CN114534586A

CN114534586A - Stainless steel welding rod coating raw material mixing device

Info

Publication number: CN114534586A
Application number: CN202210037251.1A
Authority: CN
Inventors: 张建忠
Original assignee: Jiangsu Fuermu Welding Shares Co ltd
Current assignee: Jiangsu Fuermu Welding Shares Co ltd
Priority date: 2022-01-13
Filing date: 2022-01-13
Publication date: 2022-05-27
Anticipated expiration: 2042-01-13
Also published as: CN114534586B

Abstract

The invention relates to the field of mixing devices, in particular to a stainless steel welding rod coating raw material mixing device. The device comprises a base, a mixing barrel arranged on the base, a transmission shaft arranged in the mixing barrel and provided with an annular inclined plane groove, a plurality of connecting rods arranged in the annular inclined plane groove, a mixing plate arranged at the lower end of each connecting rod and with variable area, and an adjusting component arranged on the mixing plate; the utility model provides a stainless steel welding rod coating raw materials mixing arrangement under the drive of motor, the transmission shaft is rotatory, drives the mixing plate of installing in annular inclined plane inslot and reciprocates in turn, stirs the material. And in the stirring process, when the up-down moving directions of the two adjacent stirring plates are opposite, the area of the downward-moving stirring plate is enlarged through the adjusting assembly, so that the stirring effect is better. When discharging is needed, the stirring plate with the descending and increased area pushes the materials downwards, so that the materials are discharged more easily, and the discharge of the materials is accelerated.

Description

Stainless steel welding rod coating raw material mixing device

Technical Field

The invention relates to the field of mixing devices, in particular to a stainless steel welding rod coating raw material mixing device.

Background

The coating of the welding rod is a coating layer which is formed by uniformly coating fine granular substances with different physical and chemical properties on the surface of a core wire through bonding, plays an extremely important role in the welding process, and ensures that weld metal has satisfactory chemical components and mechanical properties and the welding rod has good welding process performance, so that the coating is one of essential processes in the production process of the welding rod. The coating is made of various minerals, ferroalloy organic matters, chemical products (water glass) and other raw materials. The components of the welding rod coating are quite complex, and in the formula of the welding rod coating, the components are more than seven and eight, so that before the coating is pressed, the components of the coating need to be mixed and stirred according to the formula, and then the subsequent die pressing and coating processes are carried out after the components are uniformly mixed.

Disclosure of Invention

The invention provides a stainless steel welding rod coating raw material mixing device, which aims to solve the problems that the existing mixing device is poor in stirring effect and needs to take materials manually.

The invention relates to a stainless steel welding rod coating raw material mixing device, which adopts the following technical scheme: including the base, still include:

the mixing barrel is arranged on the base;

the transmission shaft extends vertically and is rotatably arranged at the center of the mixing barrel; the transmission shaft is provided with an annular inclined plane groove with a height difference;

the stirring devices are arranged in the circumferential direction around the transmission shaft and comprise connecting rods, stirring plates and adjusting assemblies, and the stirring plates comprise fixed plates and movable plates; the connecting rods are slidably arranged in the annular inclined plane groove, so that the connecting rods alternately move up and down when the transmission shaft rotates; the fixed plate is fixedly connected to the lower end of the connecting rod, and the movable plate is slidably inserted into the outer end of the fixed plate; in the initial state, the movable plate is contacted with the fixed plate; the adjusting assembly comprises a fan-shaped sliding chute, a rotating rod and a rotating structure; the fan-shaped sliding groove is arranged on the movable plate, one end of the rotating rod is slidably arranged in the fan-shaped sliding groove, and the other end of the rotating rod is rotatably arranged on the fixed plate; the rotating structure is configured to drive the corresponding rotating rods to rotate when the two adjacent stirring plates move up and down alternately, so that the movable plates moving downwards slide outwards simultaneously, and the movable plates restore to the original state when moving upwards.

Further, the rotating structure includes: the device comprises a first adjusting column, a second adjusting column, a first transmission assembly and a second transmission assembly; the first adjusting column and the second adjusting column are rotatably arranged on the fixed plate and are connected through a first transmission assembly, and the first transmission assembly is configured to enable the first adjusting column and the second adjusting column to be always vertical; when the motion directions of two adjacent stirring plates are opposite, the first adjusting column and the second adjusting column are pushed to rotate alternately and successively; the second transmission assembly is connected with the first transmission assembly and the rotating rod so as to enable the rotating rod to rotate.

