CN116423691A

CN116423691A - A compounding device for rubber adhesive production

Info

Publication number: CN116423691A
Application number: CN202310253394.0A
Authority: CN
Inventors: 彭建平; 吴庆飞
Original assignee: Lanxi Claisen Additives Co ltd
Current assignee: Lanxi Claisen Additives Co ltd
Priority date: 2023-03-16
Filing date: 2023-03-16
Publication date: 2023-07-14
Anticipated expiration: 2043-03-16
Also published as: CN116423691B

Abstract

The application discloses a compounding device for rubber adhesive production, including casing and agitator, the agitator is rotatory through the drive of third drive assembly to the inside mixture of casing stir, the rotation axis of agitator slides and is provided with a plurality of stirring vane, connect through first elastomeric element between the stirring vane; the liquid recovery assembly is arranged on the rotating shaft in a sliding manner and controlled by the first driving assembly, and liquid produced by the reaction in the shell is collected and recovered for the next reaction to continue to use by pressing down the stirring blade and the first elastic part; the scraping plate component is arranged on the inner wall of the shell, and performs reciprocating lifting motion on the inner wall through the second driving component, so as to scrape materials stuck on the inner wall after reaction; the cleaning of the inner wall of the shell can be completed and the collected water is used for flushing; the water which can be added into the reactor can be accurately controlled, so that the reaction is more complete.

Description

A compounding device for rubber adhesive production

Technical Field

The application relates to the technical field of rubber adhesive production devices, in particular to a mixing device for rubber adhesive production.

Background

Rubber adhesive is an indispensable material in production and life, and has wide application in light industrial production. Along with the development of technology and the improvement of living standard of people, further requirements are also made on the quality of rubber products, and the rubber adhesive is produced by firstly mixing the raw materials and then dehydrating.

The existing equipment is often divided into two steps of mixing stirring and dehydration, and the dehydrated liquid is discharged as wastewater and is not recycled; on the other hand, the existing mixing device can not realize self-cleaning after the reaction is finished, and the subsequent manual scraping shovel is more complicated; on the other hand, a large amount of water is needed to be added in the reaction, and the amount of liquid added is controlled to be a wider amount by the electromagnetic valve, so that the accurate control cannot be realized.

Disclosure of Invention

To the not enough of prior art, this application provides a compounding device for rubber adhesive production, can accomplish compounding and dehydration work simultaneously, can realize the self-cleaning to shells inner wall after the reaction is accomplished, can also realize the accurate control to the water yield that adds.

The technical scheme adopted for solving the technical problems is as follows: the mixing device for producing the rubber adhesive comprises a shell and a stirrer, wherein the stirrer is driven to rotate through a third driving assembly to stir a mixture in the shell, a rotating shaft of the stirrer is slidably provided with a plurality of stirring blades, and the stirring blades are connected through a first elastic part; the liquid recovery assembly is arranged on the rotating shaft in a sliding manner and controlled by the first driving assembly, and liquid produced by the reaction in the shell is collected and recovered for the next reaction to continue to use by pressing down the stirring blade and the first elastic part; the scraping plate component is arranged on the inner wall of the shell, and performs reciprocating lifting motion on the inner wall through the second driving component, so as to scrape materials stuck on the inner wall after reaction; and the spraying assembly is arranged inside the liquid recovery assembly and is used for spraying the inner wall while the scraper assembly moves.

In the above technical scheme, further, the liquid recovery assembly comprises a water collection bin and a first driving assembly, the water collection bin comprises a sinking dish and a folding part, a plurality of first water inlets are formed in the bottom of the sinking dish, and one-way valves are arranged in the first water inlets, so that liquid can only enter the sinking dish from the first water inlets and cannot be discharged from the sinking dish; the sinking dish circumference sets up a plurality of first delivery ports, be provided with the check valve in the first delivery port and make liquid can only follow first water inlet discharge the sinking dish can't follow sinking dish department gets into.

In the above technical scheme, further, the folding portion upper end is provided with the sucking disc and can adsorb in the upper cover, folding portion folding or stretching back homoenergetic keep fixed form, set up in the top stirring vane be provided with cladding portion with sink ware joint and will first delivery port cladding is including.

In the above technical scheme, further, when the first driving component drives the water collection bin to move downwards and pushes the stirring blade to slide downwards, the upper end of the folding part is separated from the upper cover and is in an unfolding state, and liquid enters the water collection bin from the first water inlet; when the first driving assembly resets, the upper end of the folding part is in suction connection with the upper cover, the folding part is used for discharging liquid in the folding part from the second water outlet under the action of the first driving assembly, at the moment, the sinking dish is separated from the coating part, and the rest part of liquid in the sinking dish is used for spraying by the spraying assembly.

