CN210171855U - Glue pouring machine - Google Patents

Abstract

The utility model relates to a glue-pouring machine, include: the device comprises a feeding mechanism, a vacuum device, a processing cavity and a processing conveying mechanism arranged in the processing cavity; the processing conveying mechanism is used for processing the materials and then conveying and discharging the processed materials; the vacuum device is suitable for extracting gas in the processing cavity so as to enable the material processing process to be in a vacuum state; the utility model discloses an extraction processing intracavity gas improves the vacuum in the processing intracavity, because the vacuum is higher, and the material is carried the discharge very easily, has improved this glue-pouring machine's encapsulating ability, especially to the glue that the consistency is higher, mobility is not good, and its advantage and effect are better obvious.

Description

Glue pouring machine

Technical Field

The utility model relates to a glue-pouring machine field especially relates to a glue-pouring machine.

Background

In the production of general BSD or sensors (including TPMS, pressure sensors, differential pressure sensors and the like), glue pouring is required between the structural shell and the PCBA due to the requirement of reaching a certain waterproof grade, so that glue pouring machines or glue pouring tools are widely applied in the production. Common liquid filling machines have blade glue-pouring machine, needle tubing liquid filling machine, gear glue-pouring machine etc. wherein, traditional glue-pouring machine all has inconvenient washing, manual availability factor is lower to the pump chamber contacts with the outside air, and the filling ability of glue is poor.

Therefore, it is necessary to develop a new glue-pouring machine to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a glue-pouring machine.

In order to solve the technical problem, the utility model provides a glue-pouring machine, it includes: the device comprises a feeding mechanism, a vacuum device, a processing cavity and a processing conveying mechanism arranged in the processing cavity; the processing conveying mechanism is used for processing the materials and then conveying and discharging the processed materials; and the vacuum device is suitable for extracting gas in the processing cavity so as to enable the material processing process to be in a vacuum state.

Further, a feeding groove, a first rotor groove and a second rotor groove are formed in the bottom of the processing cavity; the feeding groove, the first rotor groove and the second rotor groove are communicated with each other in pairs; the processing conveying mechanism comprises: the first rotor is arranged in the first rotor groove, and the second rotor and the discharge pipe are arranged in the second rotor groove; at least two teeth of the gear tooth parts of the first rotor and the second rotor are respectively attached to opposite groove walls of the grooves of the first rotor and the second rotor, and the gears of the first rotor and the second rotor are meshed with each other; the material flows through the gear meshing part of the first rotor and the second rotor through the feeding groove, and is conveyed and discharged through the discharge pipe after being extruded.

Further, the vacuum apparatus includes: the vacuum air suction hole is formed in the wall of the processing cavity, and the vacuum air suction pump is connected with the vacuum air suction hole; the vacuum air pump is suitable for pumping the gas in the processing cavity through the vacuum air pumping hole.

Further, the feeding mechanism comprises: an upper pump cover covering the processing cavity; the upper pump cover is provided with a feed inlet of the feed channel, a feed inlet of the first rotor groove and a feed inlet of the second rotor groove which are arranged above the feed channel, the first rotor groove and the second rotor groove; the material enters the feeding groove, the first rotor groove and the second rotor groove through the feeding groove feeding hole, the first rotor groove feeding hole and the second rotor groove feeding hole respectively.

On the other hand, the utility model provides a working method of glue-pouring machine, it includes: feeding materials into the processing cavity for processing; extracting gas in the processing cavity in the processing process so as to enable the material processing process to be in a vacuum state; and discharging the materials after the materials are processed.

Further, the glue-pouring machine includes: the device comprises a feeding mechanism, a vacuum device, a processing cavity and a processing conveying mechanism arranged in the processing cavity; the processing conveying mechanism is used for processing the materials and then conveying and discharging the processed materials; and the vacuum device is suitable for extracting gas in the processing cavity so as to enable the material processing process to be in a vacuum state.

Further, a feeding groove, a first rotor groove and a second rotor groove are formed in the bottom of the processing cavity; the feeding groove, the first rotor groove and the second rotor groove are communicated with each other in pairs; the processing conveying mechanism comprises: the first rotor is arranged in the first rotor groove, and the second rotor and the discharge pipe are arranged in the second rotor groove; at least two teeth of the gear tooth parts of the first rotor and the second rotor are respectively attached to opposite groove walls of the grooves of the first rotor and the second rotor, and the gears of the first rotor and the second rotor are meshed with each other; the material flows through the gear meshing part of the first rotor and the second rotor through the feeding groove, and is conveyed and discharged through the discharge pipe after being extruded.

Further, the vacuum apparatus includes: the vacuum air suction hole is formed in the wall of the processing cavity, and the vacuum air suction pump is connected with the vacuum air suction hole; the vacuum air pump is suitable for pumping the gas in the processing cavity through the vacuum air pumping hole.

