CN210154865U - Paint vehicle mixes material sampling device for cauldron - Google Patents

Abstract

The utility model discloses a sampling device for a paint mixing kettle, which comprises a material taking part and a baffle part which is rotationally connected with the top; the bottom of the baffle piece contacts the top of the material taking piece; the material taking part is provided with a plurality of material taking runners, and each material taking runner is provided with a top runner opening and a bottom runner opening; the top runner port is positioned at the top of the material taking part, and the bottom runner port is positioned at the bottom of the material taking part; the baffle piece is provided with a feeding hole matched with the top runner port; the bottom runner openings are communicated with a discharge pipe, and valves are arranged on the discharge pipe; the top fixedly connected with first handspike of shelves spare, the lateral wall of getting the material spare is the upwards fixedly connected with second handspike. The device is simple in structure, easy to operate, high in practicability and suitable for sampling of various chemical reaction kettles.

Description

Paint vehicle mixes material sampling device for cauldron

Technical Field

The utility model relates to a paint vehicle mixes sampling device for the material cauldron, what especially relate to is a paint vehicle mixes sampling device for the material cauldron.

Background

Paints, such as aqueous latex paints, are primarily decorative. The production process of the paint vehicle comprises mixing, namely mixing and dissolving materials for preparing the paint vehicle, including solid materials and liquid materials.

The compounding is gone on in the compounding cauldron, and the compounding in-process needs carry out continuous sample observation to the material, observes the dissolution condition of material.

The material part of getting that prior art disclosed once only can carry out single sample, once only can't carry out a plurality of samples to the material. In the preparation process of the paint vehicle, materials with different liquid level heights need to be sampled, and the dissolution and dispersion conditions of the materials are judged by observing the solubility of the materials with different liquid level heights.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a paint vehicle mixes material sampling device for cauldron is provided.

The utility model discloses a solve above-mentioned technical problem through following technical scheme:

a sampling device for a paint mixing kettle comprises a material taking part and a baffle part which is rotatably connected to the top of the material taking part;

the bottom of the baffle piece contacts the top of the material taking piece;

the material taking part is provided with a plurality of material taking runners, and each material taking runner is provided with a top runner opening and a bottom runner opening;

the top runner port is positioned at the top of the material taking part, and the bottom runner port is positioned at the bottom of the material taking part;

the baffle piece is provided with a feeding hole matched with the top runner port;

the bottom runner openings are communicated with a discharge pipe, and valves are arranged on the discharge pipes;

the top of the baffle piece is fixedly connected with a first hand lever, and the outer side wall of the material taking piece is fixedly connected with a second hand lever upwards.

Preferably, the cross section of the material taking part is octagonal, and the cross section of the baffle part is octagonal;

the cross section area of the baffle piece is larger than that of the material taking piece;

the top center of the material taking part is rotatably connected with the baffle part through a connecting part.

Preferably, the connector comprises a short column, a chuck is fixedly connected to the top of the short column, and the radius of the chuck is larger than that of the short column;

an assembly groove matched with the short column is formed in the center of the top of the material taking part, and the bottom of the short column is welded to the bottom of the assembly groove;

the top of the short column protrudes out of the top of the material taking part;

the center of the bottom of the baffle piece is provided with a groove matched with the connecting piece;

the groove comprises a cylindrical cavity matched with the short column and a disc-shaped cavity matched with the chuck;

the disc-shaped cavity is positioned at the top of the cylindrical cavity, and the disc-shaped cavity are integrally formed;

the upper end of the short column is located in the cylindrical cavity, the chuck is located in the disc-shaped cavity, and the chuck is limited by the disc-shaped cavity.

Preferably, 8 material taking flow channels are formed in the material taking part.

Preferably, the 8 material taking flow channels are symmetrically distributed on the material taking part in an annular mode by taking the central axis of the material taking part as a symmetric distribution line.

Preferably, the material taking flow passage comprises a first flow passage cavity, a spherical cavity and a second flow passage cavity;

the top runner port of the first runner cavity is positioned at the top of the material taking part;

the first flow channel cavity is communicated with the spherical cavity downwards, the spherical cavity is communicated with the second flow channel cavity downwards, and a flow channel opening at the bottom of the second flow channel cavity is positioned at the bottom of the material taking part;

and a bottom runner opening of the second runner cavity is communicated with a discharge pipe.

