CN114906788A - Material storage system for glue mixing - Google Patents

Abstract

The application discloses a storage system for mixed glue, which comprises a controller, a user terminal, a first feeding pipe, a storage tank, a first electromagnetic valve, a material taking tank, a first vacuum pump and a second vacuum pump, wherein one end of the first feeding pipe is communicated with the storage tank, the first electromagnetic valve is arranged on the first feeding pipe, the first vacuum pump is communicated with the storage tank, a fixed groove is formed in the inner bottom wall of the storage tank, a material taking rod is arranged in the storage tank and is arranged on the side wall of the fixed groove, a feeding hole is formed in the material taking rod, a material taking pipe is arranged between the material taking tank and the material taking rod, the second vacuum pump is communicated with the material taking tank, when the material is stored, the first electromagnetic valve is opened, and the first vacuum pump is started to enable the raw material entering the first feeding pipe to enter the storage tank; when the materials are taken, the second vacuum pump is started, the raw materials in the storage tank enter the material taking tank through the feeding hole of the material taking rod, the contact between the raw materials stored in the material storage tank and air is effectively avoided, and the sealing performance of the material storage tank is improved.

Description

Material storage system for glue mixing

Technical Field

The application relates to the technical field of glue production, in particular to a storage system for glue mixing.

Background

The glue is an intermediate for connecting two materials, mostly appears as a water aqua, belongs to the fine chemical industry, is various in types, and is mainly classified by a bonding material, a physical form, a hardening method and a material of an adherend. The bottom of the aviation carpet needs to be provided with a bonding layer made of special glue.

Need use multiple raw materials in the purpose-made glue production process, in the staff packed into different former storage bucket respectively with multiple raw materials alone, the open-top of former storage bucket has a bucket door with articulated, uses the raw materials or when adding the raw materials, all need open the bucket door of former storage bucket for the leakproofness of former storage bucket is not good, leads to the raw materials in the former storage bucket and the air contact takes place chemical reaction.

Disclosure of Invention

In order to improve the leakproofness of former storage bucket, this application provides a thoughtlessly glue and use storage system.

The application provides a mix and use storage system adopts following technical scheme:

a storage system for glue mixing comprises a controller, a user terminal, a first feeding pipe, a storage tank, a first electromagnetic valve, a material taking tank, a first vacuum pump and a second vacuum pump, wherein the storage tank is hollow, one end of the first feeding pipe is communicated with the storage tank, the other end of the first feeding pipe is used for feeding, the first electromagnetic valve is arranged on the first feeding pipe and is used for opening and closing the first feeding pipe, and the first vacuum pump is communicated with the storage tank;

a fixed groove is formed in the inner bottom wall of the storage tank, a guide surface is formed in the side wall of the fixed groove and is close to the edge of the bottom wall of the fixed groove, a material taking rod is arranged in the storage tank and is arranged on the side wall of the guide surface, the material taking rod is hollow inside, feed inlets are formed in the outer side wall of the material taking rod in an array mode, a material taking pipe is arranged between the material taking tank and the material taking rod, and the second vacuum pump is communicated with the material taking tank;

the controller is in communication connection with the user terminal, and the first electromagnetic valve, the first vacuum pump and the second vacuum pump are all electrically connected with the controller.

By adopting the technical scheme, when storing materials, the raw materials are poured into the first feeding pipe, a worker opens the first electromagnetic valve through the user terminal control controller, the first vacuum pump is started, the first vacuum pump enables negative pressure to be formed in the material storage tank, so that the raw materials entering the first feeding pipe enter the material storage tank, and the raw materials entering the material storage tank fall onto the guide surface under the action of gravity and contact with the material taking rod, so that the raw materials are stored in the material storage tank; when the materials are taken, the second vacuum pump is started to enable negative pressure to be formed in the material taking tank, the raw materials in the storage tank enter the material taking tank through the feeding hole of the material taking rod, the raw materials entering the material taking tank fall to the bottom of the sampling tank and are accumulated in the sampling tank, the raw materials stored in the material storage tank are effectively prevented from contacting with air, and the sealing performance of the material storage tank is improved.

Optionally, be provided with the selective examination jar between first inlet pipe and the storage tank, the discharge gate has been seted up to the inside cavity and the bottom of selective examination jar, the both ends of selective examination jar communicate with first inlet pipe and storage tank respectively, the bottom of selective examination jar is provided with the sliding plate, sliding plate along horizontal direction sliding connection in the bottom of selective examination jar, the connecting hole has been seted up on the sliding plate, be provided with on the selective examination jar and be used for ordering about the gliding first electric jar of sliding plate, the gliding in-process connecting hole of horizontal direction can communicate with the discharge gate along the sliding plate, first electric jar and controller electric connection.

