CN219941834U - Reagent extraction equipment of controllable flow - Google Patents

Abstract

The utility model discloses a flow-controllable reagent extraction device which comprises an extraction cylinder, a conveying pipe, a receiving cylinder and a discharge pipe, wherein the conveying pipe is arranged on the annular side surface of the extraction cylinder, the receiving cylinder is arranged at the other end of the conveying pipe, the discharge pipe is arranged at the front side of the annular side surface of the receiving cylinder, a sealing cover is arranged at the top end of the receiving cylinder, a first arc-shaped baffle is arranged at the top end of the sealing cover in a sliding manner, the bottom end of the first arc-shaped baffle extends into the receiving cylinder and is attached to one end of the conveying pipe, a second arc-shaped baffle is arranged in the receiving cylinder in a sliding manner, and one end of the second arc-shaped baffle is attached to the discharge pipe. According to the utility model, the cylindrical rod can be pushed to move through the rotation of the rotating rod, so that the second arc-shaped baffle plate is pushed to move to seal the discharge pipe, the hollow push rod can be pushed to move through the rotation of the rotating rod, so that the T-shaped clamping block is extruded to move horizontally, and the manual pushing direction plate can be pushed to move downwards, so that the first arc-shaped baffle plate seals the conveying pipe.

Description

Reagent extraction equipment of controllable flow

Technical Field

The utility model relates to the technical field of reagent extraction, in particular to a reagent extraction device with controllable flow.

Background

The extraction means that the compound is transferred from one solvent to the other solvent by utilizing the difference of solubility or partition coefficient of the compound in two mutually-insoluble solvents, and when the reagent is extracted and collected, the outflow of the reagent is generally controlled by utilizing a control valve, but the valve is controlled inconveniently to quantitatively control the reagent, so that the reagent prepared by each collection can not just meet the use requirement, the excessive preparation is easy to cause the waste of resources, and in order to realize the accurate control of the flow of the reagent, the reagent extraction equipment with flow control is provided.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a reagent extraction device with controllable flow.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a controllable flow's reagent extraction equipment, includes extraction section of thick bamboo, conveyer pipe, accepts section of thick bamboo and row material pipe, install the conveyer pipe on the annular side of extraction section of thick bamboo, and the conveyer pipe other end is installed and is accepted a section of thick bamboo, accept a section of thick bamboo annular side front side and install row material pipe, accept a section of thick bamboo top and install the closing cap, closing cap top slidable mounting has a baffle one, and a baffle bottom extends to accept a section of thick bamboo inside and laminating mutually with conveyer pipe one end, accept a section of thick bamboo slidable mounting has a baffle two, and baffle two one end and row material pipe laminating mutually, the closing cap top rotates and installs the dwang, closing cap top intermediate position fixed mounting has the hollow piece, hollow piece one end slidable mounting has T type fixture block, hollow piece one end is passed and is extended to baffle one inside to the T type fixture block, baffle two tops fixed mounting have the cylinder pole, and cylinder pole top extends to closing cap upside and laminates mutually with the dwang bottom.

Further, the hollow push rod is slidably mounted in the hollow block, the support rod is fixedly mounted in the hollow block, and the hollow push rod is slidably mounted outside the support rod.

Furthermore, the top end of the supporting rod is fixedly provided with a first spring, and the top end of the first spring is fixedly arranged at the top end inside the hollow push rod.

Further, rectangular grooves are formed in the top ends of the T-shaped clamping blocks, triangular blocks are fixedly mounted in the rectangular grooves, two springs II are symmetrically mounted at one ends of the T-shaped clamping blocks, and the other ends of the springs II are fixedly mounted on the hollow blocks.

Further, two fixed blocks are symmetrically and fixedly arranged at the top end of the sealing cover, a rotating pin is rotatably arranged between the two fixed blocks, a rotating rod is arranged on the annular side face of the rotating pin, and a magnetic block is fixedly arranged at the top end of the sealing cover.

Further, a square plate is fixedly arranged at the top end of the arc-shaped baffle plate, two springs III are symmetrically and fixedly arranged at the bottom end of the square plate, and the bottoms of the springs III are fixedly arranged at the top end of the sealing cover.

Furthermore, a spring IV is arranged on the annular side surface of the cylindrical rod, and two ends of the spring IV are respectively and fixedly arranged on the cylindrical rod and the top end of the sealing cover.

Further, square holes are formed in one end of the arc-shaped baffle plate, and one end of the T-shaped clamping block extends to the inside of each square hole.

