CN211436221U - Liquid medicament preparation and conveying system for adsorbent - Google Patents

Abstract

The utility model discloses a liquid medicament preparation and conveying system for an adsorbent, which comprises a supporting frame, a floating plate and a supporting frame; the utility model discloses a quantitative case, including braced frame, braced frame's inside rear side fixedly connected with middle level backup pad, braced frame's upside fixedly connected with major ingredient storage box and auxiliary material storage box, the inlet pipe has all been alternate to the downside of major ingredient storage box and auxiliary material storage box, the upside that the lower extreme of inlet pipe passed braced frame alternates in the side of quantitative case, the bottom side of quantitative case alternates there is the discharging pipe, and one side fixedly connected with that two discharging pipes kept away from each other touches the electric piece down, braced frame's upside activity interlude has two to get an electric shock the piece on two from top to bottom, it is located and gets an electric shock the piece under. This conveying system is prepared with liquid medicament to adsorbent can set up required dose in advance, directly falls into the raw materials stirring in the agitator tank after reaching certain dose, makes to prepare and carry to become a step for the preparation efficiency of adsorbent.

Description

Liquid medicament preparation and conveying system for adsorbent

Technical Field

The utility model relates to an adsorbent manufacture equipment technical field specifically is a conveying system is prepared with liquid medicament to adsorbent.

Background

The adsorbent is also called absorbent, which can make active ingredients attach to the particle surface, change liquid trace compound additive into solid compound, is beneficial to uniform mixing, is a solid substance capable of effectively adsorbing some ingredients from gas or liquid, and has large specific surface, proper pore structure and surface structure; the preparation method has the advantages that the strong adsorption capacity is realized on adsorbates, in the production process of the adsorbent, raw materials for preparing the adsorbent need to be poured into a stirrer, the raw materials are stirred and finally prepared into the adsorbent, the raw materials with different dosages need to be mutually fused in the preparation of liquid adsorbent medicaments, the raw materials need to be weighed before being fused, a certain proportion of the raw materials is guaranteed, the existing medicament is very complicated to prepare, the raw materials need to be weighed firstly, the weighed raw materials are poured into a stirring box, and the complicated steps slow down the preparation efficiency of the adsorbent.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a conveying system is prepared with liquid medicament to adsorbent, can set up the dose that needs at first in advance, can directly fall into the raw materials into the agitator tank after reaching certain dose and stir, make and prepare and carry and become a step for the preparation efficiency of adsorbent can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a liquid medicament preparation and delivery system for an adsorbent comprises a support frame, a floating plate and a support frame;

a support frame: the rear side inside the supporting frame is fixedly connected with a middle layer supporting plate, the upper side of the supporting frame is fixedly connected with a main material storage box and an auxiliary material storage box, the lower sides of the main material storage box and the auxiliary material storage box are respectively inserted with a feeding pipe, the lower end of the feeding pipe penetrates through the upper side of the supporting frame and is inserted in the side surface of the quantitative box, discharging pipes are inserted in the bottom side of the quantitative box, one sides of the two discharging pipes, which are far away from each other, are fixedly connected with a lower electric shock block, the upper side of the supporting frame is vertically movably inserted with two upper electric shock blocks, the lower electric shock blocks are positioned right below the upper electric shock blocks, and by vertically moving the upper electric shock blocks, liquid with different volumes can be filled in the left quantitative box and the right quantitative box, so;

a support frame: the quantitative storage box comprises two support frames, wherein the two support frames are symmetrically arranged, electromagnets are fixedly connected to one sides, away from each other, of the interiors of the two support frames, a magnetic guide insertion rod is movably inserted between the two support frames in a left-right mode, the magnetic guide insertion rod is located between the two electromagnets, two feeding cut-off plates are fixedly connected to the side faces of the magnetic guide insertion rod, the right end of each feeding cut-off plate is movably inserted at the lower end of a feeding pipe in a left-right mode, two discharging cut-off plates are fixedly connected to the side faces of the magnetic guide insertion rod in a left-right mode, the left end of each discharging cut-off plate is movably inserted at the upper end of a discharging pipe in a left-right mode, and the magnetic;

