CN204136450U - The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt - Google Patents
The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt Download PDFInfo
- Publication number
- CN204136450U CN204136450U CN201420376292.4U CN201420376292U CN204136450U CN 204136450 U CN204136450 U CN 204136450U CN 201420376292 U CN201420376292 U CN 201420376292U CN 204136450 U CN204136450 U CN 204136450U
- Authority
- CN
- China
- Prior art keywords
- conveyer belt
- bearing bracket
- tpe
- lower bearing
- upper spider
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Abstract
The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt, it comprises upper spider, lower bearing bracket, induction system, base, upper spider lifting device, loop heating system and circulating cooling system composition; Described lower bearing bracket is installed on base; Described upper spider is arranged at the top of lower bearing bracket, and its side is by turning to lift axle and lower bearing bracket is hinged; Space between described upper spider and lower bearing bracket is formed and is positioned at the heating plasticizing station of front end and is positioned at the cooling forming station of rear end; Described induction system is installed on described lower bearing bracket, for carrying described thermoplastic elastomer (TPE) conveyer belt; Described upper spider lifting device controls the open and close of upper spider; Described loop heating system is arranged at described heating plasticizing station; Described circulating cooling system is arranged at described cooling and shaping station.The utility model makes to keep in process of production the temperature of constant heating and cooling by heating plasticizing station and cooling and shaping station, reduces the energy loss in original production pattern; And increased substantially production efficiency.
Description
Technical field
The utility model relates to heavy-duty conveyor belt apparatus for production line technical field, particularly relates to the dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt.
Background technology
Novel thermoplastic elastomer (TPE) heavy-duty conveyor belt has that intensity is high, fire-retardant, water-fast, acid and alkali-resistance, oil resistant, tearing strength are high, operating temperature is wide (0-80 DEG C), fire-retardant, easy repairing, the feature such as good weatherability and environmental protection (the recyclable recycling of waste material), compared with conventional rubber conveyer belt, there is more superior quality and performance, cost performance is higher, the scope of application is wider, longer service life, more can be competent at the transportation work under harsh working environment, be the ideal product of conventional conveyor belt upgrading.
The same with rubber heavy-duty conveyor belt, the main production equipments of thermoplastic elastomer (TPE) heavy-duty conveyor belt is also adopt dull and stereotyped Plasticator, although the characteristic according to thermoplastic elastomer (TPE) production technology is optimized classic flat-plate Plasticator, but the production technology due to thermoplastic elastomer (TPE) needs heating plasticizing and cooling and shaping, production process middle plateform Plasticator needs to adopt heating, cooling, then heat, cool cycles constantly converts heat exchanger plates temperature again production model.According to enter steam (cooling water during emptying cooling in heat exchanger plates), heating, depleted of steam, put into water-cooled mode to complete thermoplastic elastomer (TPE) conveyer belt compacting plasticizing sizing mode of operation energy loss large, cycle length consuming time, production efficiency is low, and cost is high.
Summary of the invention
It is large that the purpose of this utility model is to solve energy loss in prior art, cycle length consuming time, and the problem that production efficiency is low and cost is high proposes the dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt.
For reaching this object, the utility model by the following technical solutions:
The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt, it comprises upper spider, lower bearing bracket, induction system, base, upper spider lifting device, loop heating system and circulating cooling system composition; Described lower bearing bracket is installed on described base; Described upper spider is arranged at the top of lower bearing bracket, and its side is by turning to lift axle and lower bearing bracket is hinged; Space between described upper spider and lower bearing bracket is formed and is positioned at the heating plasticizing station of front end and is positioned at the cooling forming station of rear end; Described induction system is installed on described lower bearing bracket, for carrying described thermoplastic elastomer (TPE) conveyer belt; Described upper spider lifting device controls the open and close of upper spider; Described loop heating system is arranged at described heating plasticizing station; Described circulating cooling system is arranged at described cooling and shaping station.
Preferential, it also comprises the locking device for locking described upper spider and lower bearing bracket.
