CN212681299U - Diamond micropowder takes out material auxiliary device - Google Patents

Abstract

The utility model relates to a diamond micro-powder pumping auxiliary device, which comprises a first material cylinder, a second material cylinder and a material pipe, wherein the first material cylinder and the second material cylinder are both of barrel-shaped structures with open upper ends, and the first material cylinder and the second material cylinder are communicated through the material pipe; the material pipe comprises a lifting section and a lower sliding section which are integrally formed, the section of the lifting section is ✓ -shaped, one end of the lifting section is opened to form a feeding hole, the lifting section is communicated with the lower sliding section in sequence, the section of the lifting section is inverted V-shaped after the lifting section is connected with the lower sliding section, and one end of the lower sliding section is opened to form a discharging hole; vertical height L of the lifting section₁Less than downslideVertical height L of the segments₂The material inlet of the lifting section is provided with a first slow flow part, the first slow flow part is arranged in the first material cylinder, the material outlet of the lower sliding section is provided with a second slow flow part, and the second slow flow part is arranged in the second material cylinder. The utility model discloses simple structure can guarantee to take out the stability when expecting to reduce the fluctuation of miropowder granule, improve and subside hierarchical effect.

Description

Diamond micropowder takes out material auxiliary device

Technical Field

The utility model relates to a diamond micropowder preparation technical field especially relates to a diamond micropowder takes out material auxiliary device.

Background

Diamond micropowder is used as a fine superhard grinding material, and is generally prepared by crushing, shaping, grading, treating and other procedures of artificial diamond in a preparation process, wherein settling, pumping and separating are required for finished products of the diamond micropowder after passing through a separator, namely micropowder particles floating in a diamond micropowder mixed solution in one cylinder are pumped into the other cylinder through a pumping pipe to realize natural settling of the micropowder particles.

Adopt the material pumping pipe to take out the material operation among the prior art, it extracts miropowder through the siphon effect, and the suction size is difficult to control so that the solution of material pumping pipe orifice department easily receives undulant, makes the miropowder granule that subsides originally to be general again during the operation, and then the material can not effectually be collected, still influences the quality of the mixed liquid of taking out simultaneously. Therefore, the auxiliary device for drawing the diamond micro powder is provided.

Disclosure of Invention

The utility model discloses a solve the tradition and take out the problem that the material impact force is big, easily arouse micro powder granule undulant once more, provide a diamond micropowder and take out material auxiliary device, can guarantee to take out the stability when expecting to reduce micro powder granule's fluctuation, improve and subside hierarchical effect.

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

a diamond micro powder pumping auxiliary device comprises a first charging barrel, a second charging barrel and a material pipe, wherein the first charging barrel and the second charging barrel are both of barrel-shaped structures with open upper ends, and the first charging barrel is communicated with the second charging barrel through the material pipe;

the material pipe comprises a lifting section and a lower sliding section which are integrally formed, the section of the lifting section is ✓ -shaped, one end of the lifting section is opened to form a feeding hole, the lifting section is communicated with the lower sliding section in sequence, the section of the lifting section is inverted V-shaped after the lifting section is connected with the lower sliding section, and one end of the lower sliding section is opened to form a discharging hole;

vertical height L of the lifting section₁Is less than the vertical height L of the lower slide₂The material inlet of the lifting section is provided with a first slow flow part, the first slow flow part is arranged in the first material cylinder, and the lower sliding sectionA second flow retarding piece is arranged at the discharge port and is arranged in the second charging barrel.

Furthermore, the material pipe is of a glass tubular structure, the upper edges of the first material cylinder and the second material cylinder are respectively contacted with the material pipe to support, and the lifting section and the lower sliding section are in arc smooth transition connection.

Further, be provided with the handle on the material pipe, the handle includes two interval distribution's ring portion and connects the portion of pulling of two ring portions, ring portion cover is established on the material pipe, and ring portion and material pipe closely laminate.

Furthermore, the first flow slowing part and the second flow slowing part both comprise hollow flow slowing cylinders, the first flow slowing part further comprises an annular grid plate, and the second flow slowing part further comprises an annular filter plate.

Furthermore, the section of the slow flow cylinder is in a convex shape, and the slow flow cylinder is sleeved at the feed inlet and the discharge outlet of the material pipe respectively;

the section of the annular grating is in a shape of a circular ring grid, and the annular grating is clamped in the slow flow cylinder of the first slow flow part;

the annular filter plate is in a spherical filter plate shape, and the annular filter plate is clamped in the slow flow cylinder of the slow flow part II.

Further, the number of the annular grating plates and the number of the annular filter plates are at least one.

