CN219482435U - Homogenizer capable of magnetically controlling internal and external circulation - Google Patents

Abstract

The utility model discloses a homogenizer capable of magnetically switching internal and external circulation, which comprises a motor, a homogenizing shaft, a homogenizing machine shell and a circulation switching structure, wherein the motor is arranged at the bottom end of the homogenizing machine shell, the homogenizing shaft is rotatably arranged in the homogenizing machine shell in a penetrating way, and the bottom end of the homogenizing shaft is mechanically connected with an output shaft of the motor; the bottom of the homogenizing shell is provided with an assembling cavity, the middle part of the homogenizing shell is provided with a homogenizing cavity isolated from the assembling cavity, the center of the upper part of the homogenizing shell is provided with a feeding channel communicated with the homogenizing cavity, the edge of the upper part of the homogenizing shell is provided with an arc-shaped communicating section, and a plurality of inner circulation channels communicated with the homogenizing cavity are formed in the arc-shaped communicating section at intervals; the middle part of the outer wall of the homogenizing shell is provided with an outer circulation port communicated with the homogenizing cavity; the circulation switching structure is arranged in the homogenizing shell, and the internal circulation and the external circulation are switched through the circulation switching structure. The utility model can switch the internal and external circulation more stably and improve the homogenizing effect.

Description

Homogenizer capable of magnetically controlling internal and external circulation

Technical Field

The utility model relates to the technical field of homogenizing equipment, in particular to a homogenizer capable of magnetically switching internal and external circulation.

Background

The homogenizer with the internal and external circulation functions is generally applied to the production of cosmetics, the liquid level of a pot is relatively low in the initial feeding stage, and the internal circulation is utilized to realize the rapid dissolution of materials; the material in the tank is uniformly treated by using external circulation and matched stirring in the homogenizing emulsification stage; the produced cosmetics have fine particle size, narrow distribution range and strong skin penetrability, and are one of important characteristics of good products.

However, in the conventional homogenizer with internal and external circulation functions, the mode of switching is a floating disc, and when external circulation is performed at high power, the floating disc cannot be kept completely closed only by gravity due to the impact force of fluid, so that the homogenizing effect is affected.

Disclosure of Invention

The utility model aims to provide a homogenizer capable of magnetically switching internal and external circulation.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a homogenizer of magnetic control switching inner and outer circulation, includes motor, homogenizing shaft, homogenizing casing and circulation switching structure, the motor is installed on the bottom of homogenizing casing, homogenizing shaft rotationally wears to establish in homogenizing casing, homogenizing shaft's bottom and the output shaft machinery of motor are connected; the bottom of the homogenizing machine shell is provided with an assembling cavity, the middle part of the homogenizing machine shell is provided with a homogenizing cavity, the center of the upper part of the homogenizing machine shell is provided with a feeding channel communicated with the homogenizing cavity, the edge of the upper part of the homogenizing machine shell is provided with an arc-shaped communicating section, and a plurality of inner circulation channels communicated with the homogenizing cavity are formed in the arc-shaped communicating section at intervals; the middle part of the outer wall of the homogenizing shell is provided with an outer circulation port communicated with the homogenizing cavity; an interlayer is arranged between the assembly cavity and the homogenizing cavity to isolate the assembly cavity from the homogenizing cavity;

the circulating switching structure comprises a switching rotating frame, a switching driving frame and a switching driving cylinder, wherein the switching rotating frame is rotatably arranged in the homogenizing cavity, a switching ring which is abutted against the top wall of the homogenizing cavity is formed at the top end of the switching rotating frame, a plurality of supporting frames are arranged at the bottom end of the switching rotating frame, and a through hole is formed in the switching ring corresponding to each internal circulating channel; the switching driving frame is rotatably arranged in the assembly cavity, a magnetic attraction seat is arranged at the top end of the switching driving frame corresponding to each supporting frame, a plurality of permanent magnets are embedded in the bottom end of the supporting frame and the top end of the magnetic attraction seat at intervals, and the corresponding supporting frames and the magnetic attraction seats are magnetically connected under intervals of the interlayer; the switching driving cylinder is arranged in the assembly cavity, the telescopic rod of the switching driving cylinder is connected with the bottom end of the switching driving frame, the telescopic rod of the switching driving cylinder stretches, the switching driving frame and the switching rotating frame which are magnetically connected are driven to rotate, the switching driving frame rotates along with the switching driving frame, the switching driving frame can seal an inner circulation channel or is communicated with the inner circulation channel through a through hole, and then the inner circulation channel and the outer circulation channel are switched.