Through adopting above-mentioned technical scheme, when the staff carries out the selective examination to the raw materials that enters into first inlet pipe, start first electric jar, first electric jar drives the sliding plate and slides, make connecting hole and discharge gate intercommunication, the raw materials that enters into the selective examination jar falls the connecting hole from the discharge gate under the effect of gravity, and discharge from the connecting hole, the staff carries out the selective examination to the raw materials from connecting hole exhaust, then first electric jar drives the sliding plate and slides and make connecting hole and discharge gate not communicate, under the prerequisite of storing the raw materials in the storage tank not influencing, make things convenient for the staff to carry out the selective examination to the raw materials.

Optionally, the storage tank is provided with four, every along the horizontal direction interval all be provided with the second inlet pipe on the storage tank, the one end that first solenoid valve was kept away from to first inlet pipe is provided with first branch hopper, the top of first branch hopper is provided with two branch material pipes, two be provided with the second branch hopper on the branch material pipe, two branch material mouths have been seted up at the top of second branch hopper, the second inlet pipe divides the hopper intercommunication through branch material mouth and second, all be provided with the second solenoid valve on second inlet pipe and the branch material pipe, second solenoid valve and controller electric connection.

Through adopting above-mentioned technical scheme, when the staff will need to pour different raw materials into different storage tanks, open the first vacuum pump on this storage tank earlier, then open the second solenoid valve on the second inlet pipe of this storage tank, then open the second solenoid valve with the branch material pipe of this second inlet pipe intercommunication, pour a raw materials into first inlet pipe after that, realized that different raw materials use the purpose that same first inlet pipe enters into different storage tanks, save area, improved storage efficiency.

Optionally, the material taking rod is connected to the guide surface in a sliding manner along the inclined direction of the guide surface, a first corrugated pipe is arranged between the material taking rod and the material taking pipe, the first corrugated pipe can stretch along the length direction of the first corrugated pipe, the top of the material taking rod is fixedly provided with a fixed block, a moving rod is arranged on the outer side wall of the material storage tank, one end of the moving rod penetrates through the interior of the material storage tank and is fixedly connected with a fixed block, the material storage tank is provided with a second electric cylinder for driving the movable rod to move, the side wall of the fixed groove is provided with a waste material port, the material taking rod can seal the top opening of the waste material port, the waste material pipe is arranged on the outer side wall of the material storage tank, the one end and the waste material mouth intercommunication of waste material pipe, the other end are provided with the waste material jar, be provided with the third vacuum pump on the waste material jar, second electric jar, third vacuum pump and controller electric connection.

Through adopting above-mentioned technical scheme, when clearing up remaining raw materials in the storage tank, start the electric jar of second, make the electric jar of second drive get the material stick and relieve the contact with the lateral wall of fixed slot, make the waste material mouth open, then open the third vacuum pump, make and form the negative pressure in the garbage bin to carry remaining raw materials in the storage tank into the garbage bin, the convenience of remaining raw materials and clean in the clearance storage tank.

Optionally, a clamping block is fixedly arranged on one side, away from the material taking pipe, of the material taking rod, and the clamping block is clamped with the waste material opening.

Through adopting above-mentioned technical scheme, fixture block and waste material mouth joint effectively avoid having the raw materials to enter into between the waste material mouth from getting the gap between the lateral wall of material stick and fixed slot, moreover, still improved and got the stability of material stick connection on the spigot surface, effectively avoid the second vacuum pump operation in-process, get and take place relative displacement between material stick and the spigot surface.

Optionally, a support frame is arranged on the storage tank, the storage tank is connected to the support frame in a sliding mode along the vertical direction, a support block is fixedly arranged on the outer side wall of the storage tank, a pressure sensor is arranged between the support frame and the support block, and the pressure sensor is electrically connected with the controller.

Through adopting above-mentioned technical scheme, the staff can accurately know the storage condition of storage tank through pressure sensor.

Optionally, a second corrugated pipe is arranged between the inner side wall of the fixing block and the inner side wall of the storage tank, the second corrugated pipe is telescopic along the length direction of the second corrugated pipe, and the moving rod is coaxially sleeved in the second corrugated pipe.

Through adopting above-mentioned technical scheme, effectively avoid entering into the raw materials and the carriage release lever contact in the storage tank, improve the integrality of raw materials and convenient clearance.

Optionally, a communicating hole communicated with the inside of the material taking rod is formed in one side, away from the material taking pipe, of the material taking rod, and the side wall of the fixing groove can seal the opening of the communicating hole.

Through adopting above-mentioned technical scheme, when clearing up the storage tank, remain and get the raw materials in the material stick and discharge outside getting the material stick through the intercommunicating pore, it is convenient to get the material stick to clear up.

Optionally, the bottom of the material taking rod is fixedly provided with a limiting block, a limiting groove is formed in the side wall of the guide surface, and the limiting block is connected in the limiting groove in a sliding mode along the inclined direction of the guide surface.

Through adopting above-mentioned technical scheme, stopper sliding connection has improved the stability of getting material stick and spigot surface contact in the spacing inslot.

Optionally, the inside of storage tank is provided with a plurality of charge level indicators, every along the direction of height interval of storage tank the charge level indicator all with controller electric connection.

