CN216260245U - Multistage stirring device - Google Patents

Abstract

The utility model provides a multistage stirring device, which belongs to the technical field of stirring equipment and comprises: a support frame; the weighing mechanism is arranged on the support frame and comprises a plurality of hopper scales used for weighing the weight of the dry powder; the dry powder stirring mechanism is arranged on the support frame and is positioned below the weighing mechanism, and a feed inlet of the dry powder stirring mechanism is connected with a discharge outlet of the hopper scale; the slurry stirring mechanism is arranged on the support frame and is positioned below the dry powder stirring mechanism, and a feed inlet of the slurry stirring mechanism is connected with a discharge outlet of the dry powder stirring mechanism; and the foaming mixing mechanism is arranged on the support frame and is positioned below the slurry stirring mechanism, and a feed inlet of the foaming mixing mechanism is connected with a discharge outlet of the slurry stirring mechanism. The utility model has simple structure, convenient use, continuous multi-stage stirring process from top to bottom and high working efficiency.

Description

Multistage stirring device

Technical Field

The utility model relates to the technical field of stirring equipment, in particular to a multistage stirring device.

Background

In the production process of the foamed light partition board, various dry powder materials, slurry and foamed slurry need to be stirred in sequence, so that the situation that the mixture needs to be transferred for multiple times is avoided, time and labor are wasted, and the production efficiency is low. Therefore, it is desirable to provide a multistage stirring apparatus to solve the above existing problems.

Disclosure of Invention

In view of this, the utility model provides a multi-stage stirring device, which is provided with a support frame, wherein a weighing mechanism, a dry powder stirring mechanism, a slurry stirring mechanism and a foaming mixing mechanism are sequentially arranged on the support frame from top to bottom, and the multi-stage stirring process is continuously performed from top to bottom, so that the working efficiency is high.

In order to solve the above technical problem, the present invention provides a multistage stirring apparatus, comprising:

a support frame;

the weighing mechanism is arranged on the support frame and comprises a plurality of hopper scales used for weighing the weight of the dry powder;

the dry powder stirring mechanism is arranged on the support frame and is positioned below the weighing mechanism, and a feed inlet of the dry powder stirring mechanism is connected with a discharge outlet of the hopper scale;

the slurry stirring mechanism is arranged on the support frame and is positioned below the dry powder stirring mechanism, and a feed inlet of the slurry stirring mechanism is connected with a discharge outlet of the dry powder stirring mechanism;

and the foaming mixing mechanism is arranged on the support frame and is positioned below the slurry stirring mechanism, and a feed inlet of the foaming mixing mechanism is connected with a discharge outlet of the slurry stirring mechanism.

Furthermore, dry powder rabbling mechanism is including setting up the dry powder agitator on the support frame, rotating the dry powder stirring subassembly that sets up in the dry powder agitator, set up in the outside of dry powder agitator and with dry powder stirring subassembly transmission be connected with the rotatory dry powder stirring drive assembly of drive dry powder stirring subassembly.

Furthermore, the dry powder stirring assembly comprises a dry powder stirring shaft rotatably arranged at the bottom in the dry powder stirring barrel and a dry powder stirring arm arranged on the dry powder stirring shaft, and the dry powder stirring driving assembly is in transmission connection with the dry powder stirring shaft and drives the dry powder stirring shaft to rotate by taking the central axis of the dry powder stirring shaft as a center.

Further, the slurry stirring mechanism comprises a slurry stirring barrel arranged on the support frame, a slurry stirring component arranged in the slurry stirring barrel in a rotating mode, and a slurry stirring driving component arranged outside the slurry stirring barrel and in transmission connection with the slurry stirring component to drive the slurry stirring component to rotate.

Further, the slurry stirring assembly comprises a first stirring assembly, a first stirring driving assembly, a second stirring assembly and a second stirring driving assembly, wherein the first stirring assembly is rotatably arranged at the central position in the slurry stirring barrel, the first stirring driving assembly is arranged outside the slurry stirring barrel and is in transmission connection with the first stirring assembly so as to drive the first stirring assembly to rotate, the second stirring assembly is rotatably arranged at the inner edge position of the slurry stirring barrel, and the second stirring driving assembly is arranged outside the slurry stirring barrel and is in transmission connection with the second stirring assembly so as to drive the second stirring assembly to rotate.