Preferably, the spherical cavity is spherical in shape, and the first flow passage cavity and the second flow passage cavity are cylindrical in shape;

the spherical radius of the spherical cavity is larger than the column radius of the first flow passage cavity;

the first flow passage chamber has a cylindrical radius greater than a cylindrical radius of the second flow passage chamber.

Preferably, a first hand lever is welded at the center of the top of the baffle piece, the first hand lever faces upwards, and a handle is welded at the top of the first hand lever;

get the ascending fixedly connected with second hand lever of right side wall of material spare, the top welding of second hand lever has the bracelet.

Preferably, the inner diameter of the feeding hole is smaller than that of the first runner cavity.

Compared with the prior art, the utility model has the following advantages:

the top center of getting the material piece is passed through the connecting piece and is connected with separating the shelves piece rotation, realizes separating the top runner mouth coincidence that the material inlet hole on the shelves piece constantly got the material runner, staggers, and then realizes a plurality of samples of disposable, and can classify the sample to the material of different liquid levels. The device solves the problems in the prior art that: the disposable single sample that can only carry out, once only can not carry out a plurality of samplings to the material. The technical problem that materials with different liquid level heights can not be classified and sampled in the preparation process of the paint vehicle is solved.

The device is simple in structure, easy to operate, high in practicability and suitable for sampling of various chemical reaction kettles.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is another perspective view of the embodiment of the present invention shown in fig. 1;

fig. 3 is a diagram of the position relationship between the material taking flow passage and the material taking member in the embodiment of the present invention;

FIG. 4 is a view showing the connection between the material-taking member and the blocking member according to the embodiment of the present invention;

FIG. 5 is a schematic structural view of a groove and a baffle member according to an embodiment of the present invention;

fig. 6 is a schematic plane structure diagram of a sampling device for a paint mixing kettle according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in detail below, and the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1-6, a sampling device for a paint mixing kettle comprises a material taking part 1 and a baffle part 2 which is rotatably connected to the top; the bottom of the baffle member 2 is in close contact with the top of the taking member 1. The material of the baffle piece 2 flows into the material taking piece 1 from the baffle piece 2 by rotating, the baffle piece 2 is rotated again, and the material taking piece 1 is sealed by the baffle piece 2.

The material taking part 1 and the baffle part 2 have the following specific structures:

the cross section of the material taking part 1 on the material taking part 1 is octagonal (namely the material taking part 1 is an octagonal column), and the cross section of the baffle piece 2 is octagonal (namely the baffle piece 2 is an octagonal baffle plate). The cross-sectional area of the dam 2 is larger than that of the taking member 1, and therefore, the dam 2 completely covers the top of the taking member 1.

Get and to offer 8 on the material 1 and get material runner 12 (get the marginal part that material runner 12 is close to getting material 1, 8 get material runner 12 and use the central axis of getting material 1 as the symmetric distribution line, the annular symmetric distribution is getting on material 1).

In the material taking process, the material (liquid) enters the material taking flow passage 12. The material taking flow channel 12 is provided with a top flow channel opening and a bottom flow channel opening; the top runner port is positioned at the top of the material taking part 1, and the bottom runner port is positioned at the bottom of the material taking part 1.

Specifically, each of the take-out runners 12 includes a vertical first runner cavity 122 (the first runner cavity 122 is cylindrical in shape), a spherical cavity 121 (the spherical cavity 121 is spherical in shape), and a vertical second runner cavity 123 (the second runner cavity 123 is cylindrical in shape)).

The top runner port of the first runner cavity 122 is positioned at the top of the material taking part 1; the first flow channel cavity 122 is communicated with the spherical cavity 121 downwards, the spherical cavity 121 is communicated with the second flow channel cavity 123 downwards, and the bottom flow channel opening of the second flow channel cavity 123 is positioned at the bottom of the material taking part 1.

A discharge pipe 14 is connected to the bottom runner port of each second runner chamber 123 downward (the discharge pipe 14 is provided with a valve).