a floating plate: the floating plate is movably inserted in the quantitative box up and down, the floating plate is positioned above the lower end of the feeding pipe, the upper side of the floating plate is fixedly connected with the lower end of the insertion rod, the upper end of the insertion rod is fixedly connected with the movable contact block, the movable contact block is positioned between the upper contact block and the lower contact block, the floating plate is moved up and down through the buoyancy of liquid, and then the movable contact block, the upper contact block and the lower contact block are alternately contacted and electrified, so that the dosage of the solution is controlled;

wherein: still including the control switch group, control switch group fixed connection is in braced frame's front side, external power source's output is connected to the input electricity of control switch group, two input that move the electric piece of touching are connected to the output electricity of control switch group, and the input that touches the electric piece on the right is connected to the output electricity of the last electric piece that touches on the left, and the input of the electro-magnet on the right is connected to the output electricity of the last electric piece that touches on the right, and the input that touches the electric piece under the right is connected to the output electricity of the electric piece that touches down on the left, and the input of the electro-magnet on the left is connected.

Furthermore, the lower extreme fixed connection of the discharging pipe on the left side is at the lower extreme of the discharging pipe on the right side, and two discharging pipe interconnect can make solution fuse, improve the efficiency that solution fuses.

Furthermore, the device also comprises a concentration pipe, the upper end of the concentration pipe is inserted at the lower ends of the two discharge pipes, the lower end of the concentration pipe penetrates through the middle layer supporting plate, and the solution flows down in the concentration pipe to be blended in advance.

Further, still including stirring unit, stirring unit is including main gear, stirring post, motor, drive gear, agitator disk and agitator tank that changes, the lower extreme of concentrating the pipe alternates in the upside of agitator tank, the downside center of agitator tank rotates and is connected with the stirring post, the upper end fixed connection of stirring post is at the downside center of agitator disk, the lower extreme of stirring post alternates in the center of main gear that changes, motor fixed connection is in braced frame's inside bottom side, the output fixedly connected with drive gear of motor, drive gear and main gear that changes mesh between the teeth of a cogwheel, make solution further stir through stirring unit, and then make into the finished product.

Furthermore, the device also comprises a discharge pipe, wherein the right end of the discharge pipe penetrates through the side surface of the stirring box, and the finished product solution can be sucked out through the discharge pipe.

Compared with the prior art, the beneficial effects of the utility model are that: the liquid medicament preparation and delivery system for the adsorbent has the following advantages:

1. the liquid with different volumes can be filled in the left quantitative box and the right quantitative box by moving the upper electric shock block up and down, so that the proportion of liquid raw materials is achieved, the two electromagnets alternately attract the magnetic lead-through insertion rods, so that the solution in the quantitative boxes can be quantitatively stored and taken, the floating plate is moved up and down by the buoyancy of the liquid, and the movable electric shock block is further alternately contacted with the upper electric shock block and the lower electric shock block to be electrified, so that the dosage of the solution is controlled.

2. Two discharging pipe interconnect can make solution blend, improves solution blending's efficiency, flows down through solution in the concentrate pipe, makes solution can blend in advance, makes solution further stir through stirring unit, and then prepares into the finished product, and accessible discharging pipe is with finished product solution suction.

3. This conveying system is prepared with liquid medicament to adsorbent can set up required dose in advance at first, can directly fall into the raw materials into the agitator tank after reaching certain dose and stir, makes to prepare and carry to become a step for the preparation efficiency of adsorbent.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the back structure of the present invention.

