CN219149880U - Efficient agitated kettle - Google Patents

Abstract

The application relates to a high-efficiency stirring pot, relates to the technical field of stirring equipment, and aims to increase the uniformity of stirring of materials by the stirring pot; the pot comprises a pot body and a pot cover, wherein a stirring mechanism is further arranged in the pot body and comprises a driving motor and a first stirring rod, a first stirring blade is arranged on the first stirring, the stirring mechanism further comprises a stirring assembly, the stirring assembly comprises a transmission part and a stirring part, the stirring part comprises a second stirring rod and a second stirring blade, the second stirring blade is connected with the side wall of the second stirring rod, and the driving motor drives the second stirring rod to rotate through the driving transmission part. Set up stirring assembly for the agitator kettle can stir the material many times, thereby makes the material that is located the pot internal can be by intensive mixing, and then has increased the homogeneity of stirring. This application has the effect of increasing the uniformity of agitator kettle to the material stirring.

Description

Efficient agitated kettle

Technical Field

The application relates to the technical field of stirring equipment, in particular to an efficient stirring pot.

Background

Along with the continuous development of social economy and the increasing of the living standard of people, the demand of people for medicines is increasing, and the stirring pot is used as stirring equipment capable of mixing various materials, and plays an important role in the field of pharmacy.

There is a stirred tank in the prior art, and it includes the pot body, and the internal holding chamber of having seted up of pot is provided with the bottom plate in the holding chamber, and the bottom plate is located the below of holding chamber and with the inside wall fixed connection of holding chamber, has seted up the mesh on the bottom plate. The bottom plate is also provided with a screen, and the screen is positioned on the top end of the bottom plate and fixedly connected with the bottom plate. The upper part of the bottom plate and the bottom plate is also provided with a mounting bracket, the mounting bracket is fixedly mounted on the inner wall of the accommodating cavity, a driving motor is further mounted on the mounting bracket, an output shaft of the driving motor is fixedly connected with the stirring impeller and coaxially arranged, and the stirring impeller is rotationally connected with the mounting bracket. When the stirring device is used, materials are poured from the upper end of the pot body, the driving motor is turned on, and the driving motor drives the stirring impeller to rotate, so that the materials are stirred.

With respect to the related art described above, the inventors found that since stirring is performed only by a single blade wheel in the prior art and a part of the material which is not completely stirred during stirring passes through the blade wheel and directly enters the bottom end of the stirring pot through the screen, the non-uniformity of stirring is greatly increased.

Disclosure of Invention

In order to increase the uniformity of stirring pot to the material stirring, this application provides an efficient stirring pot.

The application provides an efficient agitated kettle adopts following technical scheme:

the utility model provides an efficient agitated kettle, includes the pot body and pot cover, the internal rabbling mechanism that still is provided with of pot, rabbling mechanism includes driving motor and first puddler, be provided with first stirring vane on the first stirring, stirring mechanism still includes stirring subassembly, stirring subassembly includes driving medium and stirring piece, the stirring piece includes second puddler and second stirring vane, the second stirring vane with the lateral wall of second puddler is connected, driving motor passes through the drive the driving medium drives the second puddler rotates.

Through adopting above-mentioned technical scheme, when needs stir the material, driving motor drive first puddler takes place to rotate, and then stirs the internal material of pot, simultaneously, driving motor still drives the driving medium to drive the second puddler through the driving medium and rotate, and then stir the material that is located the pot body, and then make the pot body fully stir the material. Set up stirring assembly for the agitator kettle can stir the material many times, thereby makes the material that is located the pot internal can be by intensive mixing, and then has increased the homogeneity of stirring.

Preferably, the stirring pieces are arranged in a plurality, and the transmission piece is used for driving the second stirring rod in each stirring piece to rotate.

Through adopting above-mentioned technical scheme, set up to a plurality of settings to the number of stirring piece, effectively increased the stirring dynamics of rabbling mechanism to the interior material of agitator kettle, still effectively increased the stirring mechanism simultaneously to the stirring homogeneity of material, effectively increased the stirring effect of rabbling mechanism to the material.

Preferably, the transmission piece comprises a sun gear, a plurality of planetary gears, a planet carrier and a gear ring, wherein the sun gear is sleeved on the first stirring rod, each planetary gear is meshed with the sun gear, each planetary gear is rotationally connected with the planet carrier, the planet carrier is rotationally connected with the pot cover, each planetary gear is meshed with the inner ring of the gear ring, the gear ring is connected with the pot cover, and each planetary gear is sleeved on the corresponding second stirring rod.