Through adopting above-mentioned technical scheme, the storage condition of storage tank is known through the charge level indicator to the staff to in time carry out the feed supplement when the raw materials is not enough in the storage tank, and when the storage raw materials is too much in the storage tank, in time stop this storage tank storage.

In summary, the present application includes at least one of the following beneficial technical effects:

when storing materials, pouring the materials into a first feeding pipe, opening a first electromagnetic valve by a worker through a user terminal control controller, starting a first vacuum pump, and enabling the first vacuum pump to form negative pressure in a material storage tank, so that the materials entering the first feeding pipe enter the material storage tank, and the materials entering the material storage tank fall onto a guide surface under the action of gravity and contact with a material taking rod, so that the materials are stored in the material storage tank; when the materials are taken, the second vacuum pump is started to enable negative pressure to be formed in the material taking tank, the raw materials in the storage tank enter the material taking tank through the feeding hole of the material taking rod, and the raw materials entering the material taking tank fall to the bottom of the sampling tank and are accumulated in the sampling tank, so that the raw materials stored in the material storage tank are effectively prevented from contacting with air, and the sealing property of the material storage tank is improved;

when a worker performs selective inspection on raw materials entering the first feeding pipe, the first electric cylinder is started, the first electric cylinder drives the sliding plate to slide, so that the connecting hole is communicated with the discharging hole, the raw materials entering the selective inspection tank fall into the connecting hole from the discharging hole under the action of gravity and are discharged from the connecting hole, the worker performs selective inspection on the raw materials discharged from the connecting hole, then the first electric cylinder drives the sliding plate to slide, so that the connecting hole is not communicated with the discharging hole, and the worker can perform selective inspection on the raw materials conveniently on the premise of not influencing the storage of the raw materials in the material storage tank;

when the staff will need to pour different raw materials into different storage tanks, open the first vacuum pump on this storage tank earlier, then open the second solenoid valve on the second inlet pipe of this storage tank, then open the second solenoid valve with the branch material pipe of this second inlet pipe intercommunication, pour a raw materials into first inlet pipe after that, realized that different raw materials use the purpose that same first inlet pipe enters into different storage tanks, practiced thrift area, improved storage efficiency.

Drawings

Fig. 1 is a schematic overall structure diagram of a glue mixing storage system according to an embodiment of the present application.

FIG. 2 is a schematic cross-sectional view of a holding tank.

Fig. 3 is a block flow diagram of a glue mixing storage system according to an embodiment of the present application.

Fig. 4 is a schematic view of the connection structure of the sampling tank according to the embodiment of the present application.

Fig. 5 is a partial cross-sectional view of an evacuation canister according to an embodiment of the present application.

Fig. 6 is a schematic view of a connection structure of a first material dividing hopper and a second material dividing hopper according to an embodiment of the present application.

Fig. 7 is a partially enlarged schematic view of a portion a in fig. 2.

Description of reference numerals: 1. a controller; 2. a user terminal; 3. a first feed tube; 4. a material storage tank; 41. a fixing groove; 42. a guide surface; 43. a waste material port; 44. a limiting groove; 5. a first solenoid valve; 6. a material taking tank; 7. a first vacuum pump; 8. a second vacuum pump; 9. taking a material rod; 91. a feed inlet; 92. a communicating hole; 10. taking a material pipe; 11. sampling inspection of the tank; 111. a discharge port; 12. a sliding plate; 121. connecting holes; 13. a first electric cylinder; 14. a second feed tube; 15. a first distribution hopper; 16. distributing pipes; 17. a second hopper; 18. a second solenoid valve; 19. a first bellows; 20. a fixed block; 21. a travel bar; 22. a second electric cylinder; 23. a waste pipe; 24. a third vacuum pump; 25. a clamping block; 26. a support frame; 27. a supporting block; 28. a pressure sensor; 29. a second bellows; 30. a limiting block; 31. a level gauge; 32. a canister.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses mix and glue with storage system. Referring to fig. 1, the material storage system comprises a first feeding pipe 3, a material storage tank 4, a material taking tank 6, a first vacuum pump 7 and a second vacuum pump 8, the first feeding pipe 3 is used for feeding materials and is communicated with the material storage tank 4, the material taking tank 6 is provided with a material taking pipe 10, the material taking pipe 10 is communicated with the material storage tank 4, the first vacuum pump 7 is installed on the material storage tank 4, the second vacuum pump 8 is installed on the material taking tank 6, a worker contacts the raw materials with the first feeding pipe 3 and starts the first vacuum pump 7, and the first vacuum pump 7 operates to enable negative pressure to be formed in the material storage tank 4, so that the raw materials are driven to enter the material storage tank 4 through the first feeding pipe 3; when the materials are taken, the second vacuum pump 8 is started, the second vacuum pump 8 operates to enable negative pressure to be formed in the material storage tank 4, so that the raw materials in the material storage tank 4 enter the material storage tank 4 through the material taking tank 6, the raw materials stored in the material storage tank 4 are effectively prevented from contacting air, and the sealing performance of the material storage tank 4 is improved.