As a further technical scheme of the utility model: the magnetic attraction seat of the corresponding switching driving frame on the bottom surface of the interlayer is concavely provided with a guide groove, the top end of the magnetic attraction seat penetrates into the guide groove, the interval between the magnetic attraction seat and the supporting frame is shortened, and the magnetic attraction seat can slide along the guide groove when the switching driving cylinder drives the switching driving frame.

As a further technical scheme of the utility model: the two support frames are arranged oppositely at the bottom ends of the switching driving frame, the arc-shaped communication section is in a major arc shape, an arc-shaped base frame corresponding to the arc-shaped communication section in shape is arranged at the bottom end of the switching driving frame, the ends of the arc-shaped base frame at the two ends of the arc-shaped base frame are respectively provided with a magnetic attraction seat, and a supporting rod connected with a telescopic rod of the switching driving cylinder is arranged between the two ends of the arc-shaped base frame.

As a further technical scheme of the utility model: the upper part of the outer wall of the homogenizing shell is provided with a powder adding port communicated with the feeding channel at a position corresponding to the opening of the arc-shaped communication section.

As a further technical scheme of the utility model: the homogenizing shell is provided with a guide disc on the top end of the feeding channel.

As a further technical scheme of the utility model: the homogenizing machine shell comprises a base, an upper machine shell and a lower machine shell arranged between the base and the upper machine shell, the assembly cavity is formed in the base, the homogenizing cavity and the outer circulation port are formed in the lower machine shell, and the feeding channel, the inner circulation channel and the powder adding port are formed in the upper machine shell.

As a further technical scheme of the utility model: and a tank bottom mounting flange is arranged on the periphery of the top end of the homogenizing shell.

As a further technical scheme of the utility model: the homogenizing shaft is provided with a homogenizing rotary table on one section in the homogenizing cavity and a plurality of stirring blades on one section in the feeding channel, so that the homogenizing rotary table and the stirring blades rotate along with the rotation of the homogenizing shaft; the homogenizing cavity is fixedly provided with a homogenizing net cover covered on the homogenizing turntable, so that materials output along with the rotation of the homogenizing turntable can pass through meshes on the homogenizing net cover.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides a magnetic control internal and external circulation switching homogenizer, which drives a magnetically connected switching driving frame and a switching rotating frame to rotate when a telescopic rod of a switching driving cylinder stretches and contracts through the cooperation among a motor, a homogenizing shaft, a homogenizing machine shell and a circulation switching structure, and the switching driving frame rotates along with the switching driving frame, so that the internal circulation channel can be closed or communicated with the internal circulation channel through a through hole by the switching driving frame, the internal and external circulation can be switched more stably, and the homogenizing effect is improved.

Drawings

Fig. 1 is a schematic diagram of a homogenizer with magnetically controlled switching of the internal and external cycles.

Fig. 2 is a structural diagram of a homogenizer with magnetically controlled switching of internal and external cycles.

Fig. 3 is an exploded view of the homogeneous housing.

Fig. 4 is a schematic view of the lower housing.

Fig. 5 is a schematic view of the upper housing.

Fig. 6 is a structural diagram of a loop switching structure.

Fig. 7 is a schematic view of a switching turret.

Fig. 8 is a schematic view of a switching drive rack.

Fig. 9 is a schematic view of a diaphragm.

Fig. 10 is a schematic view of a homogenizing carousel.

Fig. 11 is a schematic view of a homogeneous mesh enclosure.

Detailed Description

The following describes specific embodiments of the present utility model in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the utility model, are not intended to limit the scope of the utility model.

