CN216737563U

CN216737563U - Automatic silica sol filling device

Info

Publication number: CN216737563U
Application number: CN202220243121.9U
Authority: CN
Inventors: 付耀洲
Original assignee: Zhijiang Fucheng Chemical Industry Co ltd
Current assignee: Zhijiang Fucheng Chemical Industry Co ltd
Priority date: 2022-01-29
Filing date: 2022-01-29
Publication date: 2022-06-14
Anticipated expiration: 2032-01-29

Abstract

The utility model provides an automatic silica sol filling device which comprises a tank body, wherein a sliding discharge pipe is arranged on the tank body, an opening and closing mechanism is arranged on the discharge pipe, a liquid separating mechanism is arranged at the bottom of the discharge pipe, a plurality of movable trays are arranged at the bottom of the liquid separating mechanism, a plurality of filling bottles are arranged on the trays, a reciprocating mechanism is arranged on one side of the discharge pipe, an electromagnet is arranged at the bottom of the reciprocating mechanism, a conductor is arranged on one side of the electromagnet, and the conductor is communicated with a battery. Opening and closing that the mechanism can be automatic carries out the filling to a plurality of filling bottles on the assembly line, divides to be equipped with a plurality of liquid pipes in the liquid mechanism, once can carry out the filling to a plurality of filling bottles, promotes filling efficiency. Degree of automation is high, has reduced the human cost of enterprise, saves the labour, has improved production efficiency, promotes the interests of enterprise. The filling rate is adjusted manually, the voltage of the battery is changed, so that the magnetism of the electromagnet is changed, the communication area of the discharging pipe and the through hole is adjusted, the rate is adjusted, the adaptability is strong, and the device can be popularized in a large amount.

Description

Automatic silica sol filling device

Technical Field

The utility model relates to the field of filling devices, in particular to an automatic silica sol filling device.

Background

The silica sol is a dispersion of nano-silica with the grain diameter of 1-100 nanometers in water or other organic solvents, and is widely applied to the fields of precision casting, refractory materials, coatings, textiles, precision polishing and the like. At present, most of traditional silica sol liquid preparation methods adopt manual constant time and quantitative control of a storage tank, the quantity of added raw materials and the reaction time are manually adjusted, the method is difficult to achieve the control accuracy, meanwhile, the produced silicate raw materials have large quality fluctuation and influence the application, and the traditional filling equipment has the following defects: the filling ware needs artifical the intervention, when the bottleneck of treating the filling moves the spray gun bottom, stops the filling bottle on the assembly line and removes, and the spray gun is opened to the manual work, and the manual work is surveyd the spray gun filling and is accomplished the back, closes the spray gun, waits for next filling bottle to move the spray gun bottom. The existing filling mode has the following disadvantages: the automation degree is low, and a large amount of manual intervention is needed; the filling efficiency is poor, and only a small amount of filling bottles can be filled at one time; the valve of the spray gun needs to be manually closed after the filling is started or finished, and the filling speed is slow; the universality is low, and the filling rate cannot be adjusted manually. The production efficiency of the filling process is low, a large amount of time and cost are wasted, and the requirements of processing operators are increased. To this end we propose an automatic silica sol filler to solve the above problems.