Described upper spider is provided with heating plate at described heating plasticizing station, and described lower bearing bracket is provided with lower heating plate at described heating plasticizing station; Described upper spider is provided with coldplate at described cooling and shaping station, and described lower bearing bracket is provided with lower coldplate at described cooling and shaping station; Described lower coldplate and lower heating plate are connected as a single entity the lower heat exchanger plates forming and have same working face, and it is working face upward; Described upper coldplate and upper heating plate are connected as a single entity the upper heat exchanger plates forming and have same working face, and it is to being working face below; Described upper heat exchanger plates is synchronously opened with described upper spider, closed.
Described induction system comprises conveyer belt, driving roller, driven roller and drive unit; Described conveyer belt is arranged between the working face of described upper heat exchanger plates and lower heat exchanger plates; Described driving roller and driven roller are installed on the front-end and back-end of described lower bearing bracket respectively; Described drive unit is connected with described driving roller, drives described driving roller to rotate, and described driving roller drives described conveyer belt to move.
The front haulage roller that can carry out rising, declining is provided with above described driving roller; The rear haulage roller that can carry out rising, declining is provided with above described driven roller; Be provided with pressurized cylinder above described front haulage roller, above described rear haulage roller, be provided with pressurized cylinder; Described conveyer belt is made up of steel material or macromolecular material.
The mode of heating of described loop heating system is heat-conducting oil heating or Steam Heating; Described loop heating system is by being arranged at described upper heating plate and the conduction oil passage in lower heating plate and the heat-conducting oil furnace that is connected with oil-out and the oil-in of described conduction oil passage is formed; Described circulating cooling system is by being arranged at described upper coldplate and the cooling-water duct in lower coldplate and the cooling water heat dissipating device of outside that is connected with delivery port and the water inlet of described cooling-water duct is formed.
Be provided with water-cooled thermal insulation board below described lower heating plate, and be connected with cooling water.
Described locking device is latch shaft type or has contact with button; The iron seat that described latch shaft type locking device is shouted by middle its central band circle and bearing pin form, and bearing pin inserts iron seat circle and shouts, locking device locked closed upper spider and lower bearing bracket; Described hook button locking device has contact with button by locking and forms, and fish padlock to determine upper spider and lower bearing bracket by taking, described upper heat exchanger plates and lower heat exchanger plates working face equidistantly form dull and stereotyped die cavity.
Preferential, it also comprises pressue device, and described pressue device comprises the one group of pressurization airbag be arranged at below described water-cooled thermal insulation board and the one group of pressurization airbag be arranged at below described lower coldplate; Described pressurization airbag is all positioned on described lower bearing bracket.
Described upper spider lifting device is hydraulic jack; Described hydraulic jack has two or more.
The utility model makes to keep in process of production the temperature of constant heating and cooling by heating plasticizing station and cooling and shaping station, reduces the energy loss in original production pattern; And be uninterruptedly carry out to the heating plasticizing of thermoplastic elastomer (TPE) conveyer belt and cooling and shaping, increase substantially production efficiency. simultaneously
Accompanying drawing explanation
Fig. 1 is the structural representation that one of them embodiment upper spider of the utility model is opened.
Fig. 2 is the schematic perspective view at another visual angle of Fig. 1, wherein stainless steel band adds thermoplastic elastomer (TPE) conveyer belt to be processed.
Fig. 3 is the front schematic view of the utility model embodiment.
Fig. 4 is the cross-sectional schematic at the C-C place of Fig. 3.
Fig. 5 is the cross-sectional schematic at the D-D place of Fig. 3.
Wherein: 1 is upper spider, 2 is lower bearing bracket, and 4 is base, and 5 are, 6 is thermoplastic elastomer (TPE) conveyer belt, and 11 is upper heating plate, and 12 is upper spider lifting device, and 13 for turning to lift axle, 14 is upper coldplate, and 21 is locking device, and 22,26 is pressurization airbag, 23 is water-cooled thermal insulation board, and 24 is lower heating plate, and 27 is lower coldplate, 31 is conveyer belt, and 32 is front haulage roller, and 33 is rear haulage roller, 321,331 is pressurized cylinder, and A is heating plasticizing station, and B is cooling positional stations.
Detailed description of the invention
The technical solution of the utility model is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.
