallel; the turnover mechanism comprises a turnover frame, a baffle arranged on the front surface of the turnover frame, a transition plate arranged between the turnover frame and the baffle, and a fourth driving mechanism for driving the transition plate to stretch.

2. A paperboard conveyor turning and feeding device as recited in claim 1, further comprising: the first driving mechanism is a turnover oil cylinder, the back face of the turnover frame is provided with a hinged seat, and a telescopic rod of the turnover oil cylinder is connected with the hinged seat.

3. A paperboard conveyor turning and feeding device as recited in claim 1, further comprising: two vertical plates which are arranged in parallel are arranged on two sides of the turnover frame, the second driving mechanism comprises a second motor arranged on the back face of the turnover frame, a second transmission shaft connected with the second motor, a chain wheel group arranged between the two vertical plates and a chain, the second motor drives the chain through the second transmission shaft and the chain wheel group, and the chain is connected with the lifting frame; the upper end of the vertical plate is rotatably connected with the wallboard through a rotating shaft.

4. A paperboard conveyor turning and feeding device as recited in claim 3, further comprising: the inner side of the vertical plate is provided with a slide rail, the lifting frame is provided with a slide block, and the slide block is provided with two rollers for clamping the slide rail.

5. A paperboard conveyor turning and feeding device as recited in claim 1, further comprising: the third driving mechanism comprises a third motor, a third transmission shaft connected with the third motor and a roller arranged in the conveying belt, the third motor drives the roller through the third transmission shaft, and the roller drives the conveying belt.

6. A paperboard conveyor turning and feeding device as recited in claim 1, further comprising: the fourth driving mechanism is arranged on a rack on the transition plate, a gear meshed with the rack, a fourth transmission shaft for driving the gear and a fourth motor for driving the fourth transmission shaft, and the transition plate is in sliding connection with the roll-over stand through the matching of a sliding rail and a sliding block.

7. A paperboard conveyor turning and feeding device as recited in claim 1, further comprising: the two sides of the conveying belt are provided with transverse moving rollers which are pivoted on a first support, the first support is fixed on the cross beam, and the lifting frame is provided with a cylinder for driving the cross beam to lift.

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