CN219590138U - Quantitative detection equipment for compound - Google Patents

Abstract

The utility model belongs to the technical field of detection equipment, and discloses quantitative detection equipment for a compound, which is characterized in that: the device comprises a detection part, wherein the detection part is composed of a plurality of weighing cylinders which are uniformly distributed at the bottom of the detection part, and the middle part of each weighing cylinder is provided with a weighing piece; the detection tube is movably arranged on the detection part; the clamping part is fixed on the connecting plate and is positioned right above the detection part, the clamping part comprises a clamping frame, the clamping frame is positioned on the bottom wall of the connecting plate, and the inner side wall of the clamping frame is connected with a clamping L-shaped piece through a clamping telescopic rod; the equipment can simultaneously detect a plurality of detection pipes, can simultaneously clamp and fix the plurality of detection pipes through the clamping part, the clamping part is comparatively stable to the fixed of detection pipe, can reduce the condition that the compound in the detection pipe was spilled, and removes a plurality of detection pipes simultaneously, can make weighing, measurement, transfer comparatively unified, clean and tidy.

Description

Quantitative detection equipment for compound

Technical Field

The utility model belongs to the technical field of detection equipment, and particularly relates to quantitative detection equipment for a compound.

Background

When developing or processing medicines, the raw materials of the medicines are often required to be detected, and the components, quality, color and the like of the compounds used by the medicines are judged, so that the compounds can be processed and manufactured in the next step, and the compounds often need detection equipment, can be detected in a professional and unified way, and are one of the common equipment in the fields of medicines, biology, chemistry and the like.

The existing detection equipment cannot weigh and measure a plurality of detection pipes simultaneously, most of existing modes are single-pipe single detection, a compound is placed in one detection pipe, then the detection equipment weighs, measures and transfers the compound in the single pipe, but the mode is quite time-consuming, workers can only detect the single pipe and record data one by one, the whole is quite time-consuming, errors are easy to occur when the data are recorded, and when the detection pipes are moved, the compound in the detection pipes is easy to drop due to manual operation, so that detection work is slow, and therefore, the quantitative detection equipment for the compound is provided.

Disclosure of Invention

The utility model aims to provide a quantitative detection device for compounds, which solves the problems that the method is proposed in the background technology, but the method is quite time-consuming, a worker can only detect a single tube and record data one by one, the whole method is quite time-consuming, errors are easy to occur when the data are recorded, and the compounds in the detection tube are easy to drop due to manual operation when the detection tube is moved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a quantitative detection device for a compound, characterized in that: the device comprises a detection part, wherein the detection part is composed of a plurality of weighing cylinders which are uniformly distributed at the bottom of the detection part, and the middle part of each weighing cylinder is provided with a weighing piece;

the detection tube is movably arranged on the detection part;

the clamping part is fixed on the connecting plate, and the connecting plate is located directly over the detection part, the clamping part comprises a clamping frame, the clamping frame is located the diapire of the connecting plate, and the inside wall of the clamping frame is connected with a clamping L-shaped piece through a clamping telescopic rod.

Preferably, the detection tube is of a hollow cylinder structure, the top of the detection tube is provided with a clamping convex ring with a coaxial circle center, and two side walls of the clamping convex ring are provided with clamping grooves.

Preferably, the clamping L-shaped piece is matched with the clamping groove, and the longest distance between the two clamping L-shaped pieces is larger than the diameter of the clamping convex ring.

Preferably, a plurality of placing holes are formed in the middle of the detection part, the placing holes are consistent with the weighing cylinders in number, each weighing cylinder is located right below the placing hole, and the placing holes and the weighing cylinders are arranged in the same circle center.

Preferably, the diameter of the placing hole is larger than that of the detection tube, and the diameter of the placing hole is smaller than that of the clamping convex ring;

the height of the weighing cylinder is smaller than that of the detection tube;

when the detection tube is placed in the weighing cylinder, a gap is arranged between the clamping convex ring and the surface of the detection part.

Preferably, the base support stand is connected with one side of the detection part, and the top wall of the base support stand is leveled with the top wall of the detection part;

the base supports and is equipped with the connecting plate directly over the seat, just the connecting plate is connected with the connecting plate through the transfer motor.

Preferably, the connecting plate performs circular motion with the center of the circle of the transfer motor, so that the connecting plate rotates to be right above the detection part.

Preferably, the bottom of the base supporting stand is provided with an equipment base, the equipment base is located under the detection part, the detection part is parallel to the equipment base, and one side of the top of the equipment base is provided with an operation display screen.