Chinese patent document CN 208119565U describes a synthetic filling equipment of silica sol, including the casing, the lower extreme both sides of casing all are equipped with strutting arrangement, be equipped with the bearing cavity in the casing, bearing cavity internal fixation has the baffle, and the baffle will bear the weight of the cavity and cut apart into drive chamber and reaction chamber from top to bottom, the upper end one side of casing is run through and is equipped with the inlet pipe. The utilization rate of the materials is improved, the production efficiency and the product quality are improved, the reaction between the materials is more sufficient through the combination of the driving device, the rotating shaft, the moving rod and the oil cylinder, and the material utilization rate is improved. However, the device is low in automation degree and requires a large amount of manual intervention; the filling efficiency is poor, and only a small amount of filling bottles can be filled at one time; the valve of the spray gun needs to be manually closed after the filling is started or finished, and the filling speed is slow; the universality is low, and the filling rate cannot be adjusted manually. The filling process is low in production efficiency, a large amount of time and cost are wasted, and the filling process has defects in use and needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic silica sol filling device, which solves the problems of low automation degree and large quantity of manual intervention; the filling efficiency is poor, and only a small amount of filling bottles can be filled at one time; the valve of the spray gun needs to be manually closed after the filling is started or finished, and the filling speed is slow; the universality is low, the filling rate can not be adjusted manually, the production efficiency in the filling process is low, a large amount of time cost is wasted, and the requirement of operators is increased.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows: the utility model provides an automatic filling ware of silica sol, includes a jar body, is equipped with gliding discharging pipe on the jar body, is equipped with the mechanism that opens and shuts on the discharging pipe, and the discharging pipe bottom is equipped with divides liquid mechanism, divides liquid mechanism bottom to be equipped with the tray of a plurality of removals, is equipped with a plurality of filling bottles on the tray, and discharging pipe one side is equipped with reciprocating mechanism, and reciprocating mechanism bottom is equipped with the electro-magnet, and electro-magnet one side is equipped with the conductor, conductor and battery intercommunication.

In a preferred scheme, a stirring mechanism is arranged on the tank body.

In the preferred scheme, rabbling mechanism includes the pivot, and the pivot supports and leans on the feed inlet, and pivot one end is equipped with first motor, and the output shaft and the pivot of first motor are connected, and first motor is installed on jar body, is equipped with a plurality of puddlers in the pivot.

In the preferred scheme, the discharging pipe is hollow body, and the discharging pipe supports and leans on the discharge gate, and the discharging pipe passes through the connecting rod to be connected with reciprocating mechanism's execution original paper.

In the preferred scheme, reciprocating mechanism is equipped with the rack including carrying out the original paper, two inboards of carrying out the original paper, rack and incomplete gear engagement, and incomplete gear one side is equipped with the second motor, the output and the incomplete gear connection of second motor, and the second motor is installed on the curb plate.

In the preferred scheme, the mechanism that opens and shuts includes the casing, is equipped with the through-hole on the casing, is equipped with in the casing to lean on the gliding iron core of shells inner wall, is equipped with the spring between iron core and the casing.

In a preferred scheme, the bottom of the reciprocating mechanism is provided with an electromagnet, the bottom of the electromagnet is provided with a plurality of first guide vanes, and the top of the conductor is provided with a plurality of second guide vanes;

when the reciprocating mechanism moves to the bottommost end, the first guide sheet is contacted with the second guide sheet, and the electromagnet is electrified;

the electromagnet is positioned near the opening and closing mechanism.

In a preferred scheme, the conductor and the electromagnet are respectively connected with a battery through electric wires, and the battery is installed on the side plate.

In the preferred scheme, divide liquid mechanism to include a plurality of liquid pipes that divide, divide the quantity of liquid pipe to be unanimous with the quantity of filling bottle in a tray.

In the preferred scheme, the tray bottom is equipped with the drive belt, and the drive belt is installed on the support, and jar body one side is equipped with a plurality of material bins, and the material bin passes through pipeline and feed inlet intercommunication, is equipped with the pump body on the pipeline of material bin.

The utility model has the beneficial effects that: through the drive second motor, so that incomplete gear and rack toothing, so that mechanism and the electro-magnet of opening and shutting reciprocate, when first guide and the contact of second guide on the electro-magnet, the battery is the electro-magnet circular telegram, so that the electro-magnet has magnetism, so that the iron core in the mechanism that opens and shuts removes, so that the mechanism that opens and shuts is in normally open state, the tray that is equipped with a plurality of filling bottles this moment removes branch liquid mechanism bottom, drive belt stop motion, when pivoted incomplete gear does not drive the execution original paper and removes, divide liquid mechanism to carry out the filling to the filling bottle. After the liquid separating mechanism is accomplished the filling bottle filling, the drive belt removes, and pivoted incomplete gear drives the execution original paper rebound this moment, and first guide piece and second guide piece break off to make the electro-magnet not have magnetism, so that the iron core moves to home position under the effort of spring, so that the mechanism that opens and shuts is in normally closed state.

