CN211869825U - Quantitative subpackaging device special for filling for rhodamine B detection - Google Patents

Abstract

The utility model discloses a rhodamine B detects special quantitative partial shipment device for filler, including base, supporting box, storage box, partial shipment case and dosing mechanism, the central point on base top puts the department and is fixed with supporting box, and the top of supporting box is fixed with the partial shipment case to the inside central point of partial shipment case puts the department and installs and place the case, the inside of placing the case is equipped with the annular chamber, and the partial shipment incasement portion of annular chamber one side is equipped with dosing mechanism to the annular chamber of dosing mechanism one side is inside to be equipped with from promoting the post, the incasement portion of placing of annular chamber top is equipped with the unloading pipe, and the annular chamber bottom mounting of unloading pipe below has the drain hole to the bottom of drain hole extends to the outside of placing the case, the storage box is installed on the base top of supporting box one side. The utility model discloses not only realize the accurate quantitative unloading of rhodamine B powder, avoided rhodamine B powder to block up the feed inlet, improved quantitative partial shipment device's work efficiency moreover.

Description

Quantitative subpackaging device special for filling for rhodamine B detection

Technical Field

The utility model relates to a ration partial shipment technical field specifically is a rhodamine B detects special packing and uses ration partial shipment device.

Background

Rhodamine B is also called basic rose essence, commonly called pink flower, is an artificially synthesized dye with fresh peach red color, is in a green crystal or reddish purple powder state at normal temperature, is often used as a detection reagent, needs to be quantitatively packaged when in use, and infers a detection result through different amounts of rhodamine B, but the existing rhodamine B quantitative packaging device still has some defects to be improved when in use.

This type of ration partial shipment device on the market is various today, can satisfy people's user demand basically, but still has certain problem, and specific problem has following several:

(1) the quantity of rhodamine B is generally inconvenient to accurately control when the conventional quantitative subpackaging device is used, so that the use accuracy of the quantitative subpackaging device is seriously influenced;

(2) when the conventional quantitative subpackaging device is used, rapid feeding of rhodamine B is generally inconvenient for quantitative subpackaging, so that the working efficiency of the quantitative subpackaging device is greatly influenced;

(3) the existing quantitative subpackaging device is not convenient to automatically collect and transmit the well-subpackaged rhodamine B in use generally, so that great troubles are brought to the use of people.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rhodamine B detects special packing and uses quantitative partial shipment device to propose quantitative partial shipment device and be not convenient for accurate control rhodamine B's volume in solving above-mentioned background art, carry out quick pay-off to rhodamine B and carry out quantitative partial shipment, the automatic collection of being not convenient for transmits the good rhodamine B's of partial shipment problem.

In order to achieve the above object, the utility model provides a following technical scheme: a quantitative subpackaging device for filling special for rhodamine B detection comprises a base, a supporting box, a storage box, a subpackaging box and a quantifying mechanism, wherein the supporting box is fixed at the central position of the top end of the base, the subpackaging box is fixed above the supporting box, a placing box is installed at the central position inside the subpackaging box, a ring cavity is arranged inside the placing box, the quantifying mechanism is arranged inside the subpackaging box on one side of the ring cavity, a pushing column is arranged inside the ring cavity on one side of the quantifying mechanism, a discharging pipe is arranged inside the placing box above the ring cavity, a discharging hole is fixed at the bottom end of the ring cavity below the discharging pipe, the bottom end of the discharging hole extends to the outside of the placing box, the storage box is installed at the top end of the base on one side of the supporting box, a feeding box is fixed on one side of the storage box close to the supporting box, and a rotating motor is installed at one end of, first pivot is installed through the shaft coupling to the output of rotating electrical machines, and the inside spiral leaf that is equipped with of pay-off case on one side of the first pivot to the bottom and the pay-off incasement wall of spiral leaf are articulated mutually, the top and the first pivot fixed connection of spiral leaf, the one end that is close to the partial shipment case on the pay-off case outer wall is fixed with the feed opening, and the one end of feed opening extends to the inside of partial shipment case to the bottom of feed opening is connected with the unloading pipe, install control panel on the outer wall of partial shipment case one side, and the output of the inside singlechip of control panel and rotating electrical machines's input electric connection.

