CN109621813B

CN109621813B - Raw material mixing device for chemical processing

Info

Publication number: CN109621813B
Application number: CN201811581299.9A
Authority: CN
Inventors: 马琳; 杨有泽; 阿丽莉; 茅瑞
Original assignee: A Lili
Current assignee: A Lili
Priority date: 2018-12-24
Filing date: 2018-12-24
Publication date: 2021-05-04
Anticipated expiration: 2038-12-24
Also published as: CN109621813A

Abstract

The invention provides a raw material mixing device for chemical processing, which comprises an arc-shaped water adding tank, a medicine inlet pipe, a gear, a stirring water cylinder, an overflow flat pipe, a water receiving cover, a hanging column and a pushing ring, wherein the medicine inlet pipe is connected with the gear; the length of the arc-shaped water adding groove is one fourth of the diameter length of the mixed water cover, the arc-shaped water adding groove is welded and arranged in the annular water groove between the water retaining ring and the top end annular cover, the center of the top end of the arc-shaped water adding groove is welded and supported with a medicine inlet pipe, and the end surface of the bottom of the arc-shaped water adding groove is provided with a plurality of water leaking ports in an arc-shaped array; the stirring water drum is characterized in that four bent flat overflow pipes are penetratingly supported on the circumferential outer wall of the stirring water drum in an annular array, and four water receiving covers are welded and hung at the bottoms of the four flat overflow pipes; the two protruding supporting plates are symmetrically supported between the left supporting column and the right supporting column, and the top ends of the two protruding supporting plates are respectively supported and welded with a vertical supporting rod.

Description

Raw material mixing device for chemical processing

Technical Field

The invention belongs to the technical field of chemical raw material mixing equipment, and particularly relates to a raw material mixing device for chemical processing.

Background

Chemical species refers to any organic or inorganic species having a particular molecular identity, including compounds that are wholly or partially the result of a chemical reaction or naturally occurring species, as well as any elemental or non-chemically combined radical, including elements, compounds, by-products, reaction intermediates, and polymers. At present, chemical solutions are widely applied to production and life of people, most of the chemical solutions need to be mixed to achieve a better using effect, and a raw material mixing device for chemical processing needs to be used.

The inventor of combining prior art discovers that current equipment can carry out conventional use, but it exists in practical application, and two kinds of raw materials liquid medicine are mixed inadequately, and the mixing effect is relatively poor, and the inside reaction deposit of mixing vessel is not convenient for clear up, and the main part rotates stirring part and sprays the pipeline location assembly method reasonable inadequately in addition, is not convenient for take off the problem of carrying out maintenance or pipe replacement.

In view of the above, the present invention provides a raw material mixing device for chemical processing, which is improved in view of the existing structure and defects, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a raw material mixing device for chemical processing, which aims to solve the problems that the existing chemical raw material mixing equipment is insufficient in mixing two raw material liquid medicines, poor in mixing effect, inconvenient to clean reaction sediments in a mixing container, and not reasonable in positioning and assembling modes of a main body rotating stirring part and a spraying pipeline, and inconvenient to take down for maintenance or pipe replacement.

The purpose and the effect of the raw material mixing device for chemical processing are achieved by the following specific technical means:

a raw material mixing device for chemical processing comprises a mixed water cover, a water retaining ring, a control electronic box, a convex supporting plate, a vertical supporting rod, a motor, a bearing frame, a water adding cover, a water cover rotating frame, a water outlet cover, a central rotating water pipe, a supporting water guide pipe, a bent water spraying block, a rectangular water spraying block, an arc-shaped water adding groove, a medicine inlet pipe, a gear, a stirring water cylinder, an overflow flat pipe, a water receiving cover, a hanging column and a pushing ring; the length of the arc-shaped water adding groove is one fourth of the diameter length of the mixed water cover, the arc-shaped water adding groove is welded and arranged in the annular water groove between the water retaining ring and the top end annular cover, the center of the top end of the arc-shaped water adding groove is welded and supported with a medicine inlet pipe, and the end surface of the bottom of the arc-shaped water adding groove is provided with a plurality of water leaking ports in an arc-shaped array; the four suspension posts are welded and supported at the bottom of the lower annular water spreading plate of the mixed water cover in an annular array, the pushing rings are sleeved on the four suspension posts in a sliding manner, and the four suspension post sections at the top ends of the pushing rings are all sleeved with a spring; the outer wall of the circumference of the stirring water drum is also provided with four flat overflow pipes in an annular array through support, and the bottoms of the four flat overflow pipes are welded and hung with four water receiving covers; the two protruding supporting plates are symmetrically supported between the left and right groups of supporting columns, and the top ends of the two protruding supporting plates are respectively supported and welded with a vertical supporting rod; the bearing frame is inserted and abutted against two vertical support rods through two insertion sleeves on the left side and the right side of the bearing frame and is supported and arranged at the center above the mixed water cover; the water cover rotating frame is rotatably arranged on the threaded sleeve at the bottom of the water feeding cover in a limiting mode, and the water cover rotating frame is correspondingly inserted downwards onto the top end sections of the two vertical support rods through two insertion sleeves at the left end and the right end of the water cover rotating frame; the gear key is connected with a water pipe section sleeved between the water cover rotating frame and the bearing frame and is in transmission connection with a gear of a motor locked and fixed on the bearing frame through a steel belt; the bottom of the right side protrusion supporting plate is hung and is provided with a control electric box, and a contactor inside the control electric box is electrically connected with the motor in a control mode.

