CN216834391U - Acrylic coating filling production facility - Google Patents

Abstract

The utility model relates to the technical field of acrylic acid production, in particular to an acrylic acid coating filling production device, which comprises a transmission mechanism, a cover closing mechanism and a stirring device, wherein the stirring device is used for mixing and stirring a plurality of raw materials to prepare acrylic acid coating, and the transmission mechanism is used for transmitting a container for containing the acrylic acid coating; after the container is filled with the acrylic coating, the container is covered manually or by external equipment, and then the top cover and the container are tightly pressed by a cover closing mechanism; close lid mechanism and include support body and a plurality of gland structures, the support body is installed in transmission device and is located transmission device directly over, and a plurality of gland rollers all move about and set up in the support body, and the gland driving piece is used for driving a plurality of gland structures and rotates, and the gland structure is used for contradicting with the top cap and presses the top cap to the container. The utility model discloses a close the setting of lid mechanism, realize compressing tightly to the top cap promptly through closing lid mechanism, guarantee can not take place not hard up between top cap and the container, guaranteed safety.

Description

Acrylic coating filling production facility

Technical Field

The utility model belongs to the technical field of the acrylic acid production technique and specifically relates to indicate an acrylic acid coating filling production facility.

Background

Most of the existing acrylic coating production is manually filled and capped after preparation, and the mode easily causes that the cap is not tightly covered, namely, the acrylic coating is likely to leak in the transportation process, thereby causing adverse effects on the environment.

Disclosure of Invention

The utility model provides an acrylic acid coating filling production facility to prior art's problem, guaranteed the reliability of closing cap.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides an acrylic coating filling production facility, including transmission device, closing mechanism and agitating unit, the agitating unit is used for mixing the stirring to multiple raw materials in order to make acrylic coating, transmission device is used for transmitting the container that dress acrylic coating used; after the container is filled with the acrylic coating, the container is covered manually or by external equipment, and then the top cover and the container are pressed tightly by the cover closing mechanism;

close lid mechanism and include support body and a plurality of gland structure, the support body install in transport mechanism just is located directly over transport mechanism, the gland driving piece is used for driving a plurality of gland structures and rotates, and the gland structure is used for contradicting with the top cap and presses the top cap to the container.

Further, the gland structure includes gland driving piece, driving medium and two gland rollers, two gland rollers side by side and all rotate set up in the frame, two gland rollers are connected to the gland driving piece through the drive of driving medium.

Further, the support body includes the lift seat, adjusts structure and many support columns, many support columns set up respectively in transmission device's both sides, the lift seat liftable set up in many support columns, it is used for adjusting to adjust the structure the height of lift seat.

Furthermore, the adjusting structure comprises a rotating handle and a screw rod, the lifting seat is provided with a screw hole, the screw rod is in threaded connection with the screw hole, and the rotating handle is used for controlling the screw rod to rotate.

Further, the stirring device comprises a stirring tank, a driving mechanism, a stirring paddle and a plurality of feeding structures, wherein the plurality of feeding structures are arranged in the stirring tank, and the feeding structures are used for guiding the raw materials to enter the stirring tank; the stirring paddle comprises an outer rod, an inner rod and a plurality of blades, the inner rod is fixedly arranged in the stirring tank, the inner rod is positioned in the outer rod, and the driving mechanism is used for driving the outer rod to rotate; the plurality of paddles are movably arranged on the outer rod, a transmission structure is arranged between the paddles and the inner rod, and the transmission structure is used for driving the paddles to rotate when the outer rod rotates.

Furthermore, the transmission structure comprises a first gear and a second gear, the first gear is arranged on the inner rod, the paddle is provided with a rotating shaft, the second gear is arranged on the rotating shaft, and the first gear is meshed with the second gear.

Furthermore, the driving mechanism comprises a driving motor and a speed reducing structure, and the driving motor is in driving connection with the outer rod through the speed reducing structure.

