CN210121445U - High-speed emulsification device of cleaner - Google Patents
High-speed emulsification device of cleaner Download PDFInfo
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- CN210121445U CN210121445U CN201920670807.4U CN201920670807U CN210121445U CN 210121445 U CN210121445 U CN 210121445U CN 201920670807 U CN201920670807 U CN 201920670807U CN 210121445 U CN210121445 U CN 210121445U
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- body part
- objective table
- water conservancy
- conservancy diversion
- lift cylinder
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Abstract
The utility model discloses a high-speed emulsification device of cleaner, it includes frame, lift cylinder, objective table, driving motor, transmission shaft and stirring rake, lift cylinder fixed mounting is in the frame, the objective table is with slip mode movable mounting in the frame, the objective table is connected with lift cylinder's piston rod and is the sliding motion by lift cylinder drive objective table in the frame, driving motor fixes on the objective table, the one end and the motor of transmission shaft are connected, the other end and the stirring rake of transmission shaft are connected, the stirring rake includes body position and water conservancy diversion position. The stirring paddle structure of the cleaning agent high-speed emulsifying device is optimized, then a turbulent flow which extends to the bottom of the barrel integrally can be built in the barrel, and the turbulent flow is guided to move towards the bottom of the barrel, so that the purpose of accelerating the dissolution of particle materials is achieved, the emulsifying operation time is shortened, the working efficiency is improved, and the energy consumption is saved.
Description
Technical Field
The utility model relates to a high-speed emulsification device of cleaner.
Background
The emulsified cleaning agent is an intermediate cleaning agent between a water-based cleaning agent and a solvent-based cleaning agent, namely, the emulsified cleaning agent has stronger cleaning capability than the water-based cleaning agent and lower use cost than the solvent-based cleaning agent, and the emulsified cleaning agent is more and more favored by the market. The cleaning agent needs to be effectively emulsified in a stirring mode in the production process, and a stirring structure is arranged in an adopted emulsifying device. The stirring paddle or the stirring blade of the barrel body stretching into the charging barrel in the stirring structure is connected with the motor through the transmission shaft, the motor drives the stirring paddle to rotate in the barrel body, and the raw materials collected in the barrel body are stirred by the stirring paddle to be mixed. The raw materials of the cleaning machine include solid substances in physical state, which are gathered at the bottom of the cylinder body in the initial mixing stage and are ablated in liquid in the mixing process. However, the turbulence that the stirring structure can produce among the prior art mainly maintains in the direction opposite with stirring rake motion direction, and though the local flow path of turbulence can stretch to the barrel bottom, nevertheless maintain in barrel middle zone on the whole, the turbulence can not drive sedimentary particulate matter, so the stirring structure among the prior art has foreseeable emulsification effect to the raw materials that the stirring material state is liquid, easily appears the raw materials at the bottom crystallization piece-shaped when stirring the granule that treats to melt. The deposited particle materials can be dissolved into the liquid only after long-time stirring and emulsification, so that the emulsification operation efficiency of the emulsification device in the prior art is very low.
Disclosure of Invention
The to-be-solved technical problem of the utility model is to guide the vortex to move towards the barrel bottom, obtain a high-speed emulsification device of high efficiency's cleaner from this.
In order to solve the technical problem, the utility model adopts the following technical scheme: the high-speed emulsification device of the cleaning agent comprises a rack, a lifting oil cylinder, an objective table, a driving motor, a transmission shaft and a stirring paddle, wherein the lifting oil cylinder is fixedly arranged on the rack, the objective table is movably arranged on the rack in a sliding mode, the objective table is connected with a piston rod of the lifting oil cylinder and is driven by the lifting oil cylinder to do sliding motion on the rack, the driving motor is fixed on the objective table, one end of the transmission shaft is connected with the motor, the other end of the transmission shaft is connected with the stirring paddle, the stirring paddle comprises a body part and a flow guide part, the flow guide part and the body part are of an integrated structure, the body part is of a disc-shaped structure, the body part is provided with a flow disturbing hole which is integrally of a triangle, the flow disturbing hole is distributed at an equal angle around the central line of the body part, the flow guide part is of a spiral bending structure, the extending direction at water conservancy diversion position is towards one side of body part position, the water conservancy diversion position is around the central line of body part position with equal angular distribution on the body part position, the one end at water conservancy diversion position is equipped with the side that is most advanced form collection position, water conservancy diversion position and is equipped with the diffusion position that is triangle-shaped, the distance of collecting the position to the central line of body part position is greater than the distance of diffusion position to the central line of body part position.
In the technical scheme of the stirring device, the stirring paddle structure is optimized to guide the turbulent flow to move towards the bottom of the cylinder body. The upper diversion part of the rotating stirring paddle can drive the mixed liquid to move towards the lower part of the stirring paddle from the area close to the cylinder wall; the mixed liquor firstly enters the collecting part from a single guide part, and then the mixed liquor not only changes the flow direction but also changes the fluid state when entering the diffusing part because the area of the diffusing part is larger than that of the collecting part, namely the mixed liquor forms a flat flow path at the diffusing part and rapidly diffuses towards one side of the body part; when the parts to be guided form turbulent flows, the turbulent flows are converged into a turbulent flow flowing towards the bottom of the cylinder, the larger turbulent flow is formed from the middle area of the cylinder and moves towards the bottom of the cylinder, then the turbulent flow is dispersed at the bottom of the cylinder and moves upwards along the cylinder wall, and finally the turbulent flow is guided into the collection part. Therefore, the particle materials at the bottom of the cylinder body are continuously impacted, the particle materials are driven to move along with the turbulent flow, the particle materials are fully contacted with the mixed liquid after being dispersed, and final dissolution and emulsification are finished.
Because the opposite side of body part position is through disturbing current hole and the regional intercommunication in vortex place, aforementioned whole continuous vortex also has the part to enter into the opposite side of body part position through the vortex hole under differential pressure's effect, cuts the vortex through the vortex hole after the body part position rotates, so, produces the overall disturbed vortex of interrupting at the opposite side of body part position. Under the action of gravity, the overall discontinuous turbulent flow flows towards the cylinder wall, and finally the turbulent flow is guided into the collection part. The flow volume obtained in the flow path through the baffle holes is very small, but serves to eliminate mixing dead spots, i.e. areas that are not prone to turbulence or are free of turbulence, in particular on the other side of the body part.
In order to obtain the best guiding effect, a reasonable turbulent flow path is established. The bending angle of one side of the flow guide part relative to the body part is eighty-seven degrees, the bending angle of the other side of the flow guide part relative to the body part is one hundred twenty-seven degrees, and the corner angle of the flow guide part at the collection part is sixty-eight degrees at most. The turbulent flow path established by the stirring paddle with the structure can form an obvious circulating structure, so that the stirring dead angle can be avoided to the maximum extent, and the optimal emulsification effect can be obtained.
When the stirring paddle rotates, the main role of the body part is to support the whole structure and participate in the emulsification operation on the basis. In order to strengthen the support intensity of body part position, be equipped with annular strengthening rib, strip strengthening rib on the body part position, the centre of a circle of annular strengthening rib is located the central line of body part position, angular distribution such as central line that strip strengthening rib centers on the body part position, the extending direction of strip strengthening rib and the radial extending direction coincidence of body part position, it has a vortex hole to distribute between two adjacent strip strengthening ribs.
The utility model adopts the above technical scheme: the stirring paddle structure of the cleaning agent high-speed emulsifying device is optimized, then a turbulent flow which extends to the bottom of the barrel integrally can be built in the barrel, and the turbulent flow is guided to move towards the bottom of the barrel, so that the purpose of accelerating the dissolution of particle materials is achieved, the emulsifying operation time is shortened, the working efficiency is improved, and the energy consumption is saved.
Drawings
The present invention will be described in further detail with reference to the accompanying drawings and embodiments.
FIG. 1 is a schematic structural view of a high-speed cleaning agent emulsifying device of the present invention;
FIG. 2 is a schematic structural diagram I of a stirring paddle of the high-speed cleaning agent emulsifying device of the present invention;
fig. 3 is the structural schematic diagram ii of the stirring paddle of the high-speed emulsification device for cleaning agent of the present invention.
Detailed Description
As shown in fig. 1, 2 and 3, the high-speed cleaning agent emulsifying device comprises a frame 1, a lifting cylinder 2, a stage 3, a driving motor 4, a transmission shaft and a stirring paddle 5, three vertically-arranged guide rails are arranged on the frame 1, three sliders are fixedly arranged on the stage 3, one slider corresponds to one guide rail, the stage 3 is movably mounted on the frame 1 in a manner that the guide rail is embedded into the slider, so that the stage 3 can slide on the frame 1 along the vertical direction, a cylinder body of the lifting cylinder 2 is fixed on the frame 1, a piston rod of the lifting cylinder 2 is connected with the stage 3, the moving direction of the piston rod of the lifting cylinder 2 is parallel to the sliding direction of the stage 3, when the lifting cylinder 2 is extended and retracted, the lifting cylinder 2 is driven to linearly move on the frame 1, the driving motor 4 is fixed on the stage 3 and located on one side of the stage 3, one end of the transmission shaft is connected with the motor, the other end of the transmission shaft is connected with the stirring paddle 5, the other end of the stirring shaft penetrates through the stage 3, so that the stirring paddle 5 is located on the other side of the body of the stirring paddle 3, the stirring paddle 5 includes a baffle 6 and a baffle, a baffle is located on one side of a baffle, a baffle 6, a baffle 7 is located on one baffle 7, a baffle 7.
