CN114229542A - Material guide assembly for film edge cutting - Google Patents

Abstract

The invention provides a material guide assembly for membrane edge cutting, and belongs to the technical field of machinery. It has solved prior art and has had the poor problem of stability. This guide subassembly of diaphragm cutting edge includes the frame, still include the connecting rod, outer barrel, interior barrel, contact structure and elevation structure, the vertical link firmly in the frame of above-mentioned connecting rod, barrel cover has convex fender edge on just the interior barrel upper end on the connecting rod in the above-mentioned, above-mentioned outer barrel cover just has convex fender edge down in its lower extreme on interior barrel, the edge supports and leans on in outer barrel upper end on the aforesaid, above-mentioned elevation structure and contact structure all connect in the frame and contact structure sticis down keep off between edge and elevation structure, can drive outer barrel through the contact structure along with together moving after the elevation structure action and remove along the connecting rod. This guide subassembly stability of diaphragm cut edge is high.

Description

Material guide assembly for film edge cutting

Technical Field

The invention belongs to the technical field of machinery, and relates to a material guide assembly for membrane edge cutting.

Background

The edges of the prepared and formed diaphragm blank need to be cut, and the diaphragm with the set width size is obtained after cutting.

In the existing industrial production, the cut waste edge strips are directly scattered in the operation place, and the normal cutting operation can be influenced by the accumulated excessive waste edge strips.

In order to solve the problem, a winding roller is generally adopted to wind and store the waste edge strips. Because the wind-up roll is adjacent with production facility, consequently, set up transition roller between production facility and wind-up roll and make the stable entering wind-up roll department of waste strake.

Because the high position of wind-up roll can not change, consequently, the winding of wastes material strake is in the same high position department of wind-up roll, leads to the wastes material strake thickness ratio of winding on the wind-up roll thick like this, finally leads to the rolling volume of twining to reduce.

Chinese patent publication No. CN208308096U discloses a moving device for an edge-trim winder, which comprises an edge-trim roller for placing an edge trim before winding, wherein the edge-trim roller is mounted on an edge-trim roller frame; the device also comprises a movable roller and a driving device for driving the movable roller to rotate, wherein the movable roller is arranged at the output end of the driving device; the movable sliding block is sleeved outside the movable roller, and the rim charge roller frame is fixedly connected with the movable sliding block.

In the mobile device for rim charge rolling machine of above-mentioned patent, remove roller and suit through setting up and remove the removal slider outside removing the roller, can drive the rim charge roller and remove the blowing while at the in-process of defeated material to guarantee the rolling efficiency of rolling machine, this mobile device structure is ingenious, and stability is high, can effectively improve the rolling efficiency of rim charge rolling machine, effectively reduces the number of times of changing the rolling roller.

However, the roll stand described above is horizontally movable, and is not applicable to winding that is spirally wound in the axial direction of the roll.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provide a material guide assembly with high stability and applicability for film edge cutting.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a guide subassembly of diaphragm cutting edge, which comprises a frame, a serial communication port, still include the connecting rod, outer barrel, interior barrel, contact structure and elevation structure, the vertical link firmly in the frame of above-mentioned connecting rod, barrel cover has convex fender edge on just the interior barrel upper end on the connecting rod in the above-mentioned, just it has convex fender edge down to have on the barrel under it above-mentioned outer barrel cover, the edge supports and leans on in the above-mentioned fender and leans on outer barrel upper end, above-mentioned elevation structure and contact structure all connect in the frame and contact structure sticiss down keep off between edge and elevation structure, can drive outer barrel through the contact structure along with the same action after the elevation structure action and remove along the connecting rod.

The guide assembly for the film edge cutting can creatively enable the waste edge strips passing through the guide assembly to gradually move upwards, and the guide assembly is arranged between production equipment and a winding roller, so that the waste edge strips are spirally wound on the winding roller, and the spiral angle is smaller.

After the outer cylinder body and the inner cylinder body are connected together, the upper blocking edge and the lower blocking edge stably limit the waste edge strips at the outer side of the outer cylinder body.

