CN212523901U - Dispersion machine for producing conductive slurry - Google Patents

Abstract

The utility model discloses a dispenser of conducting slurry production usefulness, including the box, in the box upper end respectively perpendicular welding have an one-level support and two second grade supports, bolted connection has the motor on the one-level support, and rotates jointly on one-level support and the second grade support and install the one-level pivot, and fixed cover respectively in motor output end and the one-level pivot is equipped with the one-level gear and the second grade gear that the meshing is connected, fixes the cover respectively in one-level pivot and the second grade pivot and is equipped with tertiary gear and the level four gear that the meshing is connected. The utility model discloses a set up the (mixing) shaft by motor drive in the box to utilize tertiary gear and mounting panel setting to be by the towed filter box of reset spring activity on the second grade support, the one-level gear and second grade gear, tertiary gear and level four gear, the left and right sides that the filter box was realized to the driving half gear and driven half gear that connects through the meshing rocks, makes the conducting liquid realize abundant filtration purification under the combined action of (mixing) shaft and filter box.

Description

Dispersion machine for producing conductive slurry

Technical Field

The utility model relates to an electrically conductive thick liquid production technical field especially relates to a dispenser of electrically conductive thick liquid production usefulness.

Background

The conductive paste is a material which is obtained by uniformly adding a conductive powder to a binder and curing the mixture to form a conductor, and is used for the formation of electronic circuits, the formation of electrodes of electronic components, the extraction of lead terminals, the formation of circuit contacts, and the like. The conductive paste is roughly classified into a high-temperature sintering type in which glass frit is added to a binder, a low-temperature sintering type in which a synthetic resin binder is used, and a UV curing type in which curing is performed by ultraviolet irradiation.

However, in the conventional production technology, a large amount of solid impurities are easily doped in the conductive slurry, and the conductive slurry contains a high-component adhesive, so that the conductive slurry becomes a fluid with a strong adhesive degree as a whole.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that is difficult to carry out high degree dispersion processing to conducting solution among the prior art, and the dispenser of a conducting slurry production usefulness that proposes.

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

a dispersion machine for producing conductive slurry comprises a box body, wherein a first-stage support and two second-stage supports are respectively and vertically welded in the upper end of the box body, a motor is connected onto the first-stage support through bolts, a first-stage rotating shaft is jointly rotatably installed on the first-stage support and the second-stage support, a second-stage rotating shaft and a third-stage rotating shaft are respectively rotatably installed on the second-stage support, a first-stage gear and a second-stage gear which are connected in a meshed mode are respectively and fixedly sleeved on the output end of the motor and the first-stage rotating shaft, a third-stage gear and a fourth-stage gear which are connected in a meshed mode are respectively and fixedly sleeved on the first-stage rotating shaft and the second-stage rotating shaft, a driving half gear and a driven half gear which are connected in a meshed mode are respectively and fixedly sleeved on the second-, and the output end of the motor is fixedly connected with a stirring shaft positioned in the filter box.

Preferably, two the secondary support corresponds and is located one-level support both sides, and the one-level pivot of level setting is located between one-level support and the secondary support on right side.

Preferably, the second-stage rotating shaft and the third-stage rotating shaft are respectively vertically and horizontally arranged on a second-stage support on the right side, and the first-stage gear, the second-stage gear, the third-stage gear and the fourth-stage gear are all bevel gears.

Preferably, the return springs are vertically arranged, and the lower ends of the two return springs are connected with one side of the filter box.

Preferably, the vertically arranged stirring shaft is rotatably positioned in the filter box.

Preferably, a feed inlet and a discharge outlet are respectively formed in the box body, and the feed inlet is positioned at the upper end of the box body corresponding to the filter box.

Compared with the prior art, the utility model discloses possess following advantage:

1. the utility model discloses set up the (mixing) shaft by motor drive in the box to set up horizontal distribution's tertiary pivot in the second grade support, through connecting horizontal mounting panel between tertiary pivot, so that install the filter box by the spacing support of reset spring activity on the mounting panel, and make the (mixing) shaft revolve the transfer in the filter box and move, in order to stir conducting liquid.