The beneficial effects of the utility model are as follows:

1. the rotary rod is rotated to push the cylindrical rod to move, and then the second arc-shaped baffle is pushed to move to plug the discharge pipe, the rotary rod is rotated around the rotary pin, the rotary rod is rotated to push the cylindrical rod to move downwards, the second arc-shaped baffle is driven to move downwards to plug the discharge pipe, when the second arc-shaped baffle just covers the discharge pipe, the rotary rod is attached to the hollow push rod in the rotating process, the rotary rod continues to rotate to extrude the hollow push rod, the hollow push rod moves downwards, and the rotary rod continues to rotate to push the second arc-shaped baffle to move into the arc-shaped groove.

2. Through dwang rotation promotion hollow push rod removal, and then extrusion T type fixture block horizontal migration, hollow push rod extrudees the inclined plane of triangle piece along bracing piece downwardly moving for triangle piece horizontal migration, and then drive T type fixture block horizontal migration, T type fixture block horizontal migration breaks away from arc baffle one inside, under the effect of three elastic forces of spring, and the square board upwards moves and drives arc baffle one and remove, and then makes the conveyer pipe open.

3. Through manual promotion square plate downwardly moving, and then make a pair of conveyer pipe of arc baffle shutoff, reverse rotation dwang simultaneously, under the effect of four elastic forces of spring, arc baffle two remove and make row material pipe open, be convenient for quantitative taking according to the scale mark of accepting the section of thick bamboo outside, hollow push rod removes to reset and break away from with the triangle piece, under the effect of two elastic forces of spring, T type fixture block removes to reset and gets into inside the square hole, and then fixes the position of arc baffle one.

Drawings

FIG. 1 is a schematic perspective view of a flow-controllable reagent extraction device according to the present utility model;

FIG. 2 is a schematic diagram of a reagent extraction device with controllable flow rate in a partially sectional structure;

fig. 3 is a schematic diagram of a local enlarged structure of a reagent extraction device with controllable flow rate according to the present utility model.

In the figure: 1. an extraction cylinder; 2. a delivery tube; 3. a receiving cylinder; 4. a discharge pipe; 5. an arc baffle I; 6. arc baffle II; 7. a cylindrical rod; 8. a rotating lever; 9. a hollow block; 10. a T-shaped clamping block; 11. a hollow push rod; 12. a support rod; 13. a first spring; 14. a second spring; 15. a square plate; 16. a cover; 17. a third spring; 18. a spring IV; 19. a fixed block; 20. a rotation pin; 21. a magnetic block; 22. triangular blocks.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present utility model are included in the protection scope of the present utility model.

Referring to fig. 1-3, a reagent extraction device with controllable flow comprises an extraction cylinder 1, a delivery pipe 2, a receiving cylinder 3 and a discharge pipe 4, wherein the delivery pipe 2 is arranged on the annular side surface of the extraction cylinder 1, the receiving cylinder 3 is arranged at the other end of the delivery pipe 2, the reagent extracted by the extraction cylinder 1 is delivered into the receiving cylinder 3 through the delivery pipe 2, the receiving cylinder 3 is made of transparent glass, scale marks are processed on the annular side surface of the receiving cylinder 3, the discharge pipe 4 is arranged at the front side of the annular side surface of the receiving cylinder 3, the discharge pipe 4 is designed to facilitate extraction of the extracted reagent, a sealing cover 16 is arranged at the top end of the receiving cylinder 3, an arc baffle one 5 is slidably arranged at the top end of the sealing cover 16, the bottom end of the arc baffle one 5 extends to the interior of the receiving cylinder 3 to be attached to one end of the delivery pipe 2, the arc baffle one 5 is designed to facilitate sealing the delivery pipe 2, the discharge pipe 4 is prevented from entering the receiving cylinder 3 in the process of removing the reagent, the accuracy of reagent sampling is further affected, the arc baffle II 6 is slidably arranged in the receiving cylinder 3, one end of the arc baffle II 6 is attached to the discharge pipe 4, the arc baffle II 6 is designed to be convenient for plugging the discharge pipe 4, the arc groove is formed in the bottom end of the receiving cylinder 3, the arc groove is vertically aligned with the arc baffle II 6, the bottom end of the arc baffle II 6 is further convenient to extend into the arc groove, the sealing effect of the discharge pipe 4 is improved, the rotating rod 8 is rotatably arranged at the top end of the sealing cover 16, the hollow block 9 is welded at the middle position of the top end of the sealing cover 16, the T-shaped clamping block 10 is slidably arranged at one end of the hollow block 9, one end of the T-shaped clamping block 10 penetrates through the hollow block 9 and extends into the first arc baffle 5, the T-shaped clamping block 10 is convenient to be clamped and fixed at the position of the first arc baffle 5, the cylindrical rod 7 is welded at the top end of the arc baffle II 6, and the top end of the cylindrical rod 7 extends to the upper side of the sealing cover 16 to be attached to the bottom end of the rotating rod 8, and the rotating rod 8 rotates to drive the arc-shaped baffle II 6 to move by pushing the cylindrical rod 7.

