CN221314437U - Slitter edge vacuum sucking and conveying device of slitter machine - Google Patents

Abstract

The utility model relates to a slitter edge vacuum suction and delivery device of a slitter machine, which is characterized by comprising the following components: the straight pipe group consists of a plurality of straight pipes and a wind nozzle, wherein the wind nozzle is connected between the two straight pipes in a sealing way, and the wind nozzle is arranged in the wind nozzle; the material sucking mechanism comprises a plurality of slitter edge suction nozzles, and flexible pipelines are connected to the slitter edge suction nozzles in a sealing manner; the flexible pipeline is connected with the flexible pipeline in a sealing way, and the flexible pipeline is connected with the waste edge suction nozzle through a connecting piece; the slitter edge suction nozzle is connected to the frame; the value range of the angle theta between the connecting piece and the wind nozzle is 30-60 degrees. The utility model has the advantages that the suction force and the power for blowing out the slitter edges are stable, and the higher the speed for blowing out the slitter edges is, the stronger the suction force is generated.

Description

Slitter edge vacuum sucking and conveying device of slitter machine

Technical Field

The utility model relates to the field of adsorption equipment, in particular to a slitter edge vacuum suction and delivery device of a slitter machine.

Background

At present, most production links, such as weaving, bag making, papermaking and other related production equipment, have the condition of actively cutting off or passively producing slitter edges and slitter filaments, and need to be cleaned in time, so that the normal production links are prevented from being influenced. The waste edges are generally subjected to adsorption treatment by adsorption equipment.

The waste edge absorbing device disclosed by publication No. CN204977585U provides the following technical scheme: the dust collection device comprises a box body, a partition plate and a dust collection device, wherein the box body is internally divided into a waste box and a dust collection box through the partition plate, the air suction end of the dust collection device is connected with the waste box through a dust screen, the air outlet end of the dust collection device is connected with the outside, a guide pipe is arranged in the waste box, one end of the guide pipe is connected with an external extension pipe, the other end of the guide pipe extends to the bottom of the waste box, and a discharge hole is formed in the lower portion of the waste box. It adsorbs the slitter edge through dust extraction structure, but the production of this type of adsorption equipment and the cost of maintaining are higher, need comparatively frequent clearance process, and adsorption noise is big, influences workshop environment.

Disclosure of utility model

The utility model provides a slitter edge sucking and conveying system which adopts a nozzle design to generate negative pressure, generates suction force at a slitter edge suction nozzle, finally sucks and conveys slitter edges out to obtain a slitter edge sucking and conveying system of a slitter machine, and is used for sucking and conveying slitter edges after coiled materials are slit according to specifications. The device has the advantages that the suction force and the power for blowing out the slitter edges are stable, and the suction force generated by the higher the speed for blowing out the slitter edges is stronger.

The utility model provides the following technical scheme: slitter edge vacuum suction and delivery device of slitter machine, comprising:

The straight pipe group consists of a plurality of straight pipes and a wind nozzle, wherein the wind nozzle is connected between the two straight pipes in a sealing way, and the wind nozzle is arranged in the wind nozzle; the material sucking mechanism comprises a plurality of slitter edge suction nozzles, and flexible pipelines are connected to the slitter edge suction nozzles in a sealing manner; the flexible pipeline is connected with the flexible pipeline in a sealing way, and the flexible pipeline is connected with the waste edge suction nozzle through a connecting piece;

The slitter edge suction nozzle is connected to the frame;