Referring to fig. 1, 2, 3, 4 and 5, a magnetically controlled internal and external circulation switching homogenizer comprises a motor 10, a homogenizing shaft 20, a homogenizing casing 30 and a circulation switching structure 40, wherein the motor 10 is installed at the bottom end of the homogenizing casing 30, the homogenizing shaft 20 is rotatably arranged in the homogenizing casing 30 in a penetrating way, the bottom end of the homogenizing shaft 20 is mechanically connected with an output shaft of the motor 10, and the homogenizing shaft 20 is driven to rotate in the homogenizing casing 30 by the motor 10; the homogenizing machine shell 30 is provided with an assembling cavity 31 at the bottom in the homogenizing machine shell, a homogenizing cavity 32 at the middle part, a feeding channel 33 communicated with the homogenizing cavity 32 at the center of the upper part, and an arc-shaped communication section 34 at the edge of the upper part, wherein a plurality of inner circulation channels 341 communicated with the homogenizing cavity 32 are arranged on the arc-shaped communication section 34 at intervals; the homogenizing casing 30 is provided with an outer circulation port 35 communicated with the homogenizing cavity 32 at the middle part of the outer wall thereof; an interlayer 50 is arranged between the assembly cavity 31 and the homogenizing cavity 32 to isolate the assembly cavity 31 from the homogenizing cavity 32;

referring to fig. 6, 7 and 8, the circulation switching structure 40 is disposed in the homogenizing casing 30, and the circulation switching structure 40 switches the internal circulation and the external circulation, and includes a switching rotating frame 41, a switching driving frame 42 and a switching driving cylinder 43, wherein the switching rotating frame 41 is rotatably disposed in the homogenizing chamber 32, the switching rotating frame 41 is formed with a switching ring 411 abutting against the top wall of the homogenizing chamber 32 at the top end thereof, and two supporting frames 412 are disposed at the bottom end thereof, and a through hole 401 is formed on the switching ring 411 corresponding to each internal circulation channel 341; the switching driving rack 42 is rotatably disposed in the assembly cavity 31, a magnetic attraction seat 421 is disposed at the top end of the switching driving rack 42 corresponding to each supporting rack 412, and a plurality of permanent magnets 402 are embedded in the bottom end of the supporting rack 412 and the top end of the magnetic attraction seat 421 at intervals, so that the corresponding supporting rack 412 and the magnetic attraction seat 421 are magnetically connected at intervals of the separation layer 50; the switching driving cylinder 43 is disposed in the assembly cavity 31 and is located below the switching driving frame 42, a telescopic rod of the switching driving cylinder 43 is connected with a bottom end of the switching driving frame 42, the telescopic rod of the switching driving cylinder 43 stretches out and draws back, the switching driving frame 42 and the switching rotating frame 41 which are magnetically connected are driven to rotate, and the switching driving frame 42 rotates along with the switching driving frame 42, the switching driving frame 42 can seal the internal circulation channel 341 or is communicated with the internal circulation channel 341 through the through hole 401, and then internal and external circulation is switched.

Further, referring to fig. 1 and 4, the bottom surface of the partition 50 is concavely provided with a guiding groove 51 corresponding to the magnetic attraction seat 421 of the switching driving frame 42, so that the top end of the magnetic attraction seat 421 penetrates into the guiding groove 51, the interval between the magnetic attraction seat 421 and the supporting frame 412 is shortened, and the magnetic attraction seat 421 can slide along the guiding groove 51 to perform guiding and limiting functions when the switching driving frame 42 is driven by the switching driving cylinder 43.

Further, referring to fig. 5, the arc-shaped communication section 34 is in a major arc shape, an arc-shaped base frame 422 corresponding to the arc-shaped communication section 34 is disposed at the bottom end of the switching driving frame 42, two magnetic attraction bases 421 are disposed on the ends of the arc-shaped base frame 422, and a supporting rod 423 connected to the telescopic rod of the switching driving cylinder 43 is disposed between the two ends.

Further, the homogenizing casing 30 is provided with a powder feeding port 36 at a position corresponding to the opening of the arc-shaped communication section 34 at the upper part of the outer wall thereof, and the powder feeding port 36 is opened to supplement powder in the feeding channel 33.

Further, referring to fig. 1 and 8, the homogenizing machine housing 30 is provided with a deflector 37 at the top end of the feeding path 33, so as to facilitate feeding of the material into the feeding path 33.