Further, the first stirring assembly comprises a first slurry stirring shaft rotatably arranged at the top in the slurry stirring barrel and a first slurry stirring blade arranged at the lower part of the first slurry stirring shaft, and the first stirring driving assembly is in transmission connection with the first slurry stirring shaft and drives the first slurry stirring shaft to rotate by taking the central axis of the first slurry stirring shaft as the center;

the second stirring assembly comprises a second slurry stirring shaft rotatably arranged at the top in the slurry stirring barrel, a stirring disc arranged on the second slurry stirring shaft, and a second slurry stirring blade arranged on the stirring disc, and the second stirring driving assembly is in transmission connection with the second slurry stirring shaft and drives the second slurry stirring shaft to rotate by taking the central axis of the second slurry stirring shaft as a center;

the stirring disc is positioned above the first slurry stirring blade.

Further, foaming mixing mechanism is including setting up the foaming agitator on the support frame, rotating the foaming stirring subassembly that sets up in the foaming agitator, set up in the outside of foaming agitator and with the rotatory foaming stirring drive assembly of foaming stirring subassembly drive connection in order to drive the foaming stirring subassembly.

Furthermore, foaming stirring subassembly is including rotating the foaming (mixing) shaft that sets up top in the foaming agitator, set up the epaxial foaming stirring vane of foaming stirring, foaming stirring drive assembly is connected and drives the foaming (mixing) shaft and use its axis as the rotation of center with the transmission of foaming (mixing) shaft.

The technical scheme of the utility model at least comprises the following beneficial effects:

1. the utility model has simple structure and convenient use, is provided with the support frame, the weighing mechanism, the dry powder stirring mechanism, the slurry stirring mechanism and the foaming mixing mechanism are sequentially arranged on the support frame from top to bottom, the multi-stage stirring process is continuously carried out from top to bottom, and the working efficiency is high;

2. set up first stirring subassembly and second stirring subassembly in the slurry agitator to, the agitator disk is located first slurry stirring vane's top, and the layering stirring is stirred, and the stirring is more abundant, and stirring efficiency is higher.

Drawings

FIG. 1 is a schematic structural diagram of a multistage stirring apparatus according to an embodiment of the present invention;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a schematic structural diagram of a weighing mechanism and a dry powder stirring mechanism in an embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view taken along the line A-A in FIG. 4;

FIG. 6 is a schematic structural diagram of a slurry stirring mechanism according to an embodiment of the present invention;

FIG. 7 is a schematic cross-sectional view taken along the line B-B in FIG. 6;

FIG. 8 is a top view of FIG. 6;

FIG. 9 is a schematic structural view of a foaming mixing mechanism in an embodiment of the present invention;

fig. 10 is a schematic cross-sectional view taken along the direction C-C in fig. 9.

In the figure:

1. a support frame;

2. a weighing mechanism; 201. a hopper scale; 202. a hopper pneumatic butterfly valve;

3. a dry powder stirring mechanism; 301. a dry powder stirring barrel; 302. a dry powder pneumatic butterfly valve; 303. a dry powder gear motor; 304. a dry powder stirring shaft; 305. a dry powder stirring arm; 306. a blocking cover;

4. a slurry stirring mechanism; 401. a slurry stirring barrel; 402. an upper cover of the slurry barrel; 403. a first slurry speed reduction motor; 404. a first slurry stirring shaft; 405. a first slurry stirring blade; 406. a second slurry speed reduction motor; 407. a second slurry stirring shaft; 408. a stirring plate; 409. a second slurry stirring blade; 410. a hinge cover of the slurry barrel;

5. a foaming mixing mechanism; 501. a foaming and stirring barrel; 502. an upper cover of the foaming barrel; 503. a foaming speed reducing motor; 504. a foaming stirring shaft; 505. a foaming stirring blade; 506. foaming bucket hinge lid.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 10 of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the utility model, are within the scope of the utility model.

10, a multistage stirring apparatus comprising:

a support frame 1;

the weighing mechanism 2 is arranged on the support frame 1, and the weighing mechanism 2 comprises a plurality of hopper scales 201 for weighing the weight of the dry powder;

the dry powder stirring mechanism 3 is arranged on the support frame 1 and is positioned below the weighing mechanism 2, and a feed inlet of the dry powder stirring mechanism 3 is connected with a discharge outlet of the hopper scale 201;

the slurry stirring mechanism 4 is arranged on the support frame 1 and is positioned below the dry powder stirring mechanism 3, and a feed inlet of the slurry stirring mechanism 4 is connected with a discharge outlet of the dry powder stirring mechanism 3;

and the foaming mixing mechanism 5 is arranged on the support frame 1 and is positioned below the slurry stirring mechanism 4, and a feed inlet of the foaming mixing mechanism 5 is connected with a discharge outlet of the slurry stirring mechanism 4.