Furthermore, the feeding structure comprises a material weighing seat, a material weighing device and a control valve, wherein the material weighing seat is used for loading the raw materials to be input into the stirring tank, and the material weighing device is used for weighing the weight of the raw materials in the material weighing seat; the bottom of the material weighing seat is provided with a discharge hole, and the control valve is used for controlling the opening and closing of the discharge hole.

Furthermore, an output port is formed in one side of the bottom of the stirring tank, the level of the output port is lower than that of the bottom of the stirring tank, and the level of the bottom of the stirring tank gradually rises from one side close to the output port to the other side.

Preferably, the discharge gate is provided with the bleeder valve, the bleeder valve is provided with flow sensor, flow sensor with bleeder valve signal connection.

The utility model has the advantages that: the utility model discloses a close the setting of lid mechanism, realize compressing tightly to the top cap promptly through closing lid mechanism, guarantee can not take place not hard up between top cap and the container, guaranteed safety.

Drawings

Fig. 1 is a schematic view of the present invention.

Fig. 2 is a schematic view of the cover closing mechanism of the present invention.

FIG. 3 is a schematic view of the gland structure of the present invention

Fig. 4 is an internal schematic view of the stirring device of the present invention.

Fig. 5 is a schematic view of the stirring paddle of the present invention.

Fig. 6 is a schematic illustration of the engagement of the inner and outer rods.

Reference numerals: 1-transmission mechanism, 2-cover closing mechanism, 3-stirring device, 21-frame body, 22-cover pressing structure, 23-cover pressing driving part, 24-transmission part, 25-cover pressing roller, 26-damping part, 31-stirring tank, 32-driving mechanism, 33-stirring paddle, 34-feeding structure, 35-sealing structure, 36-waterproof structure, 211-lifting seat, 212-adjusting structure, 213-supporting column, 214-rotating handle, 215-screw rod, 311-output port, 312-discharge valve, 321-driving motor, 322-speed reducing structure, 331-outer rod, 332-inner rod, 333-blade, 334-transmission structure, 335-first gear, 336-second gear, 337-rotating shaft, 341-material weighing seat, 342-material weighing device, 343-control valve, 351-inner plate, 352-sealing groove, 353-outer plate and 354-sealing ring.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, the utility model provides an acrylic coating filling production equipment, including transmission mechanism 1, close and cover mechanism 2 and agitating unit 3, agitating unit 3 is used for mixing the stirring in order to make acrylic coating to multiple raw materials, transmission mechanism 1 is used for transmitting the container that dress acrylic coating used; after the container is filled with the acrylic coating, the container is covered manually or by external equipment, and then the cover closing mechanism 2 compresses the top cover and the container; close lid mechanism 2 and include support body 21 and a plurality of gland structure 22, support body 21 install in transport mechanism 1 just is located directly over transport mechanism 1, gland structure 22 is used for conflicting with the top cap and pressing the top cap to the container.

During actual work, stir by agitating unit 3 and mix the back output of various raw materialss of preparation acrylic coating, adopt the manual work to carry out acrylic coating's barrelling this moment usually, adopt the container to catch acrylic coating promptly, then utilize the top cap to cover the container and put on transmission device 1 after tentatively fixing, transmit the container to through closing lid mechanism 2 through transmission device 1, compress tightly the top cap by closing lid mechanism 2, make container and top cap can not take place to separate when receiving the collision, in order to guarantee sealed reliability.

In this embodiment, the capping structure 22 includes a capping driving member 23, a transmission member 24 and two capping rollers 25, the two capping rollers 25 are disposed in the frame body 21 side by side and rotatably, and the capping driving member 23 is driven by the transmission member 24 to connect the two capping rollers 25. The gland driving part 23 can be a motor, the transmission part 24 can be a transmission chain or a gear, the rotation of the two gland rollers 25 is controlled by the gland driving part 23, and the gland rollers 25 are cylindrical, so that the top cover can be guided into the frame body 21 and rotated by the gland rollers 25 to realize gland; and the utility model discloses regard as a gland structure 22 with two gland rollers 25, a plurality of gland structures 22 highly can descend in proper order, through a plurality of gland structures 22 cooperation promptly, has realized the effect of multistage gland for the lid is gradually pushed down and is fixed, thereby has guaranteed the stability of gland.

