CN213291006U - Feeding device for glass fiber plastic particles - Google Patents

Abstract

The utility model discloses a fine plastic pellet of glass is with feeding device relates to fine plastic pellet of glass is with reinforced technical field, does not carry out the preliminary treatment to reinforced fine plastic pellet of glass for the solution, and the large granule particle that leads to exceeding the particle of user demand is together carried, causes certain influence to the mould, and machining efficiency is not good, can not satisfy the problem of user demand. The top of base is provided with the conveying pipeline, the inside of conveying pipeline is provided with the spiral conveying axle, and the inner wall of spiral conveying axle and conveying pipeline is laminated mutually, the below of conveying pipeline is provided with the charging box, and the one end of conveying pipeline extends to the inside of charging box, the inside of charging box is provided with the sieve, and the sieve is connected with the inner wall laminating of charging box, the below of sieve is provided with the vibrator, and the vibrator passes through the screw connection with the sieve, the lower extreme of charging box is provided with the discharge gate, all be provided with the support frame between conveying pipeline and charging box and the base.

Description

Feeding device for glass fiber plastic particles

Technical Field

The utility model relates to a fine plastic pellet of glass specifically is a fine plastic pellet of glass is with feeding device with reinforced technical field.

Background

Plastic particles are the common name for plastic granules, and are the raw material for storing, transporting and processing plastic in the form of semi-finished products. The glass fiber reinforced plastic is prepared by adding glass fiber and other additives on the basis of the original pure plastic, thereby improving the application range of the material. The glass fiber plastic particles are frequently used raw materials in the chemical industry, are mainly used for improving the heat-resistant temperature of original plastics, and the optimal temperature when the glass fiber plastic particles are poured into a mould is 235 ℃. The stirring type heating-based inorganic non-metallic material for the glass fiber plastic particle heat-preservation charging machine is an inorganic non-metallic material with excellent performance, and has the advantages of good insulativity, strong heat resistance, good corrosion resistance and high mechanical strength.

At present, when using feeding device to carry out reinforced operation to glass fiber plastic particle, all directly input into extrusion die with glass fiber plastic particle, and the glass fiber plastic particle that does not feed into carries out the preliminary treatment, leads to exceeding the large granule particle of user demand's particle together to be carried, causes certain influence to the mould, and machining efficiency is not good, can not satisfy the user demand. Therefore, a feeding device for glass fiber plastic particles is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fine plastic pellet of glass is with feeding device to propose not carrying out the preliminary treatment to reinforced fine plastic pellet of glass among the solution above-mentioned background art, the large granule particle that leads to exceeding the particle of user demand is together carried, leads to certain influence to the mould, and machining efficiency is not good, can not satisfy the problem of user demand.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a fine for plastic granules feeding device of glass, includes the base, the top of base is provided with the conveying pipeline, the inside of conveying pipeline is provided with the spiral conveying axle, and the inner wall of spiral conveying axle and conveying pipeline is laminated mutually, the below of conveying pipeline is provided with the charging box, and the one end of conveying pipeline extends to the inside of charging box, the inside of charging box is provided with the sieve, and the sieve is connected with the inner wall laminating of charging box, the below of sieve is provided with the vibrator, and the vibrator passes through screw connection with the sieve, the lower extreme of charging box is provided with the discharge gate, all be provided with the support frame between conveying pipeline and charging box and the base, and support frame and base, conveying pipeline and charging box all pass through screw connection.

Preferably, the top of base is provided with the motor, and the motor passes through the screw connection with the base, one side of motor output is provided with the action wheel, and the action wheel passes through the coupling joint with the output of motor, spiral conveying axle is provided with the bearing with conveying pipeline contact department, and the bearing passes through the screw connection with the conveying pipeline, the bearing rotates with spiral conveying axle to be connected, one side of spiral conveying axle is provided with from the driving wheel, and passes through the screw connection from driving wheel and spiral conveying axle, be provided with the rubber belt from between driving wheel and the action wheel, and the rubber belt respectively with from driving wheel and action wheel transmission connection.

Preferably, one side of charging box is provided with the door plant of unloading, and the door plant of unloading rotates with the charging box to be connected, the outside of the door plant of unloading is provided with the rubber strip, and the rubber strip passes through the screw connection with the door plant of unloading, the rubber strip laminates with the charging box mutually, one side of the door plant of unloading is provided with the fixed block, and the fixed block is provided with two, and the fixed block sets up structure as an organic whole with the door plant of unloading, the fixed block passes through the screw connection with the charging box, the below of the door plant of unloading is provided with the accumulator, and the accumulator passes through the screw connection with.

