CN206230955U - For the thermal cutting equipment of woven bag - Google Patents

Abstract

The utility model discloses a kind of thermal cutting equipment for woven bag, plurality of pillar is vertically connected to the lower surface of top board, top board is supported；Pneumatic cylinder is fixed on the upper surface of top board；The piston rod of pneumatic cylinder is connected through top board with the cutting cube below top board from top to bottom；The bottom of cutting cube possesses cutting edge；Electric heating block is arranged in cutting cube；Air pump is fixed on top board, and the import of air pump is connected with one end of the first air intake duct, and the outlet of air pump is connected with blast pipe；One end of second air intake duct is slidably inserted into the other end of the first air intake duct；The other end of the second air intake duct is connected with air-breathing briquetting；Second air intake duct is slided relative to the first air intake duct, to drive air-breathing briquetting to move up and down；The bottom of air-breathing briquetting offers multiple stomatas connected with the second air intake duct；Telescoping cylinder is fixed on the lower surface of top board；The piston rod of telescoping cylinder is connected with air-breathing briquetting.The utility model can siphon away waste gas, additionally it is possible to improve cutting accuracy.

Description

For the thermal cutting equipment of woven bag

Technical field

The utility model is related to plastic product to manufacture field, more particularly, to the thermal cutting equipment of woven bag.

Background technology

Woven bag, also known as snakeskin bag.It is one kind of plastics, is packed for, its raw material is usually various polyethylene, polypropylene etc. Xylonite raw material.Woven bag in the fabrication process, can cut to it, suitably sized to obtain.Woven bag is by some The braiding of plastics slice is formed, if directly cut to it with blade, plastics slice at joint-cutting will be caused to depart from each other, There is the possibility of woven bag disintegration.In order to prevent woven bag from disintegrating, in addition it is also necessary to carrying out thermoplastic edge sealing at joint-cutting, its processing efficiency It is low.

Utility model content

The purpose of this utility model is the above mentioned problem for overcoming prior art, there is provided a kind of thermal cutting for woven bag sets It is standby.

The purpose of this utility model is achieved through the following technical solutions：

For the thermal cutting equipment of woven bag, including top board, pillar, pneumatic cylinder, electric heating block, cutter, the first air intake duct, Second air intake duct, air pump, blast pipe, air-breathing briquetting and telescoping cylinder；

Multiple pillars are vertically connected to the lower surface of the top board, and the top board is supported；The air pressure Cylinder is fixed on the upper surface of the top board；The piston rod of the pneumatic cylinder through the top board and is located at the top board from top to bottom The cutting cube connection of lower section；The bottom of the cutting cube possesses cutting edge；The electric heating block is arranged in the cutting cube；

The air pump is fixed on the top board, and the import of the air pump is connected with one end of first air intake duct, institute The outlet for stating air pump is connected with the blast pipe；One end of second air intake duct is slidably inserted into first air intake duct The other end；Two air-breathing briquettings are separately positioned on the cutter both sides；The other end of second air intake duct with it is described Air-breathing briquetting is connected；Second air intake duct is slided relative to first air intake duct, to drive the air-breathing briquetting to transport up and down It is dynamic；The bottom of the air-breathing briquetting offers multiple stomatas connected with second air intake duct；The telescoping cylinder is fixed on institute State the lower surface of top board；The piston rod of the telescoping cylinder is connected with the air-breathing briquetting.

Operation principle of the present utility model is as follows：

Electric heating block is set in cutter, and electric heating block is heated to cutter, the temperature of cutter is reached higher than volume Knit the temperature of bag fusing point.Then pneumatic cylinder drives cutter to move downward and cut to woven bag by cutting edge.In cutting During, due to the high temperature that cutter possess in itself, melt the incision of woven bag, the plastics slice of incision is combined into one Body, disintegrates so as to effectively prevent woven bag.The utility model realizes cutting and the edge sealing of woven bag simultaneously, substantially increases Processing efficiency.Due to needing the incision of fusing woven bag in cutting process, and the plastics for constituting woven bag will be produced by high temperature Raw waste gas, such waste gas is unfavorable to health, will influence the respiratory system of staff.Therefore, the utility model is set First air intake duct, the second air intake duct, air pump, blast pipe, air-breathing briquetting and telescoping cylinder.During woven bag is cut, stretch Contracting cylinder drives air-breathing briquetting to move downward and push down woven bag, and the waste gas produced in cutting process is by plastics slice in woven bag Between intermittent motion to air-breathing briquetting bottom, air pump work is drawn by the first air intake duct and the second air intake duct and stomata and cut The waste gas produced during cutting, and waste gas is drained into by waste gas treatment equipment by blast pipe.In this way, avoid waste gas directly spreading Into factory building, harm of the waste gas to staff is prevented.Because woven bag is pushed down by air-breathing briquetting in cutting process, moreover it is possible to Movement of the woven bag in cutting process is enough prevented effectively from, cutting accuracy is improved.After the completion of cutting, telescoping cylinder drives pressure of inspiration(Pi) Block is moved upwards such that it is able to which the woven bag after cutting is moved into next operation.