In this embodiment, the frame body 21 includes the lifting seat 211, adjusts the structure 212 and many support columns 213, many support columns 213 set up respectively in the both sides of transmission device 1, the lifting seat 211 liftable sets up in many support columns 213, it is used for adjusting to adjust the structure 212 the height of lifting seat 211. The staff can be according to the specification of container and top cap promptly, realizes the regulation to the height that seat 211 locates through adjusting structure 212, thereby lets the utility model discloses can all carry out the gland to the container of multiple specification and fix.

Specifically, the adjusting structure 212 includes a rotating handle 214 and a screw 215, the lifting base 211 is provided with a screw hole, the screw 215 is screwed into the screw hole, and the rotating handle 214 is used for controlling the screw 215 to rotate. Namely, the screw 215 rotates to drive the lifting seat 211 to lift, thereby achieving the effect of height adjustment; and a damping member 26 can be arranged between the lifting seat 211 and the supporting column 213, so that the lifting seat 211 is kept at the height without change after being heightened, and the reliability of fixing the container and the top cover is ensured.

In this embodiment, the stirring device 3 includes a stirring tank 31, a driving mechanism 32, a stirring paddle 33, and a plurality of feeding structures 34, where the plurality of feeding structures 34 are all disposed on the stirring tank 31, and the feeding structures 34 are used to guide the raw material into the stirring tank 31; the stirring paddle 33 comprises an outer rod 331, an inner rod 332 and a plurality of blades 333, the inner rod 332 is fixedly arranged in the stirring tank 31, the inner rod 332 is positioned in the outer rod 331, and the driving mechanism 32 is used for driving the outer rod 331 to rotate; the blades 333 are movably arranged on the outer rod 331, a transmission structure 334 is arranged between the blades 333 and the inner rod 332, and the transmission structure 334 is used for driving the blades 333 to rotate when the outer rod 331 rotates.

When the stirring device is used, different raw materials are input into the stirring tank 31 through the corresponding feeding structures 34, and then the driving mechanism 32 drives the stirring paddle, specifically, the outer rod 331 of the stirring paddle 33 is driven to rotate by taking the inner rod 332 as a shaft, so that the blades 333 rotate along with the outer rod 331; in the rotating process of the paddle 333, the transmission structure 334 acts to enable the paddle 333 to rotate, and the rotating direction of the transmission structure is just perpendicular to the stirring paddle 33, so that the paddle 333 can stir the raw materials in the stirring tank 31 more fully, sufficient mixing among the raw materials is guaranteed, the raw material mixing time can be effectively shortened, and the production efficiency is improved.

In addition, the inner rod 332 may be welded to the inner bottom wall of the agitator tank 31 to achieve fixation.

In this embodiment, the transmission structure 334 includes a first gear 335 and a second gear 336, the first gear 335 is disposed on the inner rod 332, the paddle 333 is provided with a rotating shaft 337, the second gear 336 is disposed on the rotating shaft 337, and the first gear 335 is engaged with the second gear 336.

During practical use, the rotating shaft 337 and the second gear 336 are connected in a welding manner, and the first gear 335 and the inner rod 332 are connected in a welding manner, so that the rotating shaft 337 and the second gear 336, and the inner rod 332 and the first gear 335 are not separated from each other, and the transmission reliability is ensured. That is, in the process of rotating the outer rod 331, because the inner rod 332 is fixed, the second gear 336 and the first gear 335 move relatively to constantly change the meshing position, so as to achieve the effect of driving the paddle 333 to rotate by using the rotating shaft 337 as an axis.

