CN211659950U - Semi-automatic adhesive feeding device - Google Patents

Abstract

The utility model belongs to the field of adhesive production, and particularly discloses an adhesive semi-automatic feeding device, which comprises a screw feeding machine (1) and an anti-blocking feeding hopper (2); the screw feeding machine (1) comprises a motor (11), a screw (12), a manual feeding hole (13), a high-position discharging hole (14) and a temperature sensor (15); the anti-blocking feed hopper (2) comprises a position sensor (21), a vibrator (22) and a lead (23); this semi-automatic material feeding machine is with low costs, and the technological transformation degree of difficulty is little, is difficult for blockking up the feeder hopper, is applied to middle-size and small-size gluing agent manufacturing enterprise and can alleviates the workman and throw the work load of material.

Description

Semi-automatic adhesive feeding device

Technical Field

The utility model belongs to gluing agent production field specifically discloses a semi-automatic feeding device of gluing agent.

Background

Adhesive: natural or synthetic, organic or inorganic substances, also called adhesives, are used to connect two or more parts or materials together by the actions of interfacial adhesion and cohesion, and are commonly called adhesives. In short, adhesives are substances that, by adhesion, bind materials together

The kinds of adhesives are various, and the adhesives are simply classified according to different standards as follows.

1. According to the chemical properties of the adhesive binder, the adhesive binder can be classified into inorganic adhesives and organic adhesives, for example, water glass, cement, gypsum and the like can be used as the inorganic adhesives, and the adhesives using polymer materials as the binder belong to the organic adhesives.

2. According to the physical state of the adhesive, the adhesive can be classified into liquid, solid and paste adhesives, wherein the solid adhesive has powder and film shapes, and the liquid adhesive can be classified into aqueous solution type, organic solution type, aqueous emulsion type, non-aqueous medium dispersion type and the like.

3. The adhesives can be classified into natural adhesives and synthetic adhesives according to the source of the adhesives, for example, natural rubber, asphalt, rosin, gelatin, cellulose, starch glue, etc. belong to the natural adhesives, and various adhesives artificially synthesized by a polymerization method belong to the category of the synthetic adhesives.

4. Common organic adhesives can be classified into thermoplastic resins, thermosetting resins, rubber adhesives and the like according to molecular structures.

5. The adhesive can be classified into pressure-sensitive adhesive, rewetting adhesive, instant adhesive, delayed adhesive, and the like according to the application mode of the adhesive.

6. From the range of the using temperature of the adhesive, the adhesive can be divided into adhesives used at high temperature resistance, low temperature resistance and normal temperature; and can be classified into normal temperature curing type, medium temperature curing type and high temperature curing type adhesives according to the curing temperature.

7. From the field of application of adhesives, the adhesives are mainly classified into the types of adhesives for civil construction, paper and plants, automobiles, airplanes and ships, electronics and electrical, and medical health, and the like.

8. The chemical components of the adhesive can be classified into various specific adhesive types, such as epoxy resin adhesive, polyurethane adhesive, polyvinyl acetate adhesive, and the like.

9. Hardened glue, polyurethane glue, epoxy glue, sealant, hot melt adhesive, pouring glue, organic silica gel, conductive adhesive, pressure-sensitive adhesive, white latex, all-purpose adhesive, anaerobic adhesive, polyamide adhesive, laminating adhesive, permeation adhesive, waterproof adhesive, fireproof adhesive, special glue for loudspeakers, special glue for automobiles, special glue for electronic and electric appliances, photosensitive adhesive, special glue for buildings, special glue for solar energy, special glue for automobile maintenance, non-setting adhesive, double-sided adhesive, silicone adhesive and the like.

The production process of a typical adhesive generally comprises mixing a base material, an auxiliary agent and a filler in a reaction kettle, adding the mixture into a charging bucket for degassing and thixotropy, conveying the mixture into a static mixer for reaction by adding a crosslinking agent and a catalyst, finally mixing the mixture in a mixing extruder, degassing the mixture in the mixer, and finally filling.