Specifically, a multistage stirring device includes:

a support frame 1;

the weighing mechanism 2 is arranged on the support frame 1, and the weighing mechanism 2 comprises three hopper scales 201 for weighing the weight of the dry powder;

the dry powder stirring mechanism 3 is arranged on the support frame 1 and is positioned below the weighing mechanism 2, a feed inlet of the dry powder stirring mechanism 3 is connected with a discharge outlet of the hopper scales 201, and dry powder weighed by the three hopper scales 201 flows into the dry powder stirring mechanism 3 to be mixed and stirred;

the slurry stirring mechanism 4 is arranged on the support frame 1 and is positioned below the dry powder stirring mechanism 3, a feed inlet of the slurry stirring mechanism 4 is connected with a discharge outlet of the dry powder stirring mechanism 3, and mixed dry powder which is uniformly mixed and stirred by the dry powder stirring mechanism 3 flows into the slurry stirring mechanism 4 to be mixed and stirred with liquid to form slurry;

the foaming mixing mechanism 5 is arranged on the support frame 1 and is positioned below the slurry stirring mechanism 4, a feed inlet of the foaming mixing mechanism 5 is connected with a discharge outlet of the slurry stirring mechanism 4, and the slurry uniformly mixed and stirred by the slurry stirring mechanism 4 flows into the foaming mixing mechanism 5 to be mixed with the foaming agent and is fully stirred.

The weighing mechanism 2, the dry powder stirring mechanism 3, the slurry stirring mechanism 4 and the foaming and mixing mechanism 5 are sequentially arranged on the support frame 1 from top to bottom, the multistage stirring process is continuously carried out from top to bottom, and the working efficiency is high.

According to an embodiment of the present invention, as shown in fig. 1 to 5, the dry powder stirring mechanism 3 includes a dry powder stirring barrel 301 mounted on the supporting frame 1, a dry powder stirring assembly rotatably mounted in the dry powder stirring barrel 301, and a dry powder stirring driving assembly mounted outside the dry powder stirring barrel 301 and in transmission connection with the dry powder stirring assembly to drive the dry powder stirring assembly to rotate.

Further, the dry powder stirring assembly comprises a dry powder stirring shaft 304 rotatably installed at the bottom in the dry powder stirring barrel 301, and a dry powder stirring arm 305 installed on the dry powder stirring shaft 304, and the dry powder stirring driving assembly is in transmission connection with the dry powder stirring shaft 304 and drives the dry powder stirring shaft 304 to rotate around the central axis thereof.

Specifically, the dry powder stirring driving component adopts a speed reducing motor, which is a dry powder speed reducing motor 303, the output end of the dry powder speed reducing motor 303 is connected with the dry powder stirring shaft 304 through a coupler, and the dry powder speed reducing motor 303 works to drive the dry powder stirring shaft 304 which is rotatably installed at the bottom of the dry powder stirring barrel 301 along the vertical direction to rotate by taking the central axis thereof as the center. The sleeve is sleeved on the dry powder stirring shaft 304, the dry powder stirring arm 305 is installed on the outer side wall of the sleeve, specifically, the dry powder stirring shaft 304 is sleeved with two sleeves, one of the sleeves is sleeved on the top of the dry powder stirring shaft 304, and the blocking cover 306 is installed on the top of the dry powder stirring shaft 304, so that the sleeve is effectively prevented from falling off. A pneumatic butterfly valve is arranged on the discharge port of the hopper scale 201 and is a hopper pneumatic butterfly valve 202, and a pneumatic butterfly valve is also arranged on the discharge port of the dry powder stirring barrel 301 and is a dry powder pneumatic butterfly valve 302.

According to another embodiment of the present invention, as shown in fig. 1-3 and fig. 6-8, the slurry stirring mechanism 4 comprises a slurry stirring barrel 401 mounted on the support frame 1, a slurry stirring assembly rotatably mounted in the slurry stirring barrel 401, and a slurry stirring driving assembly mounted outside the slurry stirring barrel 401 and in transmission connection with the slurry stirring assembly to drive the slurry stirring assembly to rotate.