Further, the bottom surface of the air-breathing briquetting offers multiple from the air-breathing briquetting away from the one of the cutter Side insertion is close to the groove of the side of the cutter to the air-breathing briquetting；The stomata, is opened in the top surface of the groove.

Groove is set so that the waste gas risen along cutting edge can enter blowhole so as to be sucked away by groove such that it is able to Draw exhaust to a greater extent, improves functional reliability.

Further, the end outer peripheral face that second air intake duct is located in first air intake duct is arranged with sealing ring.

Sealing ring is set, it is to avoid waste gas is overflowed by the gap between the second air intake duct and the first air intake duct, improves work Make reliability.

Further, the air-breathing briquetting of stating offers the side connected with the stomata near the side of the cutter Stomata.

Side stomata is set and enables that the waste gas risen along cutting edge enters blowhole so as to be sucked away by side stomata, from And draw exhaust that can be to a greater extent, improve functional reliability.

The utility model has the advantages that：

1. electric heating block is set in cutter, and electric heating block is heated to cutter, reaches the temperature of cutter to be higher than The temperature of woven bag fusing point.Then pneumatic cylinder drives cutter to move downward and cut to woven bag by cutting edge.Cutting During cutting, due to the high temperature that cutter possess in itself, melt the incision of woven bag, the plastics slice of incision is combined into Integrally, disintegrate so as to effectively prevent woven bag.The utility model realizes cutting and the edge sealing of woven bag simultaneously, greatly improves Processing efficiency.Due to needing the incision of fusing woven bag in cutting process, and the plastics for constituting woven bag will by high temperature Waste gas is produced, such waste gas is unfavorable to health, the respiratory system of staff will be influenceed.Therefore, the utility model sets The first air intake duct, the second air intake duct, air pump, blast pipe, air-breathing briquetting and telescoping cylinder are put.During woven bag is cut, Telescoping cylinder drives air-breathing briquetting to move downward and push down woven bag, and the waste gas produced in cutting process is thin by plastics in woven bag To air-breathing briquetting bottom, air pump work is drawn by the first air intake duct and the second air intake duct and stomata for intermittent motion between bar The waste gas produced in cutting process, and waste gas is drained into by waste gas treatment equipment by blast pipe.In this way, avoid waste gas directly expanding It is dissipated in factory building, has prevented harm of the waste gas to staff.Because woven bag is pushed down by air-breathing briquetting in cutting process, also Movement of the woven bag in cutting process can be prevented effectively from, cutting accuracy is improved.After the completion of cutting, telescoping cylinder drives air-breathing Briquetting is moved upwards such that it is able to which the woven bag after cutting is moved into next operation.

2. groove is set so that the waste gas risen along cutting edge can enter blowhole so as to be sucked away by groove, so as to Enough draw exhausts to a greater extent, improve functional reliability.

3. sealing ring is set, it is to avoid waste gas is overflowed by the gap between the second air intake duct and the first air intake duct, is improve Functional reliability.

4. side stomata is set and enables that the waste gas risen along cutting edge enters blowhole so as to be sucked away by side stomata, So as to draw exhaust to a greater extent, functional reliability is improve.

Brief description of the drawings

In order to illustrate more clearly of embodiment of the present utility model, below will be to needed for description the utility model embodiment The accompanying drawing to be used is briefly described.It will be apparent that drawings in the following description are only described in the utility model Some embodiments, for a person skilled in the art, without creative efforts, can also be according to following Accompanying drawing, obtain other accompanying drawings.