In the above technical scheme, further, the scraper assembly is provided with the guide post and stretches out the upper cover, spray the subassembly including setting up in the gasbag and the subassembly that aerifing of water collection storehouse, through the reciprocating motion drive of scraper assembly aerify the subassembly with the gasbag inflates, the gasbag is in the inflation extrusion liquid makes the liquid follow in the water collection storehouse the first delivery port is discharged.

In the above technical scheme, further, be provided with tooth and first gear engagement on the guide post, be provided with the location bump on the first gear, it is provided with the connecting rod to rotate on the location bump, the connecting rod other end with the piston rod is articulated, the piston rod is reciprocating motion in the air inlet channel and is inflated for the gasbag, be provided with the check valve in the air inlet channel.

Among the above-mentioned technical scheme, further, still be provided with into water retaining subassembly, it includes second water inlet and third water inlet to advance water retaining subassembly, the second water inlet with the second delivery port is connected and is used for reuse the liquid in the casing, it is used for to advance water retaining subassembly to be provided with the third delivery port to be used for to the inside liquid that adds of casing.

Among the above-mentioned technical scheme, further, the retaining subassembly that intakes includes box, sliding seat and first breakwater and second breakwater, the sliding seat passes through the second elastomeric element setting is in the box, first breakwater reaches the setting of second breakwater lateral sliding be in the box middle part and cut apart the box into volume water district and retaining district, the sliding seat can be along with the increase of top liquid and subside the first breakwater lateral sliding of simultaneous driving, when the liquid above the sliding seat reaches the setting value, first breakwater slides to the end, and the liquid in the retaining district can't get into volume water district.

In the above technical scheme, further, the sliding seat sets up first hydraulic protruding pole and slides in the first hydraulic pressure storehouse of box, first breakwater is provided with the protruding pole of second hydraulic pressure and slides in the second hydraulic pressure storehouse, first hydraulic pressure storehouse with the second hydraulic pressure storehouse passes through the pipe connection, first breakwater set up first location convex part with the first location concave part joint cooperation of second breakwater.

In the above technical scheme, further, the inside second location convex part that is provided with of box with the cooperation of second location concave part joint of second breakwater, the second breakwater passes through third elastomeric element and sets up in the box, when the liquid in water measuring region reaches the setting value, first breakwater drives the second breakwater moves to the end, second location convex part with second location concave part joint, during the flowing back, the sliding seat resets and makes first breakwater reset, the second breakwater still is in closed state, when the flowing back mouth solenoid valve is closed, the second location convex part withdraws, the second breakwater resets under the effect of third elastomeric element and with first breakwater joint.

The beneficial effects of this application are: 1. the mixing and dewatering can be completed simultaneously, and the production efficiency is further improved; 2. the generated water is collected and reused while dehydration is carried out; 3. the cleaning of the inner wall of the shell can be completed and the collected water is used for flushing; 4. the water which can be added into the reactor can be accurately controlled, so that the reaction is more complete.

Drawings

The present application is further described below with reference to the drawings and examples.

Fig. 1 is a schematic structural view of an elevation of the present application.

Fig. 2 is an enlarged partial view of section A-A of fig. 1 of the present application.

Fig. 3 is a schematic view of the internal structure of fig. 1 of the present application.

Fig. 4 is an enlarged partial view of section B-B of fig. 3 of the present application.

Fig. 5 is a schematic view of the internal structure of the folded portion contracted state of fig. 3 of the present application.

Fig. 6 is an enlarged partial view of section C-C of fig. 5 of the present application.

Fig. 7 is a schematic structural view of the water intake and storage assembly of the present application.

Fig. 8 is a schematic view of the internal structure of fig. 6 of the present application.

Fig. 9 is a partial enlarged view of the D-D section of fig. 8 of the present application.

Fig. 10 is a schematic view of the internal structure of another section of fig. 6 of the present application.

Fig. 11 is a partial enlarged view of the E-E section of fig. 10 of the present application.

In the drawings, 1, housing, 11, upper cover, 12, second water outlet, 2, agitator, 21, third drive assembly, 22, rotary shaft, 23, stirring blade, 231, coating, 24, first elastic member, 3, liquid recovery assembly, 31, first drive assembly, 32, sump, 321, sink, 322, folding, 323, first water inlet, 324, first water outlet, 4, scraper assembly, 41, guide post, 411, tooth, 5, spray assembly, 51, airbag, 52, inflatable assembly, 521, first gear, 522, positioning bump, 523, connecting rod, 524, 6, water inlet storage assembly, 61, second water inlet, 62, third water inlet, 63, third water outlet, 631, liquid discharge port, 632, solenoid valve, 64, tank, 641, water storage area, 642, first hydraulic chamber, 644, second hydraulic chamber, second positioning bump, 646, 65, sliding seat, 651, second elastic member, first bump, 652, 66, second bump, 67, water blocking plate, 6764, water blocking plate.