Further, the feeding mechanism comprises: an upper pump cover covering the processing cavity; the upper pump cover is provided with a feed inlet of the feed groove, a feed inlet of the first rotor groove and a feed inlet of the second rotor groove which correspond to the feed groove, the first rotor groove and the second rotor groove respectively; the material enters the feeding groove, the first rotor groove and the second rotor groove through the feeding groove feeding hole, the first rotor groove feeding hole and the second rotor groove feeding hole respectively.

And further, after materials entering the feeding groove, the first rotor groove and the second rotor groove are continuously rotated and extruded through the first rotor and the second rotor, the materials are discharged from the discharge pipe.

The beneficial effects of the utility model are that, the utility model discloses an extraction processing intracavity is gaseous, improves the vacuum in the processing intracavity, because the vacuum is higher, and the material is carried the discharge very easily, has improved this glue-pouring machine's encapsulating ability, especially to the glue that the consistency is higher, mobility is not good, and its advantage and effect are better obvious.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is an internal top view of the glue-pouring machine of the present invention;

fig. 2 is an external structure view of the glue-pouring machine of the present invention.

In the figure:

a vacuum device 1;

a processing chamber 2, a feed chute 201, a first rotor chute 202, a second rotor chute 203;

the processing and conveying mechanism 3, the first rotor 301, the second rotor 302 and the discharge pipe 303;

an upper pump cover 4, a feed groove feed inlet 401, a first rotor groove feed inlet 402 and a second rotor groove feed inlet 403;

a protective shell 5.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

Example 1

Fig. 1 is an internal top view of the glue-pouring machine of the present invention.

In the present embodiment, as shown in fig. 1, the present embodiment provides a glue-pouring machine, which includes: the device comprises a feeding mechanism, a vacuum device 1, a processing cavity 2 and a processing conveying mechanism 3 arranged in the processing cavity 2; the material is thrown into the processing cavity 2 through the feeding mechanism, and is processed by the processing conveying mechanism 3 and then is conveyed and discharged; and the vacuum device 1 is suitable for extracting gas in the processing cavity 2 so as to enable the material processing process to be in a vacuum state.

In the present embodiment, a protective housing 5 is provided outside the processing chamber 2 to protect the processing chamber 2.

In this embodiment, this embodiment improves the vacuum in the processing intracavity through extracting processing intracavity gas, because vacuum is higher, and the material is carried the discharge very easily, has improved this glue-pouring machine's encapsulating ability, and especially to the glue that the viscosity is higher, mobility is not good, its advantage and effect are better obvious.

In order to convey and discharge the material after extrusion, a feeding groove 201, a first rotor groove 202 and a second rotor groove 203 are arranged at the bottom of the processing cavity 2; the feeding groove 201, the first rotor groove 202 and the second rotor groove 203 are communicated with each other in pairs; the processing and conveying mechanism 3 includes: a first rotor 301 arranged in the first rotor groove 202, a second rotor 302 arranged in the second rotor groove 203, a tapping pipe 303; at least two teeth of the gear tooth parts of the first rotor and the second rotor are respectively attached to opposite groove walls of the grooves of the first rotor and the second rotor, and the gears of the first rotor 301 and the second rotor 302 are meshed with each other; the material flows through the gear engagement of the first rotor 301 and the second rotor 302 through the feeding chute 201, and is conveyed and discharged through the discharging pipe 303 after being extruded.

In this embodiment, as an implementation manner, the first rotor 301 and the second rotor 302 are driven by a first motor and a second motor, respectively, and the first rotor 301 and the second rotor 302 rotate synchronously.

In this embodiment, as an implementation manner, the first rotor slot 202 and the second rotor slot 203 may adopt irregular shapes, at least two teeth of the gear teeth of the first rotor and the second rotor respectively fit with the opposite slot walls of the first rotor slot and the second rotor slot, and the two teeth are symmetrical with respect to the center of the gear.

In order to make the material processing process in a vacuum state, the vacuum device 1 comprises: the vacuum air suction hole is formed in the wall of the processing cavity 2, and the vacuum air suction pump is connected with the vacuum air suction hole; the vacuum pump is adapted to pump gas from the process chamber 2 through the vacuum pumping holes.

Fig. 2 is an external structure view of the glue-pouring machine of the present invention.

In order to feed materials compatible with each rotor slot under the condition of ensuring normal feeding, as shown in fig. 2, the feeding mechanism comprises: an upper pump cover 4 covering the processing cavity 2; the upper pump cover 4 is provided with a feed chute feed inlet 401, a first rotor chute feed inlet 402 and a second rotor chute feed inlet 403 which respectively correspond to the feed chute 201, the first rotor chute 202 and the second rotor chute 203; the material enters the feed chute 201, the first rotor chute 202 and the second rotor chute 203 through the feed chute feed inlet 401, the first rotor chute feed inlet 402 and the second rotor chute feed inlet 403, respectively.