Compared with the prior art, the utility model has the beneficial effects that:

the equipment can simultaneously detect a plurality of detection pipes, can simultaneously clamp and fix the plurality of detection pipes through the clamping part, the clamping part is comparatively stable to the fixed of detection pipe, can reduce the condition that the compound in the detection pipe is inclined and spilled, and remove a plurality of detection pipes simultaneously, can be so that weigh, measure, shift comparatively unify, clean and tidy to measurement data is comparatively accurate simultaneously, and very save time has improved detection efficiency.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a perspective view of a placement hole of the present utility model;

FIG. 3 is a schematic view of the connecting plate of the present utility model after movement;

FIG. 4 is a perspective view of a test tube according to the present utility model;

in the figure: 1. an equipment base;

2. the base supports the vertical base; 21. a transfer motor; 22. a height expansion piece;

3. operating a display screen;

4. a detection unit; 41. placing the hole; 42. a weighing cylinder; 43. a weighing piece;

5. a connecting plate; 51. a clamping frame; 52. clamping the L-shaped piece; 53. clamping the telescopic rod;

6. a detection tube; 61. clamping the convex ring; 62. clamping grooves.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1 to 4, the present utility model provides a technical solution: the quantitative detection equipment for the compound comprises a detection part 4, wherein the detection part 4 is composed of a plurality of weighing barrels 42, the weighing barrels 42 are uniformly distributed at the bottom of the detection part 4, and a weighing piece 43 is arranged in the middle of each weighing barrel 42;

a detection tube 6 movably disposed on the detection portion 4;

the clamping part is fixed on the connecting plate 5, and the connecting plate 5 is located directly over the detection part 4, and the clamping part includes clamping frame 51, and clamping frame 51 is located the diapire of connecting plate 5, and the inside wall of clamping frame 51 is connected with centre gripping L type spare 52 through the centre gripping telescopic link 53.

The weighing cylinder 42 can detect the detecting tube 6, when the detecting tube 6 is placed on the weighing cylinder 42 and the weighing piece 43, the detecting tube 6 can be weighed through the weighing piece 43, the mass of the internal compound is judged, and the detecting data is recorded through the weighing piece 43 and uploaded to the PC port.

The weighing piece 43 is specifically, the detection tube 6 is aligned to the position of the placement hole 41, so that the detection tube 6 passes through the detection portion 4, the bottom wall of the detection tube 6 is attached to the top wall of the weighing piece 43, the detection tube 6 is placed on the weighing piece 43, and the weighing piece 43 can achieve a weighing effect on the detection tube 6. The whole use is very convenient.

And the automatic position transfer of detecting tube 6 accessible clamping part has effectually reduced the condition that compound in the detecting tube 6 was poured out to in the whole removal centre gripping process, make detecting tube 6 comparatively steady, and remove with comparatively steady state.

The clamping L-shaped member 52 can move horizontally and horizontally through the two clamping telescopic rods 53, so that the two clamping L-shaped members 52 move simultaneously, the clamping L-shaped members 52 are of the same structure, the clamping telescopic rods 53 are of the same structure, and the clamping L-shaped members 52 and the clamping telescopic rods 53 are symmetrically distributed with the center line of the clamping frame 51.

Example 2

Based on embodiment 1, referring to fig. 2, 3 and 4, the detecting tube 6 is of a hollow cylinder structure, the top of the detecting tube 6 is provided with a clamping convex ring 61 with a coaxial center, and two side walls of the clamping convex ring 61 are provided with clamping grooves 62.

The compound can be placed in the detecting tube 6, the compound is driven to move through the movement of the detecting tube 6, the clamping convex ring 61 and the clamping groove 62 at the top of the detecting tube 6 are matched with the clamping L-shaped piece 52, when the two clamping L-shaped pieces 52 move through the clamping telescopic rod 53, the clamping effect on the clamping groove 62 can be achieved, when the clamping L-shaped piece 52 is tightly attached to the clamping groove 62, the clamping L-shaped piece 52 can achieve the clamping effect on the detecting tube 6, and a plurality of detecting tubes 6 can be clamped simultaneously, so that the detecting tubes 6 can move to the same position through the clamping L-shaped piece 52 and the connecting plate 5.

Example 3

Based on embodiment 1 or embodiment 2, referring to fig. 2, 3 and 4, the clamping L-shaped members 52 are matched with the clamping grooves 62, and the longest distance between the two clamping L-shaped members 52 is larger than the diameter of the clamping bead 61.