The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt, it comprises upper spider 1, lower bearing bracket 2, induction system, base 4, upper spider lifting device 12, loop heating system and circulating cooling system composition; Described lower bearing bracket 2 is installed on described base 4; Described upper spider 1 is arranged at the top of lower bearing bracket 2, and its side is hinged with lower bearing bracket 2 by turning to lift axle 13; Space between described upper spider 1 and lower bearing bracket 2 is formed and is positioned at the heating plasticizing station A of front end and is positioned at the cooling forming station B of rear end; Described induction system is installed on described lower bearing bracket 2, for carrying described thermoplastic elastomer (TPE) conveyer belt; Described upper spider lifting device 12 controls the open and close of upper spider 1; Described loop heating system is arranged at described heating plasticizing station A; Described circulating cooling system is arranged at described cooling and shaping station B.
During production operation, described induction system is led thermoplastic elastomer (TPE) conveyer belt 6 workshop section to be added on dull and stereotyped Plasticator prefinishing workbench the cooling and shaping section that completes that heating plasticizing section is delivered on cooling and shaping station B, former cooling and shaping station B that completes delivered on heating plasticizing station A, former heating plasticizing station A and is transferred out laboratory work platform outside Plasticator; Described heating circulation system heats the thermoplastic elastomer (TPE) conveyer belt 6 being positioned at described heating plasticizing station A, and described circulating cooling system cools the thermoplastic elastomer (TPE) conveyer belt 6 be positioned on described cooling and shaping station B.Described upper spider lifting device 12 controls the open and close of described upper spider 1, forms matched moulds and mold-break operations.Owing to dull and stereotyped Plasticator heat exchanger plates to be divided into heating plasticizing station and cooling and shaping station two non-interfering intervals, heating plasticizing station A and cooling and shaping station B in process of production its heating and cooling state remains unchanged always, and maintenance stationary temperature, eliminate heating, cooling, heat again, again cool cycles constantly convert the energy loss in the production model of heat exchanger plates temperature; And the thermoplastic elastomer (TPE) conveyer belt that in producing, heating plasticizing station A produces is while heating plasticizing, next cooling and shaping station B also carries out cooling and shaping to the thermoplastic elastomer (TPE) conveyer belt completing heating plasticizing, heating plasticizing and cooling and shaping are uninterruptedly carried out simultaneously, has increased substantially production efficiency.
Preferential, it also comprises the locking device 21 for locking described upper spider 1 and lower bearing bracket 2.
Described locking device 21 locks described upper spider 1 and lower bearing bracket 2, ensures that die closing operation is uninterrupted; And described thermoplastic elastomer (TPE) conveyer belt is fully contacted with described upper heat exchanger plates, ensure best die closing operation, thus ensure the quality of products.
Described upper spider 1 is provided with heating plate 11 at described heating plasticizing station A, and described lower bearing bracket 2 is provided with lower heating plate 24 at described heating plasticizing station A; Described upper spider 1 is provided with coldplate 14 at described cooling and shaping station B, and described lower bearing bracket 2 is provided with lower coldplate 27 at described cooling and shaping station B; Described lower coldplate 27 and lower heating plate 14 are connected as a single entity the lower heat exchanger plates forming and have same working face, and it is working face upward; Described upper coldplate 14 and upper heating plate 11 are connected as a single entity the upper heat exchanger plates forming and have same working face, and it is to being working face below; Described upper heat exchanger plates is synchronously opened with described upper spider 1, closed.
Described upper heating plate 11 and upper coldplate 14 form upper heat exchanger plates, described lower heating plate 24 and lower coldplate 27 form upper heat exchanger plates, whole working face structure is simple, cost is low, effective reduction energy loss, and be uninterruptedly carry out to the heating plasticizing of thermoplastic elastomer (TPE) conveyer belt and cooling and shaping, improve production efficiency. simultaneously
Described induction system comprises conveyer belt 31, driving roller, driven roller and drive unit; Described conveyer belt 31 is arranged between the working face of described upper heat exchanger plates and lower heat exchanger plates; Described driving roller and driven roller are installed on the front-end and back-end of described lower bearing bracket 2 respectively; Described drive unit is connected with described driving roller, drives described driving roller to rotate, and described driving roller drives described conveyer belt 31 to move.