At present, small-size gluing agent production unit adopts the manual work to dig the material and throw the material on the market, drops into base-material, auxiliary agent and filler etc. because the dog-house is often higher, needs the workman to stand and throws the material in the eminence, causes dangerous emergence, simultaneously, is difficult to control the accuracy of throwing the material, still causes the jam of feeder hopper easily. Therefore, a semi-automatic feeder which is low in cost, small in technical transformation difficulty and capable of reducing the feeding difficulty of workers is urgently needed.

SUMMERY OF THE UTILITY MODEL

Not enough more than, the utility model discloses a semi-automatic material conveying device of gluing agent, it is with low costs, the technical transformation degree of difficulty is little, is difficult for blockking up the feeder hopper, is applied to middle-size and small-size gluing agent manufacturing enterprise and can alleviates the work load that the workman thrown the material.

The technical scheme of the utility model as follows:

a semi-automatic adhesive feeding device comprises a screw feeding machine and an anti-blocking feeding hopper; the screw feeding machine comprises a motor, a screw, a manual feeding hole, a high discharging hole and a temperature sensor; the anti-blocking feed hopper comprises a position sensor, a vibrator and a lead; the screw feeder is obliquely arranged at a certain angle, the motor is positioned at the bottom of the screw feeder, the manual feed port is positioned at the middle-lower part of the screw feeder, and the high-position discharge port is positioned at the upper part of the screw feeder; the anti-blocking feed hopper is positioned right below the high discharge port; the temperature sensor is positioned at an outlet of the high discharge hole; the upper opening of the anti-blocking feed hopper is large, and the lower opening of the anti-blocking feed hopper is small; the position sensor is positioned at the upper part inside the anti-blocking feed hopper and is electrically connected with a switch of the motor through a wire; the vibrator is located the anti-blocking feeder hopper outside. When the anti-blocking feeding device works, a worker puts raw materials into a manual feeding hole of a screw feeding machine by a shovel, the screw rotates under the driving of a motor to drive the raw materials to move upwards, the raw materials are discharged from a high-position discharge hole, a temperature sensor can monitor the temperature of the raw materials in real time, then the raw materials are put into an anti-blocking feeding hopper, the anti-blocking feeding hopper is vibrated by a vibrator, the raw materials can more easily fall into a reaction kettle through the anti-blocking feeding hopper, and when the height of the raw materials is accumulated to exceed a position sensor, the position sensor controls the motor to pause through a lead by sending a signal, so that the raw materials cannot be too full to block; when the height of the raw material is lower than the position sensor, the motor continues to work.

Furthermore, above-mentioned semi-automatic adhesive feeding device, prevent stifled feeder hopper bottom also has multiple tooth rotary disk. A multi-tooth rotating disc is added, and a motor can be arranged on the multi-tooth rotating disc to actively run to promote the raw materials to move downwards.

Furthermore, in the semi-automatic adhesive feeding device, the diameter of the multi-tooth rotating disc is 1/2-2/3 of the inner diameter of the corresponding anti-blocking feed hopper, and the width of the rotating tooth is 1/4-2/3 of the inner diameter of the corresponding anti-blocking feed hopper; the rotating teeth are in rectangular plate-shaped or triangular plate-shaped structures.

Further, above-mentioned semi-automatic adhesive feeding device, it has electric heater unit still to twine to prevent stifled feeder hopper outer wall. An electric heating device is added, so that the raw materials can be kept warm, hardening and caking are prevented, and the anti-blocking feed hopper is blocked.

Furthermore, above-mentioned semi-automatic adhesive feeding device, electric heater unit is the heating wire. The heating wire heats, and the transformation cost is low, and the heating efficiency is high.

Further, above-mentioned semi-automatic material conveying device of adhesive, the inner wall that prevents stifled feeder hopper scribbles the teflon coating. The Teflon coating has extremely high anti-sticking performance, so that the raw material is not easy to hang on the inner wall to cause blockage.

Further, furtherly, above-mentioned semi-automatic material conveying device of adhesive, the vibrator centers on prevent stifled feeder hopper symmetrical arrangement. When the vibration generator is symmetrically arranged, the vibration effect is maximized easily, and the falling of raw materials is promoted.