After the two clamping L-shaped pieces 52 move to the longest distance, the distance is larger than the diameter of the clamping convex ring 61, so that after the two clamping L-shaped pieces 52 move to the longest distance, the two clamping L-shaped pieces 52 cannot be connected with the clamping convex ring 61, so that the clamping frame 51 and the clamping L-shaped pieces 52 cannot be contacted with the detection tube 6 and the clamping convex ring 61 when moving, and when the detection tube 6 needs to be clamped through the clamping frame 51 and the clamping L-shaped pieces 52, the clamping effect can be achieved through the adhesion of the two clamping L-shaped pieces 52 and the clamping groove 62.

In the whole use process, the device can be adjusted according to the use requirement in time, and the device is very flexible and convenient to use.

Example 4

On the basis of embodiment 1, embodiment 2 or embodiment 3, referring to fig. 2, 3 and 4, a plurality of placement holes 41 are formed in the middle of the detection portion 4, the number of the placement holes 41 is identical to that of the weighing drums 42, each weighing drum 42 is located right below the placement hole 41, and the placement holes 41 and the weighing drums 42 are arranged in the same circle center.

Each of the detection tubes 6 passes through the detection portion 4 through the placement hole 41 and is placed directly above the weighing piece 43 at the time of detection. The number of the placing holes 41 is required to be consistent with that of the weighing barrels 42, and the same circle center is arranged, so that the detection tube 6 is more stable after being placed, no special alignment is needed, and the detection tube 6 can be positioned right above the weighing piece 43 by only aligning the detection tube 6 with the place of the placing holes 41 and then moving downwards, so that the detection of the compound in the detection tube 6 is facilitated.

Example 5

Based on embodiment 1, embodiment 2, embodiment 3 or embodiment 4, referring to fig. 2, 3, 4, the diameter of the placement hole 41 is larger than the diameter of the detection tube 6, and the diameter of the placement hole 41 is smaller than the diameter of the clamping bead 61;

the height of the weighing cylinder 42 is smaller than the height of the detection tube 6;

when the detection tube 6 is placed in the weighing cylinder 42, a gap is provided between the clamping bead 61 and the surface of the detection portion 4.

The diameter of the placing hole 41 is larger than that of the detecting tube 6, so that the detecting tube 6 can be placed in the weighing cylinder 42 through the placing hole 41, and the diameter of the placing hole 41 is smaller than that of the clamping convex ring 61, so as to prevent the detecting tube 6 from completely falling into the weighing cylinder 42, and facilitate the taking out of the detecting tube 6 from the placing hole 41; the height of the weighing cylinder 42 is smaller than that of the detecting tube 6, so that after the detecting tube 6 is placed on the weighing cylinder 42 and the weighing piece 43, only the weighing piece 43 with supporting force is provided for the detecting tube 6, the detecting portion 4 and the placing hole 41 cannot support and contact the detecting tube 6, and then quality detection data of the detecting tube 6 are accurate.

The top wall of the detecting part 4 is not contacted with the clamping convex ring 61, so that on one hand, the weight of the detecting tube 6 is completely located on the weighing piece 43, and on the other hand, the detecting tube 6 is convenient to move, and when the clamping L-shaped piece 52 clamps the clamping convex ring 61 and the clamping groove 62, the detecting tube is convenient to use.

Example 6

On the basis of embodiment 1, embodiment 2, embodiment 3, embodiment 4 or embodiment 5, referring to fig. 1, 2, 3 and 4, the base support stand 2 is connected to one side of the detection portion 4, and the top wall of the base support stand 2 is level with the top wall of the detection portion 4;

a connecting plate is arranged right above the base support stand 2 and is connected with the connecting plate 5 through a transfer motor 21.

The height expansion piece 22 can be lifted up and down, all structures on the connecting plate 5 can be lifted up and down through the movement of the height expansion piece 22, the connecting plate is connected with the connecting plate 5 through the transfer motor 21, when the transfer motor 21 runs, the output shaft of the transfer motor 21 can rotate, the transfer motor 21 drives the connecting plate 5 to rotate, the circle center of the connecting plate 5, the clamping frame 51, the clamping L-shaped piece 52 and the clamping expansion rod 53 can move circularly, and accordingly the connecting plate 5, the clamping frame 51, the clamping L-shaped piece 52 and the clamping expansion rod 53 can rotate to a position right above the detection part 4 or one side of the detection part 4.