The spherical cavity 121 (for storing materials), the first flow passage cavity 122 and the second flow passage cavity 123 have the following size relations:

the spherical radius of the spherical chamber 121 is larger than the cylindrical radius of the first flow path chamber 122; the cylindrical radius of the first runner chamber 122 is larger than that of the second runner chamber 123 (the length of the first runner chamber 122 is larger than that of the second runner chamber 123).

Correspondingly, a feeding hole 21 matched with the top runner opening is formed in the baffle piece 2 (the feeding hole 21 is close to the edge part of the baffle piece 2). The baffle member 2 is rotated until the material inlet 21 coincides with the top runner port (the inner diameter of the material inlet 21 is smaller than that of the first runner cavity 122), so that the material enters the material taking runner 12, and the baffle member 2 is rotated until the material inlet 21 staggers the top runner port, so that the material taking runner 12 is sealed.

The baffle piece 2 and the material taking piece 1 rotate in the following way:

the top center of the material taking part 1 is rotatably connected with the baffle part 2 through a connecting part 13. The method comprises the following steps: the connecting piece 13 comprises a short column 132 (the center of the top of the material taking part 1 is provided with an assembly groove (not marked in the figure) matched with the short column 132, the bottom of the short column 132 is welded on the groove bottom of the assembly groove), the top of the short column 132 is fixedly connected with a chuck 131 (the top of the short column 132 protrudes out of the top of the material taking part 1, namely the short column 132 is higher than the groove opening of the assembly groove), and the disc radius of the chuck 131 is larger than the column radius of the short column 132.

Correspondingly, the bottom center of the baffle piece 2 is provided with a groove 23 matched with the connecting piece 13, and the shape of the groove 23 corresponds to the shape of the connecting piece 13.

Specifically, the groove 23 includes a cylindrical cavity 231 (at the bottom) that mates with the stub 132 and a disc-shaped cavity 232 that mates with the chuck 131; a disc-shaped cavity 232 is located at the top of the cylindrical cavity 231, and the disc-shaped cavity 232 are integrally formed to form a groove 23.

The upper end of the stud 132 is located in the column-shaped cavity 231 (because the top of the stud 132 protrudes out of the top of the material taking member 1, i.e. the stud 132 is higher than the notch of the assembly groove), the chuck 131 is located in the disc-shaped cavity 232, and the disc-shaped cavity 232 limits the chuck 131.

Since the radius of the chuck 131 is larger than the column radius of the stub 132, the chuck 131 cannot be separated from the stopper 2 at the limit of the disc-shaped cavity 232.

Through above-mentioned device, separate the top that shelves piece 2 closely laminated getting material 1, simultaneously, separate shelves piece 2 and can rotate.

A first hand lever 22 is welded at the center of the top of the baffle 2, the first hand lever 22 faces upwards, and a handle is welded at the top of the first hand lever 22; simultaneously, get the ascending fixedly connected with second handle bar 11 of right side wall of material 1, the top welding of second handle bar 11 has the bracelet.

The working principle and the process are as follows:

when the material in the mixing kettle needs to be sampled, the whole part of the mixing kettle is vertically arranged below the feeding port to the liquid level. An operator holds the handle at the top of the first hand lever 22 with one hand and the bracelet at the top of the second hand lever 11 with the other hand, at this time, the handle is rotated to drive the first hand lever 22, the first hand lever 22 drives the blocking piece 2 to rotate until the material inlet 21 coincides with the top runner opening of the material taking runner 12 (the inner diameter of the material inlet 21 is smaller than that of the first runner cavity 122), so that the material enters the material taking runner 12, the blocking piece 2 is continuously rotated until the material inlet 21 is staggered from the top runner opening, and the material taking runner 12 is sealed.

The whole device is pulled upwards to the next liquid level, the device continues to rotate according to the same rotating direction until the material inlet 21 is overlapped with the top runner opening of the next material taking runner 12, and the material enters the material taking runner 12.

According to the above operation mode, 8 different liquid level material samples are realized.

The material enters the material taking flow passage 12, and the spherical cavity 121 stores a large amount of material. After sampling, the whole device is taken out, and a valve on a discharge pipe 14 communicated with the bottom of each taking flow channel 12 is opened to discharge the materials from the taking part 1.