Through adopting above-mentioned technical scheme, when driving motor rotates, first puddler rotates along with it to drive the sun gear and rotate, the sun gear drives the planetary gear rotation with self engaged with, and do circular motion along the axis of gear circle. At this time, the second stirring rod connected to the planetary gear makes a circumferential rotation along its own axis and revolves around the axis of the gear ring. The transmission piece is specifically arranged, so that the second stirring rod driven by the transmission piece can simultaneously rotate and revolve, the stirring force of the second stirring rod on materials in the stirring pot is greatly increased, the stirring uniformity of the second stirring rod on the materials is also increased, and the stirring efficiency is improved.

Preferably, the number of the first stirring blades is set to be plural, and the first stirring blades are circumferentially arranged along the axis of the first stirring rod.

Through adopting above-mentioned technical scheme, to the setting of first stirring vane, can increase the stirring dynamics and the stirring scope of first puddler to the material under driving motor drive to effectively increased the stirring degree of first puddler to the material, increased the stirring effect, effectively increased the efficiency of stirring pot to the stirring of material.

Preferably, the number of the second stirring blades is set to be plural, and the second stirring blades are circumferentially arranged along the axis of the second stirring rod.

Through adopting above-mentioned technical scheme, to the setting of second stirring vane, can increase the stirring dynamics and the stirring scope of second puddler to the material under the driving medium drive to effectively increased the stirring degree of second puddler to the material, increased the stirring effect, effectively increased the efficiency of stirring pot to the stirring of material.

Preferably, each of the first stirring blades is staggered with the second stirring blade.

Through adopting above-mentioned technical scheme, through the blade setting to first stirring vane and second stirring, can effectively increase the stirring degree of consistency of first stirring vane and second stirring vane to the material, still effectively reduced simultaneously because first stirring vane bumps with the second stirring vane and leads to the probability that the agitator breaks down, effectively guaranteed the life of agitator, and then increased the stirring effect of agitator to the material.

Preferably, each of the first stirring blades and each of the second stirring blades is provided with a drag reduction through hole.

Through adopting above-mentioned technical scheme, to the setting of drag reduction through-hole for partial material can pass first stirring vane or second stirring vane through drag reduction through-hole, thereby effectively reduced the material and to first stirring vane and second stirring vane's resistance when stirring, increased first stirring vane and second stirring vane to the stirring speed of material, still reduced simultaneously because driving motor works under the oversized condition of long-time load, and lead to driving motor to take place the probability of damage, effectively guaranteed driving motor's life.

Preferably, the pot body is further provided with a feeding pipe and a discharging pipe, the feeding pipe and the discharging pipe are both communicated with the cavity in the pot body, the feeding pipe is located at the top end of the pot body, the discharging pipe is located at the bottom end of the pot body, and valves are arranged on the feeding pipe and the discharging pipe.

Through adopting above-mentioned technical scheme, when the material that needs to stir, open the valve that is located on the inlet pipe, the material lets in to the internal stirring of pot through the inlet pipe, when needs shift out the material that stirs, open the valve that is located the discharging pipe, the material lets out through the discharging pipe. The feeding pipe, the discharging pipe and the valve are arranged, so that the material inlet and outlet can be controlled.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the stirring assembly is arranged, so that the stirring pot can stir materials for a plurality of times, and the materials in the pot body can be sufficiently stirred, so that the stirring uniformity is improved;

2. the transmission piece is specifically arranged, so that the second stirring rod driven by the transmission piece can simultaneously rotate and revolve, the stirring force of the second stirring rod on materials in the stirring pot is greatly increased, the stirring uniformity of the second stirring rod on the materials is also increased, and the stirring efficiency is improved;

3. the feeding pipe, the discharging pipe and the valve are arranged, so that the material inlet and outlet can be controlled.

Drawings

FIG. 1 is a schematic diagram of an overall stirred tank for use in embodiments of the present application.

Fig. 2 is a schematic structural view for embodying the stirring mechanism in the embodiment of the present application.