In the utility model, it should be noted that the hollow push rod 11 is slidably installed inside the hollow block 9, the support rod 12 is welded inside the hollow block 9, the hollow push rod 11 is slidably installed outside the support rod 12, the design of the support rod 12 facilitates the sliding installation of the hollow push rod 11, the top end of the support rod 12 is welded with the first spring 13, the top end of the first spring 13 is welded at the top end inside the hollow push rod 11, the design of the first spring 13 facilitates the moving and resetting of the hollow push rod 11, the top end of the T-shaped clamping block 10 is processed with a rectangular groove, the rectangular groove is welded with the triangular block 22, the bottom end of the hollow push rod 11 is attached to the inclined surface of the triangular block 22, one end of the T-shaped clamping block 10 is symmetrically welded with the second spring 14, the other end of the second spring 14 is welded on the hollow block 9, and the design of the second spring 14 facilitates the moving and resetting of the T-shaped clamping block 10.

In particular, two fixed blocks 19 are symmetrically welded at the top end of the sealing cover 16, a rotating pin 20 is rotatably installed between the two fixed blocks 19, a rotating rod 8 is welded on the annular side face of the rotating pin 20, the rotating rod 8 is conveniently rotated and installed through a screw, a magnetic block 21 is installed at the top end of the sealing cover 16, the magnetic block 21 is conveniently adsorbed and fixed to the rotating rod 8, a square plate 15 is installed at the top end of the first arc-shaped baffle 5 through the screw, two springs three 17 are symmetrically welded at the bottom end of the square plate 15, the bottom ends of the springs three 17 are welded at the top end of the sealing cover 16, the square plate 15 and the first arc-shaped baffle 5 are conveniently moved and reset, four springs 18 are assembled on the annular side face of the cylindrical rod 7, two ends of each spring four 18 are respectively welded on the cylindrical rod 7 and the top end of the sealing cover 16, the cylindrical rod 7 and the second arc-shaped baffle 6 are conveniently moved and reset through the design of the four springs 18, square holes are machined at one end of the first arc-shaped baffle 5, one end of the T-shaped clamping block 10 extends into the square holes, and one end of the T-shaped clamping block 10 is conveniently clamped inside the first arc-shaped baffle 5.

Working principle: when the flow of the reagent is required to be controlled, the rotating rod 8 is firstly rotated around the rotating pin 20, the rotating rod 8 rotates to push the cylindrical rod 7 to move downwards, the cylindrical rod 7 moves downwards to drive the arc baffle II 6 to move to block the discharging pipe 4, the spring IV 18 is extruded in the process of moving downwards the cylindrical rod 7 to enable the spring IV 18 to generate elastic force, when the arc baffle II 6 just covers the discharging pipe 4, the rotating rod 8 is attached to the hollow push rod 11 in the rotating process, the rotating rod 8 continues to rotate to extrude the hollow push rod 11, the hollow push rod 11 moves downwards, the rotating rod 8 continues to rotate to push the arc baffle II 6 to move into the arc groove, the hollow push rod 11 moves downwards along the supporting rod 12 to extrude the inclined surface of the triangular block 22, the triangular block 22 moves horizontally, and the T-shaped clamping block 10 is further driven to move horizontally, the T-shaped clamping block 10 horizontally moves to stretch the second spring 14 so that the second spring 14 generates elastic force, the T-shaped clamping block 10 horizontally moves to be separated from the inside of the first arc-shaped baffle 5, under the action of the elastic force of the third spring 17, the square plate 15 moves upwards to drive the first arc-shaped baffle 5 to move so as to open the conveying pipe 2, reagent is conveyed into the receiving cylinder 3 conveniently, the hollow push rod 11 moves downwards to extrude the first spring 13, the first spring 13 generates elastic force, the rotating rod 8 rotates to be adsorbed and attached to the magnetic block 21, the adsorption force between the magnetic block 21 and the rotating rod 8 is larger than the sum of the elastic force of the first spring 13 and the elastic force of the fourth spring 18, the position of the rotating rod 8 is fixed, when the reagent is required to be quantitatively taken out from the inside of the receiving cylinder 3, the square plate 15 is pushed downwards firstly, the square plate 15 moves downwards to drive the first arc-shaped baffle 5 to move downwards to block the conveying pipe 2, and then prevent reagent from getting into and accept inside the section of thick bamboo 3, square hole and T type fixture block 10 alignment on the arc baffle one 5 this moment, it extrudes to the spring three 17 to make spring three 17 produce elasticity in square board 15 downwardly moving in-process, then reverse rotation dwang 8, dwang 8 and magnetic path 21 separation, under the effect of spring one 13 and spring four 18, cylinder pole 7, arc baffle two 6 and hollow push rod 11 remove and reset, arc baffle two 6 remove and reset and make row material pipe 4 open, be convenient for quantitative taking according to the scale mark that accepts the section of thick bamboo 3 outside, hollow push rod 11 removes and resets and breaks away from with triangle 22, under the effect of spring two 14 elasticity, T type fixture block 10 removes and resets and get into square hole inside, and then fix the position of arc baffle one 5, when reagent takes out a certain amount, repeat above-mentioned process and block up row material pipe 4 and open conveyer pipe 2, and then realize the controllable flow of reagent function of taking.