Further, the first transmission assembly comprises a first bevel gear, a second bevel gear, a first gear shaft and a second gear shaft; the first bevel gear and the first adjusting column rotate synchronously, the second bevel gear and the second adjusting column rotate synchronously, one end of the first gear shaft is meshed with the first bevel gear, the other end of the first gear shaft is meshed with one end of the second gear shaft, and the second bevel gear is meshed with the other end of the second gear shaft.

Further, the second transmission assembly comprises a third bevel gear, a first transmission gear and a second transmission gear; the third bevel gear is meshed with a second gear shaft, the first transmission gear is meshed with the third bevel gear, and the second transmission gear is meshed with the first transmission gear; the rotating rod is arranged on the second transmission gear and rotates synchronously with the second transmission gear.

Furthermore, the fan-shaped sliding groove comprises a straight groove section and an arc-shaped groove section, and the straight groove section is connected with the arc-shaped groove section end to end; when the stirring plate moves downwards, the rotating rod slides from the arc-shaped groove section to the straight groove section, and then the movable plate is driven to expand outwards; when the stirring board moved upwards, the rotary rod was sliding from straight groove section to arc groove section, and then driven the fly leaf and resume the original state.

Further, the fly leaf includes installation department and stirring portion, and fan-shaped spout sets up in the installation department, and the installation department both sides are equipped with the arch, and the fixed plate corresponds the slide rail that is equipped with the horizontal extension, and the arch is installed in the slide rail.

Further, the straight groove section is arranged at one end, close to the stirring part, of the mounting part, and the central angle of the arc-shaped sliding groove section is larger than 180 degrees.

Further, the upper end of the mixing barrel is provided with an upper cover, the upper cover extends downwards to be provided with a plurality of telescopic shafts, and the lower ends of the telescopic shafts are fixedly connected with the connecting rod.

Furthermore, a binder feeding ring is arranged inside the mixing barrel, a plurality of material leakage ports are formed in the lower end of the binder feeding ring, and the upper cover is provided with a feeding port communicated with the mixing barrel and a feeding port communicated with the binder feeding ring.

Further, the mixing barrel lower extreme is equipped with the discharge gate, and is equipped with slidable switch on the discharge gate.

The invention has the beneficial effects that: according to the stainless steel welding rod coating raw material mixing device, the transmission shaft rotates under the driving of the motor to drive the mixing plate arranged in the annular inclined plane groove to move up and down alternately so as to stir materials. And in the stirring process, when the up-down moving directions of the two adjacent stirring plates are opposite, the area of the downward-moving stirring plate is enlarged through the adjusting assembly, so that the stirring effect is better. When discharging is needed, the stirring plate with the descending and increased area pushes the materials downwards, so that the materials are discharged more easily, and the discharge of the materials is accelerated.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of a stainless steel electrode sheath material mixing device according to the present invention;

FIG. 2 is a cross-sectional view of an embodiment of the stainless steel electrode sheath material mixing apparatus of the present invention;

FIG. 3 is a schematic view of the internal structure of the outer shell of the embodiment of the coating material mixing device for the stainless steel welding rod of the present invention;

FIG. 4 is a view showing a state in which the front mixing plate is lowered at an intermediate height in the present invention;

FIG. 5 is a schematic view showing a state where the front mixing plate is located at the lowest position in the present invention;

FIG. 6 is a schematic view showing a state in which the front mixing plate is in a middle position during the ascent of the front mixing plate in the present invention;

FIG. 7 is a schematic view showing a state where the front mixing plate is located at the uppermost position in the present invention;

FIG. 8 is a top view of FIG. 5;

FIG. 9 is a schematic structural view of a fixing plate in an embodiment of the stainless steel electrode sheath material mixing device according to the present invention;