The value range of the angle theta between the connecting piece and the wind nozzle is 30-60 degrees. The straight pipe group at least comprises two straight pipes, the two straight pipes are respectively connected to two outlets on the upper side and the lower side of the wind nozzle, namely the wind nozzle is ensured to be positioned between the two straight pipes, and the middle position of the straight pipe group is ensured. Under the condition of a plurality of straight pipes, the straight pipes are divided into two groups, and are connected end to end in sequence and connected to two outlets on the upper side and the lower side of the tuyere. The straight tube group is arranged in the vertical direction, sealing connection is ensured between the straight tubes, between the straight tubes and the fan sleeve, and between the straight tubes and the air nozzle, and the straight tube group can be fixed by iron wires or anchor clamps and other parts. The wind nozzle is arranged at the bottom of the wind nozzle and is a venturi tube, the wind nozzle is conical, the wind inlet is large, the wind outlet is small, and the wind inlet is connected with the straight tube. The flexible pipeline is a corrugated pipe and has the advantages of low cost, good mechanical property, good wear resistance and the like. The connecting piece can be a three-way pipe communicating vessel. The connecting piece is connected into the tuyere, and the sealing performance can be ensured by means of bonding, welding and the like of an adhesive. The connecting piece is in sealing connection with the flexible pipeline, and tools such as nails can be adopted. The frame is the cutting machine frame, waste material suction opening sets up in the lower position in middle part, and work piece and slitter edge through the prepositive process such as cutting pass through slitter edge suction nozzle, and the great slitter edge suction nozzle of work piece weight is inhaled motionless. So that waste material can enter the flexible duct through the slitter edge suction nozzle.

Further, the fan is arranged at the bottom of the frame and is an air supply fan, a fan sleeve is arranged on the fan, and the fan sleeve is connected with the straight pipe. Generally, the fan is arranged on the ground, so that heat dissipation is facilitated, the air supply fan indicates that air is blown out from the fan, enters the air nozzle through the fan sleeve and the straight pipe, and is blown out from the straight pipe; the air outlet of the air nozzle is high in air speed, the pressure at the air outlet is low, suction force is generated by vacuum, waste sucked by the waste edge suction nozzle enters the air nozzle, and ascending air flow at the air outlet of the air nozzle is blown out through the waste edge blowing-out port.

Further, the wind nozzle is arranged in the wind nozzle and is close to one side of the fan; the wind nozzle is a conical body with openings at the upper end and the lower end, and the opening with a larger wind nozzle is arranged at one end close to the fan and is connected with the straight pipe. The larger opening of the air nozzle is an air inlet, the air nozzle is a conical body with an upper end and a lower end, the air outlet is small, the speed of air flow in the air nozzle can be increased, the air pressure is lower, and then larger suction force is generated. The diameter of the air inlet of the air nozzle is matched with the straight pipe.

Further, the slitter edge suction nozzle is arc-shaped, and a contraction section is arranged on the suction nozzle and is smooth and excessive. The shrinkage section is arranged to enable the anchor ear to be easier and firmer to clamp the frame. The slitter edge suction nozzle is arc, and the contraction section is also arc, and the contraction section is smooth excessive, can make the slitter edge get into flexible pipeline through the slitter edge suction nozzle smoothly, can not blocked, and then accumulates at the slitter edge suction nozzle and block the passageway.

Further, the contraction section is fixed on the frame through the anchor ear and the bolt. The card rack is firmer, convenient to assemble, disassemble and maintain and lower in cost.

Further, the straight tube group is arranged in the vertical direction, and a slitter edge blowing outlet is arranged at the top end of the straight tube group. Therefore, the position which can be clamped in the straight pipe is not ensured, and the slitter edge can be smoothly blown out of the straight pipe and cannot be clamped. And after the waste edges are blown out, the blowing-out airflow still exists at the waste edge blowing-out port, and the waste edges cannot fall back into the straight pipe.

Further, the straight tube group is in sealing connection with the fan, and the straight tube group is in sealing connection with the material sucking mechanism.

Further, the anchor ear is polygonal or circular, and each of the anchor ear both ends outwards bends to form a mounting ear, and it has the through-hole to open on the mounting ear of anchor ear one end, and correspondingly, is provided with the through-hole on the mounting ear rather than matched with anchor ear right-hand member. The bolts are arranged in the through holes of the mounting lugs at the two sides, and the distance between the two mounting lugs is limited by the nuts.

