CN204935720U - A kind of silica gel automatic machining device - Google Patents
A kind of silica gel automatic machining device Download PDFInfo
- Publication number
- CN204935720U CN204935720U CN201520714782.5U CN201520714782U CN204935720U CN 204935720 U CN204935720 U CN 204935720U CN 201520714782 U CN201520714782 U CN 201520714782U CN 204935720 U CN204935720 U CN 204935720U
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- silica gel
- drum line
- cutting
- feeding
- blanking
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Abstract
The utility model relates to a kind of silica gel automatic machining device, comprises supporting mechanism, supporting mechanism is provided with feed mechanism, described feed mechanism feed direction is disposed with cutting mechanism and cutting agency, described cutting agency is provided with a detent mechanism; Feed mechanism completes the process of silica gel feeding, cutting mechanism coordinates with feed mechanism and runs, complete silica gel cutting process, silica gel after cutting is directed to cutting agency and keeps silica gel at the invariant position of cutting agency by detent mechanism, cutting agency completes the blanking process of silica gel, supporting mechanism plays stable supporting role, and easily according to production line need adjust position.The utility model realizes the full-automatic work process to the feeding of silica gel, blanking, bonding and cutting, silica gel plate will be opened greatly and send into feeding machine, obtain satisfactory strip-shaped materials, and sent into the charge door of existing extruder, save manpower with this, increase work efficiency and save working space.
Description
Technical field
The utility model relates to machining equipment field, in particular, relates to a kind of silica gel automatic machining device.
Background technology
Usually manpower is needed to carry out feeding, blanking and cutting operation to silica gel in the mechanical processing process of existing silica gel, first, extrude machine by silica gel qualified silica gel raw material are extruded and forms a sheet by a sheet irregular silica gel plate, then, by manpower, craft is carried out to above-mentioned silica gel plate bonding and cut, form multiple silica gel strip, again by manpower by bonding for each silica gel strip head and the tail and pressing, silica gel extruder feeding mouth is sent into above-mentioned continuously through bonding and after pressing silica gel strip finally by manpower, carry out an extrusion process, and complete blanking operation.In this operating process, cutting is carried out to Different Silicon offset plate and silica gel strip and bonding time need manual operations, to make whole process be in semi-automatic state.This method owing to not carrying out repeatedly silica gel plate and silica gel strip, the process of bonding and pressing step by step and cannot ensure that silica gel thickness is even, make the silica gel strip that finally obtains of low quality.And in the hand cut process of silica gel, because the viscosity of silica gel self causes difficult drop-off, cause the inefficiency of silica gel cutting, again because whole silica gel process compares dispersion, therefore required space, place is large, and more cannot ensure high-precision requirement.
For silica gel cutter sweep, what application was maximum at present is laser cutting machine, in order to silica gel plate to be cut into the silica gel strip of strip, then silica gel strip is sent to the charge door of extruder.Manually cut with cutter in order to substitute artificial, on-the-spot, but this device mostly is import, expensive and inconvenient maintenance, owing to needing more accessory and complicated control system, therefore complex structure and restive, and it still needs manual operation in feeding and blanking process, precision and the efficiency of whole silica gel cutting process therefore cannot be ensured.
Utility model content
In view of this, be necessary for the problems referred to above, a kind of silica gel automatic machining device is provided, realize, to the full-automatic work process of the feeding of silica gel, blanking, bonding and cutting, silica gel plate to be opened greatly and sending into feeding machine, and obtain satisfactory strip-shaped materials, and sent into the charge door of existing extruder, to realize bonding, the pressing step by step between Different Silicon offset plate and silica gel strip, and realize silica gel and come off in time, save manpower with this, increase work efficiency and save working space.
