CN114789010A

CN114789010A - Modular raw materials turns over mixes device

Info

Publication number: CN114789010A
Application number: CN202210716343.2A
Authority: CN
Inventors: 宋伟; 刘松山; 王金全; 刘伟; 张伟; 王友金; 孙永祥; 焦自祥
Original assignee: Zhucheng Taisheng Chemical Co ltd
Current assignee: Zhucheng Taisheng Chemical Co ltd
Priority date: 2022-06-23
Filing date: 2022-06-23
Publication date: 2022-07-26
Anticipated expiration: 2042-06-23
Also published as: CN114789010B

Abstract

The invention discloses a combined type raw material stirring device, which relates to the technical field of mixing devices and comprises a mixing cylinder, wherein the top of the mixing cylinder is rotatably provided with a cover disc, the center of the cover disc is rotatably provided with a central shaft extending to the interior of the mixing cylinder, a central gear is coaxially fixed on the central shaft, two sides of the central gear are respectively engaged and connected with an inner rack, an outer rack is fixed on the inner rack, a transmission gear is engaged and connected on the outer rack, a stirring shaft is coaxially connected on the transmission gear through a transmission assembly, and a plurality of pairs of blades are fixed on the stirring shaft and the central shaft respectively. The stirring degree of the raw materials in the mixing cylinder is greatly improved.

Description

Modular raw materials turns over mixes device

Technical Field

The invention relates to the technical field of mixing devices, in particular to a combined raw material stirring device.

Background

Sodium dichloroisocyanurate is an organic compound, is white powdery crystal or particle at normal temperature, has chlorine smell, is a common disinfectant, has strong oxidizability, has strong biocidal effect on various pathogenic microorganisms such as viruses, bacterial spores, fungi and the like, is a bactericide with wide application range and high efficiency, and needs to be stirred and mixed by a mixing device in the production and processing process of sodium dichloroisocyanurate.

Although chinese patent with publication number CN 206730956U discloses a combined raw material turning and mixing device for sodium dichloroisocyanurate processing, the main body is a stirring tank, a cover plate is arranged on the top of the stirring tank, two sides of the cover plate are both provided with a packing auger inserted into the stirring tank through the cover plate, the top of the packing auger is connected with a rotating shaft, the middle of the cover plate is inserted with a stirring shaft from top to bottom, the stirring shaft is provided with a plurality of groups of stirring blades, the top of the cover plate is provided with a driving motor, a motor shaft of the driving motor is connected with the stirring shaft, and two groups of driving belt pulleys are arranged on the motor shaft, the top of the packing auger is provided with a driven belt pulley, the driven belt pulleys are respectively connected to the driving belt pulleys through belts, the middle of the stirring tank is provided with a material inlet, and the bottom of the stirring tank is provided with a material outlet; however, the device cannot perform a relatively efficient and comprehensive mixing action on the raw materials in the stirring tank, and aiming at the technical defects in the prior art, a combined raw material stirring device is provided at present to solve the problems.

Disclosure of Invention

The invention aims to provide a combined raw material stirring device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a combined type raw material stirring device comprises a mixing cylinder, a cover plate is rotatably arranged at the top of the mixing cylinder, a central shaft extending to the inside of the mixing cylinder is rotatably arranged at the center of the cover plate, a central gear is coaxially fixed on the central shaft, two sides of the central gear are respectively engaged and connected with an inner rack, an outer rack is fixed on the inner rack, a transmission gear is engaged and connected on the outer rack, a stirring shaft is coaxially connected on the transmission gear through a transmission assembly, a plurality of counter blades are fixed on the stirring shaft and the central shaft,

the cover disc is provided with a double-shaft motor, one output shaft of the double-shaft motor is connected with a rotating shaft through a belt pulley mechanism in a transmission way, a connecting plate is arranged above the cover disc, the stirring shaft is rotatably arranged on the connecting plate, the rotating shaft is connected with a lifting assembly in a driving way, the lifting assembly is used for driving the connecting plate to drive the stirring shaft to vertically reciprocate,

another output shaft coaxial coupling of biax motor has the walking gear, mixing barrel outer wall is fixed with outer ring gear, outer ring gear with walking gear engagement is connected, be connected with rotatory direction subassembly between mixing barrel and the cover dish.