So reciprocal, do not need any manual operation, opening and closing that mechanism can be automatic carries out the filling to a plurality of filling bottles on the assembly line, divides to be equipped with a plurality of liquid pipes of dividing in the mechanism, once can carry out the filling to a plurality of filling bottles, promotes filling efficiency. Degree of automation is high, greatly reduced the human cost of enterprise, saved the labour, improved production efficiency, promote the interests of enterprise.

The commonality is high, and the practicality is strong, when meetting different volumetric filling bottles, changes the number of teeth on the incomplete gear to make the contact time of first guide card and second guide card, the manual regulation filling time, in order to adapt to different volumetric filling bottles.

The manual regulation filling rate changes the voltage of battery to when making the contact of first guide piece and second guide piece, the magnetism of electro-magnet changes, so that the position change that the iron core removed, thereby changes the intercommunication area of discharging pipe and through-hole, so that the filling rate changes, thereby carries out manual regulation rate, strong adaptability can promote in a large number.

The reciprocating mechanism drives the liquid separating mechanism to move up and down, after filling is completed, the liquid separating mechanism moves up, the liquid separating pipe moves out from the bottle opening of the filling bottle, and after the next batch of filling bottles are in place, the liquid separating mechanism moves down to enable the liquid separating pipe to extend into the bottle opening of the filling bottle. Silica sol spills when avoiding the filling like this and falls outside the filling bottle, can avoid again that the filling bottle that moves on the assembly line takes place to empty when touchhing the liquid distribution pipe to make silica sol flow from the filling bottle. Has great popularization value.

Drawings

The utility model is further explained below with reference to the figures and examples;

FIG. 1 is a front view of the overall structure of the present invention;

FIG. 2 is a front view of a partial structure of the present invention;

FIG. 3 is a front view of the reciprocator of the present invention;

FIG. 4 is a front view of a partial structure of the present invention;

in the figure: a tank body 1; a feed port 101; a discharge port 102; a stirring mechanism 2; a rotating shaft 201; a stirring rod 202; a first motor 203; a discharge pipe 3; a reciprocating mechanism 4; a partial gear 401; executing the original 402; a rack 403; a second motor 404; an opening and closing mechanism 5; a housing 501; a through hole 502; an iron core 503; a spring 504; an electromagnet 6; a first guide blade 601; a conductor 7; a second guide vane 701; a liquid separating mechanism 8; a liquid separating pipe 801; filling bottles 9; a tray 10; a transmission belt 11; a support 12; a stock bin 13; a pump body 14; a battery 15; side plates 16; a connecting rod 17.

Detailed Description

Example 1:

as in fig. 1-4, an automatic filling ware of silica sol, including a jar body 1, be equipped with gliding discharging pipe 3 on jar body 1, be equipped with opening and shutting mechanism 5 on the discharging pipe 3, discharging pipe 3 bottom is equipped with liquid separating mechanism 8, liquid separating mechanism 8 bottom is equipped with the tray 10 of a plurality of removals, be equipped with a plurality of filling bottles 9 on the tray 10, discharging pipe 3 one side is equipped with reciprocating mechanism 4, reciprocating mechanism 4 bottom is equipped with electro-magnet 6, electro-magnet 6 one side is equipped with conductor 7, conductor 7 and battery 15 intercommunication. With the structure, the second motor 404 is driven to enable the incomplete gear 401 to be meshed with the rack 403, so that the opening and closing mechanism 5 and the electromagnet 6 move up and down, when the first guide sheet 601 on the electromagnet 6 is in contact with the second guide sheet 701, the battery 15 is electrified for the electromagnet 6 to enable the electromagnet 6 to have magnetism, so that the iron core 503 in the opening and closing mechanism 5 moves, so that the opening and closing mechanism 5 is in a normally open state, the tray 10 provided with a plurality of filling bottles 9 moves to the bottom of the liquid separating mechanism 8, the driving belt 11 stops moving, and when the rotating incomplete gear 401 does not drive the execution original 402 to move, the liquid separating mechanism 8 fills the filling bottles 9. After the liquid separating mechanism 8 finishes filling the filling bottles 9, the transmission belt 11 moves, the incomplete gear 401 which rotates at the moment drives the execution element 402 to move upwards, the first guide plate 601 and the second guide plate 701 are disconnected, so that the electromagnet 6 has no magnetism, the iron core 503 moves to the original position under the action of the spring 504, and the opening and closing mechanism 5 is in a normally closed state.