Through the technical scheme, the beneficial effects of the utility model are that:

the utility model has the advantages of reasonable design, diamond micropowder solution is through siphon effect accessible material pipe from feed cylinder one-class to feed cylinder two, and the connection can be dismantled with the material pipe to the unhurried current piece one and the unhurried current piece two of setting, and the operation is used conveniently, and the cooperation handle can be to getting of material pipe better getting put.

The annular grid plate at the feed inlet of the material pipe plays a role in eliminating swirling, so that the solution can be prevented from generating swirling and further generating fluctuation, and the quality of the extracted mixed liquid is improved; the annular filter plate at the discharge port of the material pipe plays a role in buffering, weakens the fluctuation generated by the outflow of the solution, prevents the micro powder which is originally settled from being splashed again, improves the grading settlement rate of the micro powder, and has good practicability.

Drawings

Fig. 1 is the overall structure schematic diagram of the diamond micro powder pumping auxiliary device of the utility model.

Fig. 2 is a material pipe schematic diagram of the diamond micro powder pumping auxiliary device of the utility model.

Fig. 3 is a cross-sectional view of a first flow slowing part of the diamond micro-powder pumping auxiliary device.

Fig. 4 is a sectional view of a second flow slowing member of the diamond micro powder pumping auxiliary device of the utility model.

The reference numbers in the drawings are as follows: the filter comprises a material barrel I1, a material barrel II 2, a material pipe 3, a lifting section 31, a sliding section 32, a slow flow piece I4, a slow flow piece II 5, a lifting handle 6, a slow flow barrel 7, an annular grid plate 8 and an annular filter plate 9.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings:

as shown in fig. 1 to 4, the diamond micro powder pumping auxiliary device comprises a first material cylinder 1, a second material cylinder 2 and a material pipe 3, wherein the first material cylinder 1 and the second material cylinder 2 are both of a barrel-shaped structure with an open upper end, and the first material cylinder 1 is communicated with the second material cylinder 2 through the material pipe 3;

the material pipe 3 comprises an integrally formed lifting section 31 and a lower sliding section 32, the section of the lifting section 31 is ✓ -shaped, one end of the lifting section 31 is opened to form a feeding hole, the lifting section 31 is communicated with the lower sliding section 32 in sequence, the section of the lifting section 31 is inverted V-shaped after the lifting section 31 is connected with the lower sliding section 32, one end of the lower sliding section 32 is opened to form a discharging hole, and the vertical height L of the lifting section 31₁Is less than the vertical height L of the lower slide 32₂；

In order to reduce the fluctuation of solution when taking out the material, prevent that the miropowder after subsiding from rising again, promote section 31 feed inlet department and be provided with slow flow piece one 4, slow flow piece one 4 is arranged in feed cylinder one 1, gliding section 32 discharge outlet department is provided with slow flow piece two 5, slow flow piece two 5 is arranged in feed cylinder two 2.

In this embodiment, the material tube 3 is a glass tube-shaped structure, the material pumping condition can be conveniently observed through transparent glass, the upper edges of the first material cylinder 1 and the second material cylinder 2 are respectively contacted with the material tube 3 to support, that is, the material tube 3 is supported through the upper edges of the first material cylinder 1 and the second material cylinder 2, and the lifting section 31 and the lower sliding section 32 are in arc smooth transition connection.

In order to facilitate taking and placing of the material pipe 3, a lifting handle 6 is arranged on the material pipe 3, the lifting handle 6 comprises two ring parts which are distributed at intervals and a lifting part which is connected with the two ring parts, the ring parts are sleeved on the material pipe 3, and the ring parts are tightly attached to the material pipe 3;

specifically, handle 6 adopts light rubber to make, and it has certain elastic deformation, and material pipe 3 props up ring portion and makes ring portion warp, and then both closely laminate, frictional force increase to guarantee that handle 6 is fixed on material pipe 3.

In this embodiment, the first slow flow part 4 and the second slow flow part 5 both include a hollow slow flow cylinder 7, the section of the slow flow cylinder 7 is in a shape like a Chinese character 'tu', the slow flow cylinder 7 is respectively sleeved at the feed inlet and the discharge outlet of the material pipe 3, the slow flow cylinder 7 is made of light rubber and has a certain elastic deformation, when the slow flow cylinder 7 is sleeved on the material pipe 3, the material pipe 3 supports the slow flow cylinder 7 to deform, so as to increase the contact force between the two parts and further realize fixation;

the first current-slowing part 4 further comprises an annular grating 8, the annular grating 8 is in a grid shape with a circular section, and the annular grating 8 is clamped in the current-slowing cylinder 7 of the first current-slowing part 4; the second flow slowing part 5 further comprises an annular filter plate 9, the annular filter plate 9 is in a spherical filter plate shape, and the annular filter plate 9 is clamped in the flow slowing cylinder 7 of the second flow slowing part 5.