As a modified scheme of the invention: the rotating shaft is fixedly provided with a rotating handle, the end part of the inner rack is fixedly provided with a clip frame, a pin shaft is arranged in the clip frame in a sliding manner, and the pin shaft is fixedly arranged at one end, far away from the rotating shaft, of the rotating handle.

As a modified scheme of the invention: the transmission assembly comprises a rotary sleeve which is rotatably installed on the cover plate, the rotary sleeve is sleeved on the stirring shaft, a plurality of clamping strips are fixed on the side wall of the stirring shaft, and the clamping strips are embedded on the rotary sleeve in a sliding manner.

As a modified scheme of the invention: the lifting assembly comprises a pushing transmission block fixed on the side wall of the rotating shaft, a wedge block is installed on the connecting plate, when the rotating shaft drives the pushing transmission block to rotate, the pushing transmission block is intermittently abutted to the wedge surface of the wedge block, and a reset assembly is connected between the connecting plate and the cover disc.

As a modified scheme of the invention: the reset assembly comprises a vertical rod vertically fixed on the cover plate, the vertical rod vertically penetrates through the connecting plate, and a reset spring is connected between the connecting plate and the cover plate.

As a modified scheme of the invention: the connecting plate is fixedly provided with a T-shaped guide block, the T-shaped guide block is embedded on a wedge block in a sliding mode, a threaded sleeve block is fixed on the wedge block, and a threaded column in threaded connection with the threaded sleeve block is rotatably installed on the connecting plate.

As a modified scheme of the invention: the connecting device is characterized in that a connecting block is fixed to the bottom of the inner rack, a sleeve is fixed to the connecting block, a sliding column is slidably mounted on the sleeve, a scraper is fixed to one end, away from the sleeve, of the sliding column, and a connecting spring is mounted between the sliding column and the sleeve.

As a modified scheme of the invention: the rotary guide assembly comprises an annular supporting plate fixed on the outer wall of the mixing barrel, a guide groove is formed in the annular supporting plate, and a guide wheel matched with the guide groove is fixed on the side wall of the cover plate.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the blades rotate and stir and mix the raw materials in the mixing cylinder through the rotation of the central shaft and the stirring shaft, and the cover plate rotates relative to the mixing cylinder through the meshing transmission of the walking gear and the mixing cylinder in the stirring process, so that the blades on the stirring shaft can rotate around the center of the mixing cylinder, and the sufficient stirring degree of the raw materials in the mixing cylinder is greatly improved.

The rotating shaft arranged in the invention can drive the pushing transmission block to rotate in the rotating process, and the pushing transmission block is intermittently and slidably abutted with the wedge block, so that the connecting plate drives the stirring shaft to vertically reciprocate under the action of the resetting component, the vertical turning effect of the blades on the raw materials is effectively promoted, and the mixing efficiency of the raw materials is obviously improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention at a certain viewing angle;

FIG. 2 is a schematic view of the overall structure of the present invention from another perspective;

FIG. 3 is an exploded view of the structure of the present invention;

FIG. 4 is a partial schematic view of FIG. 3 according to the present invention;

FIG. 5 is an exploded view of the partial structure of FIG. 4 in accordance with the present invention;

FIG. 6 is a partial schematic view of the structure of FIG. 2 according to the present invention;

FIG. 7 is a schematic diagram of the structure of FIG. 6 at a certain viewing angle according to the present invention.

In the figure: 1-mixing barrel, 2-walking gear, 3-double-shaft motor, 4-belt pulley mechanism, 5-rotating shaft, 6-wedge block, 7-connecting plate, 8-central gear, 9-stirring shaft, 10-inner rack, 11-cover disc, 12-guide wheel, 13-annular supporting plate, 14-outer gear ring, 15-transmission gear, 16-pushing transmission block, 17-outer rack, 18-square frame, 19-blade, 20-scraper, 21-sleeve, 22-connecting block, 23-clamping strip, 24-rotating sleeve, 25-sliding column, 26-connecting spring, 27-vertical rod, 28-reset spring, 29-rotating handle, 30-pin shaft, 31-thread sleeve block, 32-T-shaped guide block, 33-central shaft, 34-guide groove and 35-threaded column.