2. The utility model discloses a set up the one-level pivot in one-level support and second grade support, set up second grade pivot and tertiary pivot respectively in the second grade pivot, realize that the motor drives the filter box and carry out the horizontal rocking through the one-level gear that the meshing is connected and second grade gear, tertiary gear and level four gear, initiative half gear and driven half gear to dispersion operation to conducting liquid with higher speed.

To sum up, the utility model discloses a set up the (mixing) shaft by motor drive in the box to utilize tertiary gear and mounting panel setting to be by the towed filter box of reset spring activity on the second grade support, the one-level gear and second grade gear, tertiary gear and level four gear, initiative half-gear and driven half-gear that connect through the meshing realize the roll of filter box and rock, make conducting liquid realize abundant filtration purification under the combined action of (mixing) shaft and filter box.

Drawings

Fig. 1 is a schematic structural view of a dispersing machine for producing conductive slurry according to the present invention;

fig. 2 is an enlarged schematic view of a part a of the structure of a dispersing machine for producing conductive slurry according to the present invention;

fig. 3 is a schematic top view of a driving half gear and a driven half gear of a dispersing machine for conductive slurry production according to the present invention;

fig. 4 is the utility model provides a secondary support structure sketch map of dispenser of conducting slurry production usefulness.

In the figure: the device comprises a box body 1, a first-stage support 2, a second-stage support 3, a motor 4, a first-stage rotating shaft 5, a second-stage rotating shaft 6, a third-stage rotating shaft 7, a first-stage gear 8, a second-stage gear 9, a third-stage gear 10, a fourth-stage gear 11, a driving half gear 12, a driven half gear 13, a mounting plate 14, a return spring 15, a filter box 16, a stirring shaft 17, a feeding port 18 and a discharging port 19.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, a dispersion machine for conductive slurry production comprises a box body 1, a first-stage support 2 and two second-stage supports 3 are respectively vertically welded in the upper end of the box body 1, a motor 4 is bolted on the first-stage support 2, the motor 4 can adopt a servo motor with the product model of MR-J2S-500B, a first-stage rotating shaft 5 is rotatably mounted on the first-stage support 2 and the second-stage support 3, a second-stage rotating shaft 6 and a third-stage rotating shaft 7 are rotatably mounted on the second-stage support 3, it should be noted that bearings for sleeving the first-stage rotating shaft 5, the second-stage rotating shaft 6 and the third-stage rotating shaft 7 are respectively mounted in the first-stage support 2 and the second-stage support 3, a first-stage gear 8 and a second-stage gear 9 which are in meshing connection are respectively fixedly sleeved on the output end of the motor 4 and the first-stage rotating shaft 5, under the meshing transmission action of a first-stage gear 8 and a second-stage gear 9, a third-stage gear 10 and a fourth-stage gear 11, the driving of a third-stage rotating shaft 7 by a motor 4 is realized, specifically referring to the description of figure 3, a driving half gear 12 and a driven half gear 13 which are in meshing connection are respectively fixedly sleeved on the second-stage rotating shaft 6 and the third-stage rotating shaft 7, a mounting plate 14 is welded on the third-stage rotating shaft 7, the mounting plate 14 is transversely installed and can be overturned within the range of 50 degrees under the driving action of the third-stage rotating shaft 7, a return spring 15 is welded between the mounting plate 14 and a second-stage bracket 3, a filter box 16 is fixedly connected between the two mounting plates 14, under the driving action of the driving half gear 12 on the driven half gear 13, the third-stage rotating shaft 7 drives the filter box 16 to overturn through the mounting plate 14 so as to realize the stirring of the filter box 16 on conductive, it is noted that the upper end of the filter box 16 is open so that the filter box 16 does not interfere with the position of the stirring shaft 17 during the side-to-side shaking.

Two second grade supports 3 correspond and are located 2 both sides of one-level support, and the one-level pivot 5 of level setting is located between one-level support 2 and one second grade support 3 on right side, and the second grade support 3 concrete structure on right side is as explaining figure 4 to the installation to second grade pivot 6 and tertiary pivot 7.

The second-stage rotating shaft 6 and the third-stage rotating shaft 7 are respectively vertically and horizontally arranged on a second-stage support 3 on the right side, and the first-stage gear 8, the second-stage gear 9, the third-stage gear 10 and the fourth-stage gear 11 are all bevel gears.