Detailed Description

Referring to fig. 1 to 11, a mixing device for rubber adhesive production comprises a shell 1 and a stirrer 2, wherein the stirrer 2 is driven to rotate by a third driving assembly 21 to stir a mixture in the shell 1, a rotating shaft 22 of the stirrer 2 is slidably provided with a plurality of stirring blades 23, and the stirring blades 23 are connected by a first elastic component 24; the liquid recovery assembly 3 is arranged on the rotating shaft 22 in a sliding manner and controlled by the first driving assembly 31, and the liquid produced by the reaction in the shell 1 is collected and recovered for the next reaction to continue to be used by pressing down the stirring blade 23 and the first elastic part 24; the scraping plate component 4 is arranged on the inner wall of the shell 1, and performs reciprocating lifting motion on the inner wall through the second driving component, so as to scrape the materials stuck on the inner wall after reaction; and the spraying assembly 5 is arranged inside the liquid recovery assembly 3 and is used for spraying the inner wall while the scraper assembly 4 moves.

The reaction can produce water and an adhesive so as to enable the water to be recycled, a liquid recovery assembly 3 is arranged, the liquid recovery assembly 3 comprises a water collecting bin 32 and a first driving assembly 31, the water collecting bin 32 comprises a sinking dish 321 and a folding part 322, a plurality of first water inlets 323 are arranged at the bottom of the sinking dish 321, and one-way valves are arranged in the first water inlets 323 so that liquid can only enter the sinking dish 321 from the first water inlets 323 and cannot be discharged from the sinking dish 321; the sinking vessel 321 is circumferentially provided with a plurality of first water outlets 324, and a one-way valve is arranged in the first water outlets 324, so that liquid can only be discharged from the first water inlets 323 the sinking vessel 321 cannot enter from the sinking vessel 321.

In order to enable a part of water to flow back to the water inlet and storage component 6, the rest part is used for cleaning the inner wall, a sucker is arranged at the upper end of the folding part 322 and can be adsorbed in the upper cover 11, the folding part 322 can keep a fixed form after being folded or stretched, the stirring blade 23 arranged at the uppermost part is provided with a coating part 231 which is clamped with the sinking dish 321 and coats the first water outlet 324, so that water cannot be discharged from the first water outlet 324 when flowing back to the water inlet and storage component 6.

When the first driving assembly 31 drives the water collection bin 32 to move downwards and pushes the stirring blade 23 to slide downwards, the upper end of the folding part 322 is separated from the upper cover 11 and is in an unfolding state, and liquid enters the water collection bin 32 from the first water inlet 323; when the first driving assembly 31 resets, the upper end of the folding portion 322 is engaged with the upper cover 11, the folding portion 322 is driven by the first driving assembly 31 to discharge the liquid inside the folding portion from the second water outlet 12, at this time, the sinking vessel 321 is separated from the covering portion 231, and a part of the liquid remaining in the sinking vessel 321 is used for spraying by the spraying assembly 5.

In order to enable the scraper to move and drive the spraying assembly 5 to spray and wash, when the first driving assembly 31 drives the water collecting bin 32 to move downwards and pushes the stirring blade 23 to slide downwards, the upper end of the folding part 322 is separated from the upper cover 11 and is in an unfolding state, and liquid enters the water collecting bin 32 from the first water inlet 323; when the first driving assembly 31 resets, the upper end of the folding portion 322 is in suction with the upper cover 11, the folding portion 322 is under the action of the first driving assembly 31 to fold the liquid inside and discharge from the second water outlet 12, at this time, the sinking dish 321 is separated from the coating portion 231, a part of the liquid left in the sinking dish 321 is used for spraying the spray assembly 5, the scraper assembly 4 is provided with a guide post 41 extending out of the upper cover 11, the spray assembly 5 comprises an air bag 51 and an inflation assembly 52 which are arranged in the water collecting bin 32, the inflation assembly 52 is driven by the reciprocating motion of the scraper assembly 4 to inflate the air bag 51, the air bag 51 is inflated and extruded with the liquid in the water collecting bin 32 to enable the liquid to be discharged from the first water outlet 324, a tooth 411 is arranged on the guide post 41 to be meshed with the first gear 521, a positioning bump 522 is arranged on the first gear 521, a connecting rod 523 is rotatably arranged on the positioning bump 522, the other end of the connecting rod 523 is hinged with the piston rod 524, the piston rod 524 is reciprocally moved in the air collecting bin 32 to be provided with an air inlet valve 51, and the air bag 51 is automatically opened after the reciprocating motion of the piston rod 524 in the air collecting bin 32 is completed by the air inlet channel, and the air bag 51 is automatically opened by the air valve 51, and the air bag 51 is automatically opened in the air inlet channel 51 after the air bag 51 is automatically opened.