According to the above technical scheme, the utility model discloses following beneficial effect has: the semi-automatic feeding device is reasonable in structure and low in cost, workers do not need to stand at a high position to carry out dangerous operation by arranging the screw feeding machine for feeding, the occurrence of labor injury accidents is reduced, the semi-automatic feeding device can be linked with the screw feeding machine by arranging the intelligent anti-blocking feeding hopper, the intelligent suspension is realized, and the occurrence of feeding blockage is prevented; a multi-tooth rotating disc is further arranged, so that the raw materials can be promoted to fall into the reaction kettle more quickly; the electric heating device is also arranged, so that the feed hopper can be used as a raw material for heat preservation, hardening and caking are prevented, and the anti-blocking feed hopper is blocked; and meanwhile, the inner wall of the anti-blocking feed hopper is coated with a Teflon coating, so that the raw materials are not easy to adhere to the feed hopper.

Drawings

FIG. 1 is a schematic view of the entirety of a charging device of example 1;

FIG. 2 is a schematic view of the entirety of a charging device of example 2;

wherein: 1 screw feeder, 2 anti-blocking feed hopper, 11 motor, 12 screws, 13 manual feed inlet, 14 high discharge outlet, 15 temperature sensor, 21 position sensor, 22 vibrator, 23 wire, 24 multi-tooth rotary disc, 25 electric heater unit.

Detailed Description

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

Example 1

The semi-automatic adhesive feeding device shown in fig. 1 comprises a screw feeder 1 and an anti-blocking feed hopper 2; the screw feeder 1 comprises a motor 11, a screw 12, a manual feeding hole 13, a high discharging hole 14 and a temperature sensor 15; the anti-blocking feed hopper 2 comprises a position sensor 21, a vibrator 22 and a lead 23; the screw feeder 1 is obliquely arranged at a certain angle, the motor 11 is positioned at the bottom of the screw feeder 1, the manual feed port 13 is positioned at the middle-lower part of the screw feeder 1, and the high-position discharge port 14 is positioned at the upper part of the screw feeder 1; the anti-blocking feed hopper 2 is positioned right below the high discharge port 14; the temperature sensor 15 is positioned at the outlet of the high discharge port 14; the upper opening of the anti-blocking feed hopper 2 is large, and the lower opening is small; the position sensor 21 is positioned at the upper position inside the anti-blocking feed hopper 2, and the position sensor 21 is electrically connected with a switch of the motor 11 through a lead 23; the vibrator 22 is positioned outside the anti-blocking feed hopper 2.

When in work: a worker puts raw materials into a manual feeding hole 13 of a screw feeding machine 1 by a shovel, under the driving of a motor 11, a screw 12 rotates to drive the raw materials to move upwards, finally the raw materials come out from a high-position discharging hole 14, a temperature sensor 15 can monitor the temperature of the raw materials in real time, then the raw materials are put into an anti-blocking feeding hopper 2, the anti-blocking feeding hopper 2 is vibrated by a vibrator 22, the raw materials can more easily fall into a reaction kettle through the anti-blocking feeding hopper 2, and when the height of the raw materials is accumulated to exceed a position sensor 21, the position sensor 21 sends a signal to control the motor 11 to pause through a wire 23, so that the raw materials cannot be too full to block the anti-blocking feeding hopper; when the material level is below the position sensor 21, the motor continues to operate.

Example 2

The semi-automatic adhesive feeding device shown in fig. 2 comprises a screw feeder 1 and an anti-blocking feed hopper 2; the screw feeder 1 comprises a motor 11, a screw 12, a manual feeding hole 13, a high discharging hole 14 and a temperature sensor 15; the anti-blocking feed hopper 2 comprises a position sensor 21, a vibrator 22 and a lead 23; the screw feeder 1 is obliquely arranged at a certain angle, the motor 11 is positioned at the bottom of the screw feeder 1, the manual feed port 13 is positioned at the middle-lower part of the screw feeder 1, and the high-position discharge port 14 is positioned at the upper part of the screw feeder 1; the anti-blocking feed hopper 2 is positioned right below the high discharge port 14; the temperature sensor 15 is positioned at the outlet of the high discharge port 14; the upper opening of the anti-blocking feed hopper 2 is large, and the lower opening is small; the position sensor 21 is positioned at the upper position inside the anti-blocking feed hopper 2, and the position sensor 21 is electrically connected with a switch of the motor 11 through a lead 23; the vibrator 22 is positioned outside the anti-blocking feed hopper 2; particularly, the bottom of the anti-blocking feed hopper 2 is also provided with a multi-tooth rotating disc 24, the diameter of the multi-tooth rotating disc 24 is 1/2 of the inner diameter of the anti-blocking feed hopper 2 at the corresponding position, and the width of the rotating tooth is 2/3 of the inner diameter of the anti-blocking feed hopper 2 at the corresponding position; the rotating teeth are of rectangular plate-shaped or triangular plate-shaped structures; particularly, an electric heating device 25 is wound on the outer wall of the anti-blocking feed hopper 2, and the electric heating device 25 is an electric heating wire; particularly, the inner wall of the anti-blocking feed hopper 2 is coated with a Teflon coating; there are 2 vibrators 22, around prevent stifled feeder hopper 2 symmetrical arrangement.