FIG. 10 is a schematic view showing the structure of a movable plate in the embodiment of the stainless steel electrode sheath material mixing device according to the present invention;

in the figure: 1. a base; 2. a mixing barrel; 21. a discharge port; 22. an upper cover; 221. a telescopic shaft; 222. a feed inlet; 223. a feed port; 23. a binder feed ring; 3. a drive shaft; 31. an annular inclined plane groove; 4. a stirring device; 40. a connecting rod; 41. a stirring plate; 411. a fixing plate; 412. a movable plate; 413. an installation part; 414. a stirring section; 42. an adjustment assembly; 43. a fan-shaped chute; 431. a straight groove section; 432. an arc-shaped groove section; 44. rotating the rod; 45. a rotating structure; 46. a first conditioning column; 47. a second conditioning column; 48. a first transmission assembly; 481. a first bevel gear; 482. a second bevel gear; 483. a first gear shaft; 484. a second gear shaft; 49. a second transmission assembly; 491. a third bevel gear; 492. a first drive gear; 493. a second transmission gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the embodiment of the stainless steel welding rod coating raw material mixing device of the invention, as shown in fig. 1 to 10, the stainless steel welding rod coating raw material mixing device comprises a base 1, a mixing barrel 2, a transmission shaft 3 and a plurality of stirring devices 4; the mixing barrel 2 is arranged on the base 1; the transmission shaft 3 extends vertically and is rotatably arranged at the center of the mixing barrel 2, and is provided with an annular inclined plane groove 31 with height difference; a plurality of stirring devices 4 are arranged around the circumferential direction of the transmission shaft 3, each stirring device 4 comprises a connecting rod 40, a stirring plate 41 and an adjusting assembly 42, and each stirring plate 41 comprises a fixed plate 411 and a movable plate 412; the connecting rods 40 are slidably installed in the annular inclined plane groove 31 to alternately move the plurality of connecting rods 40 up and down when the driving shaft 3 rotates; the fixed plate 411 is fixedly connected to the lower end of the connecting rod 40, and the movable plate 412 is slidably inserted into the outer end of the fixed plate 411; in the initial state, the movable plate 412 contacts the fixed plate 411; the adjusting assembly 42 comprises a fan-shaped sliding chute 43, a rotating rod 44 and a rotating structure 45; the sector sliding groove 43 is arranged on the movable plate 412, one end of the rotating rod 44 is slidably installed in the sector sliding groove 43, and the other end is rotatably installed on the fixed plate 411; the rotating structure 45 is configured such that when two adjacent stirring plates 41 move up and down alternately, each of the two adjacent stirring plates drives the corresponding rotating rod 44 to rotate, so that the moving plate 412 moving downward slides outward at the same time, the area of the stirring plate 41 is increased, and the moving plate 412 returns to its original state when moving upward.

In the present embodiment, the rotating structure 45 includes: a first adjustment post 46, a second adjustment post 47, a first drive assembly 48, and a second drive assembly 49; the first adjusting column 46 and the second adjusting column 47 are rotatably mounted on the fixing plate 411 and connected through a first transmission assembly 48, and the first transmission assembly 48 is configured to enable the first adjusting column 46 and the second adjusting column 47 to be always vertical; when the moving directions of two adjacent stirring plates 41 are opposite, the first adjusting column 46 and the second adjusting column 47 are pushed to rotate alternately and successively; the first transmission assembly 48 is connected to the rotating rod 44 through a second transmission assembly 49, so that the first adjusting column 46 rotates to rotate the rotating rod 44.

In the present embodiment, the first transmission assembly 48 includes a first bevel gear 481, a second bevel gear 482, a first gear shaft 483, and a second gear shaft 484; the first bevel gear 481 rotates synchronously with the first adjusting column 46, the second bevel gear 482 rotates synchronously with the second adjusting column 47, one end of the first gear shaft 483 meshes with the first bevel gear 481, the other end meshes with one end of the second gear shaft 484, and the second bevel gear 482 meshes with the other end of the second gear shaft 484; so as to ensure that the first adjusting column 46 is always perpendicular to the second adjusting column 47, the second adjusting column 47 rotates when the first adjusting column 46 rotates, and the first adjusting column 46 rotates when the second adjusting column 47 rotates.

In this embodiment, the second transmission assembly 49 includes a third bevel gear 491, a first transmission gear 492, and a second transmission gear 493; the third bevel gear 491 is meshed with the second gear shaft 484, the first transmission gear 492 is meshed with the third bevel gear 491, and the second transmission gear 493 is meshed with the first transmission gear 492; the rotating rod 44 is mounted on the second transmission gear 493 and rotates synchronously with the second transmission gear 493; so that the second gear shaft 484 rotates to drive the rotating rod 44 to rotate.