In the gradual action process of the lifting mechanism, the contact structure is gradually lifted upwards, and the contact structure is contacted with the lower part of the lower baffle edge, so that the inner cylinder body and the outer cylinder body are finally upwards moved together, the height position of the waste edge strip entering the winding roller is changed, and the purpose that the waste edge strip is spirally wound on the outer side of the winding roller is finally achieved.

In the guide subassembly of foretell diaphragm cut edge, the contact structure includes a guide bar, a counter weight section of thick bamboo and a contact lever, and the vertical linking firmly of above-mentioned guide bar is in the frame, and the inner of above-mentioned contact lever inlays in a counter weight section of thick bamboo, and the contact lever and a counter weight section of thick bamboo are worn to establish in the middle part of the guide lever.

The guide rod fixedly connected to the rack is simultaneously arranged on the contact rod and the counterweight cylinder in a penetrating manner, so that the contact rod and the counterweight cylinder can be stably connected to the guide rod.

Of course, when the pushing and extruding effects of the lifting structure are received, the contact rod can stably move upwards along the guide rod, and the contact rod can be stably contacted with the lower blocking edge under the effect of the counterweight barrel.

In the guide subassembly of foretell diaphragm cut edge, elevation structure includes body of rod one, body of rod two, guide cylinder and hydro-cylinder, and the horizontally of above-mentioned guide cylinder links firmly in the frame, and above-mentioned hydro-cylinder links firmly in guide cylinder one end, and a lower extreme of above-mentioned body of rod articulates in the frame, and body of rod one upper end supports and leans on the contact link, and body of rod two outer ends are articulated with body of rod one middle part, and the piston rod of hydro-cylinder is worn to establish in the guide cylinder and piston rod outer end and body of rod two inner articulated.

Because the second rod body is connected to the piston rod of the oil cylinder, the outer end of the second rod body is hinged to the middle of the first rod body, and the lower end of the first rod body is hinged to the rack, the upper end of the second rod body can stably abut against the lower portion of the contact rod through the structure.

After the oil cylinder acts, the first rod body can be pushed to swing around the hinged position of the first rod body through the piston rod and the second rod body, and the height position of the contact rod can be changed after the first rod body swings.

In the material guide assembly for the film edge cutting, the guide rod is prism-shaped, and the contact rod and the counterweight cylinder are both provided with connecting holes matched with the guide rod.

Such a structure can prevent the contact rod and the counterweight cylinder from rotating around the guide rod.

In the above material guiding assembly for cutting edges of the membrane, the lower side of the contact rod is provided with a plurality of concave positioning notches along the length direction of the contact rod.

After the upper end of the rod body is embedded into the corresponding positioning notch, positioning can be formed.

Of course, when the upper end of the rod body is embedded into different positioning notches, the height position of the contact rod can be changed along with the change.

In the material guide assembly for the film edge cutting, the upper end of the rod body is spherical, and the positioning notch is matched with the upper end of the rod body.

The structure can enable the upper end of the rod body to be smoothly embedded into the positioning notch.

Otherwise, the upper end of the rod body can be smoothly separated from the positioning notch.

In the above material guiding assembly for film edge cutting, a transition part for smooth transition is arranged between the lower baffle edge and the outer side of the outer cylinder.

The setting of transition portion can avoid the rubbish strake card to block in the junction of keeping off along with outer barrel.

In the material guide assembly for the film edge cutting, the transition part is a round angle between the lower blocking edge and the outer cylinder body.

In the material guide assembly for the edge cutting of the membrane, the transition part is a chamfer angle between the lower retaining edge and the outer cylinder body.

In the material guide assembly for the film edge cutting, the upper end of the connecting rod is also sleeved with a counterweight ring, and the counterweight ring is abutted against the upper part of the upper baffle edge.

Under the action of the counterweight ring, the upper baffle edge can stably abut against the upper end of the outer cylinder body, and finally the outer cylinder body and the inner cylinder body are stably connected together.