Further, referring to fig. 1 and 3, the homogenizing housing 30 includes a base 301, an upper housing 302, and a lower housing 303 installed between the base 301 and the upper housing 302, the assembly chamber 31 is formed in the base 301, the homogenizing chamber 32 and the external circulation port 35 are formed in the lower housing 303, and the feeding channel 33, the internal circulation channel 341, and the powder feeding port 36 are formed in the upper housing 302.

Further, a tank bottom mounting flange 304 is mounted on the top periphery of the homogenizing casing 30 for An Zhuangrong of the tank, so that the inner circulation channel 341, the feeding channel 33 and the containing tank are communicated, and the outer circulation port 35 can be communicated with the containing tank through a circulation pipe.

Further, referring to fig. 1, 10 and 11, the homogenizing shaft 20 is provided with a homogenizing rotary table 21 at a section in the homogenizing chamber 32 and a plurality of stirring blades 22 at a section in the feeding channel 33, so that the homogenizing rotary table 21 and the stirring blades 22 rotate along with the rotation of the homogenizing shaft 20; the homogenizing cavity 32 is fixedly provided with a homogenizing screen 23 covered on the homogenizing turntable 21, so that the materials output along with the rotation of the homogenizing turntable 21 can pass through the meshes on the homogenizing screen 23.

It can be appreciated that the internal and external circulation method after the homogenizer with the magnetic control switching internal and external circulation and the material containing tank are correspondingly installed is as follows:

internal circulation: when the switching driving cylinder 43 drives the magnetically connected switching driving frame 42 and the switching rotating frame 41 to rotate, and the switching driving frame 42 rotates, the switching driving frame 42 is communicated with the internal circulation channel 341 through the through hole 401, and the feeding channel 33, the homogenizing cavity 32 and the internal circulation channel 341 form an internal circulation channel; external circulation: when the switching driving cylinder 43 drives the magnetically connected switching driving frame 42 and the switching rotating frame 41 to rotate, and the switching driving frame 42 rotates, the feeding channel 33, the homogenizing chamber 32, the outer circulation port 35 and the circulation pipe communicating the outer circulation port 35 and the material accommodating tank form an outer circulation channel in a state that the switching driving frame 42 closes the inner circulation channel 341.

In summary, in the homogenizer with magnetic control switching internal and external circulation according to the present utility model, the motor 10, the homogenizing shaft 20, the homogenizing casing 30 and the circulation switching structure 40 cooperate to drive the magnetically connected switching driving frame 42 and the switching rotating frame 41 to rotate when the telescopic rod of the switching driving cylinder 43 stretches and contracts, and rotate with the switching driving frame 42, the switching driving frame 42 can close the internal circulation path 341 or communicate the internal circulation path 341 with the through hole 401, so as to switch the internal and external circulation more stably, and improve the homogenizing effect.

Any combination of the various embodiments of the utility model should be considered as being within the scope of the present disclosure, as long as the inventive concept is not violated; within the scope of the technical idea of the utility model, any combination of various simple modifications and different embodiments of the technical proposal without departing from the inventive idea of the utility model should be within the scope of the utility model.

Claims (8)

1. The utility model provides a homogenizer of inside and outside circulation is switched in magnetic control, includes motor (10), homogeneity axle (20), homogeneity casing (30) and circulation switching structure (40), its characterized in that: the motor (10) is arranged at the bottom end of the homogenizing machine shell (30), the homogenizing shaft (20) is rotatably arranged in the homogenizing machine shell (30) in a penetrating mode, and the bottom end of the homogenizing shaft (20) is mechanically connected with an output shaft of the motor (10); the homogenizing machine shell (30) is characterized in that an assembly cavity (31) is formed at the bottom in the homogenizing machine shell, a homogenizing cavity (32) is formed in the middle of the homogenizing machine shell, a feeding channel (33) communicated with the homogenizing cavity (32) is formed in the center of the upper part of the homogenizing machine shell, an arc-shaped communication section (34) is formed at the edge of the upper part of the homogenizing machine shell, and a plurality of inner circulation channels (341) communicated with the homogenizing cavity (32) are formed in the arc-shaped communication section (34) at intervals; the middle part of the outer wall of the homogenizing shell (30) is provided with an outer circulation port (35) communicated with the homogenizing cavity (32); an interlayer (50) is arranged between the assembly cavity (31) and the homogenizing cavity (32), and the assembly cavity (31) is isolated from the homogenizing cavity (32);