In this embodiment, whole compounding system installs in the warehouse, and one end that storage tank 4 was kept away from to first inlet pipe 3 is outwards stretched out one section from the warehouse, and the end that stretches out of first inlet pipe 3 is used for the feeding, and in this embodiment, the raw materials passes through the tank car and transports outside the warehouse, sets up on the tank car have with the pipeline of first inlet pipe 3 looks adaptation, makes pipeline and 3 joint of first inlet pipe to in the pipeline that makes the tank car interior raw materials pass through the tank car enters into first inlet pipe 3, effectively avoids the raw materials to volatilize in the warehouse, the operational environment in protection warehouse.

In other embodiments, the worker may load the material into the bag with the protruding end of the first feed tube 3 protruding into the bag to draw the material into the first feed tube 3.

Referring to fig. 1 and 2, the storage tank 4 is hollow and is a tank body made of alloy material. The second feeding pipe 14 is installed on the storage tank 4, the second feeding pipe 14 is installed on the side wall of the storage tank 4, and the raw material entering the second feeding pipe 14 enters the storage tank 4 from the side wall of the storage tank 4. The top of the storage tank 4 is coaxially provided with a support frame 26, and the support frame 26 is fixedly connected with the side wall of the warehouse.

The first vacuum pump 7 is installed on the support frame 26, and the first vacuum pump 7 is communicated with the top of the storage tank 4 through a pipeline. The operation of first vacuum pump 7 makes the inside negative pressure that forms of storage tank 4, and the air that enters into in the storage tank 4 is siphoned away from the top of storage tank 4 by first vacuum pump 7, and the raw materials that enter into in the storage tank 4 then falls under the effect of gravity in the storage tank 4, realizes raw materials and air separation to make and form certain vacuum state in the storage tank 4, improved the effect that the raw materials stored.

The fixing groove 41 is formed in the inner bottom wall of the storage tank 4, the guide surface 42 is formed in the side wall of the fixing groove 41 and close to the edge of the bottom wall of the fixing groove 41, the higher end of the guide surface 42 is in contact with the inner bottom wall of the storage tank 4, and the lower end of the guide surface is in contact with the bottom of the side wall opposite to the fixing groove 41. In the present embodiment, the guide surfaces 42 are formed on the sidewalls of the opposite sides of the fixing groove 41 such that the lower ends of the two guide surfaces 42 are connected to each other.

The material taking rod 9 is installed in the material storage tank 4, and the material taking rod 9 is a rectangular block made of alloy materials. The material taking rod 9 is arranged on the side wall of one of the guide surfaces 42, and the bottom of the material taking rod 9 is abutted against the side wall of the other guide surface 42. Get the inside cavity of material stick 9, get the lateral wall of material stick 9 on the array and seted up feed inlet 91, in this embodiment, feed inlet 91 is seted up on the lateral wall of the top of getting material stick 9 and both sides. A through hole is formed in the side wall of the storage tank 4 and below the second feeding pipe 14, and the material taking pipe 10 is coaxially installed on the side wall of the through hole and communicated with the inside of the storage tank 4. The side wall of the higher end of the material taking rod 9 is provided with a first corrugated pipe 19, and the first corrugated pipe 19 can stretch along the length direction of the first corrugated pipe 19. One end of the first corrugated pipe 19 is hollow inside the material taking rod 9, and the other end of the first corrugated pipe is fixedly connected with the material taking pipe 10 and communicated with the material taking pipe 10.

The material taking rod 9 is connected to the guide surface 42 in a sliding mode along the inclined direction of the guide surface 42, and the fixing block 20 is fixedly installed at the top of the material taking rod 9. The moving rod 21 is installed on the outer side wall of the material storage tank 4, one end of the moving rod 21 penetrates through the interior of the material storage tank 4 and is fixedly connected with the fixed block 20, and the moving rod 21 is connected in the material storage tank 4 in a sliding mode along the inclined direction of the guide surface 42. The second electric cylinder 22 for driving the moving rod 21 to slide along the inclined direction of the guide surface 42 is installed on the outer side wall of the storage tank 4, the second electric cylinder 22 is fixedly installed on the outer side wall of the storage tank 4, and a piston rod of the second electric cylinder 22 is fixedly connected with one end, away from the fixed block 20, of the moving rod 21.

Get the bottom fixed mounting of material stick 9 and have stopper 30, stopper 30 adopts T type piece, has seted up spacing groove 44 on the lateral wall of the spigot surface 42 of getting the contact of material stick 9 bottom, and T type groove has been seted up to spacing groove 44. The limiting block 30 is connected in the limiting groove 44 in a sliding mode along the inclined direction of the guide surface 42, and the contact stability of the material taking rod 9 and the guide surface 42 is improved.

A second corrugated pipe 29 is arranged between the fixed block 20 and the inner side wall of the material storage tank 4, the second corrugated pipe 29 is telescopic along the length direction of the second corrugated pipe 29, and the movable rod 21 is coaxially sleeved in the second corrugated pipe 29. Effectively avoid entering into the raw materials and the contact of carriage release lever 21 in the storage tank 4, improve the integrality of raw materials and convenient clearance.