For achieving the above object, the technical solution of the utility model is as follows:
A kind of silica gel automatic machining device, comprises supporting mechanism, supporting mechanism is provided with feed mechanism, described feed mechanism feed direction is disposed with cutting mechanism and cutting agency, described cutting agency is provided with a detent mechanism;
Described feed mechanism comprises the feeding conveying drum line be installed on supporting mechanism and the feeding extruding drum line be installed on above feeding conveying drum line, and feeding conveying drum line is connected to feeding transport motor, and feeding extruding drum line is connected to feeding extruding motor;
Described cutter sweep comprises a line slideway, cutting tool and transmission device, and described line slideway is installed on supporting mechanism, and cutting tool connects this line slideway by drive;
Described cutting agency comprises blanking conveying drum line and is arranged at the blanking extruding drum line above blanking conveying drum line, and blanking conveying drum line is connected to blanking transport motor, and blanking extruding drum line is connected to blanking extruding motor;
Described detent mechanism comprises positioner, guide pulley and guide motor, positioner is installed on above blanking conveying drum line, guide pulley connects guide motor, and guide pulley is arranged at the end of feeding conveying drum line, and the silica gel materials after cutting is imported positioner.
As preferably, described feeding extruding drum line and feeding conveying drum line locking are moved, and described blanking extruding drum line and blanking conveying drum line locking are moved.
As preferably, described feed mechanism also comprises gear and cog belt, and described feeding transport motor connects feeding conveying drum line by gear and cog belt.
As preferably, described transmission device does periodic operation, and the transmission device running when feeding conveying drum line stops, during the running of feeding conveying drum line, transmission device stops.
As preferably, described transmission device also comprises synchronous cog belt, synchromesh gear, cutting motor, described synchromesh gear comprises two and is installed on line slideway two ends respectively, described synchronous cog belt is connected with synchronous gear transport, synchromesh gear is connected with cutting motor, synchronous cog belt is fixedly connected with a slide block, and described skid is installed on line slideway, and cutting tool is installed on the side of slide block.
As preferably, the two ends of described line slideway are separately installed with limit sensors, and the spacing of described limit sensors is not less than the width of feeding conveying drum line.
As preferably, described cutting tool comprises the first cutter and the second cutter, described first cutter cutter is perpendicular to feeding conveying drum line, second cutter follow the first cutter linearly guide rail do cutting movement, described second cutter is along the direction of transfer inclination certain angle of feeding conveying drum line, and the end of the second cutter is V-shaped.
As preferably, described supporting mechanism comprises bracing frame, supporting seat and castor, and described supporting seat is apparatus capable of fluctuating, and supporting seat and castor are arranged at bottom bracing frame.
As preferably, the described position of feeding extruding drum line above feeding conveying drum line is adjustable, and the position of blanking extruding drum line above blanking conveying drum line is adjustable.
Compared with prior art, the beneficial effects of the utility model are:
1, realize the feeding to silica gel, blanking, bonding and cutting full-automatic work process, silica gel plate will be opened greatly and send into feeding machine, obtain satisfactory strip-shaped materials, and sent into the charge door of existing extruder, and bonding, the pressing step by step that realize between Different Silicon offset plate and silica gel strip, and realize silica gel and come off in time;
2, structure composition is simplified, and ensure that higher machining accuracy;
3, silica gel cutting process is continuously continual, and work tempo is easily grasped, and saves manpower and operating efficiency is high;
4, adjustment and easy to maintenance, reduce the manufacturing cost of Whole Equipment.
Accompanying drawing explanation
Fig. 1 is overall structure schematic diagram of the present utility model;
Fig. 2 is side view of the present utility model;
Fig. 3 is the enlarged drawing of Fig. 1 middle section A;
Fig. 4 is cutting tool schematic diagram of the present utility model.