Reference numerals illustrate: 1. a pot body; 2. a pot cover; 3. a feed pipe; 4. a discharge pipe; 5. a valve; 6. a stirring mechanism; 61. a driving motor; 62. a first stirring rod; 63. a first stirring blade; 64. a stirring assembly; 641. a transmission member; 6411. a sun gear; 6412. a planetary gear; 6413. a planet carrier; 6414. a gear ring; 642. a stirring member; 6421. a second stirring rod; 6422. a second stirring blade; 7. and (5) reducing the resistance of the through hole.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

The embodiment of the application discloses an efficient agitated kettle. Referring to fig. 1 and 2, the efficient stirring pot comprises a pot body 1 with an opening at the upper end and a pot cover 2, wherein the pot cover 2 is positioned at the top end of the pot body 1 and is fixedly connected with the pot body 1 through bolts. The pot body 1 is also provided with a feed pipe 3 and a discharge pipe 4, and the feed pipe 3 and the discharge pipe 4 are communicated with the inside of the pot body 1. The inlet pipe 3 is located the one side on the top of the pot body 1, and the discharging pipe 4 is located the one side that deviates from of the inlet pipe 3 of pot body 1 bottom. Valves 5 are arranged on the feed pipe 3 and the discharge pipe 4. When the materials need to be stirred, the valve 5 positioned on the feeding pipe 3 is opened, the materials are introduced into the pot body 1 through the feeding pipe 3 for stirring, and when the stirred materials need to be removed, the valve 5 positioned on the discharging pipe 4 is opened, and the materials are discharged through the discharging pipe 4.

Referring to fig. 1 and 2, the pot body 1 is further provided with a stirring mechanism 6, the stirring mechanism 6 comprises a driving motor 61 and a first stirring rod 62, and a body of the driving motor 61 is fixedly installed on the top wall of the pot cover 2 and is located at the center position of the pot cover 2. The output shaft of the driving motor 61 is perpendicular to the top wall of the pot cover 2, one end of the output shaft of the driving motor 61 is fixedly connected with one end of the first stirring rod 62 and is coaxially arranged, and one end of the first stirring rod 62 penetrates through the pot cover 2 and extends to the bottom end of the cavity inside the pot body 1.

Referring to fig. 1 and 2, the first stirring rod 62 is provided with a plurality of first stirring blades 63, and preferably, the first stirring blades 63 are provided with four groups, the number in each group is three, the four groups of first stirring blades 63 are equidistantly arranged along the axis of the first stirring rod 62, and the first stirring blades 63 in each group are circumferentially equiangularly arranged along the axis of the first stirring rod 62. A plurality of drag reduction through holes 7 are formed in one surface of each first stirring blade 63 so as to reduce the resistance of the materials to the first stirring blades 63 during stirring. When the materials are required to be stirred, the driving motor 61 drives the first stirring rod 62 to rotate, and the first stirring blades 63 positioned on the first stirring rod 62 further stir the materials in the pot body 1.

Referring to fig. 1 and 2, the stirring mechanism 6 further includes a stirring assembly 64, and the stirring assembly 64 includes a plurality of transmission members 641 and stirring members 642, and preferably, the number of stirring members 642 is set to three. The transmission 641 includes a sun gear 6411, a plurality of planetary gears 6412, a carrier 6413, and a ring gear 6414, and preferably, the number of planetary gears 6412 is set to three and corresponds one by one to the stirring member 642. The sun gear 6411 is fixedly sleeved on the first stirring rod 62 and is coaxially arranged with the first stirring rod 62, the sun gear 6411 is positioned below the pot cover 2, the planet carrier 6413 is annular and is rotationally connected with the bottom end of the pot cover 2, and the planet carrier 6413 and the sun gear 6411 are coaxially arranged. The bottom end of the planet carrier 6413 is rotationally connected with each planet gear 6412 through a pin shaft, the planet gears 6412 are distributed along the axis circumference of the planet carrier 6413 at equal angles, and each planet gear 6412 is meshed with the sun gear 6411.

Referring to fig. 1 and 2, each of the planetary gears 6412 is engaged with the inner side of the gear ring 6414, and the top wall of the gear ring 6414 is fixedly connected with the bottom wall of the pot cover 2. When the driving motor 61 rotates, the first stirring rod 62 rotates with it and drives the sun gear 6411 to rotate, and the sun gear 6411 drives the planetary gear 6412 meshed with itself to rotate and make a circular motion along the axis of the gear ring 6414. At this time, the second stirring rod 6421 connected to the planetary gear 6412 rotates circumferentially along its own axis and revolves around the axis of the gear ring 6414.

