CN211463174U - Quantitative feeding device is used in epoxy production - Google Patents

Abstract

The utility model discloses a quantitative feeding device is used in epoxy production, including charging tank, discharge gate and charge door, the intermediate position department of charging tank bottom installs the discharge gate, and the upper end of discharge gate one side is provided with the delivery port, the charging tank is kept away from the upper end of delivery port one side and is installed air compressor, and the charging tank is close to the lower extreme of air compressor one side and installs the rose box, the rose box is close to the bottom of charging tank one side and installs the air duct, and the air duct keeps away from charging tank one side lower extreme and install the solenoid valve, fixed case is installed to the other end of air duct, and the inside of fixed case is provided with the gasbag, the charging tank is close to the upper end of delivery port. The utility model discloses a set up the scraper blade inside the charging tank. Utilize the scraper blade to add the scraping of charging tank inside, the cooperation cleaning solution for add the inside remaining resin of charging tank and be cleared up, prevent to cause the influence to follow-up resin processing.

Description

Quantitative feeding device is used in epoxy production

Technical Field

The utility model relates to a resin production facility technical field specifically is an epoxy production is with quantitative feeding device.

Background

Epoxy resin is a new material developed in the coming years, and is widely used due to excellent performance, and in the production process, the charging of epoxy resin is very important, which not only affects the performance of processed products, but also affects the utilization rate of epoxy resin, but the charging device for producing the existing epoxy resin still has many problems or defects.

First, traditional feeding device for epoxy production does not have the unloading function of being convenient for, and the feeding device inner wall is stained with epoxy easily.

Secondly, traditional feeding device for epoxy production does not have the ration module, can not come the ration to produce epoxy according to the production demand.

Third, traditional feeding device for epoxy production does not wash the structure, and the inside resin that is stained with of production last time of feeding device can cause the influence to the epoxy production of other article types.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a quantitative feeding device is used in epoxy production to the unloading function of not being convenient for that proposes in solving above-mentioned background art, the feeding device inner wall is stained with epoxy easily, does not have quantitative module, can not come quantitative production epoxy and do not rinse the structure according to the production demand, and the inside resin that is stained with of production last time of feeding device can lead to the fact the problem of influence to the epoxy production of other article types.

In order to achieve the above object, the utility model provides a following technical scheme: a quantitative feeding device for epoxy resin production comprises a feeding tank, a discharge port and a feeding port, wherein the discharge port is arranged in the middle of the bottom end of the feeding tank, and the upper end of one side of the discharge port is provided with a water outlet, the upper end of one side of the charging tank far away from the water outlet is provided with an air compressor, and the lower end of the charging tank close to one side of the air compressor is provided with a filter box, the output end of the air compressor is communicated with the top end of one side of the filter box through a conduit, an active carbon layer is transversely arranged in the filter box, an air duct is arranged at the bottom end of one side of the filter box close to the charging tank, the lower end of one side of the air duct far away from the charging tank is provided with an electromagnetic valve, the other end of the air duct is provided with a fixed box, and the inside of fixed case is provided with the gasbag, the charge tank is close to the upper end of delivery port one side and installs the charge door, and the charge tank top is kept away from one side of charge door and is installed the water inlet.

Preferably, the vertical spiral feed rod that is provided with of intermediate position department on the inside top of feeding tank, and the scraper blade is all installed to the both sides of spiral feed rod upper end, the intermediate position department on feeding tank top installs the motor, and the output and the spiral feed rod top of motor are connected.

Preferably, the heating cavity is arranged in the middle of the circumferential side surface of the feeding tank, and heating blocks are uniformly arranged in the heating cavity.

Preferably, the equal vertical bracing piece of installing in both sides of charging can bottom, and transversely install the tooth case between the bottom of bracing piece, the inside of tooth case is provided with the rack, and the one end and the gasbag intercommunication of tooth case, the inside lower extreme of discharge gate is provided with the toothed disc with rack matched with, and the intermediate position department of toothed disc is provided with the ring, the bottom of ring evenly articulates there is the arc, the even articulated connecting rod that has in top of toothed disc, and the other end of connecting rod all articulates with arc one end.

Preferably, the sliding blocks are installed inside the gear boxes at the two ends of the rack, the second spring is installed on one side, away from the air bag, of the gear boxes, and one end of the second spring is fixedly connected with one side of the sliding blocks.