Preferably, one side of the discharging door plate is provided with a handle, the handle is connected with the discharging door plate through a screw, a visual window is arranged on the inner side of the handle, and the visual window and the discharging door plate are arranged into an integral structure.

Preferably, the outside of conveying pipeline is provided with insulation support, and insulation support passes through the screw connection with the conveying pipeline, be provided with the electrical heating piece between insulation support and the conveying pipeline, the electrical heating piece is provided with threely, and the outer wall laminating of electrical heating piece and conveying pipeline is connected, and is three the electrical heating piece sets gradually on the outer wall of conveying pipeline.

Preferably, a temperature sensor is arranged inside the heat-insulating sleeve, and the temperature sensor is connected with the inner wall of the heat-insulating sleeve through a screw.

Preferably, one side of motor is provided with the work or material rest, and work or material rest and base pass through the screw connection, the top of work or material rest is provided with the hopper, and hopper and work or material rest pass through the screw connection, the below of hopper is provided with the unloading pipe, and the both ends of unloading pipe extend to the inside of hopper and conveying pipeline respectively, the outside of unloading pipe is provided with the material valve, and the material valve passes through the screw connection with the unloading pipe.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a device passes through the sieve, the vibrator, the setting of door plant and accumulator of unloading, throw the fine plastic particle of glass onto the sieve, the particle that is less than the sieve aperture drops, and great particle will be held back, thereby sieve the particle, and the vibrator drives the sieve vibration, thereby drive sieve and particle synchronous shake, can be faster sieve, because the sieve has certain inclination, when opening the door plant of unloading, the particle of piling up the large granule on the sieve will be followed the reinforced case and discharged leading-in to the accumulator. The problem of can sieve reinforced glass fiber plastic particle, reject out and concentrate the recovery with the particle that exceeds the user demand to reinforced follow-up result of use has been improved is solved.

2. The utility model discloses a device passes through electric heating piece, insulation support and temperature sensor's setting, can heat the conveying pipeline with the help of electric heating piece to can preheat the particle, reduce the follow-up degree of difficulty that heaies up, and insulation support then can effectually avoid thermal loss, temperature sensor can detect the inside temperature of insulation support, thereby the indirect temperature to conveying pipeline inside monitors. The problem of can carry out preheating to the glass fiber plastic particle of feeding in advance, reduce follow-up intensification degree of difficulty is solved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a diagram of a testing structure of the charging box of the present invention;

FIG. 3 is a sectional view showing the connection between a feed pipe and a heat-insulating sleeve of the present invention;

fig. 4 is a partial enlarged view of the area a of the present invention.

In the figure: 1. a base; 2. a material rack; 3. a hopper; 4. a motor; 5. a delivery pipe; 6. a heat-insulating sleeve; 7. an electrical heating block; 8. a discharging pipe; 9. a support frame; 10. a temperature sensor; 11. a spiral delivery shaft; 12. a feed box; 13. a sieve plate; 14. a vibrator; 15. a recovery tank; 16. a discharge port; 17. a discharge door panel; 18. a visual window; 19. a handle; 20. a rubber strip; 21. a fixed block; 22. a driving wheel; 23. a bearing; 24. a driven wheel; 25. a rubber belt; 26. and (4) a material valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, the present invention provides an embodiment: a feeding device for glass fiber plastic particles comprises a base 1, a feed delivery pipe 5 is arranged above the base 1, a spiral feed delivery shaft 11 is arranged inside the feed delivery pipe 5, the spiral feed delivery shaft 11 is attached to the inner wall of the feed delivery pipe 5, the spiral feed delivery shaft 11 can convey and transfer particles, a feed box 12 is arranged below the feed delivery pipe 5, one end of the feed delivery pipe 5 extends into the feed box 12, a sieve plate 13 is arranged inside the feed box 12, the sieve plate 13 is attached to the inner wall of the feed box 12, the sieve plate 13 can sieve the particles, a vibrator 14 is arranged below the sieve plate 13, the vibrator 14 is connected with the sieve plate 13 through screws, the vibrator 14 drives the sieve plate 13 to vibrate, the sieve plate 13 and the particles synchronously shake, the sieving of the particles is accelerated, a discharge port 16 is arranged at the lower end of the feed box 12, and support frames 9 are arranged between the feed delivery pipe 5 and the feed box 12 and the base 1, and the supporting frame 9 is connected with the base 1, the material conveying pipe 5 and the feeding box 12 through screws.