Reference numeral:
Detent mechanism-3, cutting mechanism-2, feed mechanism-1
Supporting mechanism-5, cutting agency-4 feeding conveying drum line-6
Feeding transport synchronous cog belt-9, synchromesh gear-8, motor-7
Cutting tool-12, guide rail-11, slide block-10
Blanking extruding motor-14 blanking extruding drum line-15, limit sensors-13
Guide pulley-18, positioner-17, blanking conveying drum line-16
Supporting seat-21, castor-20, guide motor-19
Feeding extruding bracing frame-24, motor-23, cutting motor-22
Gear-25 cog belt 26 blanking transport motor-27
Feeding transport motor-28 first cutter-29 second cutter-30
Detailed description of the invention
Below in conjunction with drawings and Examples, a kind of silica gel automatic machining device described in the utility model is described further.
Be below the preferred example of a kind of silica gel automatic machining device described in the utility model, therefore do not limit protection domain of the present utility model.
Fig. 1 to Fig. 4 shows a kind of silica gel automatic machining device, as depicted in figs. 1 and 2, this silica gel automatic machining device comprises supporting mechanism 5, supporting mechanism 5 is provided with feed mechanism 1, described feed mechanism 1 feed direction is disposed with cutting mechanism 2 and cutting agency 4, described cutting agency is provided with a detent mechanism 3;
Supporting mechanism 5 comprises bracing frame 24, supporting seat 21 and castor 20.Supporting seat 21 and castor 20 are installed on the bottom of bracing frame 24.With this, supporting seat 21 liftable, ensures that supporting mechanism 5 both can freely move and also fixes Absorbable organic halogens.
Described feed mechanism 1 comprises feeding conveying drum line 6, feeding extruding drum line 7, feeding transport motor 28, feeding extruding motor 23, gear 25 and cog belt 26; Feeding transport motor 28 is connected with feeding conveying drum line 6 with cog belt 26 by gear 25; Feeding extruding motor 23 is connected with feeding extruding drum line 7; Feeding extruding drum line 7 to be arranged on above feeding conveying drum line 6 and height adjustable; Feeding extruding drum line 7 is arranged on the position above feeding conveying drum line 6 and is determined by the silica gel strip model of production requirement.Described feeding extruding drum line 7 is synchronized with the movement with feeding conveying drum line 6, and under the driving of feeding transport motor 28, feeding conveying drum line 6 operates and is sent to by silica gel plate below feeding extruding drum line 7.Feeding extruding drum line 7 under the driving of feeding extruding motor 23 with the acting in conjunction of feeding conveying drum line 6, obtain thickness evenly and coherent silica gel plate, complete feeding process.
Described cutting mechanism 2 comprises cutting motor 22, synchronous cog belt 9, synchromesh gear 8, slide block 10, line slideway 11, limit sensors 13 and cutting tool 12.Described line slideway 11 is installed on bracing frame 24, and line slideway 11 is vertical with the direction of transfer of feeding conveying drum line 6.Cutting motor 22, synchromesh gear 8 and synchronous cog belt 9 be composition one transmission device jointly, and synchromesh gear 8 comprises two and is installed on line slideway 11 two ends respectively, and synchronous cog belt 9 and two synchromesh gears 8 are in transmission connection, and synchromesh gear 8 connects cutting motor 22; Synchronous cog belt 9 is fixedly connected with slide block 10, slide block 10 is arranged on above line slideway 11, cutting tool 12 is arranged on slide block 10 side, and the two ends of described line slideway 11 are separately installed with limit sensors 13, and the spacing of described limit sensors 13 is not less than the width of feeding conveying drum line 6.
Fig. 4 shows the schematic diagram of the cutting tool in this enforcement, and described cutting tool 12 comprises two cutters, i.e. the first cutter 29 and the second cutter 30; Described first cutter 29 is installed perpendicular to silica gel plate face; After described second cutter 30 is installed on the first cutter 29, and tilt to direction, cutting agency 4 place relative to the first cutter 29, and the end of the second cutter becomes V-type.First cutter 29 mainly plays the effect of cutting silica gel plate, the effect of the second cutter 30 is mainly in order to prevent the silica gel strip after cutting bonding with silica gel plate secondary, play the effect of baffle plate, cutting accuracy is ensure that like this by the first cutter 29, silica gel strip after cutting and silica gel plate separate by the second cutter 30 simultaneously, prevent secondary bonding.