Preferably, the conveyer belt is installed to the inside central point department of supporting box, and the top of conveyer belt is equipped with equidistant material receiving bottle to the inside one end that is close to the material storage box of supporting box installs servo motor.

Preferably, the output end of the servo motor is provided with a second rotating shaft through a coupler, the supporting box on one side of the second rotating shaft is internally provided with a rotating cylinder, one end of the rotating cylinder is hinged to the inner wall of the supporting box, and the other end of the rotating cylinder is fixedly connected with the second rotating shaft.

Preferably, the inside of dosing mechanism has set gradually drive box, main propelling movement post, promotion piece, spacing axle, first support, second support, third pivot and driving motor, the partial shipment incasement internally mounted who promotes post one side has the drive box, and the inside of drive box is fixed with four spacing axles of group to install driving motor on the drive box outer wall of spacing axle one side.

Preferably, the output end of the driving motor is provided with a third rotating shaft through a coupler, a second support is fixed on the surface of the third rotating shaft, a first support is arranged at one end, away from the third rotating shaft, of the second support, and one end of the first support is hinged to the second support.

Preferably, the outer wall of the limiting shaft is sleeved with a pushing block, one side of the pushing block is hinged to the first support, a main pushing column is fixed to one side, away from the limiting shaft, of the pushing block, and one end, away from the pushing block, of the main pushing column is fixedly connected with the auxiliary pushing column.

Compared with the prior art, the beneficial effects of the utility model are that: the quantitative subpackaging device not only realizes accurate quantitative blanking of rhodamine B powder, avoids the rhodamine B powder from blocking a feed inlet, but also improves the working efficiency of the quantitative subpackaging device;

(1) by arranging the driving box, the main pushing column, the pushing block, the limiting shaft, the first support, the second support, the third rotating shaft and the driving motor, the driving motor is started through the operation control panel, the second support is driven to rotate by the third rotating shaft, so that the first support is driven to move back and forth, the pushing block moves back and forth under the limiting action of the limiting shaft, so that the auxiliary pushing column is driven by the main pushing column to move back and forth in the annular cavity, under the driving action of an encoder inside the driving motor, raw materials inside the discharging pipe flow into the annular cavity, are pushed by the auxiliary pushing column, enter the discharging hole for split charging, the rotating speed of the driving motor is controlled, the accurate quantitative discharging of rhodamine B powder is realized, and the reliability of the quantitative split charging device during discharging is ensured;

(2) the rhodamine B powder is poured into the storage box through workers, the rotating motor is started through the operation control panel, the spiral blade is driven to rotate through the first rotating shaft, the rhodamine B powder in the storage box is transmitted into the feeding box and is sent into the discharging pipe in the subpackaging box through the discharging opening, the raw material is stored in the discharging pipe, the rapid feeding transmission of the quantitative subpackaging device is achieved, the phenomenon that the rhodamine B powder blocks the feeding opening is avoided, and the feeding efficiency of the quantitative subpackaging device is improved;

(3) open servo motor through operation control panel, it is rotatory to drive the rotary drum by the second pivot to drive the conveyer belt motion, will connect the material bottle to carry to the below of drain hole, realized that quantitative partial shipment device connects the material automatically and transmits, improved quantitative partial shipment device's work efficiency.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the cross-sectional enlarged structure of the quantitative mechanism of the present invention;

FIG. 3 is a schematic side view of the cross-sectional structure of the dosing mechanism of the present invention;

fig. 4 is a schematic view of a cross-sectional structure of the conveyer belt according to the present invention;

fig. 5 is a schematic diagram of the system framework structure of the present invention.