In the present embodiment, the sector chute 43 comprises a straight chute section 431 and an arc chute section 432, and the straight chute section 431 and the arc chute section 432 are connected end to end; when the stirring plate 41 moves downward, the rotating rod 44 slides from the arc-shaped groove section 432 to the straight groove section 431, and further drives the movable plate 412 to expand outward; when the stirring plate 41 moves upward, the rotating rod 44 slides from the straight groove section 431 to the arc-shaped groove section 432, and then drives the movable plate 412 to recover, so that the area is continuously changed when the mixing plate moves up and down, and further, the materials are stirred and mixed more sufficiently.

In the present embodiment, the movable plate 412 includes a mounting portion 413 and a stirring portion 414, the fan-shaped sliding slot 43 is disposed on the mounting portion 413, protrusions are disposed on two sides of the mounting portion 413, the fixed plate 411 is correspondingly provided with a horizontally extending sliding rail, and the protrusions are mounted on the sliding rail to maintain the stability of the movable plate 412.

In this embodiment, the straight groove section 431 is disposed at one end of the mounting portion 413 close to the stirring portion 414, and a central angle of the arc-shaped groove section is greater than 180 °, so that the rotating rod 44 drives the movable plate 412 to move outward when sliding from the arc-shaped groove section to the straight groove section 431, and drives the movable plate 412 to move inward when sliding from the straight groove section 431 to the arc-shaped groove section 432.

In this embodiment, the upper end of the mixing barrel 2 is provided with the upper cover 22, the upper cover 22 extends downwards to form a plurality of telescopic shafts 221, the lower ends of the telescopic shafts 221 are fixedly connected with the connecting rod 40, the telescopic shafts 221 extend when the mixing plate moves downwards, and the telescopic shafts 221 shorten when the mixing plate moves upwards.

In this embodiment, the mixing barrel 2 is provided with an adhesive feeding ring 23 inside, the lower end of the adhesive feeding ring 23 is provided with a plurality of material leaking ports, and the upper cover 22 is provided with a material feeding port 222 communicated with the mixing barrel 2 and a material feeding port 223 communicated with the adhesive feeding ring 23, so as to add the raw material of the welding rod coating to the mixing barrel 2 and add the adhesive to the adhesive feeding ring 23.

In this embodiment, the lower end of the mixing barrel 2 is provided with a discharge port 21, and the discharge port 21 is provided with a slidable switch, when the raw material of the welding rod coating is not uniformly stirred, the switch is closed to block the discharge port 21.

With the above embodiments, the usage principle and the working process of the present invention are as follows:

the raw material of the welding rod coating is added into the mixing cavity through the feed inlet 222, the binder is added into the binder feed ring 23 through the feed inlet 223, the motor is started to drive the transmission shaft 3 to rotate clockwise, the connecting rod 40 moves up and down along the annular inclined plane groove 31, the mixing plate moves synchronously along with the connecting rod 40, and then the raw material is stirred, since the connecting rod 40 is slidably installed in the annular inclined plane groove 31, the mixing plates alternately move up and down, and when the moving directions of the adjacent two are opposite, the adjacent fixing plate 411 contacts with the first adjusting column 46 or the second adjusting column 47 in the horizontal state and rotates it, as shown in fig. 5 and 8, the second adjusting column 47 connected to the mixing plate located at the highest position is in a vertical state, the first adjusting column 46 is in a horizontal state, the mixing plate adjacent to the mixing plate in the counterclockwise direction moves downward, and the mixing plate adjacent to the mixing plate in the clockwise direction moves upward. At this time, the mixing plate located at the highest position is in contact with the first adjusting column 46 in a horizontal state when the mixing plate and the mixing plate adjacent to the mixing plate in the clockwise direction move relatively, the first adjusting column 46 drives the first bevel gear 481 to rotate, the second bevel gear 482 is driven to rotate through the first gear shaft 483 and the second gear shaft 484, the second adjusting column 47 is driven to rotate to become a horizontal state, the second gear shaft 484 drives the second transmission gear 493 to rotate through the third bevel gear 491 and the first transmission gear 492 when rotating, and the rotating shaft rotates synchronously along with the second transmission gear 493. While the rotating shaft rotates along with the second transmission gear 493, the other end of the rotating shaft moves along the installed fan-shaped sliding groove 43, when the mixing plate moves downwards, the rotating shaft slides from the arc-shaped groove section 432 to the straight groove section 431, and as the rotating shaft is not telescopic, the other end of the rotating shaft drives the straight groove section 431 to be far away from the second transmission gear 493, so that the expansion plate is driven to move outwards; when the mixing plate moves upwards, the rotating shaft slides from the straight groove section 431 to the arc-shaped groove section 432 to drive the straight groove section 431 to be close to the second transmission gear 493, so that the expansion plate is driven to move inwards; and then the area constantly changes when realizing that the mixing plate reciprocates, and then more abundant stirring and mixing material.