The front haulage roller 32 that can carry out rising, declining is provided with above described driving roller; The rear haulage roller 33 that can carry out rising, declining is provided with above described driven roller; Be provided with pressurized cylinder 321 above described front haulage roller 32, above described rear haulage roller 33, be provided with pressurized cylinder 331; Described conveyer belt 31 is made up of steel material or macromolecular material.
Described conveyer belt 31 is arranged on the dull and stereotyped driving roller of Plasticator lower bearing bracket 2 front end and the driven roller of rear end by tensioning, drive unit rotational conveyance band 31 is opened under the state of die sinking (lower heat exchanger plates is separated with upper heat exchanger plates), front haulage roller 32 and rear haulage roller 33 clamp the thermoplastic elastomer (TPE) conveyer belt 6 be placed on conveyer belt 31 by pressurized cylinder 321 and 331, when conveyer belt 31 runs, front haulage roller 32 and rear haulage roller 33 run-in synchronism are led thermoplastic elastomer (TPE) conveyer belt 6 workshop section to be added on dull and stereotyped Plasticator prefinishing workbench and are delivered to heating plasticizing station A, the heating plasticizing section that completes on former heating plasticizing station A is delivered to cooling and shaping station B, the cooling and shaping section that completes on former cooling and shaping station B transfers out laboratory work platform outside Plasticator, devices for taking-up run-in synchronism is thermoplastic elastomer (TPE) conveyer belt 6 rolling completing inspection on former laboratory work platform.Whole operational sequence is simple, uninterruptedly, enhances productivity, and reduces production cost.The conveyer belt 31 that steel material or macromolecular material are made, heat-resisting and long service life.
The mode of heating of described loop heating system is heat-conducting oil heating or Steam Heating; Described loop heating system is by being arranged at described upper heating plate 11 and the conduction oil passage in lower heating plate 24 and the heat-conducting oil furnace that is connected with oil-out and the oil-in of described conduction oil passage is formed; Described circulating cooling system is by being arranged at described upper coldplate 14 and the cooling-water duct in lower coldplate 27 and the cooling water heat dissipating device of outside that is connected with delivery port and the water inlet of described cooling-water duct is formed.
The loop heating system that described conduction oil passage and heat-conducting oil furnace are formed makes to keep heated at constant temperature state better in whole production process; The circulating cooling system that described cooling-water duct and cooling water heat dissipating device are formed makes to keep the state of cooling better in process of production.
Be provided with water-cooled thermal insulation board 23 below described lower heating plate 24, and be connected with cooling water.
Use described water-cooled thermal insulation board 23 to be that heat in order to intercept described lower heating plate 24 transmits to pressurization airbag 22, thus play the effect of protection airbag.
Described locking device 21 is for latch shaft type or have contact with button; The iron seat that described latch shaft type locking device is shouted by middle its central band circle and bearing pin form, and bearing pin inserts iron seat circle and shouts, locking device locked closed upper spider 1 and lower bearing bracket 2; Described hook button locking device has contact with button by locking and forms, and fish padlock to determine upper spider 1 and lower bearing bracket 2 by taking, described upper heat exchanger plates and lower heat exchanger plates working face equidistantly form dull and stereotyped die cavity.
Described latch shaft type or to have contact with button locking device 21 structure simple, easy to operate, cost is low.
Preferential, it also comprises pressue device, and described pressue device comprises the one group of pressurization airbag 22 be arranged at below described water-cooled thermal insulation board 23 and the one group of pressurization airbag 26 be arranged at below described lower coldplate 27; Described pressurization airbag 22,26 is all positioned on described lower bearing bracket 2.
