CN212266851U - Semi-automatic paperboard processing equipment - Google Patents

Abstract

The utility model discloses semi-automatic paperboard processing equipment, wherein a rolling component is movably arranged on a frame and is in rolling fit with any one of the two conveying rollers, the rolling component comprises a roller shaft, at least one driven roller and a pressing wheel, the driven roller is respectively and coaxially arranged at the side end part of the roller shaft, and the roller surface of the driven roller is in friction transmission fit with the surface of the conveying belt; the pinch roller cup joints in the roller, pinch roller and driven roller synchronous revolution, pinch roller and corresponding conveying roller roll-in cooperation, and the diameter of pinch roller is not more than driven roller's diameter. Compared with the prior art, the processing equipment has the advantages that the rolling assembly consisting of the plurality of pressing wheels and the driven rollers is used for rolling and processing semi-finished paperboards, the pressing and pasting or the indentation and other processing procedures are carried out through the pressing wheels with different quantities and intervals, the use of special equipment in a workshop is reduced, and the enterprise cost is reduced.

Description

Semi-automatic paperboard processing equipment

Technical Field

The utility model belongs to the technical field of cardboard processing equipment technique and specifically relates to a semi-automatic cardboard processing equipment is related to.

Background

The paper board processing is an intermediate step in the paper product processing industry, and in the process from paper boards to finished products, paper product factories need to perform processes such as creasing and attaching on semi-finished paper boards, and when different semi-finished paper board processing steps are performed, different special processing equipment is needed to complete various paper board processing processes. Such paperboard processing equipment suffers from the disadvantages of functional singleness and poor serviceability, resulting in high equipment costs for the enterprise. In addition, paper product processing enterprises are facing to the current situations of complex order content, small order quantity and the like, and the existing processing equipment is difficult to bring income to the enterprises and even brings higher cost risk to the paper product enterprises. It is desirable for most paper product processing enterprises to be able to complete one or more types of paperboard processing equipment.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a semi-automatic cardboard processing equipment can accomplish the cardboard processing work of cardboard seam and laminating, reduces the use of independent special processing equipment, reduces the cost in business, improves the income of enterprise.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is: a semi-automatic paperboard processing device comprises a rack, a conveying belt device and a rolling component, wherein the conveying belt device and the rolling component are arranged on the rack; the rolling assembly is movably arranged on the frame and is in rolling fit with any one of the two conveying rollers, the rolling assembly comprises a roller shaft, at least one driven roller and a pressing wheel, the driven rollers are respectively and coaxially arranged at the side end parts of the roller shaft, and the roller surface of each driven roller is in friction transmission fit with the surface of the conveying belt; the pinch roller cup joints in the roller, pinch roller and driven roller synchronous revolution, pinch roller and corresponding conveying roller roll-in cooperation, and the diameter of pinch roller is not more than driven roller's diameter.

In a further technical scheme, the left and right sides of roller has cup jointed a driven roller respectively, and the interval forms the processing interval between these two driven rollers to these two driven rollers respectively with the surperficial friction drive fit of conveyer belt. A plurality of pinch rollers are sleeved in the processing interval, and two adjacent pinch rollers are arranged in a propping mode and/or in an interval mode.

In a further technical scheme, a middle support is arranged in the middle of the rack, two guide rods are respectively and vertically arranged on two sides of the middle support, and an adjusting mechanism is arranged on the middle support. The rolling component further comprises a roller support which is in transmission connection with the adjusting mechanism, two ends of the roller shaft are respectively connected to corresponding side portions of the roller support, the left side and the right side of the roller support are respectively provided with a guide seat, and the two guide seats are respectively in sliding connection with corresponding guide rods.

In a further technical scheme, the adjusting mechanism comprises an adjusting driving motor, the adjusting driving motor is fixed in the middle of the middle support and is provided with an output rotating shaft, and the output rotating shaft is connected with a transmission screw rod; the middle part of the roller bracket is provided with a transmission screw pair, and the transmission screw pair is in threaded connection with the transmission screw and is used for driving the rolling assembly to perform position adjustment along the guide rod in the vertical direction.

In a further technical scheme, the rack, the middle support or the roller support is provided with a distance sensor for detecting the height position of the rolling assembly, the processing equipment is provided with a control unit, the distance sensor and the conveying driving device are respectively and electrically connected to the control unit, when the rolling assembly descends to a limit low position, the distance sensor sends an alarm signal to the control unit, the control unit receives the alarm signal and then sends a braking signal to the conveying driving device, and the conveying driving device stops running.

