CN213761310U - Homogenizing emulsifying pot - Google Patents

Abstract

The utility model belongs to the emulsifying pot field especially relates to a homogeneity emulsifying pot, and it includes the pot body, and the opening part lid of the pot body is equipped with the pot cover, and the internal agitating unit that is equipped with of pot, agitating unit and pot cover are connected, and outer wall fixedly connected with of pot connects the material pipe, connects material pipe and pot body intercommunication setting, and the lateral wall that connects the material pipe has seted up the overflow mouth, connects material intraductal sliding connection to have the piston that is used for blockking up the overflow mouth, piston and connect to be equipped with the drive assembly that the drive piston removed between the material pipe. This application has the effect that can promote in stirring process, the convenience of taking a sample.

Description

Homogenizing emulsifying pot

Technical Field

The application relates to the field of cosmetic processing equipment, in particular to a homogenizing and emulsifying pot.

Background

The cosmetic is a chemical industrial product or a fine chemical product which is applied, sprayed or the like on the surface of a human body, such as skin, hair, nails, lips, teeth and the like, to achieve the purposes of cleaning, maintaining, beautifying, modifying and changing the appearance, or correcting the odor of the human body and keeping a good state. In the production of cosmetics, an emulsifying operation is generally performed on raw materials using an emulsifying pot.

At present, in the related art, chinese patent with publication number CN207628228U discloses a cosmetic vacuum homogenizing and emulsifying machine, which comprises a base, a turnover shaft connected with the base, a pot body fixedly connected with the turnover shaft, and an oil phase pot and a water phase pot communicated with the pot body; the base is also connected with a hydraulic ejector rod, the hydraulic ejector rod is connected with a cross beam, the bottom of the cross beam is fixedly connected with a pot cover, the pot cover is arranged at an opening of the pot body and is connected with a first vacuum pipeline and a second vacuum pipeline, one end of the first vacuum pipeline, which is far away from the pot cover, is connected with a vacuum pump, the vacuum pump is connected with one end of the second vacuum pipeline, which is far away from the pot cover, and a second valve and a condensing device are arranged on the second vacuum pipeline; the crossbeam is also fixedly connected with a main stirring motor which is connected with a stirring device, and the bottom end of the stirring shaft penetrates through the pot cover and extends into the pot body.

When the cosmetics need to be homogenized, introducing the water phase substances and the oil phase substances in the water phase pot and the oil phase pot into the pot body, opening a vacuum pump, and vacuumizing; then, a main stirring motor is started, and the main stirring motor drives a stirring shaft to drive a stirring device to stir the mixture; under the action of the circulating pump, the mixed liquid returns to the upper part from the bottom of the pot again for stirring. After the stirring is finished, the hydraulic ejector rod drives the beam to move upwards, the pot cover is separated from the pot body, the turnover shaft is rotated, and the materials are poured out from the pot body.

In view of the above-mentioned related art, the inventor believes that the performance of the material needs to be tested in the process of stirring the material, and the use of the above-mentioned device is inconvenient for testing the performance of the material in the stirring process.

SUMMERY OF THE UTILITY MODEL

In order to promote the convenience when stirring the in-process to the material, the sample, this application provides a homogeneity emulsification pot.

The application provides a homogeneity emulsification pot adopts following technical scheme:

the utility model provides a homogeneity emulsifying pot, includes the pot body, and the opening part lid of the pot body is equipped with the pot cover, and the internal agitating unit that is equipped with of pot, agitating unit and pot cover are connected, and pot body outer wall fixedly connected with connects the material pipe, connects material pipe and pot body intercommunication setting, and the overflow mouth has been seted up to the lateral wall that connects the material pipe, connects the intraductal sliding connection of material to have a piston that is used for blockking up the overflow mouth, piston and connect to be equipped with the drive assembly that the piston removed between the material pipe.

By adopting the technical scheme, the driving assembly drives the piston to move during sampling, so that the blockage of the piston on the overflow port is relieved, and the material flows out of the overflow port; after the material is taken, the driving assembly drives the piston to move, and the piston blocks the overflow port. The setting of material receiving pipe, overflow mouth and piston can conveniently be compared with traditional method at the in-process of stirring and carry out the sample test to the material, need not take off the pot cover, takes a sample to the material, simple structure, convenient operation.

Optionally, the driving assembly comprises a connecting cylinder and a driving bolt, one end of the connecting cylinder and one end of the material receiving pipe, far away from the pot body, are fixedly connected, the connecting cylinder and the material receiving pipe are arranged in a communicating pipe, the driving bolt stretches into the connecting cylinder and is in threaded connection with the connecting cylinder, and the driving bolt stretches into one end of the material receiving pipe, close to the connecting cylinder, of the piston and is fixedly connected with the end of the connecting cylinder.

Through adopting above-mentioned technical scheme, during the sample, twist and move the drive bolt, the drive bolt rotates and drives the piston and slide in the material receiving pipe for the piston can block up the overflow mouth, and can remove the jam to the overflow mouth. The driving bolt is arranged, the structure is simple, and the operation is convenient.

Optionally, a clamping ring is arranged in the material receiving pipe, the clamping ring is located at one end, close to the pot body, of the overflow port, and the outer peripheral surface of the clamping ring is fixedly connected with the inner peripheral surface of the material receiving pipe.

Through adopting above-mentioned technical scheme, when blockking up the overflow mouth, the joint ring can carry out the joint to the piston, avoids the piston too close to the pot body even slip into the pot internally. Due to the arrangement of the clamping ring, the piston can be clamped, and the smoothness of the sliding piston can be improved.

Optionally, the inner diameter of the connecting cylinder is smaller than the inner diameter of the material receiving pipe.

Through adopting above-mentioned technical scheme, the diameter of connecting cylinder is less than the diameter of material receiving pipe for the connecting cylinder can carry out the joint to the piston, and then can avoid the piston to deviate from the material receiving pipe, further promotes the smooth and easy nature when connecing the material of getting.

Optionally, the opening of the overflow port is arranged downwards.

Through adopting above-mentioned technical scheme, the opening of overflow mouth sets up down for the material can flow downwards under the action of gravity, and then can promote the smooth and easy nature when getting the material.

Optionally, the outer wall of the material receiving pipe is fixedly connected with a material guide pipe, and the material guide pipe is communicated with the overflow port.

Through adopting above-mentioned technical scheme, when connecing the material, the material flows out by the passage behind the overflow mouth. The setting of passage can play the effect of direction to the material, and then can reduce the phenomenon that the material takes place to sputter when directly flowing out by the overflow mouth, further promotes the smooth and easy nature when connecing and getting the material.

Optionally, the top surface of the pot cover is provided with two flow guide holes, the flow guide holes penetrate through the thickness of the pot cover; the pot is internally provided with two flow guide pipes which are communicated with the flow guide holes.

By adopting the technical scheme, when the materials are introduced into the pot body, the oil phase feeding pipe communicated with the oil phase pot extends into one of the flow guide pipes; and extending the water phase feeding pipe communicated with the water phase pot into the other guide pipe. Because at the in-process of stirring, the condition that rocks appears in the pot body, and the pot body rocks and drives oil phase inlet pipe and aqueous phase inlet pipe and rocks, and then leads to the material to fall to sputter on the inner wall of the pot body, leads to the insufficient phenomenon of oil phase material and aqueous phase material reaction. The setting of honeycomb duct can reduce the condition that oil phase inlet pipe and aqueous phase inlet pipe take place to rock, and then stability when can promoting the feeding reduces the phenomenon of material spraying to pot inner wall, and then can promote the homogeneity of material reaction.

Optionally, the bottom end of the flow guide pipe inclines towards the center line of the pot body.

Through adopting above-mentioned technical scheme, the bottom of honeycomb duct is to the direction slope of the central line of the pot body for the water phase, material and oil phase material are at the in-process that falls into the pot body, and towards the center drippage of the pot body, and then can further reduce the water phase, and the phenomenon of the inner wall of pot is drippage to material and oil phase material, and then can further promote the reaction effect of two kinds of materials.

Optionally, the bottom end of the pot body is communicated with a discharging pipe, and the discharging pipe is connected with a valve.

Through adopting above-mentioned technical scheme, after the stirring, remove the jam of valve to the unloading pipe, the material after the mixture is discharged by the unloading pipe. The setting of unloading pipe and valve for when empting the material, need not remove the pot lid and establish to the lid of the pot body, then empty the whole pot body, and then can promote the convenience when taking out the material.

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

the drive bolt can drive the piston to remove the piston and to the jam of overflow mouth, at the in-process of material stirring, conveniently takes a sample the test to the material, and then can promote the convenience of stirring material in-process sample test.

The baffle pipe and the overflow mouth intercommunication set up, can reduce the phenomenon that the material flows out and spatters in by the overflow mouth, and then smooth and easy nature when can promoting the sample.