So reciprocal, do not need any manual operation, opening and closing that mechanism 5 can be automatic carries out the filling to a plurality of filling bottles 9 on the assembly line, divides to be equipped with a plurality of liquid pipes 801 on the mechanism 8, once can carry out the filling to a plurality of filling bottles 9, promotes filling efficiency. Degree of automation is high, greatly reduced the human cost of enterprise, saved the labour, improved production efficiency, promote the interests of enterprise.

The commonality is high, and the practicality is strong, when meetting different volumetric filling bottles 9, changes the number of teeth on the incomplete gear 401 to make first guide card 601 and second guide card 701's contact time, the manual regulation filling time, with the filling bottle 9 of adaptation different volumes.

The manual regulation filling rate changes the voltage of battery 15 to when making the contact of first guide 601 and second guide 701, the magnetism of electro-magnet 6 changes, so that the position change that iron core 503 removed, thereby changes the area of communicating of discharging pipe 3 and through-hole 502, so that the filling rate changes, thereby carries out manual regulation rate, and strong adaptability can promote in a large number.

The reciprocating mechanism 4 drives the liquid separating mechanism 8 to move up and down, after filling is completed, the liquid separating mechanism 8 moves up, the liquid separating pipe 801 moves out of the bottle opening of the filling bottle 9, and after the next batch of filling bottles 9 are in place, the liquid separating mechanism 8 moves down, so that the liquid separating pipe 801 extends into the bottle opening of the filling bottle 9. Therefore, the silica sol can be prevented from being scattered outside the filling bottles 9 during filling, and the filling bottles 9 moving on the production line can be prevented from being toppled when touching the liquid separating pipe 801, so that the silica sol flows out of the filling bottles 9.

In a preferred scheme, a stirring mechanism 2 is arranged on the tank body 1.

In the preferred scheme, the stirring mechanism 2 comprises a rotating shaft 201, the rotating shaft 201 abuts against the feed inlet 101, one end of the rotating shaft 201 is provided with a first motor 203, an output shaft of the first motor 203 is connected with the rotating shaft 201, the first motor 203 is installed on the tank body 1, and the rotating shaft 201 is provided with a plurality of stirring rods 202. With this configuration, the first motor 203 is driven to react different raw materials for producing a silica sol in the tank 1, and the stirring mechanism 2 sufficiently reacts the silica sol.

In a preferred embodiment, the discharge pipe 3 is a hollow pipe, the discharge pipe 3 abuts against the discharge port 102, and the discharge pipe 3 is connected to the actuating element 402 of the reciprocating mechanism 4 through the connecting rod 17. With this structure, the actuator 402 of the reciprocating mechanism 4 reciprocates to reciprocate the tapping pipe 3.