In a further technical scheme, the guide seat is provided with a self-lubricating bearing which is sleeved on the corresponding guide rod in a sliding manner.

In a further technical scheme, a shaft body of the roll shaft is provided with at least one interval adjusting groove which extends along the axial direction of the roll shaft; the center position of pinch roller runs through and is provided with the connecting sleeve hole, and the downthehole central arch of connecting sleeve is provided with at least an inserted bar, and the connecting sleeve hole cup joints in the roller, and the inserted bar in the connecting sleeve hole slides and inserts and locate corresponding interval adjustment groove.

In a further technical scheme, the roll-in subassembly still includes a drive connection in adjustment mechanism's roller support, and roller support's both sides are provided with a connecting rod inwards in the protrusion respectively, swing joint between connecting rod and the roller support, and the both ends of roller are sunken the shaping respectively and are had a connecting hole, and the connecting hole activity is cup jointed in corresponding connecting rod to realize roll-in subassembly's quick frock.

In a further technical scheme, the pinch roller is formed by splicing two semicircular pinch roller blocks, each pinch roller block is respectively provided with at least one sunk bottom hole in a concave mode, when the two pinch roller blocks are spliced with each other, the corresponding sunk bottom holes of the two pinch roller blocks are coaxially aligned, and the two sunk bottom holes which are coaxially aligned with each other are respectively connected through a bolt.

In a further technical scheme, the rack is provided with a workbench which is positioned at the front side of the conveyer belt device so as to receive the rolled paperboard products.

After the structure is adopted, compared with the prior art, the utility model the advantage that has is: the utility model carries out rolling processing on semi-finished paperboard through the rolling component consisting of a plurality of pinch rollers and driven rollers, and carries out processing procedures such as pressing or indentation through the pinch rollers with different quantities and intervals, thereby reducing the use of special equipment in a workshop and lowering the enterprise cost; in addition, the roller assembly is adjusted in rolling height and rolling depth through the adjusting mechanism, so that the roller assembly is suitable for application of different production specifications, is accurately adjusted, and avoids roller locking; furthermore, the utility model provides a roller subassembly of adjustable pinch roller interval, the repacking is convenient, can carry out the independent assortment repacking according to product length, width and production specification, further improves the suitability of complete machine.

Drawings

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

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of another aspect of the present invention.

Fig. 3 is a schematic structural diagram of the roller assembly of the present invention.

Fig. 4 is a schematic structural diagram of the pressing wheel of the present invention.

Detailed Description

The following are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby.

A semi-automatic paperboard processing device is shown in figures 1 to 4, and comprises a frame 1, a conveying belt device and a rolling component 3, wherein the conveying belt device is arranged on the frame 1 and comprises two conveying rollers and a conveying belt 11, the conveying belt 11 is respectively sleeved on the two conveying rollers, and one conveying roller is connected with a conveying driving device 13; the rolling assembly 3 is movably arranged on the frame 1 and is in rolling fit with any one of the two conveying rollers, the rolling assembly 3 comprises a roller shaft 31, at least one driven roller 32 and a pressing wheel 33, the driven roller 32 is coaxially arranged at the side end part of the roller shaft 31 respectively, and the roller surface of the driven roller 32 is in friction transmission fit with the surface of the conveying belt; pinch roller 33 cup joints in roller 31, and pinch roller 33 and driven roller 32 synchronous revolution, pinch roller 33 and corresponding conveying roller roll-in cooperation, and the diameter of pinch roller 33 is not more than the diameter of driven roller.

Specifically, a driven roller 32 has been cup jointed respectively to the left and right sides of roller, and the interval forms the processing interval between these two driven rollers 32 to these two driven rollers 32 respectively with the surperficial friction transmission cooperation of conveyer belt 11, the processing interval endotheca is equipped with a plurality of pinch rollers 33, lean on between two adjacent pinch rollers 33 to set up and/or the interval sets up. When the product is conveyed to pass through the processing section, the rolling treatment is carried out under the rolling action of the corresponding pinch roller 33 and the conveying roller, and indentation rolling or laminating rolling can be realized.