Cutting motor 22 drives transmission device by power transmission to slide block 10, slide block 10 drives cutting tool 12 to move reciprocatingly on line slideway 11, cutting silica gel plate, two limit sensors 13 are arranged on line slideway two ends respectively, limit the reciprocating stroke of slide block 10 with this.The position that limit sensors 13 is arranged on line slideway 11 two ends should make the spacing of limit sensors 13 be not less than the width of feeding conveying drum line 6, ensures with this effective travel that cutting tool 12 cuts.Cutting motor 22 does periodic operation, and namely when conveying drum line 6 operates, cutting motor 22 keeps stopping, and when conveying drum line 6 stops, cutting motor 22 operates, and ensures the silica gel strip even width after cutting with this.
Described cutting agency 4 comprises blanking conveying drum line 16, blanking extruding drum line 15, blanking transport motor 27 and blanking extruding motor 14; Blanking transport motor 27 is connected with blanking conveying drum line 16; Blanking extruding motor 14 is connected with blanking extruding drum line 15; Blanking extruding drum line 15 is arranged on above blanking conveying drum line 16.The position of blanking extruding drum line above blanking conveying drum line is adjustable, and its height can be determined by the silica gel type bar of production requirement number.
Described detent mechanism 3 comprises positioner 17, guide pulley 18 and guide motor 19; Positioner 17 is arranged on above blanking conveying drum line 16; Guide pulley 18 is connected with guide motor 19, and guide pulley is arranged at the end of feeding conveying drum line.The position that positioner 17 is arranged on above blanking conveying drum line 16 is determined by the silica gel strip width after cutting.
In above-mentioned cutting process, guide pulley 18 operates under the driving of guide motor 19, the effect of the cut silica gel strip power be shed to gradually on guide pulley 18 is given with this, and the position cut silica gel strip is transported near positioner 17 on blanking conveying drum line 16, adjustment is carried out with firm in positioner 17 pairs of silica gel strip positions, the different silica gel strip that transmission comes is adjusted to same position state so that carry out bonding, extruding step by step.Blanking conveying drum line 16 transports the silica gel strip after cutting to blanking extruding drum line 15 under the driving of blanking transport motor 27.Blanking extruding drum line 15 blanking extruding motor 14 driving under with the acting in conjunction of blanking conveying drum line 16, Different Silicon adhesive tape is carried out repeatedly, step by step bonding and extruding, obtain the silica gel strip that thickness is even and coherent, obtain the silica gel strip that thickness is even and coherent, complete blanking process.
In sum, compared with prior art, the beneficial effects of the utility model are:
1, realize the feeding to silica gel, blanking, bonding and cutting full-automatic work process, silica gel plate will be opened greatly and send into feeding machine, obtain satisfactory strip-shaped materials, and sent into the charge door of existing extruder, and bonding, the pressing step by step that realize between Different Silicon offset plate and silica gel strip, and realize silica gel and come off in time;
2, structure composition is simplified, and ensure that higher machining accuracy;
3, silica gel cutting process is continuously continual, and work tempo is easily grasped, and saves manpower and operating efficiency is high;
4, adjustment and easy to maintenance, reduce the manufacturing cost of Whole Equipment.
The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.