The value range of the angle theta between the connecting piece and the wind nozzle is 30-60 degrees. The 45 DEG is the optimal angle, and too large or too small can affect the suction force in the slitter edge suction nozzle.

Further, an adjusting cover is arranged on an opening of one side, far away from the flexible pipeline, of the slitter edge suction nozzle, the adjusting cover is matched with the slitter edge suction nozzle, and the adjusting cover is connected to the slitter edge suction nozzle through a sliding rail.

The utility model has the following advantages.

(1) Vacuum negative pressure is generated by adopting a wind nozzle, and suction force is generated at the wind suction nozzle. The suction force and the power for blowing out the waste edges are stable.

(2) The sucking and delivering capacity is strong, and the edge sucking speed is high.

(3) The suction force is generated by vacuum, the higher the speed of blowing out the waste edges is, the stronger the generated suction force is, and the condition that the traditional suction device adopts a suction fan to suck waste materials and blow out the waste materials through inertia and the blowing power is insufficient does not exist.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a slitter edge vacuum suction and delivery device of a slitter machine according to the present utility model.

Fig. 2 is a schematic view of the position of a slitter edge vacuum suction device of the slitting machine according to the utility model in the whole slitting machine.

FIG. 3 is an enlarged view of a slitter edge suction nozzle of the slitter edge vacuum suction device of the present utility model.

Fig. 4 is a schematic diagram of a staple bolt of a vacuum suction and delivery device for slitter edges of the present utility model.

FIG. 5 is an enlarged view of the joint of the straight tube group and the suction mechanism of the slitter edge vacuum suction and delivery device of the slitter machine.

FIG. 6 is an enlarged view of the slitter edge vacuum suction and delivery device straight tube group and the suction mechanism adjusting cover of the slitter machine.

In the figure: 1-frame, 11-slitter edge, 2-straight tube group, 21-straight tube, 22-tuyere, 23-tuyere, 24-slitter edge outlet, 3-suction mechanism, 31-connector, 32-flexible pipeline, 33-slitter edge suction nozzle, 34-contraction section, 35-adjusting cover, 4-fan, 41-fan sleeve, 5-staple bolt, 51-screw, angle between theta-connector and tuyere.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the utility model defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the utility model.

The utility model will be further described with reference to the following examples, which are given in connection with the accompanying drawings.

Embodiment 1-6 of the drawings show that the embodiment of the utility model provides a slitter edge vacuum suction and delivery device of a slitter machine, which comprises a 1-frame, 11-slitter edges, 2-straight pipe groups, 21-straight pipes, 22-wind nozzles, 23-wind nozzles, 24-slitter edge blowing outlets, 3-suction mechanisms, 31-connecting pieces, 32-flexible pipelines, 33-slitter edge suction nozzles, 34-contraction sections, 35-adjusting covers, 4-fans, 41-fan sleeves, 5-hoops, 51-screws and angles between theta-connecting pieces and wind nozzles.

The embodiment is shown in the accompanying drawings 1-6, and the following technical scheme is provided: slitter edge vacuum suction and delivery device of slitter machine, comprising:

The straight pipe group 2 consists of a plurality of straight pipes 21 and air nozzles 23, wherein the air nozzles 23 are connected between the two straight pipes 21 in a sealing way, and the air nozzles 22 are arranged in the air nozzles 23;

The material sucking mechanism 3 comprises a plurality of slitter edge suction nozzles 33, and the slitter edge suction nozzles 33 are connected with flexible pipelines 32 in a sealing manner; a connecting piece 31 is arranged at one end of the flexible pipeline 32 far away from the slitter edge suction nozzle 33, the connecting piece 31 is connected with the flexible pipeline 32 in a sealing way, and the connecting piece 31 is connected into the tuyere 23;

