CN108421480B

CN108421480B - Working method of jet type material mixing equipment for industrial production based on fluid driving

Info

Publication number: CN108421480B
Application number: CN201810254875.2A
Authority: CN
Inventors: 段建锋; 田悦; 约翰斯玛丽
Original assignee: Ruian Hetai Fastener Co ltd
Current assignee: Ruian Hetai Fastener Co.,Ltd.
Priority date: 2018-03-26
Filing date: 2018-03-26
Publication date: 2020-10-20
Anticipated expiration: 2038-03-26
Also published as: CN108421480A

Abstract

The invention provides a working method of jet type material mixing equipment for industrial production based on fluid driving, which comprises a barrel, wherein the top of the barrel is open, a supporting shell is fixedly connected inside the barrel through two L-shaped connecting rods, three cavities are uniformly formed inside the supporting shell, the cavities are cuboid, moving plates are arranged inside the cavities, the three moving plates are connected through a moving column, and the right end of the moving column is connected with a moving column driving device; the bottom is provided with the pump body in the barrel, is connected with the feed liquor pipe on the pump body, and feed liquor pipe top is connected with three and divides the liquid pipe, divides liquid pipe bottom and is linked together inside the cavity. The invention has the following beneficial effects: first, remove post drive arrangement and drive and remove the post and move to the left, extrude the inside liquid material of cavity, the inside liquid material of cavity enters into through the drain pipe blowout and joins in the confluence intraduct, obtains abundant effectual hybrid processing between the liquid material of injection in-process.

Description

Working method of jet type material mixing equipment for industrial production based on fluid driving

Technical Field

The invention relates to the technical field of material mixing, in particular to a working method of a fluid-driven injection type material mixing device for industrial production.

Background

Mixing, i.e. the blending of the components of a material under the action of an external force, the uniform distribution of the particles of the components in any volume, is an important link for ensuring the quality of the material to be mixed and improving the effect of the material. There are various methods for mixing, such as mechanical mixing, pneumatic mixing, impulse mixing, etc., wherein mechanical mixing is more common.

Unit operations in which two or more materials are dispersed with each other to a certain degree of uniformity are achieved by mechanical or hydrodynamic means. The fluid material is involved in the hydrodynamic process. The application of the mixture in chemical production is very common, and the purpose is mainly as follows: preparing various uniform mixtures, such as solution, emulsion, suspension, slurry, paste or solid powder mixtures and the like; ② providing good conditions for some unit operations (such as extraction, adsorption, heat exchange and the like) or chemical reaction processes. In preparing a homogeneous mixture, the mixing effect is measured by the degree of mixing of the mixture, i.e., the homogeneity achieved. In accelerating physical or chemical processes, the mixing effect is often measured by the overall mass transfer coefficient, heat transfer coefficient, or degree of increase in reaction rate.

In an industrial production process, mixing of materials is often performed, especially mixing of liquid materials, and when the liquid materials are mixed, the flowing degree of the liquid materials determines the mixing effect of the materials, so that in order to improve the mixing effect of the liquid materials, the liquid materials are mainly mixed by improving the flowing degree of the liquid materials. In the prior art, the mixing of liquid materials is mainly realized through the stirring of stirring vane, but the degree of flow of liquid materials has obvious limitation to influence the mixed effect.

Disclosure of Invention

The invention aims to provide a fluid-driven injection type material mixing device for industrial production, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides a fluid-driven injection type material mixing device for industrial production, which comprises a barrel, wherein the top of the barrel is open, a supporting shell is fixedly connected inside the barrel through two L-shaped connecting rods, three cavities are uniformly formed inside the supporting shell, the cavities are cuboid, moving plates are arranged inside the cavities, the three moving plates are connected through a moving column, and the right end of the moving column is connected with a moving column driving device; the bottom in the barrel is provided with a pump body, the pump body is connected with a liquid inlet pipe, the top of the liquid inlet pipe is connected with three liquid distribution pipes, and the bottom ends of the liquid distribution pipes are communicated with the inside of the cavity; a branch liquid outlet pipe is connected to the lower side of the cavity, the bottom ends of the branch liquid outlet pipes are communicated with a junction pipe, and a first jet pipe and a second jet pipe are connected to the lower side of the junction pipe; and a rotary spraying device is arranged below the supporting shell.