Further, the slurry stirring assembly comprises a first stirring assembly rotatably installed at the central position in the slurry stirring barrel 401, a first stirring driving assembly installed outside the slurry stirring barrel 401 and in transmission connection with the first stirring assembly to drive the first stirring assembly to rotate, a second stirring assembly rotatably installed at the inner edge position of the slurry stirring barrel 401, and a second stirring driving assembly installed outside the slurry stirring barrel 401 and in transmission connection with the second stirring assembly to drive the second stirring assembly to rotate.

Further, the first stirring assembly comprises a first slurry stirring shaft 404 rotatably installed at the top in the slurry stirring barrel 401 and a first slurry stirring blade 405 installed at the lower part of the first slurry stirring shaft 404, and the first stirring driving assembly is in transmission connection with the first slurry stirring shaft 404 and drives the first slurry stirring shaft 404 to rotate by taking the central axis thereof as the center;

the second stirring component comprises a second slurry stirring shaft 407 rotatably installed at the top in the slurry stirring barrel 401, a stirring disc 408 installed on the second slurry stirring shaft 407, and a second slurry stirring blade 409 installed on the stirring disc 408, and the second stirring driving component is in transmission connection with the second slurry stirring shaft 407 and drives the second slurry stirring shaft 407 to rotate by taking the central axis of the second slurry stirring shaft 407 as the center;

the agitator disk 408 is located above the first slurry agitating blade 405.

Specifically, the first stirring driving component adopts a speed reduction motor, which is a first slurry speed reduction motor 403, and an output end of the first slurry speed reduction motor 403 is connected with the first slurry stirring shaft 404 through a coupler. The second stirring driving component also adopts a speed reducing motor, which is a second slurry speed reducing motor 406, and the output end of the second slurry speed reducing motor 406 is also connected with a second slurry stirring shaft 407 through a coupler. A slurry barrel upper cover 402 is mounted on the top of the slurry mixing barrel 401, and a first slurry speed reduction motor 403 and a second slurry speed reduction motor 406 are both mounted on the slurry barrel upper cover 402. The stirring disc 408 is located above the first slurry stirring blade 405, layered stirring is performed, stirring is more sufficient, and stirring efficiency is higher. The upper cover of the stirring barrel is hinged with a hinge cover 410 of the slurry barrel, so that the stirring barrel can be opened and closed conveniently and can be fed conveniently.

In one embodiment of the present invention, as shown in fig. 1-3 and fig. 9-10, the foaming mixing mechanism 5 includes a foaming mixer 501 mounted on the supporting frame 1, a foaming mixer rotatably mounted in the foaming mixer 501, and a foaming mixer driving component mounted outside the foaming mixer 501 and in transmission connection with the foaming mixer to drive the foaming mixer to rotate.

Further, the foaming stirring component comprises a foaming stirring shaft 504 rotatably installed at the top inside the foaming stirring barrel 501, and a foaming stirring blade 505 installed on the foaming stirring shaft 504, and the foaming stirring driving component is in transmission connection with the foaming stirring shaft 504 and drives the foaming stirring shaft 504 to rotate around the central axis thereof.

Specifically, the foaming stirring driving assembly adopts a speed reduction motor, and for the foaming speed reduction motor 503, the output end of the foaming speed reduction motor 503 is connected with the foaming stirring shaft 504 through a coupler. Foaming bucket upper cover 502 is installed at the top of foaming agitator 501, and it has foaming bucket hinge lid 506 to articulate on foaming bucket upper cover 502, is convenient for open and shut, the feeding of being convenient for.

The working principle of the utility model is as follows: the three hopper scales 201 respectively weigh dry powder, the weighed dry powder is put into the dry powder stirring barrel 301, the dry powder speed reducing motor 303 works to drive the dry powder stirring shaft 304 to rotate, the dry powder stirring arm 305 stirs the dry powder in the dry powder stirring barrel 301 to enable the dry powder and the dry powder to be uniformly mixed, the dry powder is put into the slurry stirring barrel 401 to be mixed with liquid and uniformly stirred to form slurry, and the slurry is put into the foaming stirring barrel 501 to be mixed with a foaming agent and uniformly stirred to form finally required foaming slurry. The multi-stage stirring process is continuously carried out from top to bottom, so that the time and the labor are saved, and the working efficiency is high.

In the present invention, unless otherwise explicitly specified or limited, for example, it may be fixedly attached, detachably attached, or integrated; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

The foregoing is a preferred embodiment of the present invention, and it should be noted that it would be apparent to those skilled in the art that various modifications and enhancements can be made without departing from the principles of the utility model, and such modifications and enhancements are also considered to be within the scope of the utility model.