In the figure: 1. a base; 2. a support box; 3. a material storage box; 4. a feeding box; 5. helical leaves; 6. subpackaging; 7. a first rotating shaft; 8. a rotating electric machine; 9. a feeding port; 10. a discharging pipe; 11. placing a box; 12. a control panel; 13. an annular cavity; 14. from the push column; 15. a discharging port; 16. a receiving bottle; 17. a conveyor belt; 18. a dosing mechanism; 1801. a drive box; 1802. a primary pushing post; 1803. a pushing block; 1804. a limiting shaft; 1805. a first bracket; 1806. a second bracket; 1807. a third rotating shaft; 1808. a drive motor; 19. a rotating drum; 20. a second rotating shaft; 21. a servo motor.

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. 1-5, the present invention provides an embodiment: the utility model provides a rhodamine B detects special use and packs with quantitative partial shipment device, includes base 1, supporting box 2, stock box 3, partial shipment case 6 and dosing mechanism 18, its characterized in that: a supporting box 2 is fixed at the center of the top end of the base 1, a conveying belt 17 is installed at the center of the inside of the supporting box 2, material receiving bottles 16 with equal intervals are arranged at the top end of the conveying belt 17, a servo motor 21 is installed at one end, close to the material storage box 3, of the inside of the supporting box 2, the model of the servo motor 21 is MR-J2S-10A, the output end of a single chip microcomputer of the inside of a control panel 12 is electrically connected with the input end of the servo motor 21, a second rotating shaft 20 is installed at the output end of the servo motor 21 through a coupler, a rotating drum 19 is installed inside the supporting box 2 at one side of the second rotating shaft 20, one end of the rotating drum 19 is hinged to the inner wall of the supporting box 2, and the other end;

when the quantitative split charging device is used, the servo motor 21 is started through operating the control panel 12, the second rotating shaft 20 drives the rotating drum 19 to rotate, so that the conveying belt 17 is driven to move, the material receiving bottle 16 is conveyed to the position below the discharging hole 15, the automatic material receiving and conveying of the quantitative split charging device are realized, and the working efficiency of the quantitative split charging device is improved;

a sub-packaging box 6 is fixed above the supporting box 2, a placing box 11 is installed at the center position inside the sub-packaging box 6, an annular cavity 13 is arranged inside the placing box 11, and a quantifying mechanism 18 is arranged inside the sub-packaging box 6 on one side of the annular cavity 13;

when in use, the quantitative mechanism 18 is internally provided with a driving box 1801, a main pushing column 1802, a pushing block 1803, a limiting shaft 1804, a first support 1805, a second support 1806, a third rotating shaft 1807 and a driving motor 1808 in sequence, the driving box 1801 is installed inside the sub-packaging box 6 at one side of the pushing column 14, four sets of limiting shafts 1804 are fixed inside the driving box 1801, the driving motor 1808 is installed on the outer wall of the driving box 1801 at one side of the limiting shaft 1804, the model of the driving motor 1808 is HC-SFS102, the output end of a single chip microcomputer inside the control panel 12 is electrically connected with the input end of the driving motor 1808, the output end of the driving motor 1808 is provided with the third rotating shaft 1807 through a coupler, the surface of the third rotating shaft 1807 is fixed with the second support 1806, one end of the second support 1806 far away from the third rotating shaft 1807 is provided with the first support 1805, one end of the first support 1805 is hinged with the second support 1806, the pushing block 1803 is sleeved on the outer, one side of the pushing block 1803 is hinged with the first support 1805, a main pushing column 1802 is fixed on one side of the pushing block 1803 far away from the limiting shaft 1804, and one end of the main pushing column 1802 far away from the pushing block 1803 is fixedly connected with a secondary pushing column 14;

when the rhodamine B quantitative charging device is used, the driving motor 1808 is started through the operation control panel 12, the third rotating shaft 1807 drives the second support 1806 to rotate, so that the first support 1805 is driven to move back and forth, the pushing block 1803 does reciprocating motion under the limit of the limit shaft 1804, so that the main pushing column 1802 drives the auxiliary pushing column 14 to move back and forth in the annular cavity 13, raw materials in the discharging pipe 10 flow into the annular cavity 13 under the drive of the encoder in the driving motor 1808, the raw materials are pushed by the auxiliary pushing column 14 and enter the discharging hole 15 for split charging, and the rhodamine B powder is accurately quantitatively discharged by controlling the rotating speed of the driving motor 1808, so that the reliability of the quantitative split charging device during discharging is ensured;