The machine frame 1 is provided with a splitting machine, and the slitter edge suction nozzle 33 is connected to the machine frame 1;

The angle theta between the connecting piece 31 and the wind nozzle 22 is 30-60 deg. The straight tube group 2 at least comprises two straight tubes 21, the two straight tubes 21 are respectively connected to two outlets on the upper side and the lower side of the tuyere 23, namely, the tuyere 23 is ensured to be positioned between the two straight tubes 21, and the middle position of the straight tube group 2 is ensured. In the case of a plurality of straight pipes 21, the straight pipes 21 are divided into two groups, and are connected end to end in sequence, and connected to two outlets on the upper and lower sides of the tuyere 23. The straight tube group 2 is arranged in the vertical direction, the straight tubes 21 and 21, the straight tube 21 and the fan 4 sleeve and the straight tube 21 and the tuyere 23 are in sealed connection, and the straight tube group 2 can be fixed by iron wires or anchor clamps 5 and other parts. The wind nozzle 22 is arranged at the bottom of the wind nozzle 23 and is a venturi tube, the wind inlet is large and the wind outlet is small, and the wind inlet is connected with the straight tube 21. The flexible pipe 32 is a corrugated pipe and has the advantages of low cost, good mechanical property, good wear resistance and the like. The connecting member 31 may be a pipe connector such as a tee. The connecting piece 31 is connected into the tuyere 23, and the sealing performance is ensured by means of bonding, welding and the like, including but not limited to adhesive bonding. The connection 31 and the flexible pipe 32 are connected in a sealing manner, and nails or the like can be used. The frame 1 is a cutting machine frame 1, the waste suction port is arranged at a position with a lower middle part, and a workpiece and a slitter edge 11 subjected to prepositive processes such as cutting pass through the slitter edge suction nozzle 33, and the slitter edge suction nozzle 33 with a larger weight of the workpiece is sucked. So that waste material can enter the flexible duct 32 through the slitter edge suction nozzle 33.

Preferably, the fan 4 is disposed at the bottom of the frame 1, and is an air supply fan 4, a fan sleeve 41 is disposed on the fan 4, and the fan sleeve 41 is connected with the straight pipe 21. In general, the fan 4 is arranged on the ground to help to dissipate heat, the air supply fan 4 indicates that air is blown out from the fan 4, enters the air nozzle 22 through the sleeve of the fan 4 and the straight pipe 21, and is blown out from the straight pipe 21; the air outlet of the air nozzle 22 is faster in air speed, the pressure at the air outlet is lower, and then suction force is generated by vacuum, waste sucked by the waste edge suction nozzle 33 enters the air nozzle 23, and ascending air flow at the air outlet of the air nozzle 22 is blown out through the waste edge blowing-out port 24.

Preferably, the wind nozzle 22 is arranged at one side of the wind nozzle 23 close to the fan 4; the wind nozzle 22 is a conical body with openings at the upper end and the lower end, and the larger opening of the wind nozzle 22 is arranged at one end close to the fan 4 and is connected with the straight pipe 21. The larger opening of the air nozzle 22 is an air inlet, the air nozzle 22 is a conical body with an upper end and a lower end, and the air outlet is small, so that the speed of air flow in the air nozzle 23 can be increased, the air pressure is lower, and further, larger suction force is generated. The diameter of the air inlet of the air nozzle 22 is matched with the straight pipe 21.

Preferably, the slitter edge suction nozzle 33 is arc-shaped, and the suction nozzle is provided with a contraction section 34, and the contraction section 34 is smooth and excessive. The constriction 34 is provided in order to make it easier and more secure to clamp the frame 1 with the anchor ear 5. The slitter edge suction nozzle 33 is arc-shaped, the contraction section 34 is smooth and excessive, the slitter edge 11 can smoothly enter the flexible pipeline 32 through the slitter edge suction nozzle 33 and cannot be blocked, and then the slitter edge suction nozzle 33 is accumulated to block the channel.

Preferably, the constriction 34 is fastened to the frame 1 by means of the anchor 5 and bolts. The card rack 1 is firmer, convenient to assemble, disassemble and maintain and lower in cost.

Preferably, the straight tube group 2 is arranged in a vertical direction, and a slitter edge blowing outlet 24 is arranged at the top end of the straight tube group 2. This ensures that the straight pipe 21 does not have a position where the edge 11 can be caught, and the edge can be smoothly blown out from the straight pipe 21 without being caught. And the blown-out waste edge blowing-out port 24 still has the blown-out air flow, and the waste edge 11 cannot fall back into the straight pipe 21.

Preferably, the straight tube group 2 is in sealing connection with the fan 4, and the straight tube group 2 is in sealing connection with the material sucking mechanism 3.

Preferably, the anchor ear 5 is polygonal or circular, two ends of the anchor ear 5 are outwards bent to form an installation ear, a through hole is formed in the installation ear at one end of the anchor ear 5, and correspondingly, a through hole is formed in the installation ear at the right end of the anchor ear 5 matched with the anchor ear. The bolts are arranged in the through holes of the mounting lugs at the two sides, and the distance between the two mounting lugs is limited by the nuts.

The angle θ between the connector 31 and the tuyere 22 is in the range of 30-60 °. The 45 ° is the optimum angle, too large or too small may affect the suction in the slitter edge nozzle 33.

The slitting machine is a mechanical device for dividing wide paper, mica tape or film into a plurality of narrow materials, and is commonly used for paper making machines, wire and cable mica tapes and printing and packaging machines. The splitting machine is mainly applied to: a nonwoven fabric; mica tape, paper, insulating material and various film materials, in particular for cutting narrow strips (nonwoven, paper, insulating material, mica tape, film, etc.). The working mode of the machine can cause a large amount of dust and slitter edges, the machine table is installed at a place with proper temperature, drying, ventilation, good light and convenient operation, and the slitter edge suction and delivery device can ensure the drying and ventilation of the environment.

Preferably, an adjusting cover is arranged on an opening of one side, far away from the flexible pipeline, of the slitter edge suction nozzle, the adjusting cover is matched with the slitter edge suction nozzle, and the adjusting cover is connected to the slitter edge suction nozzle through a sliding rail. In this embodiment, the adjustment cap is disposed perpendicular to the slitter edge suction nozzle.

The second embodiment is shown in fig. 1-5, and the following technical scheme is proposed:

slitter edge vacuum suction and delivery device of slitter machine, comprising:

A frame; and

The pressure differential mechanism is arranged on the frame and comprises a fan, a straight pipe group, a tee joint and a venturi tube, wherein the straight pipe group is communicated with the fan, two ends of the straight pipe group are respectively provided with an air inlet and an air outlet, the wall of the tuyere is provided with an interface, the tee joint is connected with the interface, and

The material sucking mechanism comprises flexible pipelines, wherein the flexible pipelines are an air suction pipe and a slitter edge suction nozzle, at least two flexible pipelines are communicated and arranged on a tee joint, one end of a main pipe body of the tee joint penetrates through a tuyere and extends to the inside of the tuyere, and the slitter edge suction nozzle is arranged on a frame.

Wen Liqiu the inlet is circular or oval, in this embodiment, wen Liqiu the inlet is circular

In the embodiment, the tee joint and the tuyere connecting ports are vertically distributed, the inclination angle of the tee joint is about 45 degrees, and the connecting piece is arranged on the outer wall of the tee joint so as to keep the relative position and sealing of the tee joint.

In this embodiment, the frame includes two montants and the horizontal pole of relative setting, slitter edge suction nozzle is fixed on the horizontal pole.

In this embodiment, the fan is a medium-pressure air supply fan.

In this embodiment, the air suction pipe is a bellows.