Claims (8)

1. A multistage stirring device, comprising:

a support frame (1);

the weighing mechanism (2) is arranged on the support frame (1), and the weighing mechanism (2) comprises a plurality of hopper scales (201) used for weighing the weight of the dry powder;

the dry powder stirring mechanism (3) is arranged on the support frame (1) and is positioned below the weighing mechanism (2), and a feed inlet of the dry powder stirring mechanism (3) is connected with a discharge outlet of the hopper scale (201);

the slurry stirring mechanism (4) is arranged on the support frame (1) and is positioned below the dry powder stirring mechanism (3), and a feed inlet of the slurry stirring mechanism (4) is connected with a discharge outlet of the dry powder stirring mechanism (3);

and the foaming mixing mechanism (5) is arranged on the support frame (1) and is positioned below the slurry stirring mechanism (4), and a feed inlet of the foaming mixing mechanism (5) is connected with a discharge outlet of the slurry stirring mechanism (4).

2. The multistage stirring device as claimed in claim 1, wherein the dry powder stirring mechanism (3) comprises a dry powder stirring barrel (301) disposed on the support frame (1), a dry powder stirring assembly rotatably disposed in the dry powder stirring barrel (301), and a dry powder stirring driving assembly disposed outside the dry powder stirring barrel (301) and in transmission connection with the dry powder stirring assembly to drive the dry powder stirring assembly to rotate.

3. The multistage stirring device according to claim 2, wherein the dry powder stirring assembly comprises a dry powder stirring shaft (304) rotatably arranged at the bottom inside the dry powder stirring barrel (301), and a dry powder stirring arm (305) arranged on the dry powder stirring shaft (304), and the dry powder stirring driving assembly is in transmission connection with the dry powder stirring shaft (304) and drives the dry powder stirring shaft (304) to rotate around the central axis thereof.

4. The multistage stirring device as recited in claim 1, wherein the slurry stirring mechanism (4) comprises a slurry stirring barrel (401) arranged on the support frame (1), a slurry stirring component rotatably arranged in the slurry stirring barrel (401), and a slurry stirring driving component arranged outside the slurry stirring barrel (401) and in transmission connection with the slurry stirring component to drive the slurry stirring component to rotate.

5. The multistage stirring device as recited in claim 4, wherein the slurry stirring assembly comprises a first stirring assembly rotatably disposed at a central position in the slurry stirring barrel (401), a first stirring driving assembly disposed at an outer portion of the slurry stirring barrel (401) and in transmission connection with the first stirring assembly to drive the first stirring assembly to rotate, a second stirring assembly rotatably disposed at an inner edge position of the slurry stirring barrel (401), and a second stirring driving assembly disposed at an outer portion of the slurry stirring barrel (401) and in transmission connection with the second stirring assembly to drive the second stirring assembly to rotate.

6. The multistage stirring device as recited in claim 5, wherein the first stirring assembly comprises a first slurry stirring shaft (404) rotatably disposed at the inner top of the slurry stirring barrel (401), and a first slurry stirring blade (405) disposed at the lower part of the first slurry stirring shaft (404), and the first stirring driving assembly is in transmission connection with the first slurry stirring shaft (404) and drives the first slurry stirring shaft (404) to rotate around the central axis thereof;

the second stirring assembly comprises a second slurry stirring shaft (407) rotatably arranged at the inner top of the slurry stirring barrel (401), a stirring disc (408) arranged on the second slurry stirring shaft (407), and a second slurry stirring blade (409) arranged on the stirring disc (408), and the second stirring driving assembly is in transmission connection with the second slurry stirring shaft (407) and drives the second slurry stirring shaft (407) to rotate by taking the central axis thereof as the center;

the mixing disk (408) is located above the first slurry mixing blade (405).

7. The multistage stirring device as claimed in claim 1, wherein the foaming and mixing mechanism (5) comprises a foaming and stirring barrel (501) disposed on the supporting frame (1), a foaming and stirring component rotatably disposed in the foaming and stirring barrel (501), and a foaming and stirring driving component disposed outside the foaming and stirring barrel (501) and in transmission connection with the foaming and stirring component to drive the foaming and stirring component to rotate.

8. The multistage stirring device according to claim 7, wherein the foaming stirring component comprises a foaming stirring shaft (504) rotatably arranged at the inner top of the foaming stirring barrel (501), and a foaming stirring blade (505) arranged on the foaming stirring shaft (504), and the foaming stirring driving component is in transmission connection with the foaming stirring shaft (504) and drives the foaming stirring shaft (504) to rotate around the central axis thereof.

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