When in work: a worker puts raw materials into a manual feed port 13 of a screw feeder 1 by a shovel, the screw 12 rotates under the drive of a motor 11 to drive the raw materials to move upwards, finally the raw materials come out from a high-position discharge port 14, a temperature sensor 15 can monitor the temperature of the raw materials in real time, then the raw materials are put into an anti-blocking feed hopper 2, and the raw materials can more easily fall into a reaction kettle through the anti-blocking feed hopper 2 under the vibration of a vibrator 22 by the anti-blocking feed hopper 2; meanwhile, due to the existence of the multi-tooth rotating disc 24, the multi-tooth rotating disc 24 can be driven by the motor to rotate, so that the downward movement of the raw materials is accelerated, when the height of the raw materials is accumulated to exceed the position sensor 21, the position sensor 21 sends a signal to control the motor 11 to pause through the lead 23, so that the raw materials cannot be full to block the anti-blocking feed hopper 2; when the height of the raw material is lower than the position sensor 21, the motor continues to work; simultaneously, prevent stifled feeder hopper 2 outer wall and can also use electric heater unit 25 heating, keep warm for the raw materials, prevent the sclerosis caking, block up stifled feeder hopper 2.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention can not be limited thereby, and the simple equivalent changes and modifications made according to the claims and the utility model also belong to the protection scope of the present invention.

Claims (6)

1. The semi-automatic adhesive feeding device is characterized by comprising a screw feeding machine (1) and an anti-blocking feeding hopper (2); the screw feeding machine (1) comprises a motor (11), a screw (12), a manual feeding hole (13), a high-position discharging hole (14) and a temperature sensor (15); the anti-blocking feed hopper (2) comprises a position sensor (21), a vibrator (22) and a lead (23); the screw feeder (1) is obliquely arranged at a certain angle, the motor (11) is positioned at the bottom of the screw feeder (1), the manual feeding hole (13) is positioned at the middle-lower part of the screw feeder (1), and the high-position discharging hole (14) is positioned at the upper part of the screw feeder (1); the anti-blocking feed hopper (2) is positioned right below the high-position discharge port (14); the temperature sensor (15) is positioned at the outlet of the high discharge hole (14); the upper opening of the anti-blocking feed hopper (2) is large, and the lower opening is small; the position sensor (21) is positioned at the upper position inside the anti-blocking feed hopper (2), and the position sensor (21) is electrically connected with a switch of the motor (11) through a lead (23); the vibrator (22) is positioned outside the anti-blocking feed hopper (2).

2. The semi-automatic adhesive feeding device according to claim 1, wherein a multi-tooth rotating disc (24) is further arranged at the bottom of the anti-blocking feed hopper (2).

3. The adhesive semi-automatic feeding device according to claim 1, wherein the outer wall of the anti-blocking feed hopper (2) is further wound with an electric heating device (25).

4. A semi-automatic adhesive feeding device according to claim 3, wherein said electric heating means (25) is a heating wire.

5. The adhesive semi-automatic feeding device according to claim 1, wherein the inner wall of the anti-blocking feed hopper (2) is coated with a Teflon coating.

6. Semi-automatic adhesive feeding device according to claim 1, characterized in that said vibrators (22) are 2, said vibrators (22) being symmetrically arranged around said anti-clogging feeding hopper (2).

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