Detailed Description

The technical scheme of the patent is further described in detail by combining the following specific embodiments:

example 1

Referring to fig. 1-7, a combined raw material stirring device comprises a mixing cylinder 1, a cover plate 11 is rotatably mounted at the top of the mixing cylinder 1, a central shaft 33 extending into the mixing cylinder 1 is rotatably mounted at the center of the cover plate 11, a central gear 8 is coaxially fixed on the central shaft 33, inner racks 10 are respectively engaged and connected on two sides of the central gear 8, outer racks 17 are fixed on the inner racks 10, a transmission gear 15 is engaged and connected on the outer racks 17, a stirring shaft 9 is coaxially connected on the transmission gear 15 through a transmission assembly, and a plurality of counter blades 19 are respectively fixed on the stirring shaft 9 and the central shaft 33.

Wherein, install biax motor 3 on the bent cap 11, an output shaft of biax motor 3 is connected with axis of rotation 5 through 4 transmissions of belt pulley mechanism, connecting plate 7 is installed to bent cap 11 top, stirring shaft 9 rotates and installs on connecting plate 7, the drive is connected with lifting unit on the axis of rotation 5, lifting unit is used for driving connecting plate 7 and drives the vertical reciprocating motion of stirring shaft 9, be fixed with turning handle 29 on the axis of rotation 5, the end fixing of rack 10 has back shape frame 18 in two interior racks 10, sliding mounting has round pin axle 30 in back shape frame 18, round pin axle 30 is fixed in the one end that the axis of rotation 5 was kept away from to turning handle 29.

Through the above setting, start double-shaft motor 3, double-shaft motor 3 can be rotatory through 4 drive axis of rotation 5 of belt pulley mechanism, axis of rotation 5 drive turning handle 29 rotates, turning handle 29 drives back the linear reciprocating motion of shape frame 18 through round pin axle 30, it drives one of them interior rack 10 reciprocating motion to return shape frame 18 this moment, interior rack 10 is connected with the meshing of sun gear 8 this moment, rack 10 removes in the sun gear 8 drive another, and interior rack 10 drives outer rack 17 again and drives the rotation of drive gear 15, under drive assembly's effect, realize that center pin 33 and stirring axle 9 all drive blade 19 on it and stir the mixing processing to the raw materials in the compounding section of thick bamboo 1, the raw materials mixing process is abundant and even.

Specifically, as shown in fig. 4, the transmission assembly includes a rotary sleeve 24 rotatably mounted on the cover plate 11, the rotary sleeve 24 is sleeved on the stirring shaft 9, a plurality of clamping strips 23 are fixed on the side wall of the stirring shaft 9, the clamping strips 23 are slidably embedded on the rotary sleeve 24, when the transmission gear 15 rotates, the transmission gear 15 drives the stirring shaft 9 to rotate through the clamping strips 23, and the stirring shaft 9 drives the blades 19 to realize a rotating function.

In addition, another output shaft of the double-shaft motor 3 is coaxially connected with a traveling gear 2, an outer gear ring 14 is fixed on the outer wall of the mixing cylinder 1, the outer gear ring 14 is meshed with the traveling gear 2, a rotary guide assembly is connected between the mixing cylinder 1 and the cover plate 11, the rotary guide assembly comprises a circumferential support plate 13 fixed on the outer wall of the mixing cylinder 1, a guide groove 34 is formed in the circumferential support plate 13, and a guide wheel 12 matched with the guide groove 34 is fixed on the side wall of the cover plate 11.

As shown in fig. 1-3, after the dual-shaft motor 3 is driven, the dual-shaft motor 3 can drive the traveling gear 2 to rotate, at this time, the traveling gear 2 performs circular motion around the mixing cylinder 1 under the meshing action of the outer gear ring 14, the cover disc 11 rotates relative to the mixing cylinder 1, at this time, the stirring shaft 9 and the blades 19 thereon can rotate around the center of the mixing cylinder 1, the mixing range is effectively expanded, so that the raw materials inside the mixing cylinder 1 are sufficiently and efficiently stirred and mixed, and meanwhile, the guide wheel 12 rolls along the guide groove 34 to play a role in guiding the rotation process of the cover disc 11, and the smoothness of the mixing process is effectively improved.