In the figure: 1 main material storage box, 2 upper contact electric block, 3 supporting frame, 4 moving contact electric block, 5 inserted bar, 6 quantitative box, 7 floating plate, 8 control switch group, 9 middle supporting plate, 10 discharging pipe, 11 stirring unit, 111 main rotating gear, 112 stirring column, 113 motor, 114 transmission gear, 115 stirring disc, 116 stirring box, 12 concentration pipe, 13 discharging pipe, 14 supporting frame, 15 magnetic lead-through inserted bar, 16 feeding cut-off plate, 17 electromagnet, 18 feeding pipe, 19 auxiliary material storage box, 20 discharging cut-off plate, 21 lower contact electric block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a liquid medicament preparation and delivery system for an adsorbent comprises a support frame 3, a floating plate 7 and a support frame 14;

the supporting frame 3: the rear side inside the supporting frame 3 is fixedly connected with a middle layer supporting plate 9, the upper side of the supporting frame 3 is fixedly connected with a main material storage box 1 and an auxiliary material storage box 19, the lower sides of the main material storage box 1 and the auxiliary material storage box 19 are inserted with a feeding pipe 18, the lower end of the feeding pipe 18 penetrates through the upper side of the supporting frame 3 and is inserted in the side surface of the quantitative box 6, a discharging pipe 13 is inserted in the bottom side of the quantitative box 6, one side, away from each other, of the two discharging pipes 13 is fixedly connected with a lower electric shock block 21, the upper side of the supporting frame 3 is vertically movably inserted with two upper electric shock blocks 2, the lower electric shock block 21 is positioned under the upper electric shock block 2, by vertically moving the upper electric shock block 2, liquid with different volumes can be filled in the left quantitative box 6 and the right quantitative box 6, the proportion of liquid raw materials is further reached, the lower end of the discharging pipe 13 on the left side, the efficiency of solution blending is improved, the device also comprises a concentration pipe 12, the upper end of the concentration pipe 12 is inserted into the lower ends of two discharge pipes 13, the lower end of the concentration pipe 12 passes through a middle layer support plate 9, the solution flows down in the concentration pipe 12 to enable the solution to be blended in advance, the device also comprises a stirring unit 11, the stirring unit 11 comprises a main rotating gear 111, a stirring column 112, a motor 113, a transmission gear 114, a stirring disc 115 and a stirring box 116, the lower end of the concentration pipe 12 is inserted into the upper side of the stirring box 116, the lower side center of the stirring box 116 is rotatably connected with the stirring column 112, the upper end of the stirring column 112 is fixedly connected with the lower side center of the stirring disc 115, the lower end of the stirring column 112 is inserted into the center of the main rotating gear 111, the motor 113 is fixedly connected with the inner bottom side of the support frame 3, the output end of the motor 113 is fixedly connected with, the solution is further stirred by the stirring unit 11 to be prepared into a finished product, the stirring device also comprises a discharge pipe 10, and the right end of the discharge pipe 10 penetrates through the side surface of the stirring box 116, so that the finished product solution can be sucked out through the discharge pipe 10;

the support frame 14: the two support frames 14 are symmetrically arranged, one side, away from each other, of each of the two support frames 14 is fixedly connected with an electromagnet 17, a magnetic guiding insertion rod 15 is movably inserted between the two support frames 14 in a left-right mode, the magnetic guiding insertion rod 15 is located between the two electromagnets 17, two feeding cut-off plates 16 are fixedly connected to the side faces of the magnetic guiding insertion rod 15, the right end of each feeding cut-off plate 16 is movably inserted into the lower end of a feeding pipe 18 in a left-right mode, two discharging cut-off plates 20 are fixedly connected to the side faces of the magnetic guiding insertion rod 15, the left end of each discharging cut-off plate 20 is movably inserted into the upper end of a discharging pipe 13 in a left-right mode, and the two electromagnets 17 alternately attract the magnetic guiding insertion;

a floating plate 7: the floating plate 7 is movably inserted in the quantitative box 6 up and down, the floating plate 7 is positioned above the lower end of the feeding pipe 18, the upper side of the floating plate 7 is fixedly connected with the lower end of the inserting rod 5, the upper end of the inserting rod 5 is fixedly connected with the movable electric shock block 4, the movable electric shock block 4 is positioned between the upper electric shock block 2 and the lower electric shock block 21, the floating plate 7 is moved up and down by the buoyancy of liquid, and then the movable electric shock block 4 is alternately contacted and electrified with the upper electric shock block 2 and the lower electric shock block 21, so that the dosage of the solution is controlled;