The invention has the following further effects: the movable column driving device comprises a rack, the left end of the rack is fixedly connected with the right end of the movable column, and the right end of the rack penetrates through a movable through groove formed in the right side wall of the cylinder body; a first rotating shaft is rotatably connected to the front side wall and the rear side wall of the barrel above the rack, the rear end of the first rotating shaft is fixedly connected with an output shaft of the motor, a disc is fixedly connected to the first rotating shaft, and a horizontal column is fixedly connected to the front side surface of the disc; the utility model discloses a spacing logical groove of fan-shaped gear, including first pivot, the barrel of first pivot below is connected with the second pivot on the lateral wall around, fixedly connected with sector gear in the second pivot, sector gear and rack mesh mutually, sector gear upper portion fixedly connected with swing board has seted up spacing logical groove on the swing board, and the horizontal column is located spacing logical inslot portion.

As still further effects of the present invention: the diameter of the horizontal column is equal to the width of the limiting through groove.

As still further effects of the present invention: the liquid inlet pipe is fixed on the inner side wall of the barrel through a first connecting frame.

As still further effects of the present invention: the first jet pipe is fixed on the inner side wall of the cylinder through a second connecting frame.

As still further effects of the present invention: the rotary spraying device comprises a supporting plate, the supporting plate is fixedly connected with the inner side wall of the barrel, a bearing is embedded in the middle of the supporting plate, a rotating body is fixedly connected with an inner ring of the bearing, the rotating body comprises a first cylinder, a first circular truncated cone, a second cylinder and a second circular truncated cone, the first circular truncated cone is in a shape of small top and large bottom, the second circular truncated cone is in a shape of large top and small bottom, and the first cylinder, the first circular truncated cone, the second cylinder and the second circular truncated cone are sequentially connected from top to bottom; the outer side wall of the first cylinder is uniformly and fixedly connected with a plurality of driving blades; the front inner side wall and the rear inner side wall of the second cylinder are fixedly connected with mounting plates, gaps are reserved between the mounting plates and the left side wall and the right side wall of the second cylinder, and a plurality of interference bodies are uniformly and fixedly connected onto the mounting plates; and the outer side wall of the second circular truncated cone body is symmetrically and fixedly connected with two emptying plates.

As still further effects of the present invention: the disturbing body is in an incomplete spherical shell shape, the opening of the disturbing body is arranged upwards, a plurality of disturbing bulges are uniformly arranged inside the disturbing body, and blanking through holes are formed in the bottom of the disturbing body.

As still further effects of the present invention: the disturbing bulge is in a triangular pyramid shape.

As still further effects of the present invention: the outlet of the first jet pipe is opposite to the driving blade, and the second jet pipe extends into the rotating body; the right part of the liquid inlet pipe is positioned right below the second circular truncated cone.

As still further effects of the present invention: a discharge channel is formed in the bottom of the cylinder body, and a plug body is arranged on the discharge channel.

The invention has the following beneficial effects:

the first step, the moving column driving device drives the moving column to move towards the left side to extrude liquid materials in the cavity, the liquid materials in the cavity are sprayed out through the liquid outlet pipe to enter the confluence pipe to be converged, and the liquid materials are fully and effectively mixed in the spraying process;

secondly, the motor drives the first rotating shaft to rotate, the first rotating shaft drives the disc to rotate, and the horizontal column on the disc also rotates along with the first rotating shaft, so that the horizontal column can drive the swinging plate to rotate around the second rotating shaft, the left-right reciprocating swinging of the sector gear is realized, the rack meshed with the sector gear moves left and right, the moving plate moves left and right, and the liquid material in the cavity is extruded;

thirdly, when part of the liquid material is sprayed out from the bottom of the first spray pipe, the liquid material has a certain flow velocity, so that the sprayed liquid material acts on the driving blade to drive the driving blade to rotate, and the driving blade drives the rotating body to rotate continuously;

fourthly, because the disturbing body is in an incomplete spherical shell shape, the liquid material can form a certain vortex in the disturbing body, and the liquid material can be better mixed by matching with the disturbing bulge;

fifthly, as the rotor can rotate continuously during working, the rotor drives the emptying plate arranged on the outer side wall of the second circular truncated cone to rotate, and the emptying plate can enable the lower part of the rotor to present a local negative pressure state during rotation, so that the pressure inside the rotor is higher than that below the rotor, and the speed of liquid materials sprayed out from the inside of the rotor is higher under the action of the pressure, so that a better impact effect is formed, and the mixing effect of the liquid materials is better;

sixthly, the right part of the liquid inlet pipe is located under the second circular truncated cone, the liquid inlet pipe empties the liquid material in the area below the rotor, and the liquid material is matched with an emptying plate for use, so that the area pressure below the rotor is further reduced, the pressure difference is effectively increased, and the mixing effect is further improved.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 in accordance with a preferred embodiment of the present invention;

FIG. 3 is a schematic structural view of a moving column driving apparatus according to a preferred embodiment of the present invention;

FIG. 4 is a schematic structural view of a rotary jetting tool in accordance with a preferred embodiment of the present invention;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 4 in accordance with a preferred embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a disturbing body according to a preferred embodiment of the present invention.

Detailed Description

Embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

Referring to fig. 1 and 2, in the present embodiment, a fluid-driven injection-type material mixing apparatus for industrial production includes a barrel 1, the top of the barrel 1 is open, a support housing 2 is fixedly connected to the inside of the barrel 1 through two L-shaped connecting rods 7, three cavities 3 are uniformly formed in the support housing 2, the cavities 3 are rectangular, moving plates 4 are disposed in the cavities 3, the three moving plates 4 are connected to each other through a moving column 5, a moving column driving device 6 is connected to the right end of the moving column 5, a pump body 8 is disposed at the bottom of the barrel 1, a fluid inlet pipe 9 is connected to the pump body 8, three fluid distribution pipes 11 are connected to the top of the fluid inlet pipe 9, the bottom ends of the fluid distribution pipes 11 are communicated with the inside of the cavity 3, a fluid outlet pipe 12 is connected to the lower side of the cavity 3, the bottom ends of the fluid outlet pipes 12 are both communicated with a fluid inlet pipe 13, a first fluid, when the device works, the pump body 8 is started, liquid materials are uniformly filled into the cavity 3 through the pump body 8 through the liquid inlet pipe 9 and the three liquid distributing pipes 11, then the movable column driving device 6 drives the movable column 5 to move towards the left side to extrude the liquid materials in the cavity 3, the liquid materials in the cavity 3 are sprayed out through the liquid distributing pipe 12 to enter the converging pipe 13 to converge, and the liquid materials are fully and effectively mixed in the spraying process; then the movable column driving device 6 drives the movable plate 5 to move towards the right side, so that the liquid material can be conveniently refilled;

referring to fig. 1 and 3, the moving column driving device 6 includes a rack 601, a left end of the rack 601 is fixedly connected to a right end of the moving column 5, and the right end of the rack 601 passes through a moving through slot 18 formed in a right side wall of the cylinder 1; a first rotating shaft 602 is rotatably connected to the front and rear side walls of the cylinder 1 above the rack 601, the rear end of the first rotating shaft 602 is fixedly connected to an output shaft of a motor (not shown in the figure), a disc 603 is fixedly connected to the first rotating shaft 602, and a horizontal column 604 is fixedly connected to the front side surface of the disc 603; a second rotating shaft 605 is rotatably connected to the front and rear side walls of the cylinder 1 below the first rotating shaft 602, a sector gear 606 is fixedly connected to the second rotating shaft 605, the sector gear 606 is engaged with the rack 601, the upper part of the sector gear 606 is fixedly connected with a swinging plate 607, the swinging plate 607 is provided with a limit through groove 608, the horizontal column 304 is positioned in the limit through groove 608, when the column 604 needs to move left and right, the motor is started, the motor drives the first rotating shaft 602 to rotate, the first rotating shaft 602 drives the disc 603 to rotate, the horizontal column 604 on the disc 603 also rotates along with the disc 603, therefore, the horizontal column 604 drives the swinging plate 607 to rotate around the second rotating shaft 605, so as to realize the left-right reciprocating swinging of the sector gear 606, the rack 601 engaged with the sector gear 606 moves left and right, thereby realizing the left and right movement of the movable plate 4 and extruding the liquid material in the cavity 3;

the horizontal post 604 has a diameter equal to the width of the limiting channel 608.