a driven column 14 is arranged inside an annular cavity 13 on one side of a quantifying mechanism 18, a blanking pipe 10 is arranged inside a placing box 11 above the annular cavity 13, a discharge hole 15 is fixed at the bottom end of the annular cavity 13 below the blanking pipe 10, the bottom end of the discharge hole 15 extends to the outside of the placing box 11, a storage box 3 is arranged at the top end of a base 1 on one side of a supporting box 2, a feeding box 4 is fixed at one side of the storage box 3 close to the supporting box 2, a rotating motor 8 is arranged at one end of the feeding box 4 far away from the storage box 3, the model of the rotating motor 8 is Y112M-2, the output end of a single chip microcomputer inside a control panel 12 is electrically connected with the input end of the rotating motor 8, a first rotating shaft 7 is arranged at the output end of the rotating motor 8 through a coupler, a spiral blade 5 is arranged inside the feeding box 4 on one side of the first rotating shaft 7, the top end of the spiral blade 5 is fixedly connected with the first rotating shaft 7, a feed opening 9 is fixed at one end, close to the sub-packaging box 6, of the outer wall of the feeding box 4, one end of the feed opening 9 extends into the sub-packaging box 6, the bottom end of the feed opening 9 is connected with a feed pipe 10, a control panel 12 is installed on the outer wall of one side of the sub-packaging box 6, and the output end of a single chip microcomputer in the control panel 12 is electrically connected with the input end of the rotating motor 8;

pour rhodamine B powder into the inside of workbin 3 through the staff during the use, rotating electrical machines 8 is opened to operation control panel 12, it is rotatory to drive spiral leaf 5 by first pivot 7, transmit into the rhodamine B powder of workbin 3 inside into pay-off case 4 inside, in sending into the unloading pipe 10 of branch vanning 6 inside by feed opening 9, the raw materials is stored in unloading pipe 10 inside, the quick material loading transmission of quantitative partial shipment device has been realized, rhodamine B powder jam feed inlet has been avoided, the efficiency of quantitative partial shipment device material loading has been improved.

The working principle is as follows: when the quantitative split charging device is used, an external power supply is connected, firstly, rhodamine B powder is poured into the storage box 3 through a worker, the rotating motor 8 is started by the operation control panel 12, the spiral blade 5 is driven by the first rotating shaft 7 to rotate, the rhodamine B powder in the storage box 3 is transmitted into the feeding box 4 and is sent into the discharging pipe 10 in the split charging box 6 through the discharging port 9, raw materials are stored in the discharging pipe 10, the rapid feeding transmission of the quantitative split charging device is realized, the phenomenon that the rhodamine B powder blocks the feeding port is avoided, the feeding efficiency of the quantitative split charging device is improved, the driving motor 1808 is started by the operation control panel 12, the second support 1806 is driven by the third rotating shaft 1807 to rotate, so that the first support 1805 is driven to move back and forth, the push block 1803 does reciprocating motion under the limit of the limit shaft 1804, and the main push column 1802 drives the secondary push column 14 to move back and forth in, under the drive of the inside encoder of driving motor 1808, inside the raw materials of unloading pipe 10 flow in annular chamber 13, by promoting from promotion post 14, get into drain hole 15, through the rotational speed of control driving motor 1808, realize the accurate quantitative unloading of rhodamine B powder, reliability when guaranteeing quantitative partial shipment device unloading, servo motor 21 is opened to operation control panel 12, it is rotatory to drive rotary drum 19 by second pivot 20, thereby drive the motion of conveyer belt 17, will connect material bottle 16 to carry to the below of drain hole 15, realize that quantitative partial shipment device connects the material to transmit automatically, improve quantitative partial shipment device's work efficiency, accomplish the use work of quantitative partial shipment device.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a rhodamine B detects special use and packs with quantitative partial shipment device, includes base (1), supporting box (2), material storage box (3), partial shipment case (6) and dosing mechanism (18), its characterized in that: the support box (2) is fixed at the center of the top end of the base (1), the sub-packaging box (6) is fixed above the support box (2), the sub-packaging box (11) is installed at the center of the inner part of the sub-packaging box (6), the annular cavity (13) is arranged inside the sub-packaging box (11), the quantifying mechanism (18) is arranged inside the sub-packaging box (6) on one side of the annular cavity (13), the driven pushing column (14) is arranged inside the annular cavity (13) on one side of the quantifying mechanism (18), the discharging pipe (10) is arranged inside the sub-packaging box (11) above the annular cavity (13), the discharging hole (15) is fixed at the bottom end of the annular cavity (13) below the discharging pipe (10), the bottom end of the discharging hole (15) extends to the outer part of the sub-packaging box (11), the storage box (3) is installed at the top end of the base (1) on one side of the, a feeding box (4) is fixed on one side of the storage box (3) close to the supporting box (2), a rotating motor (8) is installed at one end, far away from the storage box (3), of the feeding box (4), the output end of the rotating motor (8) is provided with a first rotating shaft (7) through a shaft coupling, a spiral blade (5) is arranged inside the feeding box (4) on one side of the first rotating shaft (7), the bottom end of the spiral blade (5) is hinged with the inner wall of the feeding box (4), the top end of the spiral blade (5) is fixedly connected with the first rotating shaft (7), a discharging opening (9) is fixed at one end, close to the sub-packaging box (6), of the outer wall of the feeding box (4), one end of the discharging opening (9) extends to the inside of the sub-packaging box (6), the bottom end of the discharging opening (9) is connected with a discharging pipe (10), a control panel (12) is installed on the outer wall of one side of the sub-, and the output end of the singlechip in the control panel (12) is electrically connected with the input end of the rotating motor (8).