wherein: still including control switch group 8, 8 fixed connection of control switch group are in the front side of braced frame 3, external power source's output is connected to control switch group 8's input electricity, two inputs that move electric contact block 4 are connected to control switch group 8's output electricity, the last input of electric contact block 2 on the right is connected to the last output electricity of electric contact block 2 on the left, the input of electro-magnet 17 on the right is connected to the last output electricity of electric contact block 2 on the right, the input of electric contact block 21 under the right is connected to the output electricity of electric contact block 21 under the left, the input of electro-magnet 17 on the left is connected to the output electricity of electric contact block 21 under the.

When in use: according to the needs of liquid with different capacities, two upper electric shock blocks 2 can be pulled up and down, raw materials are injected into a main material storage box 1 and an auxiliary material storage box 19, the raw materials enter a quantitative box 6 from a feeding pipe 18, a solution drives a floating plate 7 to move upwards, the floating plate 7 drives an insertion rod 5 to move upwards, the insertion rod 5 drives a movable electric shock block 4 to move upwards, after the right movable electric shock block 4 is contacted and electrified with the upper electric shock block 2, the left movable electric shock block 4 continues to move upwards to be contacted and electrified with the upper electric shock block 2, the right electromagnet 17 is electrified to generate magnetic force, the electromagnet 17 attracts a magnetic guide penetrating rod 15 to move right, the magnetic guide penetrating rod 15 drives a feeding section plate 16 and a discharging section plate 20 to move right, the feeding section plate 16 is inserted into the feeding pipe 18, the liquid does not fall off, the discharging section plate 20 is separated from a discharging pipe 13, the liquid flows out from the discharging pipe 13, when the liquid in the two quantitative boxes 6 flows out completely, the movable electric shock blocks 4 move, the movable contact electric block 4 is contacted and electrified with the lower contact electric block 21, the electromagnet 17 on the left side is electrified to generate magnetic force, the magnetic guide penetrating rod 15 moves leftwards, the feeding cutting plate 16 moves out of the feeding pipe 18, the discharging cutting plate 20 is pushed into the discharging pipe 13, and next liquid taking is started; the liquid flows into the concentration pipe 12 after flowing out of the discharge pipe 13, the two liquids are mixed and fall, and flow into the stirring box 116, the control switch group 8 is turned on, the motor 113 starts to work, the motor 113 drives the transmission gear 114 to rotate, the transmission gear 114 drives the main rotating gear 111 to rotate through inter-tooth meshing, the main rotating gear 111 drives the stirring column 112 to rotate, the stirring column 112 drives the stirring disc 115 to rotate, and the stirring disc 115 mixes the solutions and then sucks the solutions out of the discharge pipe 10.

It should be noted that the control switch group 8 disclosed in this embodiment is provided with control buttons corresponding to the two movable contact blocks 4 and the motor 113, the motor 113 may be a 2212F type slow speed motor manufactured by changchuan motors ltd, haiyang, and the electromagnet 17 may be a DYSD type suction cup electromagnet manufactured by engli mechanical devices ltd, beijing. The control switch group 8 controls the movable contact block 4 and the motor 113 to work by the method commonly used in the prior art, the upper contact block 2 controls the right electromagnet 17 to work by the method commonly used in the prior art, and the lower contact block 21 controls the left electromagnet 17 to work by the method commonly used in the prior art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A liquid medicament preparation and delivery system for an adsorbent is characterized in that: comprises a supporting frame (3), a floating plate (7) and a supporting frame (14);