Further, base 1's top is provided with motor 4, and motor 4 passes through the screw connection with base 1, one side of motor 4 output is provided with action wheel 22, and action wheel 22 passes through the coupling joint with motor 4's output, spiral delivery axle 11 is provided with bearing 23 with conveying pipeline 5 contact department, and bearing 23 passes through the screw connection with conveying pipeline 5, bearing 23 rotates with spiral delivery axle 11 to be connected, one side of spiral delivery axle 11 is provided with from driving wheel 24, and pass through the screw connection from driving wheel 24 and spiral delivery axle 11, be provided with rubber belt 25 from between driving wheel 24 and the action wheel 22, and rubber belt 25 is connected with from driving wheel 24 and action wheel 22 transmission respectively. The screw feed shaft 11 is rotated by the motor 4 via the rubber belt 25 to feed the particles.

Further, one side of charging box 12 is provided with the door plant 17 of unloading, and the door plant 17 of unloading is connected with charging box 12 rotation, the outside of door plant 17 of unloading is provided with rubber strip 20, and rubber strip 20 passes through bolted connection with the door plant 17 of unloading, rubber strip 20 laminates mutually with charging box 12, one side of door plant 17 of unloading is provided with fixed block 21, fixed block 21 is provided with two, and fixed block 21 sets up structure as an organic whole with door plant 17 of unloading, fixed block 21 passes through bolted connection with charging box 12, the below of door plant 17 of unloading is provided with accumulator 15, and accumulator 15 passes through bolted connection with charging box 12. The large particles accumulated on the sieve plate 13 can be discharged to the recovery tank 15 to be collected in a concentrated manner by opening the discharge door 17.

Furthermore, one side of the discharging door panel 17 is provided with a handle 19, the handle 19 is connected with the discharging door panel 17 through screws, the inner side of the handle 19 is provided with a visual window 18, and the visual window 18 and the discharging door panel 17 are arranged into an integral structure. The amount of particle accumulation on the screen 13 is observed through the viewing window 18.

Further, the outside of conveying pipeline 5 is provided with insulation support 6, and insulation support 6 passes through the screw connection with conveying pipeline 5, is provided with electrical heating piece 7 between insulation support 6 and the conveying pipeline 5, and electrical heating piece 7 is provided with threely, and electrical heating piece 7 is connected with the outer wall laminating of conveying pipeline 5, and three electrical heating piece 7 sets gradually on the outer wall of conveying pipeline 5. Can heat conveying pipeline 5 through electrical heating piece 7 to preheat glass fiber plastic pellet, insulating sleeve 6 then can reduce the heat loss.

Further, a temperature sensor 10 is arranged inside the heat-insulating sleeve 6, and the temperature sensor 10 is connected with the inner wall of the heat-insulating sleeve 6 through a screw. The temperature sensor 10 can detect the temperature inside the heat-insulating sleeve 6, so that the temperature inside the conveying pipe 5 is monitored, and particles are prevented from being melted due to overhigh temperature inside the conveying pipe 5.

Further, one side of motor 4 is provided with work or material rest 2, and work or material rest 2 passes through screw connection with base 1, and the top of work or material rest 2 is provided with hopper 3, and hopper 3 passes through screw connection with work or material rest 2, and the below of hopper 3 is provided with unloading pipe 8, and the both ends of unloading pipe 8 extend to the inside of hopper 3 and conveying pipeline 5 respectively, and the outside of unloading pipe 8 is provided with material valve 26, and material valve 26 passes through screw connection with unloading pipe 8. The particles in the hopper 3 can be guided into the feed delivery pipe 5 for delivery through the feed discharge pipe 8, and the feed valve 26 can control the on-off of the feed discharge pipe 8.