2. The quantitative subpackaging device for the filling special for detecting rhodamine B according to claim 1, which is characterized in that: the supporting box is characterized in that a conveying belt (17) is installed at the center of the inside of the supporting box (2), material receiving bottles (16) with equal intervals are arranged at the top end of the conveying belt (17), and a servo motor (21) is installed at one end, close to the material storage box (3), of the inside of the supporting box (2).

3. The quantitative subpackaging device for the filling special for detecting rhodamine B according to claim 2, is characterized in that: the output end of the servo motor (21) is provided with a second rotating shaft (20) through a coupler, the supporting box (2) on one side of the second rotating shaft (20) is internally provided with a rotating drum (19), one end of the rotating drum (19) is hinged to the inner wall of the supporting box (2), and the other end of the rotating drum (19) is fixedly connected with the second rotating shaft (20).

4. The quantitative subpackaging device for the filling special for detecting rhodamine B according to claim 1, which is characterized in that: the inside of ration mechanism (18) has set gradually drive case (1801), main promotion post (1802), has promoted piece (1803), spacing axle (1804), first support (1805), second support (1806), third pivot (1807) and driving motor (1808), from partial shipment case (6) internally mounted who promotes post (14) one side has drive case (1801), and the inside of drive case (1801) is fixed with spacing axle (1804) of four groups to install driving motor (1808) on drive case (1801) outer wall of spacing axle (1804) one side.

5. The quantitative subpackaging device for the filling special for detecting the rhodamine B as claimed in claim 4, is characterized in that: the output end of the driving motor (1808) is provided with a third rotating shaft (1807) through a coupler, the surface of the third rotating shaft (1807) is fixed with a second support (1806), one end, far away from the third rotating shaft (1807), of the second support (1806) is provided with a first support (1805), and one end of the first support (1805) is hinged to the second support (1806).

6. The quantitative subpackaging device for the filling special for detecting rhodamine B according to claim 5, is characterized in that: the outer wall of spacing axle (1804) is gone up the cover and is equipped with and promotes piece (1803), and promotes one side and first support (1805) of piece (1803) and articulate mutually, promotes one side that spacing axle (1804) was kept away from in piece (1803) and is fixed with main post (1802) that promotes, and main post (1802) that promotes keep away from the one end that promotes piece (1803) and from promoting post (14) fixed connection.

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