Referring to fig. 1 and 2, a waste opening 43 is formed in the guide surface 42 abutted to the lower end of the material taking rod 9, and when the lower end of the material taking rod 9 is abutted to the side wall of the guide surface 42, the material taking rod 9 closes the top opening of the waste opening 43. Install waste pipe 23 on the lateral wall of storage tank 4, waste tank 32 is installed to the one end and the waste material mouth 43 intercommunication, the other end of waste pipe 23, waste tank 32's inside cavity and open-top, and waste tank 32's open-top articulates there is the tank door that is used for sealing waste tank 32 open-top. The canister 32 is fitted with a third vacuum pump 24, and the third vacuum pump 24 is operated to create a negative pressure within the canister 32. When clearing up remaining raw materials in storage tank 4, start second electric jar 22, make second electric jar 22 drive and get the lateral wall of expecting excellent 9 and fixed slot 41 and remove the contact, make waste material mouth 43 open, then open third vacuum pump 24 to carry remaining raw materials in storage tank 4 into in the garbage bin 32, the convenient and clean of remaining raw materials in the clearance storage tank 4 makes things convenient for the staff to change the raw materials of storing in the garbage bin 32.

And a mounting fixture block 25 is fixedly arranged on one side of the material taking rod 9 far away from the material taking pipe 10, and the fixture block 25 is clamped with the waste material port 43. Fixture block 25 and waste material mouth 43 joint effectively avoid having the raw materials to enter into between the waste material mouth 43 from getting the gap between the lateral wall of material stick 9 and fixed slot 41, and still effectively avoid 8 operation in-process of second vacuum pump, get and take place relative displacement between material stick 9 and the spigot surface 42, improved and got the stability that material stick 9 inhales the material.

The side wall of the lower end of the material taking rod 9 is provided with a communicating hole 92 communicated with the interior of the material taking rod 9, and when the side wall of the lower end of the material taking rod 9 is abutted against the guide surface 42, the side wall of the guide surface 42 seals the opening of the communicating hole 92. When clearing up storage tank 4, the raw materials that remain in getting material stick 9 are discharged outside getting material stick 9 through intercommunicating pore 92, and it is convenient to get material stick 9 to clear up.

When clearing up remaining raw materials in storage tank 4, start second electric jar 22, make second electric jar 22 drive get the lateral wall separation of expecting stick 9 and fixed slot 41, make waste material mouth 43 open, then open third vacuum pump 24, make the interior negative pressure that forms of waste material jar 32 to carry remaining raw materials in the storage tank 4 into waste material jar 32, the convenience of remaining raw materials and clean in the clearance storage tank 4.

Referring to fig. 1, fig. 2, fig. 3, the storage system still includes controller 1 and user terminal 2, first vacuum pump 7, second vacuum pump 8, second electric jar 22 and third vacuum pump 24 all with controller 1 electric connection, controller 1 and user terminal 2 communication connection, user terminal 2 adopts the computer, the staff can open and stop through the manual control first vacuum pump 7 of controller 1, second vacuum pump 8, second electric jar 22 and third vacuum pump 24 at user terminal 2, and control is convenient.

Referring to fig. 4, the first feeding pipe 3 is a circular pipe made of an alloy material, the first feeding pipe 3 is provided with a first electromagnetic valve 5 for opening and closing the first feeding pipe 3, and the first electromagnetic valve 5 is electrically connected with the controller 1.

Referring to fig. 3, 4 and 5, the protruding end of the first feeding pipe 3 away from the first feeding pipe 3 is provided with a sampling tank 11, and the sampling tank 11 is communicated with the storage tank 4. The inside cavity and the bottom of selective examination jar 11 have seted up discharge gate 111, and selective examination jar 11 adopts the rectangle jar that alloy material made. The first feeding pipe 3 comprises two pipelines, one pipeline is used for conveying raw materials into the sampling tank 11, and the other pipeline is used for conveying the raw materials entering the sampling tank 11 to the direction close to the storage tank 4. In this embodiment, the first solenoid valve 5 is installed in the first feed pipe 3 for feeding the raw material into the sampling tank 11. The top of the sampling inspection tank 11 is provided with an inspection hole for conveying the raw materials to the first feeding pipe 3 in the sampling inspection tank 11 to be communicated with the inside of the sampling inspection tank 11 through the inspection hole. The sampling inspection hole is formed in the side wall of the sampling inspection tank 11, and the first feeding pipe 3 used for conveying the raw materials entering the sampling inspection tank 11 to the direction close to the discharging pipe is communicated with the inside of the sampling inspection tank 11 through the sampling inspection hole.