Open the switch of discharge gate 21 when needs are arranged the material, the material flows out through discharge gate 21, and the motor continues to drive transmission shaft 3 this moment and rotates, and the hybrid board continues from top to bottom the alternating motion in hybrid chamber, and the expansion can increase the area of pushing down the material when expansion board descends at this moment, can make more materials by the extrusion hybrid chamber, discharge of material with higher speed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a stainless steel welding rod coating raw materials mixing arrangement, includes the base, its characterized in that: further comprising:

the mixing barrel is arranged on the base;

2. The stainless steel electrode coating raw material mixing device according to claim 1, wherein: the rotating structure includes: the device comprises a first adjusting column, a second adjusting column, a first transmission assembly and a second transmission assembly; the first adjusting column and the second adjusting column are rotatably arranged on the fixed plate and are connected through a first transmission assembly, and the first transmission assembly is configured to enable the first adjusting column and the second adjusting column to be always vertical; when the motion directions of two adjacent stirring plates are opposite, the first adjusting column and the second adjusting column are pushed to alternately rotate in sequence; the second transmission assembly is connected with the first transmission assembly and the rotating rod so as to enable the rotating rod to rotate.

3. The device for mixing the coating raw materials of the stainless steel welding rod according to claim 2, wherein: the first transmission assembly comprises a first bevel gear, a second bevel gear, a first gear shaft and a second gear shaft; the first bevel gear and the first adjusting column rotate synchronously, the second bevel gear and the second adjusting column rotate synchronously, one end of the first gear shaft is meshed with the first bevel gear, the other end of the first gear shaft is meshed with one end of the second gear shaft, and the second bevel gear is meshed with the other end of the second gear shaft.

4. The device for mixing the raw materials of the coating of the stainless steel welding electrode according to claim 3, wherein: the second transmission assembly comprises a third bevel gear, a first transmission gear and a second transmission gear; the third bevel gear is meshed with a second gear shaft, the first transmission gear is meshed with the third bevel gear, and the second transmission gear is meshed with the first transmission gear; the rotating rod is arranged on the second transmission gear and rotates synchronously with the second transmission gear.

5. The device for mixing the coating raw materials of the stainless steel welding rod according to claim 2, wherein: the fan-shaped sliding chute comprises a straight chute section and an arc chute section, and the straight chute section is connected with the arc chute section end to end; when the stirring plate moves downwards, the rotating rod slides from the arc-shaped groove section to the straight groove section, and then the movable plate is driven to expand outwards; when the stirring plate moves upwards, the rotating rod slides from the straight groove section to the arc groove section, and then the movable plate is driven to restore to the original state.

6. The device for mixing the raw materials of the coating of the stainless steel welding electrode according to claim 5, wherein: the fly leaf includes installation department and stirring portion, and fan-shaped spout sets up in the installation department, and the installation department both sides are equipped with the arch, and the fixed plate corresponds the slide rail that is equipped with the level extension, and the arch is installed in the slide rail.

7. The device for mixing the raw materials of the coating of the stainless steel welding electrode according to claim 6, wherein: the straight groove section is arranged at one end of the mounting part close to the stirring part, and the central angle of the arc-shaped sliding groove section is larger than 180 degrees.

8. The device for mixing the coating raw materials of the stainless steel welding rod according to claim 1, wherein: the mixing barrel upper end is equipped with the upper cover, and the upper cover downwardly extending is equipped with a plurality of telescopic shafts, telescopic shaft lower extreme and connecting rod fixed connection.

9. The device for mixing the coating raw materials of the stainless steel welding rod according to claim 8, wherein: the inside binder feeding ring that is equipped with of tempering tank, binder feeding ring lower extreme are opened has a plurality of drain mouths, and the upper cover is equipped with the feed inlet of intercommunication tempering tank and the pay-off mouth of intercommunication binder feeding ring.

10. The device for mixing the coating raw materials of the stainless steel welding rod according to claim 1, wherein: the mixing barrel lower extreme is equipped with the discharge gate, and is equipped with the slidable switch on the discharge gate.