Preferably, the vertical ejector pin of installing in one side that adds the feed tank bottom and be close to the gasbag, be provided with the gas vent under the gasbag top ejector pin, and the upper end of the inside both sides of gas vent all installs the baffle through the articulated shaft, first spring is all installed to the lower extreme of the inside both sides of gas vent, and the other end of first spring all with baffle bottom fixed connection.

Compared with the prior art, the beneficial effects of the utility model are that: this epoxy production is with ration feeding device is rational in infrastructure, has following advantage:

1. through set up the heating piece in charging tank circumference side, and charging tank inside sets up the screw feeding rod, through heating piece work for the temperature risees in the charging tank, makes the epoxy viscidity in the charging tank reduce, and motor work drives the screw feeding rod and rotates simultaneously, makes epoxy be heated more evenly, the epoxy blanking of being convenient for.

2. By arranging the connecting rod, the gear disc and the arc plate inside the discharge port, filtered gas is injected into the gas bag through the gas guide tube, when the gas is gradually increased, the sliding block can be pushed to slide in the gear box, so that the rack moves and compresses the second spring, the gear disc rotates through the matching of the rack and the gear disc, the arc plate can be opened, epoxy resin falls down from the discharge port, the gas bag expands, so that the gas exhaust port rises, when the arc plate is opened to the maximum area, the control switch in the electromagnetic valve closes the electromagnetic valve, so that the gas can not be injected into the gas bag, the ejector rod presses the baffle plate, so that the baffle plate descends, and the gas in the gas bag is discharged outwards, under the elastic action of the second spring, the sliding block pushes the rack to move reversely, so that the gear disc rotates reversely, the arc plate is closed, and the gas exhaust port descends due to the contraction, under the elastic force action of the first spring, the baffle returns to the horizontal state to block the exhaust port, then a control switch in the electromagnetic valve opens the electromagnetic valve, gas is continuously injected into the airbag, a new round of blanking is started, and quantitative blanking is realized.

3. Through setting up the scraper blade in that the charging tank is inside, when the epoxy of other article types is traded to needs, the accessible water inlet pours into the cleaning solution into in the charging tank into, drives the scraper blade through motor work and rotates, and then makes remaining epoxy in the charging tank scraped down, and washs the charging tank inner wall, later discharges waste water through the delivery port, prevents that remaining resin from causing the influence to other article type resin processing.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1 at B according to the present invention;

fig. 4 is a schematic side view of the cross-sectional structure of the present invention;

fig. 5 is a schematic view of the bottom structure of the discharge hole of the present invention.

In the figure: 1. a charging tank; 2. a motor; 3. a water inlet; 4. an air compressor; 5. a heating cavity; 6. a heating block; 7. an activated carbon layer; 8. a filter box; 9. a top rod; 10. an electromagnetic valve; 11. an air duct; 12. an air bag; 13. a fixed box; 14. a rack box; 15. a discharge port; 16. a water outlet; 17. a squeegee; 18. a screw feed rod; 19. a feed inlet; 20. an exhaust port; 21. a first spring; 22. a baffle plate; 23. a support bar; 24. a rack; 25. a slider; 26. a second spring; 27. a connecting rod; 28. a gear plate; 29. a circular ring; 30. an arc-shaped plate.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides an embodiment: a quantitative feeding device for epoxy resin production comprises a feeding tank 1, a discharge port 15 and a feeding port 19, wherein a spiral feeding rod 18 is vertically arranged at the middle position of the top end inside the feeding tank 1, scrapers 17 are arranged on two sides of the upper end of the spiral feeding rod 18, a motor 2 is arranged at the middle position of the top end of the feeding tank 1, the type of the motor 2 can be Y315S-4, and the output end of the motor 2 is connected with the top end of the spiral feeding rod 18;

the motor 2 drives the spiral feeding rod 18 to rotate, so as to drive the scraper 17 to rotate, the residual epoxy resin in the feeding tank 1 is scraped, the inner wall of the feeding tank 1 is cleaned, and then the waste water is discharged through the water outlet 16, so that the influence of the residual resin on the processing of other resins is prevented;

a discharge hole 15 is arranged in the middle of the bottom end of the feeding tank 1;

supporting rods 23 are vertically arranged on two sides of the bottom end of the feeding tank 1, a gear box 14 is transversely arranged between the bottom ends of the supporting rods 23, a rack 24 is arranged inside the gear box 14, one end of the gear box 14 is communicated with the air bag 12, a gear disc 28 matched with the rack 24 is arranged at the lower end inside the discharging port 15, a circular ring 29 is arranged at the middle position of the gear disc 28, an arc-shaped plate 30 is uniformly hinged to the bottom end of the circular ring 29, a connecting rod 27 is uniformly hinged to the top end of the gear disc 28, and the other end of the connecting rod 27 is hinged to one end of the arc-shaped plate 30;