Furthermore, the tail ends of the four suspension posts are respectively supported with two circular clamping plates at intervals, the outer wall of the circumference of the stirring water cylinder is supported with four shaft sleeves in an annular array mode, and the stirring water cylinder is rotatably arranged in the clamping plate grooves at the tail ends of the four suspension posts through the four shaft sleeves and is positioned through the insertion of the four annular array insertion rods at the bottom of the pushing ring.

Furthermore, the middle position of the central rotating water pipe is in an annular array support and communicated with four supporting water guide pipes, and the bottoms of the four supporting water guide pipes are provided with two bent water spraying blocks and rectangular water spraying blocks at intervals.

Furthermore, four stirring frames are supported and welded on the tail end section of the central rotating water pipe in an annular array mode, and the four stirring frames are inserted into the stirring water cylinder.

Furthermore, the center rotating water pipe rotates to penetrate through two bearing sleeves at the center of the bearing frame, and the water adding cover is in threaded connection with the head end of the center rotating water pipe.

Further, mix two-layer setting about the water cover divides, the outer eaves of the top of its upper annular water board of sharing supports to weld has a top annular cover, and is connected between upper annular water board of sharing and the lower floor annular water board of sharing and is provided with an annular water guide cover to the bottom of lower floor annular water board of sharing still is connected and is provided with a ring cover that leaks.

Furthermore, the water retaining ring is welded and supported on an upper-layer annular water spreading plate of the mixed water cover and is provided with a circle of water grooves at intervals with the top annular cover, and a plurality of water outlets are formed in an annular array on the circumferential end face of the bottom of the water retaining ring.

Furthermore, a round water outlet cover is rotatably supported at the top end of the supporting rod on the right side of the water cover rotating frame, and the round water outlet cover is just positioned at the center of the opening at the top end of the water adding cover when being rotatably positioned and placed in a horizontal state.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, two raw material liquids can be subjected to flowing, rotating, sprinkling and mixing and stirring and mixing twice, so that the mixing is more sufficient, the mixing effect is better, the stirring water cylinder can be conveniently taken down to clean reaction sediments in the stirring water cylinder, in addition, only the threads are loosened to take down the water feeding cover, the bearing frame and the central rotating water pipe can be integrally taken down, and the parts on the bearing frame and the central rotating water pipe can be conveniently maintained, repaired or replaced.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Fig. 2 is a schematic diagram of the three-dimensional structure of the present invention.

Fig. 3 is a schematic diagram of the bottom three-dimensional structure of the present invention.

Fig. 4 is a schematic view of the structure of the central rotating water pipe of the present invention.

FIG. 5 is a schematic view of the bottom three-dimensional structure of the center rotating water pipe according to the present invention.

FIG. 6 is a schematic view of the locking connection structure of the water adding cover of the present invention.

Fig. 7 is a schematic view of the structure of the mixing water cover of the invention.

Fig. 8 is a schematic three-dimensional structure of the stirring water cylinder of the invention.