Claims (9)
1. a silica gel automatic machining device, is characterized in that, comprises supporting mechanism, and supporting mechanism is provided with feed mechanism, described feed mechanism feed direction is disposed with cutting mechanism and cutting agency, described cutting agency is provided with a detent mechanism;
Described feed mechanism comprises the feeding conveying drum line be installed on supporting mechanism and the feeding extruding drum line be installed on above feeding conveying drum line, and feeding conveying drum line is connected to feeding transport motor, and feeding extruding drum line is connected to feeding extruding motor;
Described cutter sweep comprises a line slideway, cutting tool and transmission device, and described line slideway is installed on supporting mechanism, and cutting tool connects this line slideway by drive;
Described cutting agency comprises blanking conveying drum line and is arranged at the blanking extruding drum line above blanking conveying drum line, and blanking conveying drum line is connected to blanking transport motor, and blanking extruding drum line is connected to blanking extruding motor;
Described detent mechanism comprises positioner, guide pulley and guide motor, positioner is installed on above blanking conveying drum line, guide pulley connects guide motor, and guide pulley is arranged at the end of feeding conveying drum line, and the silica gel materials after cutting is imported positioner.
2. silica gel automatic machining device according to claim 1, is characterized in that, described feeding extruding drum line and feeding conveying drum line locking are moved, and described blanking extruding drum line and blanking conveying drum line locking are moved.
3. silica gel automatic machining device according to claim 1, is characterized in that, described feed mechanism also comprises gear and cog belt, and described feeding transport motor connects feeding conveying drum line by gear and cog belt.
4. silica gel automatic machining device according to claim 1, is characterized in that, described transmission device does periodic operation, and the transmission device running when feeding conveying drum line stops, during the running of feeding conveying drum line, transmission device stops.
5. silica gel automatic machining device according to claim 1, it is characterized in that, described transmission device also comprises synchronous cog belt, synchromesh gear, cutting motor, described synchromesh gear comprises two and is installed on line slideway two ends respectively, described synchronous cog belt is connected with synchronous gear transport, and synchromesh gear is connected with cutting motor, and synchronous cog belt is fixedly connected with a slide block, described skid is installed on line slideway, and cutting tool is installed on the side of slide block.
6. silica gel automatic machining device according to claim 5, is characterized in that, the two ends of described line slideway are separately installed with limit sensors, and the spacing of described limit sensors is not less than the width of feeding conveying drum line.
7. silica gel automatic machining device according to claim 5, it is characterized in that, described cutting tool comprises the first cutter and the second cutter, described first cutter is perpendicular to feeding conveying drum line, second cutter follow the first cutter linearly guide rail do cutting movement, described second cutter is along the direction of transfer inclination certain angle of feeding conveying drum line, and the end of the second cutter is V-shaped.
8. silica gel automatic machining device according to claim 1, is characterized in that, described supporting mechanism comprises bracing frame, supporting seat and castor, and described supporting seat is apparatus capable of fluctuating, and supporting seat and castor are arranged at bottom bracing frame.
9. silica gel automatic machining device according to claim 1, is characterized in that, the described position of feeding extruding drum line above feeding conveying drum line is adjustable, and the position of blanking extruding drum line above blanking conveying drum line is adjustable.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520714782.5U CN204935720U (en) | 2015-09-15 | 2015-09-15 | A kind of silica gel automatic machining device |
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CN201520714782.5U CN204935720U (en) | 2015-09-15 | 2015-09-15 | A kind of silica gel automatic machining device |
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CN204935720U true CN204935720U (en) | 2016-01-06 |
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CN201520714782.5U Withdrawn - After Issue CN204935720U (en) | 2015-09-15 | 2015-09-15 | A kind of silica gel automatic machining device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105171791A (en) * | 2015-09-15 | 2015-12-23 | 广州中国科学院先进技术研究所 | Automatic processing device for silica gel |
-
2015
- 2015-09-15 CN CN201520714782.5U patent/CN204935720U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105171791A (en) * | 2015-09-15 | 2015-12-23 | 广州中国科学院先进技术研究所 | Automatic processing device for silica gel |
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Legal Events
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20160106 Effective date of abandoning: 20171128 |
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AV01 | Patent right actively abandoned |
Granted publication date: 20160106 Effective date of abandoning: 20171128 |