Example 2

Referring to fig. 1-7, in addition to embodiment 1, the device further includes a lifting assembly including a pushing transmission block 16 fixed on a side wall of the rotation shaft 5, a wedge block 6 is installed on the connection plate 7, when the rotation shaft 5 drives the pushing transmission block 16 to rotate, the pushing transmission block 16 intermittently abuts against a wedge surface of the wedge block 6, and a reset assembly is connected between the connection plate 7 and the cover plate 11.

The reset assembly comprises a vertical rod 27 vertically fixed on the cover plate 11, the vertical rod 27 vertically penetrates through the connecting plate 7, and a reset spring 28 is connected between the connecting plate 7 and the cover plate 11.

Based on the above arrangement, as shown in fig. 6-7, when the rotating shaft 5 rotates, the rotating shaft 5 drives the abutting transmission block 16 connected thereto to rotate, the abutting transmission block 16 intermittently abuts against the wedge surface of the wedge block 6 in the rotating process, at this time, the wedge block 6 drives the connecting plate 7 to vertically move, the vertical rod 27 guides the movement of the connecting plate 7, and the return spring 28 elastically deforms, so that the connecting plate 7 drives the stirring shaft 9 to vertically reciprocate, the blades 19 on the stirring shaft 9 vertically reciprocate while rotating, the raw materials inside the mixing cylinder 1 are effectively turned, and the filling degree of the mixed materials is further improved.

In addition, as shown in fig. 7, a T-shaped guide block 32 is fixed on the connecting plate 7, the T-shaped guide block 32 is embedded on the wedge 6 in a sliding manner, a threaded sleeve block 31 is fixed on the wedge 6, a threaded post 35 in threaded connection with the threaded sleeve block 31 is rotatably mounted on the connecting plate 7, the threaded sleeve block 31 can be driven by the threaded post 35 to drive the wedge 6 to move vertically for adjustment, so that when the pushing transmission block 16 pushes the wedge 6, the vertical position of the connecting plate 7 driven by the wedge 6 can be flexibly adjusted according to actual needs, and mixing operation is greatly facilitated.

Furthermore, a connecting block 22 is fixed at the bottom of the inner rack 10, a sleeve 21 is fixed on the connecting block 22, a sliding column 25 is slidably mounted on the sleeve 21, a scraper 20 is fixed at one end of the sliding column 25 far away from the sleeve 21, and a connecting spring 26 is mounted between the sliding column 25 and the sleeve 21.

As shown in fig. 4-5, in the process that the two inner racks 10 slide toward the inner wall of the mixing cylinder 1, the connecting blocks 22, the sleeve 21, the connecting springs 26, the scrapers 20 and the sliding columns 25 all move toward the inner wall of the mixing cylinder 1, and under the elastic pushing action of the connecting springs 26 on the sliding columns 25, the scrapers 20 abut against the inner wall of the mixing cylinder 1 and rotate along with the cover disc 11 relative to the mixing cylinder 1, so that the scrapers 20 scrape the raw materials attached to the inner wall of the mixing cylinder 1, and the raw materials are effectively and fully mixed.

In conclusion, the central shaft 33 and the stirring shaft 9 are arranged to rotate, so that the blades 19 rotate and stir and mix the raw materials in the mixing cylinder 1, and during the stirring process, the cover disc 11 rotates relative to the mixing cylinder 1 through the meshing transmission of the walking gear 2 and the mixing cylinder 1, so that the blades 19 on the stirring shaft 9 can rotate around the center of the mixing cylinder 1, and the sufficient degree of stirring of the raw materials in the mixing cylinder 1 is greatly improved. The rotating shaft 5 arranged in the invention can drive the pushing transmission block 16 to rotate in the rotating process, and the pushing transmission block 16 is intermittently and slidably abutted with the wedge block 6, so that the connecting plate 7 drives the stirring shaft 9 to vertically reciprocate under the action of the reset assembly, the vertical turning effect of the blades 19 on the raw materials is effectively promoted, and the mixing efficiency of the raw materials is obviously improved.

It should be noted that, although the present specification describes embodiments, each embodiment does not include only a single technical solution, and such description of the specification is only for clarity, and those skilled in the art should take the specification as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments understood by those skilled in the art, and the above embodiments only express the preferred embodiments of the technical solutions, and the description thereof is more specific and detailed, but not construed as limiting the scope of the claims of the technical solutions. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations, modifications and substitutions can be made without departing from the spirit of the present invention, which falls within the scope of the present invention. The protection scope of this technical solution patent should be subject to the appended claims.