Referring to fig. 1 and 2, each stirring member 642 includes a second stirring rod 6421 and a plurality of second stirring blades 6422, the second stirring rods 6421 are in one-to-one correspondence with the planetary gears, and the top end of each second stirring rod 6421 is fixedly connected with the bottom wall of the corresponding planetary gear 6412 and coaxially disposed. Preferably, the second stirring blades 6422 are provided with three groups, the number in each group is three, the three groups of first stirring blades 63 are equidistantly arranged along the axis of the corresponding second stirring rod 6421, and the second stirring blades 6422 in each group are circumferentially arranged at equal angles along the axis of the corresponding second stirring rod 6421. The second stirring vane 6422 is disposed to be staggered with the first stirring vane 63. A plurality of drag reduction through holes 7 are formed in one surface of each second stirring blade 6422 so as to reduce the resistance of the materials to the second stirring blades 6422 during stirring.

The implementation principle of the efficient stirring pot provided by the embodiment of the application is as follows: when the stirring device is used, the valve 5 on the feeding pipe 3 is opened, materials are input into the pot body 1, the driving motor 61 is opened simultaneously, the output shaft of the driving motor 61 drives the first stirring rod 62 to rotate, and then the first stirring blade 63 on the first stirring rod 62 stirs the materials. Meanwhile, the sun gear 6411 rotates, so as to drive the planetary gear 6412 to rotate and revolve, and further drive the second stirring rod 6421 to rotate and revolve, so that the second stirring blade 6422 on the second stirring rod 6421 stirs the material.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides an efficient agitated kettle, includes the pot body (1) and pot cover (2), still be provided with rabbling mechanism (6) in the pot body (1), rabbling mechanism (6) are including driving motor (61) and first puddler (62), its characterized in that: be provided with first stirring vane (63) on first puddler (62), rabbling mechanism (6) still include stirring subassembly (64), stirring subassembly (64) are including driving medium (641) and stirring piece (642), stirring piece (642) include second puddler (6421) and second stirring vane (6422), second stirring vane (6422) with the lateral wall of second puddler (6421) is connected, driving motor (61) are through the drive driving medium (641) drive second puddler (6421) rotate.

2. The efficient stirred tank of claim 1 wherein: the stirring pieces (642) are arranged in a plurality, and the transmission piece (641) is used for driving the second stirring rod (6421) in each stirring piece (642) to rotate.

3. The efficient stirred tank of claim 2 wherein: the transmission piece (641) comprises a sun gear (6411), a plurality of planet gears (6412), a planet carrier (6413) and a gear ring (6414), wherein the sun gear (6411) is sleeved on the first stirring rod (62), each planet gear (6412) is meshed with the sun gear (6411), each planet gear (6412) is rotationally connected with the planet carrier (6413), the planet carrier (6413) is rotationally connected with the pot cover (2), each planet gear (6412) is meshed with the inner ring of the gear ring (6414), the gear ring (6414) is connected with the pot cover (2), and each planet gear (6412) is sleeved on the corresponding second stirring rod (6421).

4. The efficient stirred tank of claim 1 wherein: the number of the first stirring blades (63) is set to be a plurality, and the first stirring blades (63) are circumferentially arranged along the axis of the first stirring rod (62).

5. The efficient stirred tank of claim 4 wherein: the number of the second stirring blades (6422) is set to be a plurality, and the second stirring blades (6422) are circumferentially arranged along the axis of the second stirring rod (6421).

6. The efficient stirred tank of claim 5, wherein: each first stirring blade (63) and the second stirring blade (6422) are arranged in a staggered manner.

7. The efficient stirred tank of claim 6 wherein: and each first stirring blade (63) and each second stirring blade (6422) are provided with a drag reduction through hole (7).

8. The efficient stirred tank of claim 1 wherein: still be provided with inlet pipe (3) and discharging pipe (4) on the pot body (1), inlet pipe (3) with discharging pipe (4) all with cavity in the pot body (1) is linked together, inlet pipe (3) are located the top of the pot body (1), discharging pipe (4) are located the bottom of the pot body (1), inlet pipe (3) with all be provided with valve (5) on discharging pipe (4).

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