In a preferred scheme, the reciprocating mechanism 4 comprises an executing original 402, racks 403 are arranged on two inner sides of the executing original 402, the racks 403 are meshed with an incomplete gear 401, a second motor 404 is arranged on one side of the incomplete gear 401, an output end of the second motor 404 is connected with the incomplete gear 401, and the second motor 404 is installed on the side plate 16. With the structure, the second motor 404 is driven to enable the incomplete gear 401 to be meshed with the rack 403, so that the opening and closing mechanism 5 and the electromagnet 6 move up and down, when the first guide sheet 601 on the electromagnet 6 is in contact with the second guide sheet 701, the battery 15 is electrified for the electromagnet 6 to enable the electromagnet 6 to have magnetism, so that the iron core 503 in the opening and closing mechanism 5 moves, so that the opening and closing mechanism 5 is in a normally open state, the tray 10 provided with a plurality of filling bottles 9 moves to the bottom of the liquid separating mechanism 8, the driving belt 11 stops moving, and when the rotating incomplete gear 401 does not drive the execution original 402 to move, the liquid separating mechanism 8 fills the filling bottles 9. After the liquid separating mechanism 8 finishes filling the filling bottles 9, the transmission belt 11 moves, the incomplete gear 401 which rotates at the moment drives the execution element 402 to move upwards, the first guide plate 601 and the second guide plate 701 are disconnected, so that the electromagnet 6 has no magnetism, the iron core 503 moves to the original position under the action of the spring 504, and the opening and closing mechanism 5 is in a normally closed state.

In a preferred embodiment, the opening and closing mechanism 5 includes a housing 501, a through hole 502 is formed in the housing 501, an iron core 503 that slides against an inner wall of the housing 501 is disposed in the housing 501, and a spring 504 is disposed between the iron core 503 and the housing 501.

In a preferred scheme, the bottom of the reciprocating mechanism 4 is provided with an electromagnet 6, the bottom of the electromagnet 6 is provided with a plurality of first guide vanes 601, and the top of the conductor 7 is provided with a plurality of second guide vanes 701;

when the reciprocating mechanism 4 moves to the bottommost end, the first guide sheet 601 is contacted with the second guide sheet 701, and the electromagnet 6 is electrified;

the electromagnet 6 is located near the opening and closing mechanism 5. With this structure, the battery 15 energizes the electromagnet 6 to make the electromagnet 6 have magnetism, so as to move the iron core 503 in the opening and closing mechanism 5, so that the opening and closing mechanism 5 is in the normally open state, and the first guide tab 601 is disconnected from the second guide tab 701, so as to make the electromagnet 6 have no magnetism, so that the iron core 503 moves to the original position under the action of the spring 504, so as to make the opening and closing mechanism 5 in the normally closed state.

In a preferred scheme, the conductor 7 and the electromagnet 6 are respectively connected with a battery 15 through electric wires, and the battery 15 is arranged on the side plate 16. With this structure, the battery 15 energizes the electromagnet 6 to make the electromagnet 6 have magnetism, so as to move the iron core 503 in the opening and closing mechanism 5, so as to make the opening and closing mechanism 5 in the normally open state, and the first guide vane 601 is disconnected from the second guide vane 701, so as to make the electromagnet 6 have no magnetism, so that the iron core 503 moves to the original position under the action of the spring 504, so as to make the opening and closing mechanism 5 in the normally closed state.

In a preferred scheme, the liquid separating mechanism 8 comprises a plurality of liquid separating pipes 801, and the number of the liquid separating pipes 801 is consistent with the number of the filling bottles 9 in one tray 10. With the structure, the reciprocating mechanism 4 drives the liquid separating mechanism 8 to move up and down, after filling is completed, the liquid separating mechanism 8 moves up, the liquid separating pipe 801 moves out from the bottle opening of the filling bottle 9, and after the next batch of filling bottles 9 are in place, the liquid separating mechanism 8 moves down to enable the liquid separating pipe 801 to extend into the bottle opening of the filling bottle 9. Therefore, the silica sol can be prevented from being scattered outside the filling bottles 9 during filling, and the filling bottles 9 moving on the production line can be prevented from being toppled when touching the liquid separating pipe 801, so that the silica sol flows out of the filling bottles 9.