In this embodiment, the fan 4 is disposed at the bottom of the frame 1 and is an air supply fan 4, and a fan sleeve 41 is disposed on the fan 4, and the fan sleeve 41 is connected with the straight tube 21. In general, the fan 4 is arranged on the ground to help to dissipate heat, the air supply fan 4 indicates that air is blown out from the fan 4, enters the air nozzle 22 through the sleeve of the fan 4 and the straight pipe 21, and is blown out from the straight pipe 21; the air outlet of the air nozzle 22 is faster in air speed, the pressure at the air outlet is lower, and then suction force is generated by vacuum, waste sucked by the waste edge suction nozzle 33 enters the air nozzle 23, and ascending air flow at the air outlet of the air nozzle 22 is blown out through the waste edge blowing-out port 24.

The object of the present utility model is fully effectively achieved by the above-described embodiments. Those skilled in the art will appreciate that the present utility model includes, but is not limited to, those illustrated in the drawings and described in the foregoing detailed description. While the utility model has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the utility model is not limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the scope of the appended claims.

Claims (9)

1. Slitter edge vacuum suction and delivery device of cutting machine, characterized by comprising:

The straight pipe group consists of a plurality of straight pipes and a wind nozzle, wherein the wind nozzle is connected between the two straight pipes in a sealing way, and the wind nozzle is arranged in the wind nozzle; the material sucking mechanism comprises a plurality of slitter edge suction nozzles, and flexible pipelines are connected to the slitter edge suction nozzles in a sealing manner; the flexible pipeline is connected with the flexible pipeline in a sealing way, and the flexible pipeline is connected with the waste edge suction nozzle through a connecting piece;

The slitter edge suction nozzle is connected to the frame;

The value range of the angle theta clamped between the connecting piece and the central line of the wind nozzle is 30-60 degrees.

2. The slitter edge vacuum suction and delivery device of a slitter machine according to claim 1, wherein a fan is arranged at the bottom of the stand, the fan is an air supply fan, a fan sleeve is arranged on the fan, and the fan sleeve is connected with a straight pipe.

3. The slitter edge vacuum suction and delivery device of a slitter machine according to claim 2, wherein the tuyere is arranged in the tuyere at one side close to the fan; the wind nozzle is a conical body with openings at the upper end and the lower end, and the opening with a larger wind nozzle is arranged at one end close to the fan and is connected with the straight pipe.

4. The slitter edge vacuum suction and delivery device of the slitter machine according to claim 1, wherein the slitter edge suction nozzle is arc-shaped, and the suction nozzle is provided with a contraction section which is smooth and excessive.

5. The slitter edge vacuum pumping device of a slitter machine according to claim 4, wherein the constriction section is fixed to the frame by a hoop and a bolt.

6. The slitter edge vacuum suction and delivery device of a slitter machine according to claim 1, wherein the straight tube group is arranged in a vertical direction, and a slitter edge blowing-out port is arranged at the top end of the straight tube group.

7. A slitter edge vacuum suction and feed device of a slitter machine according to claim 1, 2 or 3, wherein the straight tube group is in sealing connection with the fan, and the straight tube group is in sealing connection with the suction mechanism.

8. The slitter edge vacuum suction and feeding device of a slitter machine according to claim 5, wherein the hoop is polygonal or circular, two ends of the hoop are outwards bent to form a mounting lug respectively, a through hole is formed in the mounting lug at one end of the hoop, and a through hole is formed in the mounting lug at the right end of the hoop corresponding to the mounting lug.

9. The slitter edge vacuum suction and delivery device of claim 4, wherein the slitter edge suction nozzle is provided with an adjusting cover on an opening at one side of the slitter edge suction nozzle far away from the flexible pipeline, the adjusting cover is matched with the slitter edge suction nozzle, and the adjusting cover is connected to the slitter edge suction nozzle through a sliding rail.