Compared with the prior art, this guide subassembly of diaphragm cut edge is owing to can be progressively under elevation structure's effect make contact structure promote, contact structure keeps off along stable contact with the lower fender on the outer barrel, finally enables the interior barrel that links together and outer barrel and steadily shifts up, the waste strake through this guide subassembly is along with progressively shifting up, the wind-up roll continuously rotates in-process waste strake and is the stable winding of spiral on the wind-up roll, avoid only winding waste strake in the local position department of wind-up roll, its stability is higher.

Meanwhile, the upper barrel body is stably connected with the lower barrel body, the lifting structure and the contact structure are located between the rack and the lower baffle edge, and the whole material guide assembly is compact in structure, small in occupied space and high in practical value.

Drawings

Fig. 1 is a schematic structural view of a material guide assembly for cutting edges of the film.

In the figure, 1, a frame; 2. a connecting rod; 3. an outer cylinder; 3a, a lower blocking edge; 3b, a transition part; 4. an inner cylinder; 4a, an upper blocking edge; 5. a guide bar; 6. a counterweight cylinder; 7. a contact lever; 7a, a positioning notch; 8. a first rod body; 9. a second rod body; 10. a guide cylinder; 11. an oil cylinder; 12. and a counterweight ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

It will be understood that when an element is referred to as being "mounted on" another element, it can be directly mounted on the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, this guide subassembly of diaphragm cut edge includes frame 1, still include connecting rod 2, outer barrel 3, interior barrel 4, contact structure and elevation structure, the vertical link firmly in frame 1 of above-mentioned connecting rod 2, above-mentioned interior barrel 4 cover is on connecting rod 2 and interior barrel 4 upper end has convex fender edge 4a, above-mentioned outer barrel 3 cover is on interior barrel 4 and its lower extreme has convex fender edge 3a down, above-mentioned fender edge 4a supports and leans on in the upper end of outer barrel 3, above-mentioned elevation structure and contact structure all connect on frame 1 and contact structure is sticis kept off between edge 3a and elevation structure down, can drive outer barrel 3 through the contact structure along the connecting rod removal along with the concerted action after elevation structure moves.

The contact structure comprises a guide rod 5, a counterweight cylinder 6 and a contact rod 7, wherein the guide rod 5 is vertically fixedly connected to the rack 1, the inner end of the contact rod 7 is embedded in the counterweight cylinder 6, and the middle part of the guide rod 5 is arranged on the contact rod 7 and the counterweight cylinder 6 in a penetrating mode.

The lifting structure comprises a first rod body 8, a second rod body 9, a guide cylinder 10 and an oil cylinder 11, wherein the guide cylinder 10 is horizontally fixedly connected to the rack 1, the oil cylinder 11 is fixedly connected to one end of the guide cylinder 10, the lower end of the first rod body 8 is hinged to the rack 1, the upper end of the first rod body 8 is abutted to a contact rod 7, the outer end of the second rod body 9 is hinged to the middle of the first rod body 8, a piston rod of the oil cylinder 11 is arranged in the guide cylinder 10 in a penetrating mode, and the outer end of the piston rod is hinged to the inner end of the second rod body 9.

The oil cylinder 11 rod is arranged in the guide cylinder in a penetrating mode, and a certain guiding effect can be achieved on the piston rod through the guide cylinder. The cylinder body of the oil cylinder 11 is fixedly connected with the guide cylinder 10, so that the oil cylinder 11 can be stably fixed.

The guide rod 5 is prism-shaped, and the contact rod 7 and the counterweight cylinder 6 are both provided with connecting holes matched with the guide rod 5.

The contact rod 7 has a plurality of concave positioning recesses 7a on its lower side along its length.

The upper end of the first rod body 8 is spherical, and the positioning notch 7a is matched with the upper end of the first rod body 8.

The lower blocking edge 3a and the outer side of the outer cylinder 3 are provided with a transition part 3b with smooth transition.