Furthermore, the terms "mounted," "configured," "provided," "connected," "coupled," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components.

Claims (8)

1. The utility model provides a controllable flow's reagent extraction equipment, includes extraction section of thick bamboo (1), conveyer pipe (2), accepts section of thick bamboo (3) and arranges material pipe (4), install conveyer pipe (2) on extraction section of thick bamboo (1) the annular side, and the conveyer pipe (2) other end is installed and is accepted section of thick bamboo (3), it installs row material pipe (4) to accept section of thick bamboo (3) annular side front side, a serial communication port, accept section of thick bamboo (3) top and install closing cap (16), closing cap (16) top slidable mounting has arc baffle one (5), and arc baffle one (5) bottom extends to accept section of thick bamboo (3) inside and is laminated with conveyer pipe (2) one end mutually, accept section of thick bamboo (3) inside slidable mounting has arc baffle two (6), and arc baffle two (6) one end is laminated with row material pipe (4) mutually, closing cap (16) top rotation is installed dwang (8), closing cap (16) top intermediate position fixed mounting has hollow block (9), hollow block (9) one end slidable mounting has T type fixture block (10), T type fixture block (10) and one end extends to accepting section of thick bamboo (6) one end and extends to two arc baffle (7) inside and is equipped with arc baffle one end (7), and the top end of the cylindrical rod (7) extends to the upper side of the sealing cover (16) and is attached to the bottom end of the rotating rod (8).

2. The reagent extraction device with controllable flow according to claim 1, wherein a hollow push rod (11) is slidably mounted in the hollow block (9), a support rod (12) is fixedly mounted in the hollow block (9), and the hollow push rod (11) is slidably mounted outside the support rod (12).

3. The reagent extraction device with controllable flow according to claim 2, wherein the first spring (13) is fixedly installed at the top end of the supporting rod (12), and the top end of the first spring (13) is fixedly installed at the top end of the inside of the hollow push rod (11).

4. The reagent extraction device with controllable flow according to claim 1, wherein a rectangular groove is formed in the top end of the T-shaped clamping block (10), a triangular block (22) is fixedly installed in the rectangular groove, two springs two (14) are symmetrically installed at one end of the T-shaped clamping block (10), and the other end of each spring two (14) is fixedly installed on the hollow block (9).

5. The reagent extraction device with controllable flow according to claim 1, wherein two fixed blocks (19) are symmetrically and fixedly arranged at the top end of the sealing cover (16), a rotating pin (20) is rotatably arranged between the two fixed blocks (19), a rotating rod (8) is arranged on the annular side surface of the rotating pin (20), and a magnetic block (21) is fixedly arranged at the top end of the sealing cover (16).

6. The reagent extraction device with controllable flow according to claim 1, wherein the square plate (15) is fixedly arranged at the top end of the first arc-shaped baffle plate (5), two springs III (17) are symmetrically and fixedly arranged at the bottom end of the square plate (15), and the bottom end of each spring III (17) is fixedly arranged at the top end of the sealing cover (16).

7. A reagent extraction device according to claim 1, characterized in that the circular side of the cylindrical rod (7) is provided with a spring four (18), and both ends of the spring four (18) are fixedly arranged on the cylindrical rod (7) and the top end of the sealing cover (16) respectively.

8. The reagent extraction device according to claim 1, wherein a square hole is formed at one end of the first arc-shaped baffle plate (5), and one end of the T-shaped clamping block (10) extends into the square hole.