In order to realize the accurate control to the inflow, set up into water retaining subassembly 6, it includes second water inlet 61 and third water inlet 62 to advance water retaining subassembly 6, second water inlet 61 with second delivery port 12 is connected and is used for reuse the liquid in the casing 1, it is provided with third delivery port 63 to advance water retaining subassembly 6 and be used for to the inside liquid that adds of casing 1, advance water retaining subassembly 6 includes box 64, sliding seat 65 and first breakwater 66 and second breakwater 67, sliding seat 65 passes through the second elastic component 651 to be set up in the box 64, first breakwater 66 and second breakwater 67 transversely slide and set up in the middle part of box 64 and divide into water area 641 and retaining area 642 with box 64, sliding seat 65 can be along with the increase of top liquid and the horizontal slip of drive first breakwater 66 simultaneously, when sliding seat 65 top liquid reaches the setting, first breakwater 66 slides to the end, the unable entering volume water area 641 of liquid in the retaining area 642.

In order to prevent water from continuously flowing into the water-measuring area 641 when the water amount in the water-measuring area 641 reaches a set value, the sliding seat 65 is provided with a first hydraulic protruding rod 652 which slides in a first hydraulic chamber 643 of the box 64, the first water baffle 66 is provided with a second hydraulic protruding rod 661 which slides in a second hydraulic chamber 644, the first hydraulic chamber is connected with the second hydraulic chamber through a conduit 68, and the first water baffle 66 is provided with a first positioning protruding part 662 which is in clamping fit with a first positioning concave part 671 of the second water baffle 67.

In order to prevent errors caused by the fact that when the water amount in the water-storage area 641 is reduced, the first water baffle 66 is automatically opened to enable water in the water-storage area 642 to flow into the water-storage area 641 again, a second water baffle 67 is arranged, a second positioning convex portion 645 is arranged in the box 64 and is in clamping fit with a second positioning concave portion 672 of the second water baffle 67, the second water baffle 67 is arranged in the box 64 through a third elastic component 673, when the liquid in the water-storage area 641 reaches a set value, the first water baffle 66 drives the second water baffle 67 to move to the tail end, the second positioning convex portion 645 is clamped with the second positioning concave portion 672, when liquid is discharged, the sliding seat 65 is reset to enable the first water baffle 66 to reset, the second water baffle 67 is still in a closed state, when the liquid discharge port 631 is closed, the second water baffle 67 is reset under the action of the third elastic component 673 and is clamped with the first water baffle 66.

The positioning convex part comprises a positioning pin and a spring, an electromagnet 646 is arranged at the bottom of the second positioning convex part 645, and when the electromagnetic valve 632 is closed, the electromagnet 646 is electrified, so that the positioning pin compresses the spring to be separated from the second positioning concave part 672.

According to the design, the meal delivery robot can realize the following functions: 1. the mixing and dewatering can be completed simultaneously, and the production efficiency is further improved; 2. the generated water is collected and reused while dehydration is carried out; 3. the cleaning of the inner wall of the shell can be completed and the collected water is used for flushing; 4. the water which can be added into the reactor can be accurately controlled, so that the reaction is more complete.

The foregoing description is only a preferred embodiment of the present application and is not intended to limit the present application in any way, and simple modifications, equivalent changes or modifications can be made without departing from the technical solutions of the present application, all falling within the scope of the present application.

Claims

1. A mixing device for rubber adhesive production comprises a shell and a stirrer, wherein the stirrer is driven to rotate by a third driving assembly to stir a mixture inside the shell,

the rotary shaft of the stirrer is provided with a plurality of stirring blades in a sliding manner, and the stirring blades are connected through a first elastic part;

the liquid recovery assembly is arranged on the rotating shaft in a sliding manner and controlled by the first driving assembly, and liquid produced by the reaction in the shell is collected and recovered for the next reaction to continue to use by pressing down the stirring blade and the first elastic part;

the scraping plate component is arranged on the inner wall of the shell, and performs reciprocating lifting motion on the inner wall through the second driving component, so as to scrape materials stuck on the inner wall after reaction;

and the spraying assembly is arranged inside the liquid recovery assembly and is used for spraying the inner wall while the scraper assembly moves.