Claims

1. The combined raw material stirring device comprises a mixing barrel (1), wherein a cover plate (11) is rotatably arranged at the top of the mixing barrel (1), and is characterized in that a central shaft (33) extending to the interior of the mixing barrel (1) is rotatably arranged at the center of the cover plate (11), a central gear (8) is coaxially fixed on the central shaft (33), inner racks (10) are respectively meshed and connected with two sides of the central gear (8), outer racks (17) are fixed on the inner racks (10), a transmission gear (15) is meshed and connected on the outer racks (17), a stirring shaft (9) is coaxially connected on the transmission gear (15) through a transmission assembly, a plurality of counter blades (19) are respectively fixed on the stirring shaft (9) and the central shaft (33),

the cover disc (11) is provided with a double-shaft motor (3), an output shaft of the double-shaft motor (3) is in transmission connection with a rotating shaft (5) through a belt pulley mechanism (4), a connecting plate (7) is arranged above the cover disc (11), the stirring shaft (9) is rotatably arranged on the connecting plate (7), the rotating shaft (5) is in driving connection with a lifting assembly, the lifting assembly is used for driving the connecting plate (7) to drive the stirring shaft (9) to vertically reciprocate,

another output shaft coaxial coupling of biax motor (3) has walking gear (2), mixing cylinder (1) outer wall is fixed with outer ring gear (14), outer ring gear (14) with walking gear (2) meshing is connected, be connected with rotatory guide assembly between mixing cylinder (1) and cover dish (11).

2. The combined raw material stirring device as claimed in claim 1, wherein a rotating handle (29) is fixed on the rotating shaft (5), a clip frame (18) is fixed at the end of the inner rack (10), a pin shaft (30) is slidably mounted in the clip frame (18), and the pin shaft (30) is fixed at one end of the rotating handle (29) far away from the rotating shaft (5).

3. The combined raw material stirring device as claimed in claim 1, wherein the transmission assembly comprises a rotary sleeve (24) rotatably mounted on the cover plate (11), the rotary sleeve (24) is sleeved on the stirring shaft (9), a plurality of clamping strips (23) are fixed on the side wall of the stirring shaft (9), and the clamping strips (23) are slidably embedded on the rotary sleeve (24).

4. The combined raw material stirring device of claim 1, wherein the lifting assembly comprises a pushing transmission block (16) fixed on the side wall of the rotating shaft (5), the connecting plate (7) is provided with a wedge block (6), when the rotating shaft (5) drives the pushing transmission block (16) to rotate, the pushing transmission block (16) is intermittently abutted against the wedge surface of the wedge block (6), and a reset assembly is connected between the connecting plate (7) and the cover disc (11).

5. The combined raw material stirring device as claimed in claim 4, wherein the reset assembly comprises a vertical rod (27) vertically fixed on the cover plate (11), the vertical rod (27) vertically penetrates through the connecting plate (7), and a reset spring (28) is connected between the connecting plate (7) and the cover plate (11).

6. The combined raw material stirring device as claimed in claim 4, wherein a T-shaped guide block (32) is fixed on the connecting plate (7), the T-shaped guide block (32) is slidably embedded on the wedge block (6), a threaded sleeve block (31) is fixed on the wedge block (6), and a threaded column (35) in threaded connection with the threaded sleeve block (31) is rotatably mounted on the connecting plate (7).

7. The combined raw material stirring device as claimed in claim 1, wherein a connecting block (22) is fixed at the bottom of the inner rack (10), a sleeve (21) is fixed on the connecting block (22), a sliding column (25) is slidably mounted on the sleeve (21), a scraper (20) is fixed at one end of the sliding column (25) far away from the sleeve (21), and a connecting spring (26) is mounted between the sliding column (25) and the sleeve (21).

8. The combined raw material stirring device as claimed in any one of claims 1 to 7, wherein the rotary guide assembly comprises a circumferential support plate (13) fixed on the outer wall of the mixing barrel (1), a guide groove (34) is formed on the circumferential support plate (13), and a guide wheel (12) matched with the guide groove (34) is fixed on the side wall of the cover disc (11).