The bottom of the sampling tank 11 is provided with a sliding plate 12, the sliding plate 12 is a rectangular plate made of alloy material, and the length of the sliding plate 12 along the horizontal direction is the same as that of the sampling tank 11 along the horizontal direction. The sliding plate 12 can only be connected to the bottom of the sampling tank 11 in a sliding manner along the horizontal direction, and the sliding plate 12 is provided with a connecting hole 121. When the two ends of the sliding plate 12 in the horizontal direction and the two ends of the sampling tube in the horizontal direction are respectively located at the same horizontal plane, the connecting hole 121 and the discharge hole 111 are completely dislocated, and the connecting hole 121 and the discharge hole 111 are not communicated with each other.

Referring to fig. 1, 4 and 5, a first electric cylinder 13 for driving a sliding plate 12 to slide in a horizontal direction is mounted on the sampling tank 11, the first electric cylinder 13 is fixedly mounted on an outer side wall of the sampling tank 11, and a piston rod of the first electric cylinder 13 is fixedly connected with the side wall of the sliding plate 12. When the first electric cylinder 13 drives the sliding plate 12 to slide along the horizontal direction, and the sliding plate 12 extends out of the bottom of the sampling tank 11, the connecting hole 121 can be coaxially aligned with the discharge hole 111, so that the connecting hole 121 is communicated with the discharge hole 111. The discharge hopper is coaxially arranged at the bottom of the discharge port 111, when a worker performs sampling inspection on raw materials entering the first feeding pipe 3, the first electric cylinder 13 is started, the first electric cylinder 13 drives the sliding plate 12 to extend out from the bottom of the sampling inspection tank 11, and the connecting hole 121 is communicated with the discharge port 111, the worker uses the storage tray to be placed under the discharge hopper, so that the raw materials entering the sampling inspection tank 11 sequentially fall into the storage tray from the discharge port 111, the connecting hole 121 and the discharge plug under the action of gravity, the worker performs quality inspection on the raw materials in the storage tray, then the first electric cylinder 13 is started to enable the sliding plate 12 to be positioned in the sampling inspection tank 11, the connecting hole 121 is not communicated with the discharge port 111, so that the raw materials in the sampling inspection tank 11 continuously move towards the direction close to the storage tank 4, and the purpose of sampling inspection on partial raw materials entering the sampling inspection tank 11 is rapidly performed on the premise that the raw materials are stored in the storage tank 4 is not influenced, the raw materials are convenient, rapid and efficient to sample.

In addition, after the batch of raw materials is stored, the first electric cylinder 13 is started again to enable the connecting hole 121 to be communicated with the discharge hole 111, so that part of the raw materials remained between the sliding plate 12 and the connecting hole 121 fall into the storage plate through the discharge hopper to be detected again, the batch of raw materials are effectively prevented from remaining in the sampling inspection tank 11, the cleanliness of the sampling inspection tank 11 is improved, the sampling inspection result is increased once, and the accuracy of sampling inspection is improved.

When the sliding plate 12 does not extend out of the sampling tank 11, it means that the hole of the connecting hole 121 is not aligned with the discharge hole 111, and the raw material entering the sampling tank 11 cannot fall out of the discharge hole 111; when the sliding plate 12 is protruded from the bottom of the sampling tank 11, it is illustrated that the connection hole 121 is aligned with the discharge hole 111, and the raw material introduced into the sampling tank 11 can be dropped out of the discharge hole 111. The staff learns whether connecting hole 121 communicates with discharge gate 111 fast according to the position relation of sliding plate 12 with the selective examination jar 11 bottom, and connecting hole 121 keeps the connected state with discharge gate 111 when effectively avoiding not using selective examination jar 11, makes impurity enter into selective examination jar 11 in to influence the pure and clean degree of raw materials, and, the raw materials that enter into selective examination jar 11 falls from discharge gate 111, improves the stability of using selective examination jar 11.

Referring to fig. 3, the first electric cylinder 13 is electrically connected to the controller 1.

Referring to fig. 1, get the jar body that material jar 6 adopted the alloy material to make, get the bottom of material jar 6 and seted up and get the material mouth, get the bottom of material jar 6 and install the jar door and can seal getting the material mouth.

Referring to fig. 1 and 6, the plurality of storage tanks 4 can be installed according to the use requirement, and in the present embodiment, four storage tanks 4 are installed at intervals along the horizontal direction.

Referring to fig. 1, 3 and 6, a first hopper 15 is installed on the first feed pipe 3 for feeding the raw material introduced into the sampling tank 11 in a direction close to the discharge pipe in the sampling tank 11, the first hopper 15 is hollow, and the raw material of the first feed pipe 3 is introduced into the first hopper 15. Two second distributing hoppers 17 are mounted at the top of the first distributing hopper 15, a distributing pipe 16 is mounted between the first distributing hopper 15 and the second distributing hopper 17, the second feeding pipes 14 in the storage tanks 4 are communicated with the tops of the second distributing hoppers 17, wherein the top of one second distributing hopper 17 is communicated with two storage tanks 4, and the top of the other distributing hopper is communicated with the other two storage tanks 4. Each of the second feeding pipe 14 and the material distributing pipe 16 is provided with a second electromagnetic valve 18 for opening and closing the pipe, and the second electromagnetic valve 18 is electrically connected with the controller 1.