During production operation, compressed air control system is to airbag 22,26 inflation of pressurizeing, and the thermoplastic elastomer (TPE) conveyer belt 6 that after the inflation of pressurization airbag 22,26, expansion upwardly descends the rising of heat exchanger plates, conveyer belt 31 and upper heat exchanger plates working face closed pair to suppress carries out matched moulds and exerts pressure; When airbag 22,26 valve that pressurizes is opened, the weight compressing pressurization airbag of lower heat exchanger plates is vented and declines and departs from upper heat exchanger plates working face (die sinking), and the thermoplastic elastomer (TPE) conveyer belt 6 completing compacting is also separated with upper heat exchanger plates thereupon.Open drive unit rotational conveyance band 31, front haulage roller 32 and rear haulage roller 33 clamp the thermoplastic elastomer (TPE) conveyer belt 6 be placed on conveyer belt 31 by pressurized cylinder 321 and 331, when conveyer belt 31 runs, front haulage roller 32 and rear haulage roller 33 run-in synchronism are led thermoplastic elastomer (TPE) conveyer belt 6 workshop section to be added on dull and stereotyped Plasticator prefinishing workbench and are delivered to heating plasticizing station A, the heating plasticizing section that completes on former heating plasticizing station A is delivered to cooling and shaping station B, the cooling and shaping section that completes on former cooling and shaping station B transfers out laboratory work platform outside Plasticator, devices for taking-up run-in synchronism is thermoplastic elastomer (TPE) conveyer belt 6 rolling completing inspection on former laboratory work platform.Afterwards, pressurized with compressed air device is inflated pressurization airbag 22,26, and the compacting of next round is carried out in the matched moulds pressurization of rising of lower heat exchanger plates and conveyer belt 31; Ensure that whole production operation is uninterrupted, improve whole production efficiency, structure is simple, reduces production cost.
Described upper spider lifting device 12 is hydraulic jack; Described hydraulic jack has two or more.
Two or more hydraulic jack makes upper spider 1 be more prone to when promoting, and ensures that mold-break operations is quick, thus enhances productivity.
Below know-why of the present utility model is described in conjunction with specific embodiments.These describe just in order to explain principle of the present utility model, and can not be interpreted as the restriction to the utility model protection domain by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other detailed description of the invention of the present utility model, and these modes all will fall within protection domain of the present utility model.
Claims (10)
1. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt, is characterized in that, it comprises upper spider, lower bearing bracket, induction system, base, upper spider lifting device, loop heating system and circulating cooling system composition; Described lower bearing bracket is installed on described base; Described upper spider is arranged at the top of lower bearing bracket, and its side is by turning to lift axle and lower bearing bracket is hinged; Space between described upper spider and lower bearing bracket is formed and is positioned at the heating plasticizing station of front end and is positioned at the cooling forming station of rear end; Described induction system is installed on described lower bearing bracket, for carrying described thermoplastic elastomer (TPE) conveyer belt; Described upper spider lifting device controls the open and close of upper spider; Described loop heating system is arranged at described heating plasticizing station; Described circulating cooling system is arranged at described cooling and shaping station.
2. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt according to claim 1, is characterized in that: it also comprises the locking device for locking described upper spider and lower bearing bracket.
3. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt according to claim 2, it is characterized in that: described upper spider is provided with heating plate at described heating plasticizing station, described lower bearing bracket is provided with lower heating plate at described heating plasticizing station; Described upper spider is provided with coldplate at described cooling and shaping station, and described lower bearing bracket is provided with lower coldplate at described cooling and shaping station; Described lower coldplate and lower heating plate are connected as a single entity the lower heat exchanger plates forming and have same working face, and it is working face upward; Described upper coldplate and upper heating plate are connected as a single entity the upper heat exchanger plates forming and have same working face, and it is to being working face below; Described upper heat exchanger plates is synchronously opened with described upper spider, closed.
4. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt according to claim 3, is characterized in that: described induction system comprises conveyer belt, driving roller, driven roller and drive unit; Described conveyer belt is arranged between the working face of described upper heat exchanger plates and lower heat exchanger plates; Described driving roller and driven roller are installed on the front-end and back-end of described lower bearing bracket respectively; Described drive unit is connected with described driving roller, drives described driving roller to rotate, and described driving roller drives described conveyer belt to move.
5. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt according to claim 4, is characterized in that: be provided with the front haulage roller that can carry out rising, declining above described driving roller; The rear haulage roller that can carry out rising, declining is provided with above described driven roller; Be provided with pressurized cylinder above described front haulage roller, above described rear haulage roller, be provided with pressurized cylinder; Described conveyer belt is made up of steel material or macromolecular material.
6. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt according to claim 3, is characterized in that: the mode of heating of described loop heating system is heat-conducting oil heating or Steam Heating; Described loop heating system is by being arranged at described upper heating plate and the conduction oil passage in lower heating plate and the heat-conducting oil furnace that is connected with oil-out and the oil-in of described conduction oil passage is formed; Described circulating cooling system is by being arranged at described upper coldplate and the cooling-water duct in lower coldplate and the cooling water heat dissipating device of outside that is connected with delivery port and the water inlet of described cooling-water duct is formed.
7. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt according to claim 3, is characterized in that: be provided with water-cooled thermal insulation board below described lower heating plate, and be connected with cooling water.
8. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt according to claim 3, is characterized in that: described locking device is latch shaft type or has contact with button; The iron seat that described latch shaft type locking device is shouted by middle its central band circle and bearing pin form, and bearing pin inserts iron seat circle and shouts, locking device locked closed upper spider and lower bearing bracket; Described hook button locking device has contact with button by locking and forms, and fish padlock to determine upper spider and lower bearing bracket by taking, described upper heat exchanger plates and lower heat exchanger plates working face equidistantly form dull and stereotyped die cavity.
9. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt according to claim 7, it is characterized in that: it also comprises pressue device, described pressue device comprises the one group of pressurization airbag be arranged at below described water-cooled thermal insulation board and the one group of pressurization airbag be arranged at below described lower coldplate; Described pressurization airbag is all positioned on described lower bearing bracket.
10. the dull and stereotyped Plasticator of thermoplastic elastomer (TPE) conveyer belt according to claim 1, is characterized in that: described upper spider lifting device is hydraulic jack; Described hydraulic jack has two or more.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420376292.4U CN204136450U (en) | 2014-07-08 | 2014-07-08 | The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420376292.4U CN204136450U (en) | 2014-07-08 | 2014-07-08 | The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204136450U true CN204136450U (en) | 2015-02-04 |
Family
ID=52413164
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420376292.4U Withdrawn - After Issue CN204136450U (en) | 2014-07-08 | 2014-07-08 | The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN204136450U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104129086A (en) * | 2014-07-08 | 2014-11-05 | 广东特固力士工业皮带有限公司 | Flat plasticizing machine of thermoplastic elastomer conveying belt |
-
2014
- 2014-07-08 CN CN201420376292.4U patent/CN204136450U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104129086A (en) * | 2014-07-08 | 2014-11-05 | 广东特固力士工业皮带有限公司 | Flat plasticizing machine of thermoplastic elastomer conveying belt |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN205463752U (en) | Bending device | |
CN204639022U (en) | The die device of cooling can be heated | |
CN104309047B (en) | Automatic footwear material secondary frothing forming machine | |
CN205929184U (en) | Shoes insole make -up machine | |
CN204136450U (en) | The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt | |
CN104129086B (en) | The dull and stereotyped Plasticator of a kind of thermoplastic elastomer (TPE) conveyer belt | |
CN102514124A (en) | Novel moveable heating type automatic heating and cooling device | |
CN105538578A (en) | Carbon fiber badminton racket wind-pressure-free forming technology automatic production line | |
CN104399826B (en) | A kind of automatic mould changing device of bender | |
CN206134837U (en) | Electricity core hot pressing test machine | |
CN203752297U (en) | Novel light wallboard machine | |
CN202607909U (en) | Heating-plate-type segmented mold | |
CN205056694U (en) | Steel band cooling flattening device | |
CN202105977U (en) | Spray cooling device for forging moulds | |
CN102120366B (en) | Energy-saving unpowered lower opening type tyre vulcanizing segmented mold | |
CN202071265U (en) | Novel energy-saving thermal insulation device for vulcanizing machine | |
CN205416665U (en) | Automobile roof board hot briquetting equipment | |
CN204043407U (en) | Precision casting mold roasting tunnel kiln kiln car | |
CN204268898U (en) | A kind of pneumatic door | |
CN203854119U (en) | Superposed vulcanizing mold | |
CN210754970U (en) | A mould for producing container tool to lock | |
CN104017919B (en) | Pipeline system Pneumatic leather Thermal press binding machine and production technique thereof | |
CN202656369U (en) | Preparation device of non-metal anti-elastic plugboard | |
CN205969706U (en) | Sole material secondary rapid prototyping machine | |
CN204712221U (en) | A kind of die change hot press fast |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150204 Effective date of abandoning: 20160413 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |