CN113926325A

CN113926325A - Laboratory is with two powder jars powder mixer

Info

Publication number: CN113926325A
Application number: CN202010660612.9A
Authority: CN
Inventors: 王小荣; 魏昊男; 陈建伟
Original assignee: Lanzhou Jiaotong University
Current assignee: Lanzhou Jiaotong University
Priority date: 2020-07-10
Filing date: 2020-07-10
Publication date: 2022-01-14

Abstract

A laboratory double-powder-tank powder mixer. The invention aims to solve the problems that the mixed powder for the laboratory is difficult to mix uniformly, the mixing efficiency is low, the cost is high and the single-time mixed powder amount is small at present. The device includes base, motor, main rotation axis, base station, motor casing, vice rotation axis, connecting piece, powder jar, powder cover, sealing member, screw: the motor be located the base and drive the rotation of main rotation axis, main rotation axis passes through bolted connection with the base station, the motor casing passes through bolted connection with the base station, the motor is placed and is driven vice rotation axis rotation in the motor casing, the connecting piece welding is in powder jar relevant position, the connecting piece passes through threaded connection with vice rotation axis, powder jar passes through threaded connection with the powder jar lid, be equipped with the sealing member between powder jar and powder jar lid. The invention can obtain the double-powder-tank powder mixer for the laboratory.

Description

Laboratory is with two powder jars powder mixer

Technical Field

The invention relates to a powder mixer, in particular to a double-powder-tank powder mixer for a laboratory.

Background

At present, mixed powder is an important raw material for scientific research experiments in laboratories, but the powder is not mixed uniformly and is low in efficiency due to the limitation of hardware conditions, the single powder mixing amount is small, and the powder mixing cost can be greatly improved by purchasing a powder mixer to perform powder mixing operation.

Disclosure of Invention

The invention mainly aims to solve the problems that the mixed powder is difficult to mix uniformly in the laboratory at present, the mixing efficiency is low, the single powder mixing amount is small, and the cost is high, and provides a double-powder-tank powder mixer for the laboratory.

A laboratory is with two powder jar powder blenders includes base, motor, main rotation axis, base station, motor casing, vice rotation axis, connecting piece, powder jar lid, sealing member, screw.

The motor be located the base, the motor links to each other with main rotation axis and drives its rotation, main rotation axis passes through screwed connection with the base station, the motor casing passes through screwed connection with the base station, the motor is placed and is driven vice rotation axis rotation in the motor casing, the connecting piece welding is in powder jar relevant position, threaded connection is passed through with vice rotation axis to the connecting piece, powder jar passes through threaded connection with the powder jar lid, be equipped with the sealing member between powder jar and powder jar lid and seal.

The principle and the advantages of the invention are as follows:

the invention provides a high-efficiency and low-cost powder mixer for a laboratory, and solves the problems that the mixed powder for the laboratory is difficult to mix uniformly, the mixing efficiency is low, the single powder mixing amount is small, and the cost is high.

The double-powder-tank powder mixer for the laboratory can realize two-shaft rotation, so that the uniformity of mixed powder is improved, and the powder mixing efficiency is improved.

The screw thread rotating direction of the connecting piece and the auxiliary rotating shaft of the double-powder-tank powder mixing machine for the laboratory is the same as the rotating direction of the auxiliary rotating shaft, so that the connecting piece and the auxiliary rotating shaft can be prevented from loosening in the powder mixing process, and the smooth powder mixing process is ensured.

Fourthly, according to the laboratory double-powder-tank powder mixer, the sealing element is additionally arranged between the powder tank and the powder tank cover, so that impurities are prevented from entering and powder is prevented from overflowing, and the cleanliness of mixed powder is guaranteed.

And fifthly, all detachable connecting parts of the double-powder-tank powder mixer for the laboratory are connected through screws and threads, so that the operation is simple and convenient, and the connection is stable.

The two powder tanks are designed in the double-powder-tank powder mixing machine for the laboratory, the two powder tanks can be used for mixing powder simultaneously, the single powder mixing amount is increased, and the mixing efficiency is further improved.

And seventhly, the double-powder-tank powder mixer for the laboratory selects the nitrile rubber as the material of the sealing element, so that the manufacturing cost is low, and the cost is reduced.

The invention can obtain the double-powder-tank powder mixer for the laboratory.

Drawings

Fig. 1 is a schematic structural diagram of a laboratory double-powder-tank powder mixer according to a first embodiment.

Fig. 2 is a schematic structural diagram of a base according to a first embodiment.

Fig. 3 is a schematic structural diagram of a main rotating shaft according to a first embodiment.

Fig. 4 is a schematic structural diagram of a base station according to the first embodiment.

Figure 5 is a structural schematic diagram of an isometric view of an abutment according to a first embodiment.

Fig. 6 is a schematic structural diagram of a motor casing according to a first embodiment.

Fig. 7 is a schematic structural diagram of the secondary rotating shaft according to the first embodiment.

Fig. 8 is a schematic top view of a connector according to one embodiment.

Figure 9 is a structural schematic drawing in isometric view of a connector according to a first embodiment.

Fig. 10 is a schematic structural diagram of a powder tank according to a first embodiment.

Fig. 11 is a schematic structural view of a powder container cover according to the first embodiment.

Fig. 12 is a schematic structural diagram of a sealing member according to the first embodiment.

Detailed Description

The first embodiment is as follows: the embodiment is a laboratory is with two powder jar powder blenders including base 1, motor 2, main rotation axis 3, base platform 4, motor casing 5, vice rotation axis 6, connecting piece 7, powder jar 8, powder jar lid 9, sealing member 10, screw 11.

Motor 2 be located base 1, motor 2 links to each other with main rotation axis 3 and drives its rotation, main rotation axis 3 passes through screw 11 with base station 4 and is connected, motor casing 5 passes through screw 11 with base station 4 and is connected, motor 2 places and drives vice rotation axis 6 rotation in motor casing 5, the welding of connecting piece 7 is in 8 relevant positions of powder jar, connecting piece 7 passes through threaded connection with vice rotation axis 6, powder jar 8 passes through threaded connection with powder jar lid 9, be equipped with sealing member 10 between powder jar 8 and powder jar lid 9 and seal.

The second embodiment is as follows: the present embodiment differs from the first embodiment in that: the thread direction of the connecting piece 7 and the auxiliary rotating shaft 6 is the same as the rotating direction of the auxiliary rotating shaft 6. The rest is the same as the first embodiment.

The third concrete implementation mode: the present embodiment is different from the first or second embodiment in that: the thread direction of the connecting piece 7 and the auxiliary rotating shaft 6 is the same as the rotating direction of the auxiliary rotating shaft 6. The others are the same as in the first or second embodiment.

The fourth concrete implementation mode: the present embodiment differs from the first to third embodiments in that: the motor shell 5 and the base 4 are connected and fixed through screws 11. The others are the same as the first to third embodiments.

The fifth concrete implementation mode: the present embodiment differs from the first to fourth embodiments in that: the connecting piece 7 is connected and fixed with the powder tank 8 through welding. The rest is the same as the first to fourth embodiments.

The sixth specific implementation mode: the present embodiment differs from the first to fifth embodiments in that: the powder tank 8 is connected with the powder tank cover 9 through threads and sealed through a sealing piece 10. The rest is the same as the first to fifth embodiments.

The seventh embodiment: the present embodiment differs from the first to sixth embodiments in that: the connecting piece 7, the powder tank 8 and the powder tank cover 9 are made of metal materials; the metal material is 45# steel. The rest is the same as the first to sixth embodiments.

The specific implementation mode is eight: the present embodiment differs from the first to seventh embodiments in that: the sealing element 10 is made of nitrile rubber. The rest is the same as the first to seventh embodiments.

The specific implementation method nine: the present embodiment differs from the first to eighth embodiments in that: the screw 11 is a standard component. The others are the same as the first to eighth embodiments.

Claims

1. A laboratory is with two powder jar powder blenders, characterized by that a laboratory is with two powder jar powder blender bases (1), the motor (2), the main rotating shaft (3), the base station (4), the motor casing (5), the auxiliary rotating shaft (6), the link (7), the powder jar (8), the powder pot lid (9), the sealing member (10), the screw (11); motor (2) be located base (1), motor (2) link to each other with main rotation axis (3) and drive it and rotate, main rotation axis (3) are connected through screw (11) with base station (4), motor casing (5) are connected through screw (11) with base station (4), motor (2) are placed and are driven vice rotation axis (6) and rotate in motor casing (5), connecting piece (7) welding is in powder jar (8) relevant position, threaded connection is passed through with vice rotation axis (6) in connecting piece (7), powder jar (8) pass through threaded connection with powder jar lid (9), it seals to be equipped with sealing member (10) between powder jar (8) and powder jar lid (9).

2. The laboratory double powder tank powder mixer according to claim 1, wherein the screw thread direction of the connecting piece (7) and the auxiliary rotating shaft (6) is the same as the rotating direction of the auxiliary rotating shaft (6).

3. The laboratory double powder tank powder mixer according to claim 1, wherein the main rotating shaft (3) and the base (4) are connected and fixed by screws (11).

4. The laboratory double powder tank powder mixer according to claim 1, wherein the motor housing (5) and the base (4) are connected and fixed by screws (11).

5. The laboratory double powder tank powder mixer according to claim 1, characterized in that the connecting piece (7) is connected and fixed with the powder tank (8) by welding.

6. The laboratory double powder tank powder mixer as claimed in claim 1, characterized in that the powder tank (8) and the powder tank cover (9) are connected by screw thread and sealed by a sealing member (10).

7. The laboratory double-powder-can powder mixing machine as claimed in claim 1, wherein the connecting piece (7), the powder can (8) and the powder can cover (9) are made of metal materials; the metal material is 45# steel.

8. The laboratory double-powder-can powder mixer according to claim 1, wherein the material of the sealing member (10) is nitrile rubber.

9. The laboratory double powder tank powder mixer according to claim 1, characterized in that the screws (11) are standard parts.