Example 2

On the basis of embodiment 1, this embodiment provides a working method of a glue-pouring machine, which includes: feeding materials into the processing cavity 2 for processing; extracting gas in the processing cavity 2 in the processing process so as to enable the material processing process to be in a vacuum state; and discharging the materials after the materials are processed.

Specifically, the glue-pouring machine includes: the device comprises a feeding mechanism, a vacuum device 1, a processing cavity 2 and a processing conveying mechanism 3 arranged in the processing cavity 2; the material is thrown into the processing cavity 2 through the feeding mechanism, and is processed by the processing conveying mechanism 3 and then is conveyed and discharged; and the vacuum device 1 is suitable for extracting gas in the processing cavity 2 so as to enable the material processing process to be in a vacuum state.

Specifically, the bottom of the processing cavity 2 is provided with a feed chute 201, a first rotor chute 202 and a second rotor chute 203; the feeding groove 201, the first rotor groove 202 and the second rotor groove 203 are communicated with each other in pairs; the processing and conveying mechanism 3 includes: a first rotor 301 arranged in the first rotor groove 202, a second rotor 302 arranged in the second rotor groove 203, a tapping pipe 303; at least two teeth of the gear tooth parts of the first rotor and the second rotor are respectively attached to opposite groove walls of the grooves of the first rotor and the second rotor, and the gears of the first rotor 301 and the second rotor 302 are meshed with each other; the material flows through the gear engagement of the first rotor 301 and the second rotor 302 through the feeding chute 201, and is conveyed and discharged through the discharging pipe 303 after being extruded.

Specifically, the vacuum apparatus 1 includes: the vacuum air suction hole is formed in the wall of the processing cavity 2, and the vacuum air suction pump is connected with the vacuum air suction hole; the vacuum pump is adapted to pump gas from the process chamber 2 through the vacuum pumping holes.

Specifically, the feeding mechanism comprises: an upper pump cover 4 covering the processing cavity 2; the upper pump cover 4 is provided with a feed groove feed inlet 401, a first rotor groove feed inlet 402 and a second rotor groove feed inlet 403 which are arranged above the feed groove 201, the first rotor groove 202 and the second rotor groove 203; the material enters the feed chute 201, the first rotor chute 202 and the second rotor chute 203 through the feed chute feed inlet 401, the first rotor chute feed inlet 402 and the second rotor chute feed inlet 403, respectively.

Specifically, the materials entering the feeding chute 201, the first rotor chute 202 and the second rotor chute 203 are continuously rotated and extruded by the first rotor 301 and the second rotor 302, and then are discharged from the discharging pipe 303.

To sum up, the utility model discloses an extraction processing intracavity gas improves the vacuum of processing intracavity, because the vacuum is higher, and the material is carried the discharge very easily, has improved the encapsulating ability of this glue-pouring machine, especially to the glue that the viscosity is higher, mobility is not good, and its advantage and effect are better obvious.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (4)

1. A glue-pouring machine, characterized by comprising:

the device comprises a feeding mechanism, a vacuum device, a processing cavity and a processing conveying mechanism arranged in the processing cavity; wherein

The material is thrown into the processing cavity through the feeding mechanism, and is processed by the processing conveying mechanism and then is conveyed and discharged; and

the vacuum device is suitable for extracting gas in the processing cavity so as to enable the material processing process to be in a vacuum state.

2. The glue-pouring machine according to claim 1,

the bottom of the processing cavity is provided with a feeding groove, a first rotor groove and a second rotor groove;

the feeding groove, the first rotor groove and the second rotor groove are communicated with each other in pairs;

the processing conveying mechanism comprises: the first rotor is arranged in the first rotor groove, and the second rotor and the discharge pipe are arranged in the second rotor groove;

at least two teeth of the gear tooth parts of the first rotor and the second rotor are respectively attached to opposite groove walls of the grooves of the first rotor and the second rotor, and the gears of the first rotor and the second rotor are meshed with each other;

the material flows through the gear meshing part of the first rotor and the second rotor through the feeding groove, and is conveyed and discharged through the discharge pipe after being extruded.

3. The glue-pouring machine according to claim 1,

the vacuum apparatus includes: the vacuum air suction hole is formed in the wall of the processing cavity, and the vacuum air suction pump is connected with the vacuum air suction hole;

the vacuum air pump is suitable for pumping the gas in the processing cavity through the vacuum air pumping hole.

4. The glue-pouring machine according to claim 1,

the feeding mechanism comprises: an upper pump cover covering the processing cavity;

the upper pump cover is provided with a feed inlet of the feed channel, a feed inlet of the first rotor groove and a feed inlet of the second rotor groove which are arranged above the feed channel, the first rotor groove and the second rotor groove;

the material enters the feeding groove, the first rotor groove and the second rotor groove through the feeding groove feeding hole, the first rotor groove feeding hole and the second rotor groove feeding hole respectively.

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