CN109870327B - Glass bead quantitative sampling device - Google Patents

Abstract

The invention belongs to the technical field of quantitative sampling equipment, and particularly relates to a glass bead quantitative sampling device which comprises a base, a support rod, a first support, a container, a second support, a quantitative cylinder, a storage bin, a guide pipe, a disc and a plunger.

Description

Glass bead quantitative sampling device

Technical Field

The invention belongs to the technical field of quantitative sampling equipment, and particularly relates to a glass bead quantitative sampling device.

Background

Glass bead is also named as glass sand, and is commonly used for spaceflight rust removal, artwork decoration and superfine grinding of various minerals, and a certain amount of glass beads are often required to be taken before use, but because the glass beads are too small, the glass beads are quantitatively taken by means of an artificial measuring mode, the problems of time and labor consumption and inaccurate taken amount exist, and the difficulty is very high if a large amount of experiments are carried out.

Disclosure of Invention

Aiming at the problem that the glass bead quantitative sampling is time-consuming and labor-consuming and difficult, the invention provides a device capable of quantitatively sampling the glass bead.

The invention adopts the following technical scheme to achieve the aim:

glass bead ration sampling device, including base, bracing piece, first support, container, second support, quantitative section of thick bamboo, storage bin, pipe, disc and plunger, the bracing piece sets up in the upper surface middle part of base, first support sets up in the middle part of bracing piece be provided with a plurality of snap rings on the first support, a container has all been placed in every snap ring, the second support sets up on the upper portion of bracing piece be provided with a plurality of snap rings of No. two snap rings one-to-one with No. one on the second support, a quantitative section of thick bamboo has been placed in every No. two snap rings activity, the storage bin sets up at the top of bracing piece, and every quantitative section of thick bamboo all communicates with the storage bin through a pipe, and the one end setting of pipe is in the upper portion of quantitative section of thick bamboo, and the other end sets up the bottom of storage bin, the disc cover is established on the outer wall of storage bin on the disc all be equipped with the through-hole with the position that every quantitative section of thick bamboo corresponds, the plunger sets up in the through-hole.

Further, the upper part of the quantitative cylinder is cylindrical, the lower part of the quantitative cylinder is conical, and the conical part is divided into a plurality of pieces along the conical surface at the conical part to form an openable and automatically-closed outlet.

Still further, the quantitative cylinder is detachably connected with the guide pipe, so that the quantitative cylinder with the same diameter and different lengths can be replaced conveniently according to different needs.

Further, a plunger cap is provided at an upper end of the plunger to prevent falling from the through hole.

Furthermore, springs are sleeved on the plungers, and the springs are located between the plunger caps and the discs and used for resetting the plungers.

Further, a counter is provided at each through hole of the disc for counting the number of times the plunger is pressed.

Still further, be provided with the fan wheel in the storage bin for through rotatory promotion glass microballon entering pipe.

Still further, the first support activity sets up in the middle part of bracing piece, can adjust the distance of first support to the ration section of thick bamboo after installing container and ration section of thick bamboo to prevent to cause glass bead to splash outward because of the distance of container and ration section of thick bamboo is too far away.

Still further, the base is metal base, bracing piece are the metal pole, and first support and second support are the metal frame, and the graduated flask is the metal graduated flask, and the storage bin is the metal storage bin, and the pipe is the metal pipe, and the disc is the metal dish to prevent to lead to glass bead jam because of static.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, glass beads are quantitatively measured through a quantitative cylinder, and then pushed into a container through a plunger;

2. the conical part of the quantitative cylinder is provided with a plurality of pieces which can be opened by pushing the plunger, and the plunger can be automatically retracted after leaving;

3. the invention can adjust the amount of glass beads measured at one time by changing the quantitative barrels with different lengths.