When the clamping frame 51, the clamping L-shaped member 52 and the clamping telescopic rod 53 clamp the detection tubes 6, the detection tubes 6 can be positioned right above the detection portion 4 at the same time, so that the detection tubes 6 can move at the same time.

Example 7

On the basis of embodiment 1, embodiment 2, embodiment 3, embodiment 4, embodiment 5, or embodiment 6, referring to fig. 1, 2, 3, and 4, the connection plate 5 makes a circular motion with the center of the transfer motor 21 so that the connection plate 5 rotates to just above the detection portion 4.

When the connecting plate 5 rotates, the plurality of clamping frames 51, the clamping L-shaped pieces 52 and the clamping telescopic rods 53 at the bottom of the connecting plate 5 rotate together, and when the clamping L-shaped pieces 52 clamp the clamping grooves 62 and the clamping convex rings 61, the connecting plate 5 can drive the plurality of detection tubes 6 to rotate together when rotating. Thereby changing the positions of the plurality of detection tubes 6.

Example 8

On the basis of embodiment 1, embodiment 2, embodiment 3, embodiment 4, embodiment 5, embodiment 6 or embodiment 7, referring to fig. 1 and 2, the bottom of the base support stand 2 is provided with an equipment base 1, the equipment base 1 is located under the detection portion 4, the detection portion 4 is parallel to the equipment base 1, and one side of the top of the equipment base 1 is provided with an operation display screen 3.

The instruction can be input through the operation display screen 3, the transfer motor 21 and the height telescopic member 22 are operated, and the data detected by the weighing member 43 of the detection tube 6 can be recorded by the operation display screen 3 and uploaded to the PC port according to the use requirement.

The foregoing is merely illustrative of the present utility model and not restrictive, and other modifications and equivalents thereof may occur to those skilled in the art without departing from the spirit and scope of the present utility model.

Claims (8)

1. A quantitative detection device for a compound, characterized in that: the device comprises a detection part, wherein the detection part is composed of a plurality of weighing cylinders which are uniformly distributed at the bottom of the detection part, and the middle part of each weighing cylinder is provided with a weighing piece;

the detection tube is movably arranged on the detection part;

the clamping part is fixed on the connecting plate, and the connecting plate is located directly over the detection part, the clamping part comprises a clamping frame, the clamping frame is located the diapire of the connecting plate, and the inside wall of the clamping frame is connected with a clamping L-shaped piece through a clamping telescopic rod.

2. A quantitative detection apparatus for a compound according to claim 1, wherein: the detection tube is of a hollow cylinder structure, the top of the detection tube is provided with a clamping convex ring with a coaxial circle center, and two side walls of the clamping convex ring are provided with clamping grooves.

3. A quantitative detection apparatus for a compound according to claim 2, wherein: the clamping L-shaped piece is matched with the clamping groove for use, and the longest distance between the two clamping L-shaped pieces is larger than the diameter of the clamping convex ring.

4. A quantitative detection apparatus for a compound according to claim 1, wherein: the middle part of detection portion has seted up a plurality of holes of placing, just place the hole and weigh a number unanimity of section of thick bamboo, every section of thick bamboo of weighing all is located and places the hole under, just place hole, weigh a section of thick bamboo and set up for same centre of a circle.

5. The quantitative determination apparatus for a compound according to claim 4, wherein: the diameter of the placing hole is larger than that of the detection tube, and the diameter of the placing hole is smaller than that of the clamping convex ring;

the height of the weighing cylinder is smaller than that of the detection tube;

when the detection tube is placed in the weighing cylinder, a gap is arranged between the clamping convex ring and the surface of the detection part.

6. A quantitative detection apparatus for a compound according to claim 1, wherein: the base support stand is connected with one side of the detection part, and the top wall of the base support stand is leveled with the top wall of the detection part;

the base supports and is equipped with the connecting plate directly over the seat, just the connecting plate is connected with the connecting plate through the transfer motor.

7. The quantitative determination apparatus for a compound according to claim 6, wherein: the connecting plate moves circularly by the circle center of the transfer motor, so that the connecting plate rotates to be right above the detection part.

8. The quantitative determination apparatus for a compound according to claim 6, wherein: the bottom of base support upright seat is equipped with the equipment base, just the equipment base is located under the detection portion, detection portion and equipment base are parallel to each other, top one side of equipment base is equipped with the operation display screen.