In the initial state, the lifting oil cylinder 2 is contracted, and the stirring paddle 5 is in a higher position. When the device works, a charging barrel which needs to be emulsified and is filled with cleaning agent raw materials is arranged below the stirring paddle 5, then the piston rod of the lifting oil cylinder 2 extends out, the stirring paddle 5 descends to be immersed in the barrel body of the charging barrel, and the stirring paddle 5 is contacted with the raw materials. The stirring paddle 5 rotates after the driving motor 4 is started. During the rotation, the collecting portion 11 on the flow guiding portion 7 is always located in front of the diffusing portion 12. The opening of the collecting portion 11 is larger than the opening of the diffusing portion 12 in the direction of rotation of the guide portion 7, so that the collecting portion 11 can introduce a large amount of the mixed liquid from the periphery of the guide portion 7, and the diffusing portion 12 guides the mixed liquid to flow out toward the lower side of the paddle 5. The whole flow path of the disturbed flow generated by the stirring paddle 5 in the cylinder body faces the bottom of the cylinder body, then rises along the cylinder wall and returns to the periphery of the stirring paddle 5, and then the disturbed flow facing the bottom of the cylinder body is generated from the middle of the stirring paddle 5. The mixed liquid can also flow out from the burbling holes 10 during the rotation process, and then the mixed liquid flows to the cylinder wall and descends along the cylinder wall to return to the periphery of the stirring paddle 5. In this embodiment, the structure of the stirring paddle 5 is optimized, so that the overall movement trend of the turbulent flow is controlled, the turbulent flow is guided to move towards the bottom of the cylinder, the purpose of accelerating the dissolution of the granular materials is achieved, the emulsification operation time is shortened, the working efficiency is improved, and the energy consumption is saved.
Claims (3)
1. The utility model provides a high-speed emulsification device of cleaner, this high-speed emulsification device of cleaner includes frame (1), lift cylinder (2), objective table (3), driving motor (4), transmission shaft and stirring rake (5), lift cylinder (2) fixed mounting is in frame (1), objective table (3) are with slip mode movable mounting in frame (1), objective table (3) are connected with the piston rod of lift cylinder (2) and are the sliding motion on frame (1) by lift cylinder (2) drive objective table (3), driving motor (4) are fixed on objective table (3), the one end and the motor of transmission shaft are connected, the other end and the stirring rake (5) of transmission shaft are connected, its characterized in that: the stirring rake (5) includes body part (6) and water conservancy diversion position (7), body part (6) structure as an organic whole, body part (6) are discoid structure, body part position (6) are equipped with whole triangular current disturbing hole (10), angular distribution such as central line around body part position (6) is disturbed in current disturbing hole (10), water conservancy diversion position (7) are the spiral bend structure, water conservancy diversion position (7) all curl towards one side spiral of body part position (6), the extending direction of water conservancy diversion position (7) is towards one side of body part position (6), water conservancy diversion position (7) are around the central line of body part position (6) with equal angular distribution on body part position (6), the one end of water conservancy diversion position (7) is equipped with and is most advanced collection position (11), the side of water conservancy diversion position (7) is equipped with diffusion position (12) that are triangle-shaped, the distance from the collecting region (11) to the centre line of the body part (6) is greater than the distance from the spreading region (12) to the centre line of the body part (6).
2. The high-speed emulsifying device for cleaning agents according to claim 1, which is characterized in that: the bending angle of one side of the flow guide part (7) relative to the body part (6) is eighty-seven degrees, the bending angle of the other side of the flow guide part (7) relative to the body part (6) is one hundred twenty-seven degrees, and the corner angle of the flow guide part (7) at the collection part (11) is at most sixty-eight degrees.
3. The high-speed emulsifying device for cleaning agents according to claim 1, which is characterized in that: be equipped with annular strengthening rib (8), strip strengthening rib (9) on body part position (6), the centre of a circle of annular strengthening rib (8) is located the central line of body part position (6), angular distribution such as the central line that strip strengthening rib (9) center on body part position (6), the extending direction of strip strengthening rib (9) and the radial extending direction coincidence of body part position (6), it has one to disturb discharge orifice (10) to distribute between two adjacent strip strengthening ribs (9).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920670807.4U CN210121445U (en) | 2019-05-11 | 2019-05-11 | High-speed emulsification device of cleaner |
Applications Claiming Priority (1)
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CN201920670807.4U CN210121445U (en) | 2019-05-11 | 2019-05-11 | High-speed emulsification device of cleaner |
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CN210121445U true CN210121445U (en) | 2020-03-03 |
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CN201920670807.4U Active CN210121445U (en) | 2019-05-11 | 2019-05-11 | High-speed emulsification device of cleaner |
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CN (1) | CN210121445U (en) |
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2019
- 2019-05-11 CN CN201920670807.4U patent/CN210121445U/en active Active
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