The setting of honeycomb duct can play stable effect to oil phase inlet pipe and aqueous phase inlet pipe, reduces the phenomenon that oil phase material and aqueous phase material splash to pot inner wall, reduces the inhomogeneous phenomenon of oil phase material and aqueous phase material mixture, and then can promote the effect that the material mixes.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a partial structural sectional view intended to show a stirring frame of the present application.

Figure 3 is a partial sectional view of the structure intended to show the overflow of the present application.

Fig. 4 is a partial structural sectional view intended to show the lock bolt of the present application.

Description of reference numerals: 1. a support; 11. a pan body; 111. a discharging pipe; 1111. a valve; 112. locking a ring; 113. a locking assembly; 1131. locking the bolt; 1132. locking the nut; 12. a pot cover; 121. a butting ring; 122. a flow guide hole; 1221. a flow guide pipe; 2. a stirring device; 21. a stirring shaft; 211. a drive motor; 22. a stirring frame; 23. a stirring blade; 3. a material receiving pipe; 31. an overflow port; 32. a piston; 33. a material guide pipe; 321. a drive assembly; 3211. a connecting cylinder; 3212. a drive bolt; 34. a snap ring; 4. an oil phase pan; 41. an oil phase feeding pipe; 411. a first drive pump; 5. a water phase pot; 51. a water phase feeding pipe; 511. the second drives the pump.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses homogenizing and emulsifying pot. Referring to fig. 1, the homogeneous emulsifying pot comprises a support 1, a pot body 11 with an upward opening is fixedly connected to the support 1, and the pot body 11 is communicated with an oil phase pot 4 and a water phase pot 5; the top surface of the pot body 11 is connected with a pot cover 12, and with reference to fig. 2, the pot cover 12 is connected with a stirring device 2, the stirring device 2 is positioned in the pot body 11, the stirring device 2 is connected with a driving motor 211, and the driving motor 211 is fixedly connected with the pot cover 12; referring to fig. 3, the bottom end of the pot body 11 is communicated with a material receiving pipe 3, an overflow port 31 is formed in the material receiving pipe 3, and the material receiving pipe 3 is connected with a piston 32 for blocking the overflow port 31.

When the cosmetics are homogenized and emulsified, firstly, the oil phase materials in the oil phase pot 4 and the water phase materials in the water phase pot 5 are poured into the pot body 11; then, the driving motor 211 is started, and the stirring device 2 is used for stirring the materials under the action of the driving motor 211; in the stirring process, when the material performance needs to be detected, the plugging of the piston 32 to the material pipe 3 is removed, the material flows out of the material receiving pipe 3, and after a certain amount of material is received, the material pipe 3 is plugged.

Referring to fig. 2, pot body 11 is the cylinder tubbiness structure that the opening faces up, and the diapire of pot body 11 is the circular-arc of kickup, and the bottom intercommunication of pot body 11 has unloading pipe 111, and unloading pipe 111 is equipped with threely, along the radial interval distribution of pot body 11, and one of them unloading pipe 111 is located the positive center and the vertical setting of pot body 11 diapire, and the bottom of two unloading pipes 111 that are located both ends is to the direction slope of keeping away from each other, and unloading pipe 111 is connected with valve 1111.

Referring to fig. 1, the lid 12 is shaped like a hemispherical shell with an open bottom, and the bottom of the lid 12 is bent outward to form a contact ring 121. A locking ring 112 coaxial with the pot body 11 is fixedly connected to the top surface of the pot body 11, the top surface of the locking ring 112 is abutted against the bottom surface of the abutting ring 121, and a locking assembly 113 is arranged between the locking ring 112 and the abutting ring 121.

Referring to fig. 4, the locking assembly 113 includes four locking bolts 1131 and four locking nuts 1132, the four locking bolts 1131 are vertically arranged and distributed along the circumferential circumference array of the locking ring 112, the bottom end of the locking bolt 1131 is fixedly connected with the top surface of the locking ring 112, and the top end of the locking bolt 1131 penetrates through the abutting ring 121 and then is in threaded connection with the locking nuts 1132.

Referring back to fig. 1, the oil phase pan 4 is communicated with an oil phase feeding pipe 41, one end of the oil phase feeding pipe 41 far away from the oil phase pan 4 penetrates through the pan cover 12 and then is communicated with the pan body 11, and the oil phase feeding pipe 41 is connected with a first driving pump 411; the water phase pot 5 is communicated with a water phase feeding pipe 51, the water phase feeding pipe 51 is communicated with the pot body 11 after passing through the pot cover 12, and the water phase feeding pipe 51 is connected with a second driving pump 511.

Referring to fig. 2, two flow guide pipes 1221 are disposed in the pot body 11, and the two flow guide pipes 1221 are spaced apart from each other in the radial direction of the pot cover 12. Honeycomb duct 1221 top and pot cover 12's inner wall fixed connection, the bottom is to the direction slope that is close to (mixing) shaft 21, water conservancy diversion hole 122 has been seted up to the top surface of pot cover 12, water conservancy diversion hole 122 runs through pot cover 12 and sets up, water conservancy diversion hole 122 has seted up two, be located two honeycomb ducts 1221's top respectively, honeycomb duct 1221 and water conservancy diversion hole 122 intercommunication set up, be equipped with the sealing ring in the water conservancy diversion hole 122, the outer wall of sealing ring and the inner wall fixed connection of water conservancy diversion hole 122.

When emulsification operation is required, firstly, the oil phase feeding pipe 41 penetrates through the flow guide hole 122 and the flow guide pipe 1221 and then extends into the pot body 11, and then the water phase feeding pipe 51 penetrates through the other flow guide hole 122 and the flow guide pipe 1221 and then extends into the pot body 11; finally, the first driving pump 411 and the second driving pump 511 are started to convey the oil-phase material and the water-phase material into the pot body 11.

Referring to fig. 2, the stirring device 2 includes a stirring shaft 21, a stirring frame 22 and stirring blades 23, the stirring shaft 21 is coaxially arranged with the pot body 11, the stirring shaft 21 is rotatably connected with the pot cover 12, the stirring blades 23 are arranged in two groups, the stirring blades are symmetrically arranged along the axial direction of the stirring shaft 21, each group of stirring blades 23 is provided with four stirring blades, the stirring blades 23 are rectangular sheet structures, the length direction of the stirring blades 23 is the same as the radial direction of the pot body 11, and one ends of the stirring blades 23 in the length direction are fixedly connected with the circumferential surface of the stirring shaft 21. Stirring frame 22 is the frame column structure, and the length direction of stirring frame 22 is the same with the radial of pot body 11, and stirring frame 22 uses the axis of (mixing) shaft 21 as the symmetry center symmetry setting, and stirring frame 22's bottom and (mixing) shaft 21 bottom fixed connection, top and (mixing) shaft 21 global fixed connection. The stirring shaft 21 is connected with a driving motor 211 for driving the stirring shaft 21 to rotate, and the driving motor 211 is positioned above the pot cover 12 and fixedly connected with the top surface of the pot cover 12.

After the oil phase material and the water phase material are conveyed into the pot body 11, the driving motor 211 is started, and the driving motor 211 drives the stirring shaft 21 to drive the stirring frame 22 and the stirring blades 23 to rotate, so that the materials are stirred.

Referring to fig. 1 and 3, the axial direction of the material receiving pipe 3 is horizontal, the material receiving pipe 3 is communicated with the pot body 11, the overflow port 31 is formed in the bottom of the material receiving pipe 3, the opening of the overflow port 31 faces downward, the material guide pipe 33 is fixedly connected to the peripheral surface of the material receiving pipe 3, the axial line of the material guide pipe 33 is vertically arranged, and the material guide pipe 33 is communicated with the overflow port 31. The piston 32 for blocking the overflow port 31 is connected with oil in the material receiving pipe 3 in a sliding mode, the sliding direction of the piston 32 is the same as the length direction of the material receiving pipe 3, the piston 32 is of a cylindrical structure coaxial with the material receiving pipe 3, and the peripheral surface of the piston 32 is tightly abutted to the inner wall of the material receiving pipe 3. Be equipped with the joint ring 34 with the coaxial setting of material receiving pipe 3 in the material receiving pipe 3, joint ring 34 is located the one end that overflow mouth 31 is close to pot body 11, the outer peripheral face of joint ring 34 and the inner wall fixed connection of material receiving pipe 3, and piston 32 is close to pot body 11's one end and the butt of joint ring 34, and piston 32 is connected with the gliding drive assembly 321 of drive piston 32.