Reset spring 15 sets up perpendicularly, and two reset spring 15 lower extremes are connected with filter box 16 one side, and reset spring 15 is tension spring, supports filter box 16 when overturning to push reset spring 15 when mounting panel 14, under reset spring 15's tension, can make filter box 16 reset fast to accomplish filter box 16's a motion.

A vertically disposed agitator shaft 17 is rotatably located within the filter box 16.

The box body 1 is respectively provided with a feeding hole 18 and a discharging hole 19, and the feeding hole 18 is positioned at the upper end of the box body 1 corresponding to the filter box 16 so as to facilitate the input and output of the conductive slurry.

The utility model discloses its functional principle is explained to following mode of operation of accessible:

conducting liquid to be subjected to dispersion processing is introduced into a filter box 16 in the machine body 1 through a feed port 18;

the motor 4 drives the stirring shaft 17 to rotate at a high speed in the filter box 16 so as to stir the conductive liquid in the filter box 17;

meanwhile, the output end of the motor 4 drives the first-stage rotating shaft 5 to rotate through a first-stage gear 8 and a second-stage gear 9 which are connected in a meshed mode, and the first-stage rotating shaft 5 drives the second-stage rotating shaft 6 to rotate through a third-stage gear 10 and a fourth-stage gear 11 which are connected in a meshed mode;

the secondary rotating shaft 6 drives the driving half gear 12 to rotate in the rotating process, and drives the driven half gear 13 and the tertiary rotating shaft 7 to rotate at an angle of 50 degrees in the circumferential direction through meshing connection in the rotating process;

the three-stage rotating shaft 7 drives the filter box 16 to turn over through the mounting plate 14 connected with the three-stage rotating shaft, the two return springs 15 are forced to extend, and after the driving half gear 12 and the driven half gear 13 are meshed, the filter box 16 is quickly reset under the tension of the return springs 15;

the full dispersion operation of the conductive liquid is realized under the combined action of the stirring shaft 17 and the filter box 16.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a dispenser of conducting slurry production usefulness, includes box (1), its characterized in that, there are one-level support (2) and two second grade supports (3) in box (1) upper end perpendicular welding respectively, bolted connection has motor (4) on one-level support (2), and rotates jointly on one-level support (2) and second grade support (3) and install one-level pivot (5), rotate respectively on second grade support (3) and install second grade pivot (6) and tertiary pivot (7), and on motor (4) output and one-level pivot (5) respectively fixed cover be equipped with one-level gear (8) and second grade gear (9) that the meshing is connected, on one-level pivot (5) and second grade pivot (6) respectively fixed cover be equipped with tertiary gear (10) and level four gear (11) that the meshing is connected, and on second grade pivot (6) and tertiary pivot (7) respectively fixed cover be equipped with initiative half gear (12) and driven half gear(s) (a) and (9) that the meshing is connected, (13) The welding has mounting panel (14) on tertiary pivot (7), and the welding has reset spring (15), two between mounting panel (14) and second grade support (3) fixedly connected with filter box (16) between mounting panel (14), and fixedly connected with (mixing) shaft (17) that are located filter box (16) on motor (4) output.

2. The disperser for producing conductive paste according to claim 1, wherein two said secondary supports (3) are correspondingly located at both sides of the primary support (2), and the horizontally arranged primary rotating shaft (5) is located between the primary support (2) and one secondary support (3) at the right side.

3. The disperser for producing conductive slurry according to claim 2, wherein the second-stage rotating shaft (6) and the third-stage rotating shaft (7) are respectively vertically and horizontally arranged on a right second-stage bracket (3), and the first-stage gear (8), the second-stage gear (9), the third-stage gear (10) and the fourth-stage gear (11) are all bevel gears.

4. The dispersing machine for producing conductive slurry according to claim 1, wherein the return springs (15) are vertically arranged, and the lower ends of the two return springs (15) are connected with one side of the filter box (16).

5. A disperser for the production of electrically conductive pastes according to claim 4, characterised in that said vertically arranged stirring shaft (17) is rotatably located inside the filter box (16).

6. The dispersing machine for producing the conductive slurry according to claim 5, wherein the box body (1) is provided with a feeding port (18) and a discharging port (19), and the feeding port (18) is located at the upper end of the box body (1) corresponding to the filter box (16).

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