the circulation switching structure (40) comprises a switching rotating frame (41), a switching driving frame (42) and a switching driving cylinder (43), wherein the switching rotating frame (41) is rotatably arranged in the homogenizing cavity (32), a switching ring (411) which is abutted against the top wall of the homogenizing cavity (32) is formed at the top end of the switching rotating frame (41), a plurality of supporting frames (412) are arranged at the bottom end of the switching rotating frame, and a through hole (401) is formed in the switching ring (411) corresponding to each inner circulation channel (341); the switching driving frame (42) is rotatably arranged in the assembly cavity (31), a magnetic attraction seat (421) is arranged at the top end of the switching driving frame (42) corresponding to each supporting frame (412), a plurality of permanent magnets (402) are embedded in the bottom end of the supporting frame (412) and the top end of the magnetic attraction seat (421) at intervals, and the corresponding supporting frame (412) and the magnetic attraction seat (421) are magnetically connected under the intervals of the interlayer (50); the switching driving cylinder (43) is arranged in the assembly cavity (31), a telescopic rod of the switching driving cylinder (43) is connected with the bottom end of the switching driving frame (42), the telescopic rod of the switching driving cylinder (43) stretches out and draws back, the switching driving frame (42) which is connected magnetically is driven to rotate with the switching rotating frame (41), the switching driving frame (42) rotates along with the switching driving frame (42), the switching driving frame (42) can seal the inner circulation channel (341) or is communicated with the inner circulation channel (341) through a through hole (401), and then the inner circulation and the outer circulation are switched.

2. A homogenizer according to claim 1, wherein: the magnetic attraction seat (421) on the bottom surface of the interlayer (50) corresponding to the switching driving frame (42) is concavely provided with a guide groove (51), the top end of the magnetic attraction seat (421) penetrates into the guide groove (51), the interval between the magnetic attraction seat (421) and the supporting frame (412) is shortened, and the magnetic attraction seat (421) can slide along the guide groove (51) when the switching driving cylinder (43) drives the switching driving frame (42).

3. A homogenizer according to claim 1, wherein: the two support frames (412) are arranged oppositely at the bottom ends of the switching driving frames (42), the arc-shaped communication sections (34) are in a major arc shape, arc-shaped base frames (422) corresponding to the arc-shaped communication sections (34) in shape are arranged at the bottom ends of the switching driving frames (42), the magnetic attraction bases (421) are respectively arranged at the end parts of the two ends of the arc-shaped base frames (422), and struts (423) connected with telescopic rods of the switching driving cylinders (43) are arranged between the two ends of the arc-shaped base frames.

4. A homogenizer according to claim 3, wherein: the homogenizing machine shell (30) is provided with a powder adding port (36) communicated with the feeding channel (33) at the position corresponding to the opening of the arc-shaped communication section (34) at the upper part of the outer wall of the homogenizing machine shell.

5. A homogenizer according to claim 1, wherein: the homogenizing machine shell (30) is provided with a guide disc (37) at the top end of the feeding channel (33).

6. A homogenizer according to claim 1, wherein: the homogenizing machine shell (30) comprises a base (301), an upper machine shell (302) and a lower machine shell (303) arranged between the base (301) and the upper machine shell (302), the assembling cavity (31) is formed in the base (301), the homogenizing cavity (32) and the external circulation port (35) are formed in the lower machine shell (303), and the feeding channel (33), the internal circulation channel (341) and the powder adding port (36) are formed in the upper machine shell (302).

7. A homogenizer according to claim 1, wherein: a tank bottom mounting flange (304) is mounted on the periphery of the top end of the homogenizing machine shell (30).

8. A homogenizer according to claim 1, wherein: the homogenizing shaft (20) is provided with a homogenizing rotary table (21) at one section in the homogenizing cavity (32) and a plurality of stirring blades (22) at one section in the feeding channel (33) for rotating the homogenizing rotary table (21) and the stirring blades (22) along with the rotation of the homogenizing shaft (20); a homogenizing screen (23) covered on the homogenizing turntable (21) is fixedly arranged in the homogenizing cavity (32) and used for enabling materials output along with rotation of the homogenizing turntable (21) to pass through meshes on the homogenizing screen (23).