Fig. 1 is the structural representation of the thermal cutting equipment for woven bag in embodiment of the present utility model.

Wherein, the corresponding parts title of reference is as follows：

11- top boards, 12- pillars, 20- pneumatic cylinders, 30- electric heating blocks, 40- cutter, 41- cutting edges, the air intake ducts of 51- first, The air intake ducts of 52- second, 53- sealing rings, 60- air pumps, 70- blast pipes, 80- air-breathing briquettings, 81- stomatas, 82- grooves, 83- sides Stomata, 90- telescoping cylinders.

Specific embodiment

In order that those skilled in the art more fully understands the utility model, below in conjunction with the utility model embodiment In accompanying drawing clear, complete description is carried out to the technical scheme in the utility model embodiment.It will be apparent that described below Embodiment be only a part in the utility model embodiment, rather than whole.Based on the implementation that the utility model is recorded Example, other all embodiments that those skilled in the art obtain without creative efforts are new in this practicality In the range of type protection.

Embodiment 1

As shown in figure 1, for the thermal cutting equipment of woven bag, including top board 11, pillar 12, pneumatic cylinder 20, electric heating block 30, Cutter 40, the first air intake duct 51, the second air intake duct 52, air pump 60, blast pipe 70, air-breathing briquetting 80 and telescoping cylinder 90；

Multiple pillars 12 are vertically connected to the lower surface of the top board 11, and the top board 11 is supported；Institute State the upper surface that pneumatic cylinder 20 is fixed on the top board 11；The piston rod of the pneumatic cylinder 20 runs through the top board 11 from top to bottom It is connected with the cutting cube 40 positioned at the lower section of the top board 11；The bottom of the cutting cube 40 possesses cutting edge 41；The electric heating block 30 It is arranged in the cutting cube 40；

The air pump 60 is fixed on the top board 11, one end of the import of the air pump 60 and first air intake duct 50 Connection, the outlet of the air pump 60 is connected with the blast pipe 70；One end of second air intake duct 52 is slidably inserted into institute State the other end of the first air intake duct 50；Two air-breathing briquettings 80 are separately positioned on the both sides of the cutter 40；Described second The other end of air intake duct 52 is connected with the air-breathing briquetting 80；Second air intake duct 52 is slided relative to first air intake duct 50 It is dynamic, to drive the air-breathing briquetting 80 to move up and down；The bottom of the air-breathing briquetting 80 offers multiple with second air-breathing The stomata 81 of the connection of pipe 52；The telescoping cylinder 90 is fixed on the lower surface of the top board 11；The piston rod of the telescoping cylinder 90 with The air-breathing briquetting 80 is connected.

Operation principle of the present utility model is as follows：

Electric heating block 30 is set in cutter 40, and electric heating block 30 is heated to cutter 40, makes the temperature of cutter 40 Reach the temperature higher than woven bag fusing point.Then pneumatic cylinder 20 drives cutter 40 to move downward and by cutting edge 41 to woven bag Cut.In cutting process, due to the high temperature that cutter 40 possess in itself, melt the incision of woven bag, incision Plastics slice be combined into one, so as to effectively prevent woven bag disintegrate.The utility model realizes cutting for woven bag simultaneously Cut and edge sealing, substantially increase processing efficiency.Due to needing the incision of fusing woven bag in cutting process, and constitute braiding The plastics of bag will be produced waste gas by high temperature, and such waste gas is unfavorable to health, will influence the respiratory system of staff.For This, the utility model is provided with the first air intake duct 51, the second air intake duct 52, air pump 60, blast pipe 70, air-breathing briquetting 80 and stretches Cylinder 90.During woven bag is cut, telescoping cylinder 90 drives air-breathing briquetting 80 to move downward and push down woven bag, cutting process By the intermittent motion between plastics slice in woven bag to the bottom of air-breathing briquetting 80, air pump 60 works the waste gas of middle generation, leads to Cross the first air intake duct 51 and the second air intake duct 52 and stomata 81 draws the waste gas produced in cutting process, and will by blast pipe 70 Waste gas drains into waste gas treatment equipment.In this way, avoiding during waste gas directly diffuses to factory building, danger of the waste gas to staff is prevented Evil.Because woven bag is pushed down by air-breathing briquetting 80 in cutting process, additionally it is possible to be prevented effectively from woven bag in cutting process It is mobile, improve cutting accuracy.After the completion of cutting, telescoping cylinder 90 drives the motion upwards of air-breathing briquetting 80 such that it is able to will cut Woven bag afterwards moves to next operation.