The transition part 3b is a round angle between the lower baffle edge 3a and the outer cylinder 3. According to practical conditions, the transition part 3b is also feasible to be a chamfer between the lower retaining edge 3a and the outer cylinder 3.

The upper end of the connecting rod 2 is also sleeved with a counterweight ring 12, and the counterweight ring 12 is abutted against the upper part of the upper blocking edge 4 a.

The guide assembly for the film edge cutting can creatively enable the waste edge strips passing through the guide assembly to gradually move upwards, and the guide assembly is arranged between production equipment and a winding roller, so that the waste edge strips are spirally wound on the winding roller, and the spiral angle is smaller.

After the outer cylinder body and the inner cylinder body are connected together, the upper blocking edge and the lower blocking edge stably limit the waste edge strips at the outer side of the outer cylinder body.

In the gradual action process of the lifting mechanism, the contact structure is gradually lifted upwards, and the contact structure is contacted with the lower part of the lower baffle edge, so that the inner cylinder body and the outer cylinder body are finally upwards moved together, the height position of the waste edge strip entering the winding roller is changed, and the purpose that the waste edge strip is spirally wound on the outer side of the winding roller is finally achieved.

The features of the above-described embodiments may be arbitrarily combined, and for the sake of brevity, all possible combinations of the features in the above-described embodiments are not described, but should be construed as being within the scope of the present disclosure as long as there is no contradiction between the combinations of the features.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as a limitation of the present invention, and that suitable changes and modifications of the above embodiments are within the scope of the claimed invention as long as they are within the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a guide subassembly of diaphragm cutting edge, which comprises a frame, a serial communication port, still include the connecting rod, outer barrel, interior barrel, contact structure and elevation structure, the vertical link firmly in the frame of above-mentioned connecting rod, barrel cover has convex fender edge on just the interior barrel upper end on the connecting rod in the above-mentioned, just it has convex fender edge down to have on the barrel under it above-mentioned outer barrel cover, the edge supports and leans on in the above-mentioned fender and leans on outer barrel upper end, above-mentioned elevation structure and contact structure all connect in the frame and contact structure sticiss down keep off between edge and elevation structure, can drive outer barrel through the contact structure along with the same action after the elevation structure action and remove along the connecting rod.

2. A material guide assembly for a membrane trimming apparatus as claimed in claim 1, wherein the contact structure includes a guide rod, a counterweight cylinder and a contact rod, the guide rod is vertically fixed to the frame, the inner end of the contact rod is embedded in the counterweight cylinder, and the middle of the guide rod is inserted through the contact rod and the counterweight cylinder.

3. A guide assembly for cutting edges of a membrane according to claim 2, wherein the lifting structure comprises a first rod, a second rod, a guide cylinder and a cylinder, the guide cylinder is horizontally fixed on the frame, the cylinder is fixed on one end of the guide cylinder, the first rod is hinged on the frame at its lower end, the first rod is abutted against the contact rod at its upper end, the second rod is hinged at its outer end to the first rod, a piston rod of the cylinder is inserted into the guide cylinder and the outer end of the piston rod is hinged to the inner end of the second rod.

4. A guide assembly for a film strip as defined in claim 3 wherein the guide rod is prismatic and the contact rod and the counterweight cylinder each have a connecting hole for mating with the guide rod.

5. A film edging guide assembly according to claim 4, wherein the contact rod has a plurality of concave locating notches on its underside along its length.

6. A film trimming guide assembly as defined in claim 5 wherein, the rod has a spherical upper end and the positioning notch is formed to fit the rod.

7. The film trimming guide assembly of claim 6, wherein the lower ledge has a smooth transition with the outside of the outer cylinder.

8. The film trimming guide assembly of claim 7, wherein the transition portion is a rounded corner between the lower ledge and the outer cylinder.

9. The film trimming guide assembly of claim 7, wherein the transition portion is a chamfer between the lower ledge and the outer cylinder.

10. A film trimming guide assembly as claimed in claim 8, wherein the upper end of the connecting rod is further provided with a weight ring, and the weight ring abuts against the upper portion of the upper retaining edge.

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