Specifically, the middle of the frame 1 is provided with a middle bracket 21, two sides of the middle bracket 21 are respectively and vertically provided with a guide rod 23, the middle bracket 21 is provided with an adjusting mechanism, the rolling assembly 3 further comprises a roller bracket 34 in transmission connection with the adjusting mechanism, two ends of the roller shaft 31 are respectively connected to corresponding side portions of the roller bracket 34, the left side and the right side of the roller bracket 34 are respectively provided with a guide seat 342, and the two guide seats 342 are respectively and slidably connected to the corresponding guide rods 23. The roller assembly 3 is subjected to height adjustment through the adjusting mechanism, so that the adjustment of the indentation depth or the fitting strength is realized, the operation is simple, and the applicability is wide.

Preferably, the adjusting mechanism comprises an adjusting drive motor 22, the adjusting drive motor 22 is fixed in the middle of the middle bracket 21, the adjusting drive motor 22 is provided with an output rotating shaft, and the output rotating shaft is connected with a transmission screw rod; the middle of the roller bracket 34 is provided with a transmission screw pair 341, and the transmission screw pair 341 is in threaded connection with the transmission screw for driving the rolling assembly 3 to perform position adjustment in the up-down direction along the guide rod 23. The roller assembly 3 is driven by the screw rod structure to perform height adjustment, and the roller assembly has the advantages of high precision, strong transmission rigidity and the like, and is suitable for rolling adjustment.

Specifically, the frame 1, the middle support 21 or the roller support 34 are provided with a distance sensor for detecting the height position of the rolling component 3, the processing equipment is provided with a control unit, the distance sensor and the conveying driving device 13 are respectively and electrically connected to the control unit, when the rolling component 3 is lowered to the limit low position, the distance sensor sends an alarm signal to the control unit, the control unit receives the alarm signal and then sends a braking signal to the conveying driving device 13, and the conveying driving device 13 stops running. The locking condition between the driven roller 32 and the conveying roller can be prevented, the damage of corresponding components is caused, and the stability and the reliability of the operation of the equipment are further improved.

Preferably, the guide base 342 is mounted with self-lubricating bearings slidably received in the corresponding guide rods 23. This structure can guarantee that roller subassembly 3 can be in high levelness, avoids the condition of high low pinch roller 33, further improves the stability of complete machine operation to and improve the roll-in quality.

Specifically, the shaft body of the roller shaft 31 is provided with at least one interval adjusting groove 311 extending in the axial direction thereof; a connecting sleeve hole 330 is formed through the center of the pressing wheel 33, at least one inserting rod 331 is arranged in the connecting sleeve hole 330 in a protruding manner towards the center, the connecting sleeve hole 330 is sleeved on the roller shaft 31, and the inserting rod 331 in the connecting sleeve hole 330 is slidably inserted into the corresponding distance adjusting groove 311. This structure carries out centre gripping frock through the inserted bar 331 of two activities settings to roller 31, simple structure, and rotation accuracy is high, satisfies roll-in job requirement, and the repacking is fast moreover, shortens the repacking cycle, improves enterprise productivity ratio.

Specifically, roll-in subassembly 3 still includes that a transmission connects in adjustment mechanism's roller support 34, and roller support 34's both sides are provided with a connecting rod inwards in the protrusion respectively, swing joint between connecting rod and the roller support 34, and the both ends of roller 31 are sunken the shaping respectively and are had a connecting hole 310, and connecting hole 310 activity is cup jointed in corresponding connecting rod to realize roll-in subassembly 3's quick frock.

Specifically, pinch roller 33 is formed by the concatenation of two semicircle shape pinch roller pieces 3301, and every pinch roller piece 3301 caves in respectively and has seted up at least one heavy bottom hole 3300, and when two pinch roller pieces 3301 spliced each other, these two corresponding heavy bottom holes 3300 of pinch roller piece 3301 align coaxially, connect through a bolt 3302 respectively between two heavy bottom holes 3300 that align coaxially each other.

In particular, the frame 1 is provided with a table 12, which table 12 is located at the front side of the conveyor means to receive the rolled-in cardboard product.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. The utility model provides a semi-automatic cardboard processing equipment which characterized in that: the processing equipment comprises a frame (1), a conveying belt device arranged on the frame (1) and a rolling component (3),

the conveying belt device comprises two conveying rollers and a conveying belt (11), the conveying belt (11) is sleeved on the two conveying rollers respectively, and one conveying roller is connected with a conveying driving device (13);

the rolling component (3) is movably arranged on the frame (1) and is in rolling fit with any one of the two conveying rollers, the rolling component (3) comprises a roller shaft (31), at least one driven roller (32) and a pressing wheel (33), the driven roller (32) is coaxially arranged at the side end part of the roller shaft (31), and the roller surface of the driven roller (32) is in friction transmission fit with the surface of the conveying belt; pinch roller (33) cup joints in roller (31), and pinch roller (33) and driven roller (32) synchronous revolution, and pinch roller (33) and corresponding conveying roller roll-in cooperation, the diameter of pinch roller (33) is not more than the diameter of driven roller (32).