Further, wherein in a kind of implementation method, the bottom surface of the air-breathing briquetting 80 offers multiple from the suction Air pressure block 80 is close to the logical of the side of the cutter 40 away from side insertion to the air-breathing briquetting 80 of the cutter 40 Groove 82；The stomata 81, is opened in the top surface of the groove 82.

Groove 82 is set so that the waste gas risen along cutting edge 41 can enter blowhole 81 so as to be sucked away by groove 82, So as to draw exhaust to a greater extent, functional reliability is improve.

Further, wherein in a kind of implementation method, second air intake duct 52 is located in first air intake duct 51 End outer peripheral face be arranged with sealing ring 53.

Sealing ring 53 is set, it is to avoid waste gas is overflowed by the gap between the second air intake duct 52 and the first air intake duct 51, is carried Functional reliability high.

Further, wherein in a kind of implementation method, the air-breathing briquetting 80 of stating is near the side of the cutter 40 Offer the side stomata 83 connected with the stomata 81.

Set side stomata 83 enable along cutting edge 41 rise waste gas by side stomata 83 enter blowhole 81 so that It is sucked away such that it is able to draw exhaust to a greater extent, improves functional reliability.

Above content is to combine the further description that specific preferred embodiment is made to the utility model, it is impossible to recognized Fixed specific embodiment of the present utility model is confined to these explanations.For the common skill of the utility model art For art personnel, the other embodiment drawn in the case where the technical solution of the utility model is not departed from should be included in this practicality In new protection domain.

Claims (4)

1. the thermal cutting equipment of woven bag is used for, it is characterised in that：Including top board（11）, pillar（12）, pneumatic cylinder（20）, electric heating Block（30）, cutter（40）, the first air intake duct（51）, the second air intake duct（52）, air pump（60）, blast pipe（70）, air-breathing briquetting （80）And telescoping cylinder（90）；

Multiple pillars（12）Vertically it is connected to the top board（11）Lower surface, to the top board（11）It is supported； The pneumatic cylinder（20）It is fixed on the top board（11）Upper surface；The pneumatic cylinder（20）Piston rod from top to bottom run through institute State top board（11）With positioned at the top board（11）The cutter of lower section（40）Connection；The cutter（40）Bottom possess cutting edge （41）；The electric heating block（30）It is arranged on the cutter（40）It is interior；

The air pump（60）It is fixed on the top board（11）On, the air pump（60）Import and first air intake duct（50）'s One end connects, the air pump（60）Outlet and the blast pipe（70）Connection；Second air intake duct（52）One end can slide First air intake duct is inserted dynamicly（50）The other end；Two air-breathing briquettings（80）It is separately positioned on the cutter （40）Both sides；Second air intake duct（52）The other end and the air-breathing briquetting（80）Connection；Second air intake duct（52） Relative to first air intake duct（50）Slide, to drive the air-breathing briquetting（80）Move up and down；The air-breathing briquetting（80） Bottom offer it is multiple with second air intake duct（52）The stomata of connection（81）；The telescoping cylinder（90）It is fixed on the top Plate（11）Lower surface；The telescoping cylinder（90）Piston rod and the air-breathing briquetting（80）Connection.

2. the thermal cutting equipment for woven bag according to claim 1, it is characterised in that：The air-breathing briquetting（80）'s Bottom surface offers multiple from the air-breathing briquetting（80）Away from the cutter（40）Side insertion to the air-breathing briquetting （80）Near the cutter（40）Side groove（82）；The stomata（81）, it is opened in the groove（82）Top surface.

3. the thermal cutting equipment for woven bag according to claim 1, it is characterised in that：Second air intake duct（52） Positioned at first air intake duct（51）Interior end outer peripheral face is arranged with sealing ring（53）.

4. the thermal cutting equipment for woven bag according to claim 1, it is characterised in that：The air-breathing briquetting（80）Lean on The nearly cutter（40）Side offer and the stomata（81）The side stomata of connection（83）.