The advantage of adopting above-mentioned design lies in:

the top center of the material taking part 1 is rotatably connected with the baffle part 2 through the connecting part 13, so that the top runner ports of the material inlet 21 on the baffle part 2 continuously taking the material runner 12 are overlapped and staggered, one-time multiple sampling is realized, and classified sampling can be performed on materials with different liquid levels.

The device solves the problems in the prior art that: the disposable single sample that can only carry out, once only can not carry out a plurality of samplings to the material. The technical problem that materials with different liquid level heights can not be classified and sampled in the preparation process of the paint vehicle is solved.

The device is simple in structure, easy to operate, high in practicability and suitable for sampling of various chemical reaction kettles.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. A sampling device for a paint mixing kettle is characterized by comprising a material taking part and a baffle part which is rotatably connected to the top;

the bottom of the baffle piece contacts the top of the material taking piece;

the material taking part is provided with a plurality of material taking runners, and each material taking runner is provided with a top runner opening and a bottom runner opening;

the top runner port is positioned at the top of the material taking part, and the bottom runner port is positioned at the bottom of the material taking part;

the baffle piece is provided with a feeding hole matched with the top runner port;

the bottom runner openings are communicated with a discharge pipe, and valves are arranged on the discharge pipes;

the top of the baffle piece is fixedly connected with a first hand lever, and the outer side wall of the material taking piece is fixedly connected with a second hand lever upwards.

2. The paint mixing kettle sampling device according to claim 1, wherein the cross-sectional shape of the material taking member is an octagon, and the cross-sectional shape of the baffle member is an octagon;

the cross section area of the baffle piece is larger than that of the material taking piece;

the top center of the material taking part is rotatably connected with the baffle part through a connecting part.

3. The paint mixing kettle sampling device according to claim 2, wherein the connector comprises a short column, a chuck is fixedly connected to the top of the short column, and the radius of the chuck is larger than that of the short column;

an assembly groove matched with the short column is formed in the center of the top of the material taking part, and the bottom of the short column is welded to the bottom of the assembly groove;

the top of the short column protrudes out of the top of the material taking part;

the center of the bottom of the baffle piece is provided with a groove matched with the connecting piece;

the groove comprises a cylindrical cavity matched with the short column and a disc-shaped cavity matched with the chuck;

the disc-shaped cavity is positioned at the top of the cylindrical cavity, and the disc-shaped cavity are integrally formed;

the upper end of the short column is located in the cylindrical cavity, the chuck is located in the disc-shaped cavity, and the chuck is limited by the disc-shaped cavity.

4. The sampling device for the paint mixing kettle according to claim 2, wherein the material taking part is provided with 8 material taking flow passages.

5. The sampling device for the paint mixing kettle according to claim 4, wherein the 8 material taking flow passages are annularly and symmetrically distributed on the material taking part by taking the central axis of the material taking part as a symmetrical distribution line.

6. The paint mixing kettle sampling device according to claim 5, wherein the material taking flow passage comprises a first flow passage cavity, a spherical cavity and a second flow passage cavity;

the top runner port of the first runner cavity is positioned at the top of the material taking part;

the first flow channel cavity is communicated with the spherical cavity downwards, the spherical cavity is communicated with the second flow channel cavity downwards, and a flow channel opening at the bottom of the second flow channel cavity is positioned at the bottom of the material taking part;

and a bottom runner opening of the second runner cavity is communicated with a discharge pipe.

7. The paint mixing kettle sampling device according to claim 6, wherein the spherical cavity is spherical in shape, and the first flow passage cavity and the second flow passage cavity are cylindrical in shape;

the spherical radius of the spherical cavity is larger than the column radius of the first flow passage cavity;

the first flow passage chamber has a cylindrical radius greater than a cylindrical radius of the second flow passage chamber.

8. The paint mixing kettle sampling device according to claim 1, wherein a first hand lever is welded at the center of the top of the baffle piece, the first hand lever faces upwards, and a handle is welded at the top of the first hand lever;

get the ascending fixedly connected with second hand lever of right side wall of material spare, the top welding of second hand lever has the bracelet.

9. The paint mixing kettle sampling device according to claim 7, wherein the inner diameter of the inlet hole is smaller than the inner diameter of the first flow channel cavity.

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