When the staff need pour different raw materials into different storage tanks 4, open first vacuum pump 7 on this storage tank 4 earlier, then open second solenoid valve 18 on the second inlet pipe 14 of this storage tank 4, then open the second solenoid valve 18 with the branch material pipe 16 of this second inlet pipe 14 intercommunication, pour a raw materials into first inlet pipe 3 next, realized that different raw materials use the purpose that a first inlet pipe 3 entered into different storage tanks 4, save area, improved storage efficiency.

In other embodiments, the number of the first branch hoppers 15, the second branch hoppers 17 and the branch pipes 16 can be changed according to the use requirement.

Referring to fig. 2 and 3, a plurality of level gauges 31 are installed inside the storage tank 4 at intervals along the height direction of the storage tank 4, in this embodiment, three level gauges 31 are installed at intervals along the height direction of the storage tank 4, and all three level gauges 31 are electrically connected with the controller 1. After charge level indicator 31 contacts with the raw materials, the signal of telecommunication takes place to controller 1 for charge level indicator 31, controller 1 receives and discerns behind this charge level indicator 31's the signal of telecommunication, send the signal of telecommunication to user terminal 2, user terminal 2 knows storage tank 4's the storage condition in real time through charge level indicator 31's the signal of telecommunication, when the staff only received the signal of telecommunication that is located charge level indicator 31 of below at user terminal 2, the staff need carry out the feed supplement in to storage tank 4, when the staff receives the charge level indicator 31 of the top, the staff should stop to continue to store the raw materials in this storage tank 4, make things convenient for the staff to know in real time the raw materials storage condition of storage tank 4.

When the same raw material is stored, after the controller 1 receives an electric signal of the level indicator 31 positioned at the top of one storage tank 4, the controller 1 closes the second electromagnetic valve 18 leading to the storage tank 4; then the controller 1 opens the second electromagnetic valve 18 of the storage tank 4 which does not receive the uppermost level indicator 31, so that the residual raw materials enter the storage tank 4 from the first material distribution hopper 15 or the second material distribution hopper 17, the purpose that the same raw material enters different storage tanks 4 by using one first feeding pipe 3 is realized, the occupied area is saved, and the storage efficiency is improved.

Referring to fig. 3 and 7, the storage tank 4 is connected to the support frame 26 in a sliding manner along the vertical direction, the outer side wall of the storage tank 4 is welded with the support blocks 27, and four support blocks 27 are installed at intervals along the circumferential direction of the outer side wall of the storage tank 4. A pressure sensor 28 is installed between the supporting frame 26 and the supporting block 27, the pressure sensor 28 is a resistance strain gauge pressure sensor 28, and the pressure sensor 28 is electrically connected with the controller 1. Pressure sensor 28 transmits the pressure value of supporting shoe 27 to pressure sensor 28 for user terminal 2 through the pressure value, makes things convenient for the accurate storage condition who knows storage tank 4 of staff.

When the staff gets the material, the pressure value of this storage tank 4 is input on user terminal 2, after controller 1 receives the pressure value of user terminal 2, start second vacuum pump 8, the raw materials in storage tank 4 enters into getting in the material jar 6, when controller 1 receives the pressure value of pressure sensor 28 and the pressure value of user terminal 2 input unanimously, stop starting second vacuum pump 8, it is convenient to get the material.

The implementation principle of the material storage system for glue mixing in the embodiment of the application is as follows: during material storage, a worker opens the first electromagnetic valve 5, the corresponding first vacuum pump 7 on the material storage tank 4 and the second electromagnetic valve 18 communicated with the material storage tank 4 through the user terminal 2, and raw materials sequentially enter the first feeding pipe 3, the sampling tank 11, the first distributing hopper 15 and the second distributing hopper 17 and finally enter the material storage tank 4 through the second distributing pipe 16; when material is taken, the second vacuum pump 8 is started, the raw materials in the material storage tank 4 enter the material taking tank 6 from the material taking rod 9, the first corrugated pipe 19 and the material taking tank 6, then the workers take the raw materials in the sampling tank, and the material storage and taking are convenient.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a glue mixing is with storage system which characterized in that: the device comprises a controller (1), a user terminal (2), a first feeding pipe (3), a storage tank (4), a first electromagnetic valve (5), a material taking tank (6), a first vacuum pump (7) and a second vacuum pump (8), wherein the storage tank (4) is hollow, one end of the first feeding pipe (3) is communicated with the storage tank (4), the other end of the first feeding pipe is used for feeding materials, the first electromagnetic valve (5) is arranged on the first feeding pipe (3), the first electromagnetic valve (5) is used for opening and closing the first feeding pipe (3), and the first vacuum pump (7) is communicated with the storage tank (4);

a fixing groove (41) is formed in the inner bottom wall of the storage tank (4), a guide surface (42) is formed in the side wall of the fixing groove (41) and is close to the edge of the bottom wall of the fixing groove (41), a material taking rod (9) is arranged in the storage tank (4), the material taking rod (9) is arranged on the side wall of the guide surface (42), the material taking rod (9) is hollow, feed inlets (91) are formed in the outer side wall of the material taking rod (9) in an array mode, a material taking pipe (10) is arranged between the material taking tank (6) and the material taking rod (9), and the second vacuum pump (8) is communicated with the material taking tank (6);

the controller (1) is in communication connection with the user terminal (2), and the first electromagnetic valve (5), the first vacuum pump (7) and the second vacuum pump (8) are all electrically connected with the controller (1).