4. The invention is provided with the inner counter, so that the number of the plunger can be recorded for a plurality of times when a large number of glass beads are needed at one time, and the possible error caused by manual counting is avoided;

5. the fan wheel is arranged in the storage bin and is used for pushing the glass beads into the guide pipe through rotation when the glass beads in the storage bin block the inlet of the guide pipe;

6. the first bracket is movably arranged in the middle of the supporting rod, so that the distance between the first bracket and the quantitative cylinder can be adjusted, and glass beads are prevented from splashing due to the fact that the distance between the container and the quantitative cylinder is too far;

7. according to the invention, the base, the support rod, the first support, the second support, the quantitative cylinder, the storage bin, the guide pipe and the disc are all made of metal materials, so that the blockage of glass beads caused by static electricity is prevented.

Drawings

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

FIG. 2 is a schematic diagram of the structure of the invention without plunger, spring, and counter;

FIG. 3 is a schematic view of the structure of the first bracket of the present invention;

FIG. 4 is a schematic structural view of a second bracket according to the present invention;

the device comprises a base-1, a support rod-2, a first bracket-3, a container-4, a first clamping ring-5, a second bracket-6, a quantitative cylinder-7, a storage bin-8, a guide pipe-9, a disc-10, a plunger-11, a plunger cap-12, a through hole-13, a counter-14, a spring-15, a fan wheel-16 and a second clamping ring-17.

Detailed Description

In order to further explain the technical scheme of the invention, the invention is further described below with reference to the drawings and the embodiments.

The glass bead quantitative sampling device as shown in fig. 1 to 4 comprises a base 1, a support rod 2, a first support 3, a container 4, a second support 6, a quantitative barrel 7, a storage bin 8, a guide pipe 9, a disc 10 and a plunger 11, wherein the support rod 2 is arranged in the middle of the upper surface of the base 1, the first support 3 is movably arranged in the middle of the support rod 2, and the distance from the first support 3 to the quantitative barrel 7 is adjusted so as to prevent glass beads from splashing due to the fact that the distance between the container 4 and the quantitative barrel 7 is too far. Be provided with a plurality of snap rings 5 on the first support 3, all placed a container 4 in every snap ring 5, second support 6 sets up the upper portion at bracing piece 2 be provided with a plurality of snap rings 17 No. two with snap rings 5 one-to-one on the second support 6, the activity has been placed a ration section of thick bamboo 7 in every snap ring No. two 17, and the upper portion of ration section of thick bamboo 7 is cylindrical, and the lower part is conical, and conical position divides into the multichip with conical position along the conical surface to form openable and automatic closed export, storage bin 8 sets up at the top of bracing piece 2 be provided with fan wheel 16 in the storage bin 8 for promote glass bead entering pipe 9 through rotatory, every ration section of thick bamboo 7 all communicates with storage bin 8 through a pipe 9, and the one end swing joint of pipe 9 is in the upper portion of ration section of thick bamboo 7, and the other end sets up the bottom of storage bin 8, 10 cover is established on the outer wall of storage bin 8 the position that corresponds with every ration section of thick bamboo 7 on the disc 10 all is equipped with through-hole 13, 11 are equipped with the diameter 13 in the piston 11 and the piston 11 diameter of plunger piston 11 in the piston 11 is used for the diameter of piston 11 to the plunger piston 11, and the diameter of piston 11 is small diameter is in the piston 11 diameter is small than the piston diameter is used to the piston 11 to the piston diameter of piston 11. A counter 14 is provided at each through hole 13 of the disc 10 for counting the number of times the plunger 11 is pressed. The base 1 is a stainless steel base, the supporting rods 2 are stainless steel rods, the first support 3 and the second support 6 are stainless steel frames, the quantifying cylinder 7 is a stainless steel measuring cylinder, the storage bin 8 is a stainless steel storage bin, the guide pipe 9 is a stainless steel guide pipe, and the disc 10 is a stainless steel disc.