In this embodiment, a sealing structure 35 is disposed between the outer rod 331 and the paddle 333, and the sealing structure 35 is used to prevent the raw material in the stirring tank 31 from entering the outer rod 331. The sealing structure 35 may be an existing mechanical seal, or may adopt the following structure: the rotating shaft 337 is provided with a sealing ring 354, that is, when the outer rod 331 is produced, the side wall thereof is provided with a plurality of holes through which the second gear 336 can pass, after the paddle 333 is inserted into the outer rod 331 and the first gear 335 is meshed with the second gear 336, the inner plate 351 is firstly sleeved on the rotating shaft 337 and moved until the holes are covered, and then is welded with the outer rod 331, then the sealing ring 354 is sleeved on the rotating shaft 337 and fixed with the rotating shaft 337, then the outer plate 353 is sleeved on the rotating shaft 337 and moved until the holes are covered, that is, a sealing groove 352 provided with the sealing ring 354 is formed between the inner plate 351 and the outer plate 353, the sealing structure 35 is formed by the inner plate 351, the outer plate 353 and the sealing ring 354, and finally the paddle 333 is welded on the rotating shaft 337, so that the assembly between the paddle 333 and the outer rod 331 is realized.

In this embodiment, the driving mechanism 32 includes a driving motor 321 and a speed reducing structure 322, and the driving motor 321 is drivingly connected to the outer rod 331 through the speed reducing structure 322. That is, after the driving motor 321 is decelerated by the deceleration structure 322 to increase horsepower, the outer rod 331 is driven to rotate to achieve a stirring effect, and the deceleration of the deceleration structure 322 is used to ensure that the rotation of the blade 333 itself can be reliably achieved.

In this embodiment, the feeding structure 34 includes a material weighing seat 341, a material weighing device 342, and a control valve 343, the material weighing seat 341 is used for loading the raw material to be input into the stirring tank 31, and the material weighing device 342 is used for weighing the weight of the raw material in the material weighing seat 341; the bottom of the material weighing seat 341 is provided with a discharge port, and the control valve 343 is used for controlling the opening and closing of the discharge port. Before feeding, the corresponding raw materials are conveyed to the material weighing seat 341 through an external material storage device, the material weighing device 342 is used for weighing the material weighing seat 341 at any time, the control valve 343 is closed to avoid re-feeding after the raw materials in the material weighing seat 341 reach the set weight, and then the raw materials in the material weighing seat 341 are all conveyed into the stirring tank 31 through the discharge port to ensure that the proportion of each raw material meets the standard. The material weighing device 342 can be obtained by weighing the total weight of the liquid level sensor or the material weighing device 342, and various ways for achieving the effect are available, which are not listed one by one again.

Specifically, the material weighing seat 341 is located above the stirring tank 31, and the material weighing seat 341 is communicated with the stirring tank 31 through the control valve 343, that is, after the control valve 343 is opened, the raw material inside the material weighing seat 341 can be directly input into the stirring tank 31 through the discharge port under the action of gravity, so that the feeding is more stable and convenient.

In this embodiment, an output port 311 is disposed at one side of the bottom of the stirring tank 31, the level of the output port 311 is lower than that of the bottom of the stirring tank 31, and the level of the bottom of the stirring tank 31 gradually increases from one side close to the output port 311 to the other side. The sealing element is used for ensuring that no material leakage occurs at the joint of the outer rod 331 and the stirring tank 31, and can also assist in preventing the outer rod 331 from deviating; the position of the output port 311 is set so that the acrylic coating formed after stirring can spontaneously flow towards the output port 311, thereby ensuring that the acrylic coating can completely flow out.

Specifically, the discharge gate is provided with bleeder valve 312, bleeder valve 312 is provided with flow sensor, flow sensor with bleeder valve 312 signal connection. Namely, the flow sensor is essentially used for detecting the acrylic coating output each time, so that the container bearing the acrylic coating is prevented from overflowing due to full load, and the capping and the transportation are facilitated.