2. A semi-automatic paperboard processing apparatus as recited in claim 1, wherein: the left side and the right side of the roll shaft are respectively sleeved with one driven roller (32), a processing interval is formed between the two driven rollers (32), the two driven rollers (32) are respectively in friction transmission fit with the surface of the conveying belt (11),

a plurality of pinch rollers (33) are sleeved in the machining interval, and two adjacent pinch rollers (33) are arranged in an abutting mode and/or at intervals.

3. A semi-automatic paperboard processing apparatus as recited in claim 2, wherein: a middle bracket (21) is arranged in the middle of the frame (1), two guide rods (23) are respectively and vertically arranged on two sides of the middle bracket (21), an adjusting mechanism is arranged on the middle bracket (21),

the rolling assembly (3) further comprises a roller support (34) connected to the adjusting mechanism in a transmission mode, two ends of the roller shaft (31) are connected to corresponding side portions of the roller support (34) respectively, guide seats (342) are arranged on the left side and the right side of the roller support (34) respectively, and the two guide seats (342) are connected to corresponding guide rods (23) in a sliding mode respectively.

4. A semi-automatic paperboard processing apparatus of claim 3, wherein: the adjusting mechanism comprises an adjusting driving motor (22), the adjusting driving motor (22) is fixed in the middle of the middle support (21), the adjusting driving motor (22) is provided with an output rotating shaft, and the output rotating shaft is connected with a transmission screw rod; the middle part of the roller support (34) is provided with a transmission screw pair (341), and the transmission screw pair (341) is in threaded connection with the transmission screw and is used for driving the rolling component (3) to adjust the position in the vertical direction along the guide rod (23).

5. A semi-automatic paperboard processing apparatus of claim 4, wherein: the frame (1), the intermediate support (21) or the roller support (34) is provided with a distance sensor for detecting the height position of the rolling component (3),

the processing equipment is provided with a control unit, the distance sensor and the conveying driving device (13) are respectively and electrically connected to the control unit, when the rolling component (3) descends to the limit low position, the distance sensor sends an alarm signal to the control unit, the control unit receives the alarm signal and then sends a braking signal to the conveying driving device (13), and the conveying driving device (13) stops running.

6. A semi-automatic paperboard processing apparatus of claim 5, wherein: the guide seat (342) is provided with a self-lubricating bearing which is sleeved on the corresponding guide rod (23) in a sliding manner.

7. A semi-automatic paperboard processing apparatus as recited in claim 1, wherein: the shaft body of the roll shaft (31) is provided with at least one interval adjusting groove (311) extending along the axial direction of the roll shaft; the center position of pinch roller (33) is provided with through connecting trepanning (330), and the bulge towards the center is provided with at least one inserted bar (331) in connecting trepanning (330), and connecting trepanning (330) cup joints in roller (31), and inserts in the inserted bar (331) of connecting trepanning (330) and slide and insert and locate corresponding interval adjustment tank (311).

8. A semi-automatic paperboard processing apparatus of claim 7 wherein: roll-in subassembly (3) still include a transmission and connect in adjustment mechanism's roller support (34), and the both sides of roller support (34) are provided with a connecting rod in the protrusion inwards respectively, swing joint between connecting rod and roller support (34), the both ends of roller (31) are sunken the shaping respectively and are had a connecting hole (310), and connecting hole (310) activity is cup jointed in corresponding connecting rod to realize roll-in subassembly (3) quick frock.

9. A semi-automatic paperboard processing apparatus of claim 8 wherein: pinch roller (33) are formed by the concatenation of pinch roller piece (3301) of two semicircle shapes, and every pinch roller piece (3301) is sunken respectively and is seted up at least one and sinks bottom hole (3300), and when two pinch roller pieces (3301) splice each other, corresponding that these two pinch roller pieces (3301) sinks bottom hole (3300) coaxial alignment, connects through a bolt (3302) respectively between two that coaxial alignment each other sinks bottom hole (3300).

10. A semi-automatic paperboard processing apparatus according to claim 1 or claim 7, wherein: the machine frame (1) is provided with a workbench (12), and the workbench (12) is positioned on the front side of the conveying belt device to receive rolled paperboard products.

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