2. The mixing device for producing rubber adhesives according to claim 1, wherein the liquid recovery assembly comprises a water collecting bin and a first driving assembly, the water collecting bin comprises a sinking dish and a folding part, a plurality of first water inlets are formed in the bottom of the sinking dish, and one-way valves are arranged in the first water inlets, so that liquid can only enter the sinking dish from the first water inlets and cannot be discharged from the sinking dish; the sinking dish circumference sets up a plurality of first delivery ports, be provided with the check valve in the first delivery port and make liquid can only follow first water inlet discharge the sinking dish can't follow sinking dish department gets into.

3. The mixing device for producing rubber adhesives according to claim 2, wherein a sucking disc is arranged at the upper end of the folding portion, the folding portion can be adsorbed in the upper cover, the folding portion can keep a fixed form after being folded or stretched, and the stirring blade arranged at the uppermost portion is provided with a coating portion which is clamped with the sinking dish and coats the first water outlet.

4. A mixing device for rubber adhesive production according to claim 3 wherein when said first drive assembly drives said sump downwardly and pushes said mixing blade downwardly, the upper end of said fold is separated from said upper cover and in an extended position, liquid entering said sump from a first water inlet;

when the first driving assembly resets, the upper end of the folding part is in suction connection with the upper cover, the folding part is used for discharging liquid in the folding part from the second water outlet under the action of the first driving assembly, at the moment, the sinking dish is separated from the coating part, and the rest part of liquid in the sinking dish is used for spraying by the spraying assembly.

5. A mixing device for producing rubber adhesives according to claim 2, wherein the scraper assembly is provided with a guide post extending out of the upper cover, the spraying assembly comprises an air bag and an inflation assembly arranged in the water collecting bin, the inflation assembly is driven to inflate the air bag through the reciprocating motion of the scraper assembly, and the air bag expands and extrudes liquid in the water collecting bin so that the liquid is discharged from the first water outlet.

6. The mixing device for rubber adhesive production according to claim 5, wherein the guide post is provided with a tooth part meshed with the first gear, the first gear is provided with a positioning protruding point, the positioning protruding point is rotatably provided with a connecting rod, the other end of the connecting rod is hinged with a piston rod, the piston rod reciprocates in an air inlet channel to inflate an air bag, and a one-way valve is arranged in the air inlet channel.

7. The mixing device for rubber adhesive production according to claim 1, further comprising a water inlet and water storage assembly, wherein the water inlet and water storage assembly comprises a second water inlet and a third water inlet, the second water inlet is connected with the second water outlet and is used for recycling liquid in the shell, and the water inlet and water storage assembly is provided with the third water outlet and is used for adding liquid into the shell.

8. The mixing device for producing rubber adhesives according to claim 7, wherein the water inlet and storage assembly comprises a box body, a sliding seat, a first water baffle and a second water baffle, the sliding seat is arranged in the box body through a second elastic component, the first water baffle and the second water baffle are transversely arranged in the middle of the box body in a sliding mode and divide the box body into a water metering area and a water storage area, the sliding seat can sink along with the increase of liquid above and simultaneously drives the first water baffle to transversely slide, when the liquid above the sliding seat reaches a set value, the first water baffle slides to the tail end, and the liquid in the water storage area cannot enter the water metering area.

9. The mixing device for producing rubber adhesives according to claim 8, wherein the sliding seat is provided with a first hydraulic protruding rod sliding in a first hydraulic bin of the box body, the first water baffle is provided with a second hydraulic protruding rod sliding in a second hydraulic bin, the first hydraulic bin is connected with the second hydraulic bin through a conduit, and the first water baffle is provided with a first positioning protruding part and a first positioning concave part of the second water baffle in a clamping fit.

10. The mixing device for producing rubber adhesives according to claim 9, wherein a second positioning convex part is arranged in the box body and is matched with a second positioning concave part of the second water baffle in a clamping mode, the second water baffle is arranged in the box body through a third elastic component, when the liquid in the water metering area reaches a set value, the first water baffle drives the second water baffle to move to the tail end, the second positioning convex part is clamped with the second positioning concave part, when liquid is discharged, the sliding seat resets to enable the first water baffle to reset, the second water baffle is still in a closed state, and when the liquid outlet electromagnetic valve is closed, the second positioning convex part is retracted, and the second water baffle resets under the action of the third elastic component and is clamped with the first water baffle.