FIG. 9 is a schematic view of the structure of the arc-shaped water feeding tank of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

the water mixing device comprises a mixed water cover-1, a water retaining ring-101, a control electric box-2, a protruding support plate-3, a vertical support rod-301, a motor-4, a bearing frame-5, a water adding cover-6, a water cover rotating frame-601, a water outlet cover-602, a central rotating water pipe-7, a support water guide pipe-701, a bent water spraying block-702, a rectangular water spraying block-703, an arc water adding groove-8, a medicine inlet pipe-801, a gear-9, a stirring water cylinder-10, an overflow flat pipe-1001, a water receiving cover-11, a hanging column-12 and a pushing ring-1201.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 9:

the invention provides a raw material mixing device for chemical processing, which comprises a mixed water cover 1, a water retaining ring 101, a control electric box 2, a protruding supporting plate 3, a vertical supporting rod 301, a motor 4, a bearing frame 5, a water adding cover 6, a water cover rotating frame 601, a water outlet cover 602, a central rotating water pipe 7, a supporting water guide pipe 701, a bent water spraying block 702, a rectangular water spraying block 703, an arc-shaped water adding groove 8, a medicine inlet pipe 801, a gear 9, a stirring water cylinder 10, an overflow flat pipe 1001, a water receiving cover 11, a hanging column 12 and a pushing ring 1201; the length of the arc-shaped water adding tank 8 is one fourth of the diameter of the mixed water cover 1, the arc-shaped water adding tank 8 is welded in the annular water tank between the water retaining ring 101 and the top end annular cover, the center of the top end of the arc-shaped water adding tank is welded, supported and communicated with a medicine inlet pipe 801, and the end face of the bottom of the arc-shaped water adding tank penetrates through the medicine inlet pipe 801 in an arc-shaped array; the four lifting columns 12 are welded and supported at the bottom of the lower layer annular water spreading plate of the mixed water cover 1 in an annular array mode, the pushing ring 1201 is sleeved on the four lifting columns 12 in a sliding mode, and springs are sleeved on four lifting column sections at the top end of the pushing ring 1201; four overflow flat pipes 1001 are penetratingly supported on the circumferential outer wall of the stirring water drum 10 in an annular array, and four water receiving covers 11 are welded and hung at the bottoms of the four overflow flat pipes 1001; the two protruding supporting plates 3 are symmetrically supported between the left and right groups of supporting columns, and the top ends of the two protruding supporting plates 3 are respectively supported and welded with a vertical supporting rod 301; the bearing frame 5 is inserted and abutted against two vertical support rods 301 through two insertion sleeves on the left side and the right side of the bearing frame and is supported and arranged at the center above the mixed water cover 1; the water cover rotating frame 601 is arranged on the threaded sleeve at the bottom of the water adding cover 6 in a limiting and rotating mode, and the water cover rotating frame 601 is correspondingly inserted downwards onto the top end sections of the two vertical support rods 301 through two insertion sleeves at the left end and the right end of the water cover rotating frame; the gear 9 is in key connection with a water pipe section sleeved between the water cover rotating frame 601 and the bearing frame 5 and is in transmission connection with a gear of the motor 4 locked and fixed on the bearing frame 5 through a steel belt; the bottom of the right side protruding supporting plate 3 is hung and is provided with a control electric box 2, and the contactor inside the control electric box 2 is electrically connected with a motor 4 in a control mode.

The tail ends of the four suspension posts 12 are respectively supported with two circular clamping plates at intervals, the outer wall of the circumference of the stirring water cylinder 10 is supported with four shaft sleeves in an annular array mode, the stirring water cylinder 10 is rotatably arranged in the clamping plate grooves at the tail ends of the four suspension posts 12 through the four shaft sleeves and is positioned through the insertion of four annular array insertion rods at the bottom of the pushing ring 1201 in an insertion mode, the pushing ring 1201 slides upwards, and the stirring water cylinder 10 can rotate to take down convenient reaction sediments inside the stirring water cylinder for cleaning.

Wherein, the central intermediate position of rotating water pipe 7 is that the annular array supports the intercommunication has the aqueduct 701 that supports everywhere, and this bottom that supports aqueduct 701 all supports the interval and is provided with two and bend water spray block 702 and rectangle water spray block 703, and it has seted up many places hole that leaks all to run through on the bottom terminal surface of water spray block 702 and rectangle water spray block 703 to bend, and two rectangles water spray block 703 can correspond to arrange in and spray directly over the lower floor annular water spreading plate on the mixed water cover 1, and two bend water spray block 702 can correspond and arrange in the top that mixed water cover 1 annular water guide cover and ring leaked the water cover and spray.

Wherein, the tip section of center rotation water pipe 7 is last to be the annular array and to support the welding and have four stirring frame, and this four stirring frame plant the inside that is located stirring water section of thick bamboo 10, through preliminary rotation two kinds of raw materials liquid medicine of spraying mixture, can assemble and leak discharge in stirring water section of thick bamboo 10 and carry out the secondary through four stirring frames and mix, and then can make two kinds of raw materials liquid more thorough mix together, has effectively improved the mixed degree of consistency of raw materials liquid medicine.

The center rotating water pipe 7 rotates to penetrate through two bearing sleeves at the center of the bearing frame 5, the water adding cover 6 is in threaded connection with the head end of the center rotating water pipe 7, the center rotating water pipe 7 can be linked with the water guide pipe 701 and the bent water spraying block 702 on the water guide pipe 701, and the rectangular water spraying block 703 is rotated to spray the raw material liquid medicine which is sprayed out and is uniformly mixed with the raw material liquid medicine which flows on the inner wall of the mixed water cover 1 in a spreading mode, so that the two raw material liquid medicines are directly sprayed in a flowing and rotating mode, and the mixed mode has the advantage of high mixing uniformity.

Wherein, mix water cover 1 and divide two-layer setting from top to bottom, the top of its upper strata annular water board is held the welding and is had a top annular cover outside the eaves, and upper strata annular water board and lower floor annular water board between be connected and be provided with an annular water guide cover, and the bottom of lower floor annular water board is still connected and is provided with a ring cover that leaks, the mixed water cover 1 that divides the three-layer setting gathers together the slope downwards gradually and can effectively increase the trickling route of medicine material liquid medicine, make the blowout liquid medicine of water spray piece 702 and rectangle water spray piece 703 of bending and the mixed water cover 1 on the hourglass of trickling liquid medicine spill the mixing time extension, help the thorough mixing of two kinds of liquid.

The water retaining ring 101 is welded and supported on an upper annular water spreading plate of the mixed water cover 1 and is formed with a circle of water channel at intervals with the top annular cover, a plurality of water outlets are formed in an annular array mode on the circumferential end face of the bottom of the water retaining ring 101 in a penetrating mode, and raw material liquid medicine filled into the annular water channel can be evenly spread and guided onto the inner wall of the mixed water cover 1 through the annular array water outlets on the water retaining ring 101.

The top end of the supporting rod on the right side of the water cover rotating frame 601 rotatably supports a circular water outlet cover 602, the circular water outlet cover 602 is just positioned at the center of the top end opening of the water adding cover 6 when being positioned in a horizontal state in a rotating and positioning mode, the water cover rotating frame 601 can limit the whole central rotating water pipe 7 to be moved up and down, and the central rotating water pipe 7 can rotate normally in a transmission mode.

The specific use mode and function of the embodiment are as follows:

according to the using process, two external raw material liquid pumps are required to be equipped in the application, water outlet pipes of the two external raw material liquid pumps are respectively screwed on a water outlet cover 602 and a medicine inlet pipe 801, the two external raw material liquid pumps and a motor 4 are started firstly, a first raw material liquid is pumped and filled between a water retaining ring 101 and an annular water cover at the top end of a mixing water cover 1, a second raw material liquid is pumped and filled in a water filling cover 6, then the first raw material liquid is spread and flows on the inner wall of the mixing water cover 1 and flows downwards, the second raw material liquid is driven by the rotation of the motor 4 to be sprayed by a bent water spraying block 702 and a rectangular water spraying block and is mixed with the first raw material liquid on the inner wall of the mixing water cover 1, then the two raw material liquids are preliminarily mixed and are gathered and discharged into a stirring water cylinder 10 and are secondarily mixed by a four stirring frame, and finally the fully mixed raw material liquid overflows into a water receiving cover 11 through four flat water overflow pipes 1001 and is discharged from the bottom 703 of the water receiving cover 11 And ending the mixing process from the next process.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a raw materials mixing arrangement for chemical processing which characterized in that: the raw material mixing device for chemical processing comprises a mixed water cover (1), a water retaining ring (101), a control electric box (2), a protruding supporting plate (3), a vertical supporting rod (301), a motor (4), a bearing frame (5), a water adding cover (6), a water cover rotating frame (601), a water outlet cover (602), a center rotating water pipe (7), a supporting water guide pipe (701), a bending water spraying block (702), a rectangular water spraying block (703), an arc water adding groove (8), a medicine inlet pipe (801), a gear (9), a stirring water cylinder (10), a flat water overflowing pipe (1001), a water receiving cover (11), a hanging column (12) and a pushing ring (1201); the length of the arc-shaped water adding groove (8) is one fourth of the diameter length of the mixed water cover (1), the arc-shaped water adding groove (8) is welded in the annular water groove between the water retaining ring (101) and the top end annular cover, the center of the top end of the arc-shaped water adding groove is welded, supported and communicated with a medicine inlet pipe (801), and the end surface of the bottom of the arc-shaped water adding groove is provided with a plurality of water leaking ports in an arc-shaped array; the four hanging columns (12) are welded and supported at the bottom of the lower annular water spreading plate of the mixed water cover (1) in an annular array mode, the pushing ring (1201) is sleeved on the four hanging columns (12) in a sliding mode, and springs are sleeved on the four hanging column sections at the top end of the pushing ring (1201); the outer wall of the circumference of the stirring water drum (10) is also provided with four overflow flat pipes (1001) in an annular array in a penetrating way, and the bottoms of the four overflow flat pipes (1001) are welded and hung with four water receiving covers (11); the two protruding supporting plates (3) are symmetrically supported between the left group of supporting columns and the right group of supporting columns, and the top ends of the two protruding supporting plates (3) are respectively supported and welded with a vertical supporting rod (301); the bearing frame (5) is inserted and abutted against two vertical support rods (301) through two insertion sleeves on the left side and the right side of the bearing frame and is supported and arranged at the center above the mixed water cover (1); the water cover rotating frame (601) is arranged on a threaded sleeve at the bottom of the water feeding cover (6) in a limiting and rotating mode, and the water cover rotating frame (601) is correspondingly inserted downwards onto the top end sections of the two vertical support rods (301) through two insertion sleeves at the left end and the right end of the water cover rotating frame; the gear (9) is in key connection with a water pipe section sleeved between the water cover rotating frame (601) and the bearing frame (5) and is in transmission connection with a gear of the motor (4) locked and fixed on the bearing frame (5) through a steel belt; the bottom of the right side protruding supporting plate (3) is hung and is provided with a control electric box (2), and a contactor inside the control electric box (2) is electrically connected with a motor (4) in a control mode.

2. The chemical processing raw material mixing device according to claim 1, characterized in that: the tail ends of the four suspension posts (12) are respectively supported with two round clamp plates at intervals, the outer wall of the circumference of the stirring water cylinder (10) is supported with four shaft sleeves in an annular array mode, and the stirring water cylinder (10) is rotatably arranged in clamp plate grooves at the tail ends of the four suspension posts (12) through the four shaft sleeves and is spliced and positioned through four annular array insert rods at the bottom of the pushing ring (1201).

3. The chemical processing raw material mixing device according to claim 1, characterized in that: the middle position of the central rotating water pipe (7) is supported and communicated with four supporting water guide pipes (701) in an annular array mode, and the bottoms of the four supporting water guide pipes (701) are provided with two bent water spraying blocks (702) and rectangular water spraying blocks (703) at intervals in a supporting mode.

4. The chemical processing raw material mixing device according to claim 1, characterized in that: the tail end section of the central rotating water pipe (7) is in an annular array, and four stirring frames are supported and welded on the tail end section of the central rotating water pipe, and are inserted into the stirring water cylinder (10).

5. The chemical processing raw material mixing device according to claim 1, characterized in that: the center rotating water pipe (7) rotates to penetrate through two bearing sleeves at the center of the bearing frame (5), and the water adding cover (6) is in threaded connection with the head end of the center rotating water pipe (7).

6. The chemical processing raw material mixing apparatus according to claim 1 or 5, wherein: the mixed water cover (1) is arranged in an upper layer and a lower layer, the top end outer brim of the upper annular water sharing plate is supported and welded with a top end annular cover, an annular water guide cover is arranged between the upper annular water sharing plate and the lower annular water sharing plate in a connecting mode, and an annular water leakage cover is arranged at the bottom of the lower annular water sharing plate in a connecting mode.

7. The chemical processing raw material mixing device according to claim 1, characterized in that: the water retaining ring (101) is welded and supported on an upper-layer annular water spreading plate of the mixed water cover (1) and is provided with a circle of water tank at intervals with the top-end annular cover, and a plurality of water outlets are formed in an annular array in a penetrating mode on the circumferential end face of the bottom of the water retaining ring (101).

8. The chemical processing raw material mixing device according to claim 1, characterized in that: the top end of the supporting rod on the right side of the water cover rotating frame (601) is rotatably supported with a round water outlet cover (602), and the round water outlet cover (602) is just positioned at the center of the top end opening of the water adding cover (6) when being rotatably positioned and placed in a horizontal state.