In this embodiment, the quantity of annular check board 8 and annular filter plate 9 is two, annular check board 8 and annular filter plate 9 are rigid plastic and make, and its equal joint is in order to realize fixedly in slow flow section of thick bamboo 7, and annular check board 8 can prevent that the solution of material pipe 3 feed inlet department from producing the swirl, further reduces to take out the fluctuation that the material caused to solution, and annular filter plate 9 can play the cushioning effect, weakens the undulant in order to reduce solution of the impact that produces when the ejection of compact of material pipe 3, avoids the miropowder after subsiding to play again.

When the material pumping operation is carried out, the material pipe 3 is firstly placed at the upper edge of the material cylinder I1, one end of a feeding hole of the material pipe 3 is placed in the solution of the material cylinder I1, the slow flow piece I4 is placed in the solution of the material cylinder I1 at the moment, then air in the material pipe 3 is pumped out, one end of a discharging hole of the material pipe 3 is placed in the solution of the material cylinder II 2, and the slow flow piece II 5 is placed in the solution of the material cylinder II 2 at the moment; through the siphon action, the diamond micro powder solution can flow in from the feed inlet to the discharge outlet along the material pipe 3 in sequence, and the micro powder solution slowly flows in through the annular grid plate 8 and slowly flows out through the annular filter plate 9, so that the effect of micro powder natural sedimentation classification is achieved.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (6)

1. The diamond micro-powder pumping auxiliary device is characterized by comprising a first charging barrel (1), a second charging barrel (2) and a material pipe (3), wherein the first charging barrel (1) and the second charging barrel (2) are both of barrel-shaped structures with open upper ends, and the first charging barrel (1) is communicated with the second charging barrel (2) through the material pipe (3);

the material pipe (3) comprises a lifting section (31) and a lower sliding section (32) which are integrally formed, the section of the lifting section (31) is ✓ -shaped, one end of the lifting section (31) is opened to form a feeding hole, the lifting section (31) is communicated with the lower sliding section (32) in sequence, the section of the lifting section (31) is inverted V-shaped after the lifting section (31) is connected with the lower sliding section (32), and one end of the lower sliding section (32) is opened to form a discharging hole;

the vertical height L of the lifting section (31)₁Is less than the vertical height L of the lower slide (32)₂The material inlet of the lifting section (31) is provided with a first slow flow part (4), the first slow flow part (4) is arranged in the first material cylinder (1), the material outlet of the lower sliding section (32) is provided with a second slow flow part (5), and the second slow flow part (5) is arranged in the second material cylinder (2).

2. The diamond micropowder pumping auxiliary device according to claim 1, wherein the material pipe (3) is of a glass tubular structure, the upper edges of the first material cylinder (1) and the second material cylinder (2) are respectively contacted with the material pipe (3) for supporting, and the lifting section (31) and the lower sliding section (32) are in arc smooth transition connection.

3. The auxiliary device for pumping the diamond micropowder according to claim 2, wherein a handle (6) is arranged on the material pipe (3), the handle (6) comprises two ring parts distributed at intervals and a lifting part connected with the two ring parts, the ring parts are sleeved on the material pipe (3), and the ring parts are tightly attached to the material pipe (3).

4. The diamond micropowder pumping auxiliary device according to claim 1, wherein the first flow slowing part (4) and the second flow slowing part (5) comprise hollow flow slowing cylinders (7), the first flow slowing part (4) further comprises annular grid plates (8), and the second flow slowing part (5) further comprises annular filter plates (9).

5. The diamond micropowder pumping auxiliary device according to claim 4, wherein the cross section of the slow flow cylinder (7) is in a shape like a Chinese character 'tu', and the slow flow cylinder (7) is respectively sleeved at the feed inlet and the discharge outlet of the feed pipe (3);

the section of the annular grating plate (8) is in a shape of a circular ring grid, and the annular grating plate (8) is clamped in the slow flow cylinder (7) of the slow flow piece I (4);

the annular filter plate (9) is in a spherical filter plate shape, and the annular filter plate (9) is clamped in the slow flow cylinder (7) of the second slow flow part (5).

6. The diamond micropowder pumping aid device according to claim 5, characterized in that the number of the ring-shaped grating plate (8) and the ring-shaped filter plate (9) is at least one.

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