after the gas is gradually increased, the gear disc 28 rotates through the matching of the rack 24 and the gear disc 28, and the arc-shaped plate 30 can be opened by utilizing the connecting rod 27 and the circular ring 29, so that the epoxy resin falls from the discharge hole 15;

sliders 25 are mounted inside the gear boxes 14 at two ends of the rack 24, a second spring 26 is mounted on one side, far away from the air bag 12, inside the gear boxes 14, and one end of the second spring 26 is fixedly connected with one side of the slider 25;

when the gas in the air bag 12 is reduced, the slide block 25 pushes the rack 24 to move reversely under the action of the elastic force of the second spring 26, so that the gear disc 28 rotates reversely, the arc-shaped plate 30 is closed, and the epoxy resin is prevented from being discharged continuously;

and the upper end of one side of the discharge hole 15 is provided with a water outlet 16;

a heating cavity 5 is arranged in the middle of the circumferential side surface of the feeding tank 1, heating blocks 6 are uniformly arranged in the heating cavity 5, and the types of the heating blocks 6 can be DJR-15;

the heating block 6 works to raise the temperature in the feeding tank 1, so that the viscosity of the epoxy resin in the feeding tank 1 is reduced, and the epoxy resin is convenient to drop;

an air compressor 4 is installed at the upper end of one side, away from a water outlet 16, of a feeding tank 1, the type of the air compressor 4 can be FG07, a filter box 8 is installed at the lower end of one side, close to the air compressor 4, of the feeding tank 1, the output end of the air compressor 4 is communicated with the top end of one side of the filter box 8 through a conduit, an activated carbon layer 7 is transversely installed inside the filter box 8, an air guide pipe 11 is installed at the bottom end of one side, close to the feeding tank 1, of the filter box 8, an electromagnetic valve 10 is installed at the lower end, away from the feeding tank 1, of the air guide pipe 11, the type of the electromagnetic valve 10 is 3V210-08, a fixing box 13;

a top rod 9 is vertically arranged at one side, close to the air bag 12, of the bottom end of the feeding tank 1, an exhaust port 20 is arranged right below the top rod 9 at the top end of the air bag 12, baffle plates 22 are respectively arranged at the upper ends of two sides in the exhaust port 20 through articulated shafts, first springs 21 are respectively arranged at the lower ends of two sides in the exhaust port 20, and the other ends of the first springs 21 are fixedly connected with the bottom ends of the baffle plates 22;

filtered gas is injected into the air bag 12 through the gas guide tube 11, when the gas is gradually increased, the ejector rod 9 presses the baffle plate 22 to enable the baffle plate 22 to descend, and then the gas in the air bag 12 is discharged outwards to enable the arc-shaped plate 30 to be conveniently closed, and after the gas in the air bag 12 is reduced, the baffle plate 22 is enabled to be horizontal under the action of the elastic force of the first spring 21 to block the exhaust port 20;

the upper end of the feed tank 1 close to one side of the water outlet 16 is provided with a feed inlet 19, and one side of the top end of the feed tank 1 far away from the feed inlet 19 is provided with a water inlet 3.

The working principle is as follows: when the feeding device is used, epoxy resin is added into the feeding tank 1 through the feeding port 19, the heating block 6 works to raise the temperature in the feeding tank 1, so that the viscosity of the epoxy resin in the feeding tank 1 is reduced, and meanwhile, the motor 2 works to drive the spiral feeding rod 18 to rotate, so that the epoxy resin is heated more uniformly, and the epoxy resin is convenient to drop;

in the feeding process, the air compressor 4 pumps the toxic gas generated in the feeding tank 1 out of the feeding tank 1, and injects the toxic gas into the filter box 8 through the guide pipe, and the toxic gas is reduced through the adsorption effect of the activated carbon layer 7, so that the harm to workers is reduced;