The working principle is as follows: during the use, put into hopper 3 with glass fiber plastic granules, start electrical heating block 7, heat conveying pipeline 5 with the help of electrical heating block 7, promote the temperature in conveying pipeline 5 to the suitable point to monitor the temperature with the help of temperature sensor 10. Open material valve 26, the glass fiber plastic particle in hopper 3 enters into conveying pipeline 5 along unloading pipe 8, it drives action wheel 22 rotation to open motor 4, because be connected through the transmission of rubber belt 25 between action wheel 22 and the follow driving wheel 24, can drive spiral delivery shaft 11 along with action wheel 22 rotates, thereby can carry the particle in the conveying pipeline 5 on the feed box 12 drops sieve 13, the particle that is less than sieve 13 aperture just can see through sieve 13 and discharge from discharge gate 16 and carry out follow-up use, vibrator 14 drives the vibration of sieve 13, thereby with sieve 13 and particle synchronous shake, can sieve the particle fast. The sieve 13 sets up certain inclination, opens the door plant 17 of unloading, and the particle will discharge under self action of gravity and concentrate in accumulator 15 and collect to can sieve reinforced glass fiber plastic pellet, reject the glass fiber plastic pellet that can not satisfy user demand, the subsequent use of being convenient for.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a glass is feeding device for plastic pellet, includes base (1), its characterized in that: the top of base (1) is provided with conveying pipeline (5), the inside of conveying pipeline (5) is provided with spiral conveying axle (11), and spiral conveying axle (11) laminate mutually with the inner wall of conveying pipeline (5), the below of conveying pipeline (5) is provided with feed box (12), and the one end of conveying pipeline (5) extends to the inside of feed box (12), the inside of feed box (12) is provided with sieve (13), and sieve (13) are connected with the inner wall laminating of feed box (12), the below of sieve (13) is provided with vibrator (14), and vibrator (14) pass through the screw connection with sieve (13), the lower extreme of feed box (12) is provided with discharge gate (16), all be provided with between conveying pipeline (5) and feed box (12) and base (1) support frame (9), and support frame (9) and base (1), The feed delivery pipe (5) and the feed box (12) are connected through screws.

2. The feeding device for glass fiber plastic particles as claimed in claim 1, wherein: a motor (4) is arranged above the base (1), the motor (4) is connected with the base (1) through a screw, a driving wheel (22) is arranged on one side of the output end of the motor (4), the driving wheel (22) is connected with the output end of the motor (4) through a coupling, a bearing (23) is arranged at the contact part of the spiral conveying shaft (11) and the conveying pipe (5), and the bearing (23) is connected with the material conveying pipe (5) through a screw, the bearing (23) is rotationally connected with the spiral material conveying shaft (11), one side of the spiral material conveying shaft (11) is provided with a driven wheel (24), a driven wheel (24) is connected with the spiral conveying shaft (11) through a screw, a rubber belt (25) is arranged between the driven wheel (24) and the driving wheel (22), and the rubber belt (25) is respectively connected with the driven wheel (24) and the driving wheel (22) in a transmission way.

3. The feeding device for glass fiber plastic particles as claimed in claim 1, wherein: one side of charging box (12) is provided with door plant (17) of unloading, and door plant (17) of unloading rotate with charging box (12) and be connected, the outside of door plant (17) of unloading is provided with rubber strip (20), and rubber strip (20) and door plant (17) of unloading pass through the screw connection, rubber strip (20) laminate mutually with charging box (12), one side of door plant (17) of unloading is provided with fixed block (21), and fixed block (21) are provided with two, and fixed block (21) and door plant (17) of unloading set up structure as an organic whole, fixed block (21) pass through the screw connection with charging box (12), the below of door plant (17) of unloading is provided with accumulator (15), and accumulator (15) pass through the screw connection with charging box (12).

4. The feeding device for glass fiber plastic particles as claimed in claim 3, wherein: one side of door plant (17) of unloading is provided with handle (19), and handle (19) pass through bolted connection with door plant (17) of unloading, the inboard of handle (19) is provided with visual window (18), and visual window (18) set up structure as an organic whole with door plant (17) of unloading.

5. The feeding device for glass fiber plastic particles as claimed in claim 1, wherein: the outside of conveying pipeline (5) is provided with insulation support (6), and insulation support (6) and conveying pipeline (5) pass through the screw connection, be provided with electrical heating piece (7) between insulation support (6) and conveying pipeline (5), electrical heating piece (7) are provided with threely, and electrical heating piece (7) are connected with the outer wall laminating of conveying pipeline (5), and are three electrical heating piece (7) set gradually on the outer wall of conveying pipeline (5).

6. The feeding device for glass fiber plastic particles as claimed in claim 5, wherein: a temperature sensor (10) is arranged inside the heat-insulating sleeve (6), and the temperature sensor (10) is connected with the inner wall of the heat-insulating sleeve (6) through a screw.

7. The feeding device for glass fiber plastic particles as claimed in claim 2, wherein: one side of motor (4) is provided with work or material rest (2), and work or material rest (2) pass through the screw connection with base (1), the top of work or material rest (2) is provided with hopper (3), and hopper (3) pass through the screw connection with work or material rest (2), the below of hopper (3) is provided with unloading pipe (8), and the both ends of unloading pipe (8) extend to the inside of hopper (3) and conveying pipeline (5) respectively, the outside of unloading pipe (8) is provided with material valve (26), and material valve (26) pass through the screw connection with unloading pipe (8).

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