support frame (3): the rear side of the inside of the supporting frame (3) is fixedly connected with a middle-layer supporting plate (9), the upper side of the supporting frame (3) is fixedly connected with a main material storage box (1) and an auxiliary material storage box (19), the lower sides of the main material storage box (1) and the auxiliary material storage box (19) are respectively inserted with a feeding pipe (18), the lower end of each feeding pipe (18) penetrates through the upper side of the supporting frame (3) and is inserted in the side surface of the quantifying box (6), a discharging pipe (13) is inserted in the bottom side of the quantifying box (6), one side, far away from each other, of each discharging pipe (13) is fixedly connected with a lower electric shock block (21), two upper electric shock blocks (2) are movably inserted in the upper side of the supporting frame (3) up and down, and the lower electric shock block (21) is positioned under the upper electric shock blocks (;

support frame (14): the two support frames (14) are symmetrically arranged, electromagnets (17) are fixedly connected to one side, far away from each other, of the inner portions of the two support frames (14), magnetic leading insertion rods (15) are movably inserted between the two support frames (14) in a left-right mode, the magnetic leading insertion rods (15) are located between the two electromagnets (17), two feeding cut-off plates (16) are fixedly connected to the side faces of the magnetic leading insertion rods (15), the right end of each feeding cut-off plate (16) is movably inserted into the lower end of a feeding pipe (18) in a left-right mode, two discharging cut-off plates (20) are fixedly connected to the side faces of the magnetic leading insertion rods (15), and the left end of each discharging cut-off plate (20) is movably inserted into the upper end of a discharging pipe (13) in a left;

floating plate (7): the floating plate (7) is vertically movably inserted in the quantitative box (6), the floating plate (7) is positioned above the lower end of the feeding pipe (18), the upper side of the floating plate (7) is fixedly connected to the lower end of the inserting rod (5), the upper end of the inserting rod (5) is fixedly connected with the movable contact electric block (4), and the movable contact electric block (4) is positioned between the upper contact electric block (2) and the lower contact electric block (21);

wherein: the electric shock protection device is characterized by further comprising a control switch group (8), the control switch group (8) is fixedly connected to the front side of the supporting frame (3), the input end of the control switch group (8) is electrically connected with the output end of an external power supply, the output end of the control switch group (8) is electrically connected with the input ends of the two movable contact electric blocks (4), the output end of the upper contact electric block (2) on the left side is electrically connected with the input end of the upper contact electric block (2) on the right side, the output end of the upper contact electric block (2) on the right side is electrically connected with the input end of the electromagnet (17) on the right side, the output end of the lower contact electric block (21) on the left side is electrically connected with the input end of the lower contact electric block (21) on.

2. The liquid pharmaceutical dispensing delivery system for adsorbents of claim 1, wherein: the lower end of the left discharge pipe (13) is fixedly connected to the lower end of the right discharge pipe (13).

3. The liquid pharmaceutical dispensing delivery system for adsorbents of claim 2, wherein: the device is characterized by further comprising a concentration pipe (12), wherein the upper end of the concentration pipe (12) is inserted into the lower ends of the two discharge pipes (13), and the lower end of the concentration pipe (12) penetrates through the middle layer supporting plate (9).

4. The liquid pharmaceutical dispensing delivery system for adsorbents of claim 3, wherein: the stirring device is characterized by further comprising a stirring unit (11), wherein the stirring unit (11) comprises a main rotating gear (111), a stirring column (112), a motor (113), a transmission gear (114), a stirring disc (115) and a stirring box (116), the lower end of the concentration pipe (12) is inserted into the upper side of the stirring box (116), the lower side center of the stirring box (116) is rotatably connected with the stirring column (112), the upper end of the stirring column (112) is fixedly connected to the lower side center of the stirring disc (115), the lower end of the stirring column (112) is inserted into the center of the main rotating gear (111), the motor (113) is fixedly connected to the bottom side in the supporting frame (3), the output end of the motor (113) is fixedly connected with the transmission gear (114), and the transmission gear (114) is meshed with the main rotating gear (111) in a tooth mode.

5. The liquid pharmaceutical dispensing delivery system for adsorbents according to claim 4, wherein: the stirring device also comprises a discharge pipe (10), wherein the right end of the discharge pipe (10) penetrates through the side surface of the stirring box (116).

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