filtered gas is injected into the airbag 12 through the gas guide tube 11, when the gas is gradually increased, the sliding block 25 is pushed to slide in the gear box 14, the rack 24 is further enabled to move and compress the second spring 26, the gear disc 28 is enabled to rotate through the matching of the rack 24 and the gear disc 28, the arc-shaped plate 30 can be opened, epoxy resin falls down from the discharge hole 15, the airbag 12 is expanded, the exhaust port 20 is enabled to rise, when the arc-shaped plate 30 is opened to the maximum area, the electromagnetic valve 10 is enabled to be closed through a control switch in the electromagnetic valve 10, gas can not be injected into the airbag 12 any more, meanwhile, the ejector rod 9 can press the baffle plate 22, the baffle plate 22 is enabled to descend, the gas in the airbag 12 is discharged outwards, under the action of the elastic force of the second spring 26, the sliding block 25 is enabled to push the rack 24 to move in the reverse direction, the gear disc 28 rotates in the reverse direction, the arc-, under the action of the elastic force of the first spring 21, the baffle 22 is enabled to restore to the horizontal state to block the exhaust port 20, then the control switch in the electromagnetic valve 10 enables the electromagnetic valve 10 to be opened, gas is continuously injected into the air bag 12, a new round of blanking is started, and quantitative blanking is realized;

when the epoxy of other article types is traded to needs, accessible water inlet 3 is toward injecting the cleaning solution in the charging tank 1, drives scraper blade 17 through the work of motor 2 and rotates, and then makes remaining epoxy be scraped down in the charging tank 1, and washs 1 inner wall of charging tank, later discharges waste water through delivery port 16, prevents that remaining resin from causing the influence to other article types of resin processing.

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 (6)

1. The utility model provides an epoxy production is with ration feeding device, includes reinforced jar (1), discharge gate (15) and charge door (19), its characterized in that: the feed tank is characterized in that a discharge port (15) is installed at the middle position of the bottom end of the feed tank (1), a water outlet (16) is formed in the upper end of one side of the discharge port (15), an air compressor (4) is installed at the upper end, far away from one side of the water outlet (16), of the feed tank (1), a filter box (8) is installed at the lower end, close to one side of the air compressor (4), of the feed tank (1), the output end of the air compressor (4) is communicated with the top end of one side of the filter box (8) through a guide pipe, an activated carbon layer (7) is transversely installed in the filter box (8), an air guide pipe (11) is installed at the bottom end, close to one side of the feed tank (1), of the air guide pipe (11), a solenoid valve (10) is installed at the lower end, far away from one side of the feed tank (1), a, feed inlet (19) are installed to feed tank (1) upper end near delivery port (16) one side, and feed tank (1) top is kept away from one side of feed inlet (19) and is installed water inlet (3).

2. The quantitative charging device for epoxy resin production as claimed in claim 1, wherein: the vertical spiral feed rod (18) that is provided with of intermediate position department on the inside top of feeding tank (1), and scraper blade (17) are all installed to the both sides of spiral feed rod (18) upper end, the intermediate position department on feeding tank (1) top installs motor (2), and the output and the spiral feed rod (18) top of motor (2) are connected.

3. The quantitative charging device for epoxy resin production as claimed in claim 1, wherein: heating chamber (5) are installed to the intermediate position department of reinforced jar (1) circumference side, and the inside evenly installed of heating chamber (5) has heating piece (6).

4. The quantitative charging device for epoxy resin production as claimed in claim 1, wherein: the equal vertical bracing piece (23) of installing in both sides of charging container (1) bottom, and transversely install tooth case (14) between the bottom of bracing piece (23), the inside of tooth case (14) is provided with rack (24), and the one end and gasbag (12) intercommunication of tooth case (14), the inside lower extreme of discharge gate (15) is provided with and rack (24) matched with toothed disc (28), and the intermediate position department of toothed disc (28) is provided with ring (29), the even articulated arc (30) that have in bottom of ring (29), the even articulated connecting rod (27) that have in top of toothed disc (28), and the other end of connecting rod (27) all articulates with arc (30) one end.

5. The quantitative charging device for epoxy resin production as claimed in claim 4, wherein: the sliding blocks (25) are installed inside the gear boxes (14) at the two ends of the rack (24), the second springs (26) are installed on one sides, far away from the air bags (12), of the gear boxes (14), and one ends of the second springs (26) are fixedly connected with one sides of the sliding blocks (25).

6. The quantitative charging device for epoxy resin production as claimed in claim 1, wherein: add one side vertical installation that feed tank (1) bottom is close to gasbag (12) ejector pin (9), be provided with gas vent (20) under gasbag (12) top ejector pin (9), and baffle (22) are all installed through the articulated shaft in the upper end of the inside both sides of gas vent (20), first spring (21) are all installed to the lower extreme of the inside both sides of gas vent (20), and the other end of first spring (21) all with baffle (22) bottom fixed connection.

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