Working principle: firstly, a quantitative cylinder 7 is selected according to the quantitative quantity required, the quantitative cylinder 7 is placed in a second snap ring 17 and is connected with a guide pipe 9, then a container 4 is placed in a first snap ring 5, the distance between the container 4 and the quantitative cylinder 7 is adjusted, the glass beads are poured into a storage bin 8, the glass beads enter the quantitative cylinder 7 through the guide pipe 9, if the glass beads block the inlet of the guide pipe 9, a rotatable fan wheel 16 pushes the glass beads to enter the guide pipe 9, when the height of the glass beads in the quantitative cylinder 7 reaches the outlet of the guide pipe 9, the outlet of the guide pipe 9 is automatically stopped due to the glass beads blocking, the plunger 11 is pushed to enter the quantitative cylinder 7, the plunger 11 pushes the glass beads to prop open the conical part of the quantitative cylinder 7, the glass beads fall into the container 4, the plunger 11 is loosened after the glass beads in the quantitative cylinder 7 completely enter the container 4, the spring 15 automatically resets the plunger 11, and when the plunger 11 leaves the conical part of the quantitative cylinder 7, the conical part of the quantitative cylinder 7 automatically retracts.

While the principal features and advantages of the present invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. Glass bead ration sampling device, its characterized in that: the quantitative storage device comprises a base (1), a support rod (2), a first support (3), a container (4), a second support (6), a quantitative barrel (7), a storage bin (8), a guide pipe (9), a disc (10) and a plunger (11), wherein the support rod (2) is arranged in the middle of the upper surface of the base (1), the first support (3) is arranged in the middle of the support rod (2), a plurality of first clamping rings (5) are arranged on the first support (3), one container (4) is arranged in each first clamping ring (5), the second support (6) is arranged on the upper part of the support rod (2), a plurality of second clamping rings (17) which are in one-to-one correspondence with the first clamping rings (5) are arranged on the second support (6), one quantitative barrel (7) is movably arranged in each second clamping ring (17), the upper part of the quantitative barrel (7) is cylindrical, the lower part of the quantitative barrel is conical, the conical part is divided into a plurality of pieces along the conical part to form an openable and automatically closed outlet, the second support (6) is arranged on the upper part of the support rod (2) and is communicated with the guide pipe (9) at one end of the storage bin (8) through the guide pipe (9), the utility model discloses a quantitative storage device, including disc (10), plunger, stopper cap, plunger, stopper cap, plunger cap, stopper cap, plunger (11) is located on the outer wall of storage bin (8) disc (10) cover all is equipped with through-hole (13) in the position that corresponds with every ration section of thick bamboo (7) on disc (10), in through-hole (13) the upper end of plunger (11) is equipped with plunger cap (12) for prevent to drop from through-hole (13).

2. The glass bead quantitative sampling device according to claim 1, wherein: the quantitative barrel (7) is detachably connected with the guide pipe (9) so as to facilitate replacement of the quantitative barrel (7) with the same diameter and different lengths according to different needs.

3. The glass bead quantitative sampling device according to claim 1, wherein: the plungers (11) are sleeved with springs (15), and the springs (15) are located between the plunger caps (12) and the discs (10) and used for resetting the plungers (11).

4. A glass bead quantitative sampling device according to claim 3, wherein: a counter (14) is arranged at each through hole (13) on the disc (10) and is used for metering the number of times of pressing the plunger (11).

5. The glass bead quantitative sampling device according to claim 1, wherein: a fan wheel (16) is arranged in the storage bin (8) and is used for pushing the glass beads into the guide pipe (9) through rotation.

6. The glass bead quantitative sampling device according to claim 1, wherein: the first support (3) is movably arranged in the middle of the supporting rod (2), and the distance from the first support (3) to the quantitative barrel (7) can be adjusted after the container (4) and the quantitative barrel (7) are installed, so that glass beads are prevented from splashing due to the fact that the distance between the container (4) and the quantitative barrel (7) is too far.

7. The glass bead quantitative sampling device according to claim 1, wherein: the base (1) is a metal base, the supporting rod (2) is a metal rod, the first support (3) and the second support (6) are metal frames, the quantifying cylinder (7) is a metal measuring cylinder, the storage bin (8) is a metal storage bin, the guide pipe (9) is a metal guide pipe and the disc (10) is a metal disc, so that glass beads are prevented from being blocked due to static electricity.