In the preferred scheme, the bottom of the tray 10 is provided with a transmission belt 11, the transmission belt 11 is installed on a support 12, one side of the tank body 1 is provided with a plurality of storage boxes 13, the storage boxes 13 are communicated with the feed inlet 101 through pipelines, and the pipelines of the storage boxes 13 are provided with pump bodies 14. With the structure, the pump body 14 enables the silica sol raw material in the storage box 13 to enter the tank body 1 for reaction, and the stirring mechanism 2 stirs the silica sol raw material so as to enable the silica sol raw material to react fully.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and the scope of the present invention is defined by the claims, and equivalents including technical features described in the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the utility model.

Claims

1. An automatic silica sol filling device is characterized in that: including a jar body (1), be equipped with gliding discharging pipe (3) on jar body (1), be equipped with on discharging pipe (3) and open and shut mechanism (5), discharging pipe (3) bottom is equipped with branch liquid mechanism (8), divide liquid mechanism (8) bottom to be equipped with tray (10) of a plurality of removals, be equipped with a plurality of filling bottles (9) on tray (10), discharging pipe (3) one side is equipped with reciprocating mechanism (4), reciprocating mechanism (4) bottom is equipped with electro-magnet (6), electro-magnet (6) one side is equipped with conductor (7), conductor (7) and battery (15) intercommunication.

2. The automatic silica sol filling machine according to claim 1, wherein: the tank body (1) is provided with a stirring mechanism (2).

3. The automatic silica sol filling machine as claimed in claim 2, wherein: rabbling mechanism (2) are including pivot (201), and pivot (201) support and lean on feed inlet (101), and pivot (201) one end is equipped with first motor (203), and the output shaft and pivot (201) of first motor (203) are connected, and first motor (203) are installed on jar body (1), are equipped with a plurality of puddlers (202) in pivot (201).

4. The automatic silica sol filling machine according to claim 1, wherein: the discharge pipe (3) is a hollow pipe body, the discharge pipe (3) abuts against the discharge hole (102), and the discharge pipe (3) is connected with an execution original piece (402) of the reciprocating mechanism (4) through a connecting rod (17).

5. The automatic silica sol filling machine as claimed in claim 1, wherein: the reciprocating mechanism (4) comprises an execution original (402), racks (403) are arranged on two inner sides of the execution original (402), the racks (403) are meshed with the incomplete gear (401), a second motor (404) is arranged on one side of the incomplete gear (401), the output end of the second motor (404) is connected with the incomplete gear (401), and the second motor (404) is installed on the side plate (16).

6. The automatic silica sol filling machine according to claim 1, wherein: the opening and closing mechanism (5) comprises a shell (501), a through hole (502) is formed in the shell (501), an iron core (503) which abuts against the inner wall of the shell (501) to slide is arranged in the shell (501), and a spring (504) is arranged between the iron core (503) and the shell (501).

7. The automatic silica sol filling machine as claimed in claim 1, wherein: an electromagnet (6) is arranged at the bottom of the reciprocating mechanism (4), a plurality of first guide vanes (601) are arranged at the bottom of the electromagnet (6), and a plurality of second guide vanes (701) are arranged at the top of the conductor (7);

when the reciprocating mechanism (4) moves to the bottommost end, the first guide vane (601) is in contact with the second guide vane (701), and the electromagnet (6) is electrified;

the electromagnet (6) is positioned near the opening and closing mechanism (5).

8. The automatic silica sol filling machine according to claim 1, wherein: the conductor (7) and the electromagnet (6) are respectively connected with a battery (15) through electric wires, and the battery (15) is arranged on the side plate (16).

9. The automatic silica sol filling machine as claimed in claim 1, wherein: the liquid separating mechanism (8) comprises a plurality of liquid separating pipes (801), and the number of the liquid separating pipes (801) is consistent with that of filling bottles (9) in one tray (10).

10. The automatic silica sol filling machine according to claim 1, wherein: the bottom of the tray (10) is provided with a transmission belt (11), the transmission belt (11) is installed on a support (12), one side of the tank body (1) is provided with a plurality of storage boxes (13), the storage boxes (13) are communicated with the feed inlet (101) through a pipeline, and a pump body (14) is arranged on the pipeline of the storage boxes (13).