A waterproof structure 36 is provided between the inner rod 332 and the outer rod 331 to prevent acrylic paint from entering the outer rod 331.

Specifically, the conveying mechanism 1 may be a conventional conveying belt structure or a conventional conveying roller structure, and will not be described herein again.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention is disclosed in the preferred embodiment, it is not limited to the above description, and any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, but all the technical solutions of the present invention are within the scope of the present invention.

Claims (9)

1. The utility model provides an acrylic acid coating filling production facility which characterized in that: the device comprises a transmission mechanism, a cover closing mechanism and a stirring device, wherein the stirring device is used for mixing and stirring a plurality of raw materials to prepare the acrylic coating; after the container is filled with the acrylic coating, the container is covered manually or by external equipment, and then the cover closing mechanism tightly presses the top cover and the container;

the cover closing mechanism comprises a frame body and a plurality of cover pressing structures, the frame body is arranged on the transmission mechanism and is positioned right above the transmission mechanism, the plurality of cover pressing rollers are movably arranged on the frame body, and the cover pressing structures are used for abutting against the top cover and pressing the top cover to the container;

the gland structure includes gland driving piece, driving medium and two gland rollers, two gland rollers side by side and all rotate set up in the frame, two gland rollers are connected to the gland driving piece through the drive of driving medium.

2. The acrylic paint filling production apparatus according to claim 1, characterized in that: the support body includes lift seat, regulation structure and many support columns, many support columns set up respectively in transmission device's both sides, the lift seat liftable set up in many support columns, it is used for adjusting to adjust the structure the height of lift seat.

3. The acrylic paint filling production apparatus according to claim 2, characterized in that: the adjusting structure comprises a rotating handle and a screw rod, the lifting seat is provided with a screw hole, the screw rod is in threaded connection with the screw hole, and the rotating handle is used for controlling the screw rod to rotate.

4. The acrylic paint filling production apparatus according to claim 1, characterized in that: the stirring device comprises a stirring tank, a driving mechanism, a stirring paddle and a plurality of feeding structures, wherein the plurality of feeding structures are arranged in the stirring tank, and the feeding structures are used for guiding raw materials to enter the stirring tank; the stirring paddle comprises an outer rod, an inner rod and a plurality of blades, the inner rod is fixedly arranged in the stirring tank, the inner rod is positioned in the outer rod, and the driving mechanism is used for driving the outer rod to rotate; the plurality of paddles are movably arranged on the outer rod, a transmission structure is arranged between the paddles and the inner rod, and the transmission structure is used for driving the paddles to rotate when the outer rod rotates.

5. The acrylic paint filling production apparatus according to claim 4, wherein: the transmission structure comprises a first gear and a second gear, the first gear is arranged on the inner rod, the paddle is provided with a rotating shaft, the second gear is arranged on the rotating shaft, and the first gear is meshed with the second gear.

6. The acrylic paint filling production apparatus according to claim 4, wherein: the driving mechanism comprises a driving motor and a speed reducing structure, and the driving motor is in driving connection with the outer rod through the speed reducing structure.

7. The acrylic paint filling production apparatus according to claim 4, wherein: the feeding structure comprises a material weighing seat, a material weighing device and a control valve, wherein the material weighing seat is used for loading the raw materials to be input into the stirring tank, and the material weighing device is used for weighing the weight of the raw materials in the material weighing seat; the bottom of the material weighing seat is provided with a discharge hole, and the control valve is used for controlling the opening and closing of the discharge hole.

8. The acrylic paint filling production apparatus according to claim 7, wherein: an output port is formed in one side of the bottom of the stirring tank, the level of the output port is lower than the height of the bottom of the stirring tank, and the level of the bottom of the stirring tank gradually rises from one side close to the output port to the other side.

9. The acrylic paint filling production apparatus according to claim 8, wherein: the discharge gate is provided with the bleeder valve, the bleeder valve is provided with flow sensor, flow sensor with bleeder valve signal connection.

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