2. The material storage system for mixing glue of claim 1, wherein: be provided with selective examination jar (11) between first inlet pipe (3) and storage tank (4), discharge gate (111) have been seted up to the inside cavity and the bottom of selective examination jar (11), the both ends of selective examination jar (11) communicate with first inlet pipe (3) and storage tank (4) respectively, the bottom of selective examination jar (11) is provided with sliding plate (12), sliding plate (12) are along the bottom of horizontal direction sliding connection in selective examination jar (11), connecting hole (121) have been seted up on sliding plate (12), be provided with on selective examination jar (11) and be used for driving about the gliding first electric jar (13) of sliding plate (12), sliding plate (12) can communicate with discharge gate (111) along the gliding in-process connecting hole (121) of horizontal direction, first electric jar (13) and controller (1) electric connection.

3. The material storage system for mixing glue of claim 1, wherein: storage tank (4) are provided with four, every along the horizontal direction interval all be provided with second inlet pipe (14) on storage tank (4), the one end that first solenoid valve (5) were kept away from in first inlet pipe (3) is provided with first branch hopper (15), the top of first branch hopper (15) is provided with two branch material pipes (16), two be provided with second branch hopper (17) on branch material pipe (16), two branch material mouths have been seted up at the top of second branch hopper (17), second inlet pipe (14) divide hopper (17) intercommunication through branch material mouth and second, all be provided with second solenoid valve (18) on second inlet pipe (14) and branch material pipe (16), second solenoid valve (18) and controller (1) electric connection.

4. The material storage system for mixing glue of claim 1, wherein: the material taking rod (9) is connected to the guide surface (42) in a sliding mode along the inclined direction of the guide surface (42), a first corrugated pipe (19) is arranged between the material taking rod (9) and the material taking pipe (10), the first corrugated pipe (19) is telescopic along the length direction of the first corrugated pipe (19), a fixed block (20) is fixedly arranged at the top of the material taking rod (9), a moving rod (21) is arranged on the outer side wall of the material storage tank (4), one end of the moving rod (21) penetrates through the inside of the material storage tank (4) and is fixedly connected with the fixed block (20), a second electric cylinder (22) used for driving the moving rod (21) to move is arranged on the material storage tank (4), a waste material port (43) is formed in the side wall of the fixed groove (41), the top opening of the waste material taking rod (9) can be sealed, a waste material pipe (23) is arranged on the outer side wall of the material storage tank (4), the one end and the feed opening (43) intercommunication of waste pipe (23), the other end are provided with waste material jar (32), be provided with third vacuum pump (24) on waste material jar (32), second electric jar (22), third vacuum pump (24) and controller (1) electric connection.

5. The material storage system for mixing glue of claim 4, wherein: a clamping block (25) is fixedly arranged on one side, away from the material taking pipe (10), of the material taking rod (9), and the clamping block (25) is clamped with the waste material opening (43).

6. The material storage system for mixing glue of claim 1, wherein: be provided with support frame (26) on storage tank (4), vertical direction sliding connection is followed on support frame (26) in storage tank (4), fixed supporting shoe (27) that are provided with on the lateral wall of storage tank (4), be provided with pressure sensor (28) between support frame (26) and supporting shoe (27), pressure sensor (28) and controller (1) electric connection.

7. The material storage system for mixing glue of claim 4, wherein: be provided with second bellows (29) between the inside wall of fixed block (20) and storage tank (4), second bellows (29) are scalable along the length direction of second bellows (29), shift lever (21) coaxial sleeve is established in second bellows (29).

8. The material storage system for mixing glue of claim 4, wherein: the side, far away from the material taking pipe (10), of the material taking rod (9) is provided with a communicating hole (92) communicated with the inside of the material taking rod (9), and the side wall of the fixing groove (41) can seal the opening of the communicating hole (92).

9. The glue mixing storage system according to claim 4, wherein: the material taking rod is characterized in that a limiting block (30) is fixedly arranged at the bottom of the material taking rod (9), a limiting groove (44) is formed in the side wall of the guide surface (42), and the limiting block (30) is connected in the limiting groove (44) in a sliding mode along the inclined direction of the guide surface (42).

10. The glue mixing storage system according to claim 4 or 6, characterized in that: the inside of storage tank (4) is provided with a plurality of charge level indicators (31), every along the direction of height interval of storage tank (4) charge level indicator (31) all with controller (1) electric connection.

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