Referring to fig. 3, the driving assembly 321 includes a connecting cylinder 3211 and a driving bolt 3212, which are coaxial with the material receiving pipe 3, one end of the connecting cylinder 3211 is fixedly connected with one end of the material receiving pipe 3, which is far away from the pot body 11, the connecting cylinder 3211 is communicated with the material receiving pipe 3, and the inner diameter of the connecting cylinder 3211 is smaller than the inner diameter of the material receiving pipe 3; one end of the driving bolt 3212 extends into the connecting cylinder 3211 and then into the material receiving pipe 3, and is fixedly connected with one end of the piston 32 far away from the pot body 11, and the driving bolt 3212 is in threaded connection with the connecting cylinder 3211.

During sampling test, the driving bolt 3212 is screwed, the driving bolt 3212 rotates to drive the piston 32 to rotate until the blockage of the overflow port 31 by the piston 32 is removed, and the material in the pot body 11 flows out of the material guide pipe 33 through the material receiving pipe 3, so that the material collection is completed.

The implementation principle of a homogenization pot in the embodiment of the application is as follows: firstly, after the oil phase feeding pipe 41 is communicated with the water phase feeding pipe 51, the driving motor 211 is started, and the driving motor 211 rotates to drive the stirring shaft 21 to drive the stirring blades 23 and the stirring frame 22 to stir the materials; when a sampling test is needed, the driving bolt 3212 is screwed, the driving bolt 3212 rotates to drive the piston 32 to rotate until the piston 32 releases the blockage of the overflow port 31, and the material in the pot body 11 flows out of the material guide pipe 33 through the material receiving pipe 3 to complete the collection of the material; after the stirring is finished, the blockage of the valve 1111 to the blanking pipe 111 is removed, and the material is taken out.

The setting of material receiving pipe 3, overflow mouth 31 and piston 32 can make things convenient for the staff at emulsification stirring in-process sample test, and then the convenience when can promoting the sample.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a homogenizing and emulsifying pot, includes the pot body (11), and the opening part lid of the pot body (11) is equipped with pot cover (12), is equipped with agitating unit (2) in the pot body (11), and agitating unit (2) are connected its characterized in that with pot cover (12): the pot body (11) outer wall fixedly connected with material receiving pipe (3), material receiving pipe (3) and the pot body (11) intercommunication set up, and overflow mouth (31) have been seted up to the lateral wall of material receiving pipe (3), and material receiving pipe (3) sliding connection has piston (32) that are used for blockking up overflow mouth (31), is equipped with drive assembly (321) that drive piston (32) removed between piston (32) and material receiving pipe (3).

2. A homogenizing and emulsifying pan according to claim 1, characterized in that: drive assembly (321) include connecting cylinder (3211) and drive bolt (3212), the one end fixed connection of pot body (11) is kept away from with material receiving pipe (3) to the one end of connecting cylinder (3211), connecting cylinder (3211) and material receiving pipe (3) are communicating pipe and are set up, drive bolt (3212) stretch into in connecting cylinder (3211) with connecting cylinder (3211) threaded connection, drive bolt (3212) stretch into behind material receiving pipe (3) with piston (32) be close to the one end fixed connection of connecting cylinder (3211).

3. A homogenizing and emulsifying pan according to claim 2, characterized in that: the material receiving pipe (3) is internally provided with a clamping ring (34), the clamping ring (34) is positioned at one end of the overflow port (31) close to the pot body (11), and the outer peripheral surface of the clamping ring (34) is fixedly connected with the inner peripheral surface of the material receiving pipe (3).

4. A homogenizing and emulsifying pan according to claim 3, characterized in that: the inner diameter of the connecting cylinder (3211) is smaller than that of the material receiving pipe (3).

5. A homogenizing and emulsifying pan according to claim 1, characterized in that: the opening of the overflow port (31) is arranged downwards.

6. A homogenizing and emulsifying pan according to claim 5, characterized in that: the outer wall of the material receiving pipe (3) is fixedly connected with a material guide pipe (33), and the material guide pipe (33) is communicated with the overflow port (31).

7. A homogenizing and emulsifying pan according to claim 1, characterized in that: the top surface of the pot cover (12) is provided with two flow guide holes (122), the flow guide holes (122) penetrate through the thickness of the pot cover (12), and the number of the flow guide holes (122) is two; the inside of the pot body (11) is provided with two flow guide pipes (1221), and the flow guide pipes (1221) are communicated with the flow guide holes (122).

8. A homogenizing and emulsifying pan according to claim 7, characterized in that: the bottom end of the draft tube (1221) inclines towards the direction of the central line of the pot body (11).

9. A homogenizing and emulsifying pan according to claim 1, characterized in that: the bottom end of the pot body (11) is communicated with a discharging pipe (111), and the discharging pipe (111) is connected with a valve (1111).

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