The liquid inlet pipe 9 is fixed on the inner side wall of the barrel 1 through a first connecting frame 10.

The first jet pipe 19 is fixed on the inner side wall of the barrel 1 through the second connecting frame 14.

Referring to fig. 1, 4 and 5, a rotary spraying device 15 is disposed below the supporting housing 2, the rotary spraying device 15 includes a supporting plate 151, the supporting plate 151 is fixedly connected to an inner sidewall of the cylinder 1, a bearing 152 is embedded in the middle of the supporting plate 151, an inner ring of the bearing 152 is fixedly connected to a rotating body 153, the rotating body 153 includes a first cylinder 1531, a first truncated cone 1532, a second cylinder 1533 and a second truncated cone 1534, the first truncated cone 1532 is large in top and small in bottom, the second truncated cone 1534 is large in top and small in bottom, and the first cylinder 1531, the first truncated cone 1532, the second cylinder 1533 and the second truncated cone 1534 are sequentially connected from top to bottom; the outer side wall of the first cylinder 1532 is uniformly and fixedly connected with a plurality of driving blades 154, when part of the liquid material is sprayed out from the bottom of the first spray pipe 19, the liquid material has a certain flow velocity, so that the sprayed liquid material acts on the driving blades 154 to drive the driving blades 154 to rotate, and the driving blades 154 drive the rotating body 153 to rotate continuously;

referring to fig. 4, the front and rear inner side walls of the second cylinder 153 are fixedly connected with a mounting plate 155, a gap is left between the mounting plate 155 and the left and right side walls of the second cylinder 1533, and the mounting plate 155 is uniformly and fixedly connected with a plurality of disturbing bodies 156; the outer side wall of the second circular truncated cone 1534 is symmetrically and fixedly connected with two evacuation plates 157, when part of liquid material is ejected through the second jet pipe 20, the liquid material enters the inside of the rotating body 153, the liquid material firstly continues to fall after being disturbed by the disturbing body 156 and finally is ejected from the bottom of the rotating body 153, because the rotating body 153 continuously rotates during operation, the rotating body 153 drives the evacuation plates 157 arranged on the outer side wall of the second circular truncated cone 1534 to rotate, the evacuation plates 157 can enable the lower part of the rotating body 153 to present a state of local negative pressure during rotation, so that the pressure inside the rotating body 153 is greater than the pressure below, under the action of the pressure, the speed of the liquid material ejected from the inside of the rotating body 153 is higher, so that a better impact effect is formed, and further, the mixing effect of the liquid material is better;

referring to fig. 4 and 6, the disturbing body 156 is in an incomplete spherical shell shape, the opening of the disturbing body is arranged upward, a plurality of disturbing protrusions 1561 are uniformly arranged inside the disturbing body 156, a blanking through hole 1562 is formed at the bottom of the disturbing body 156, the liquid material falls on the disturbing body 156 after entering the rotating body 153, and because the disturbing body 156 is in an incomplete spherical shell shape, the liquid material forms a certain vortex inside the disturbing body 156 and is matched with the disturbing protrusions 1561 to perform a better mixing effect on the liquid material; the disturbed liquid material flows out from the upper part of the disturbing body 156 or is discharged from the blanking through hole 1562 at the bottom.

The disturbing protrusions 1561 are triangular pyramid-shaped.

The outlet of the first jet pipe 19 is opposite to the driving blade 154, and the second jet pipe 20 extends into the rotating body 153; the right part of the liquid inlet pipe 9 is positioned right below the second circular truncated cone 1534, the liquid inlet pipe 9 empties the liquid material in the area below the rotating body 153, and the liquid material is used together with the emptying plate 157, so that the pressure intensity in the area below the rotating body 153 is further reduced, the pressure difference is effectively increased, and the mixing effect is further improved.

The bottom of the cylinder body 1 is provided with a discharge channel 16, and the discharge channel 16 is provided with a plug body 17.

The working process of the invention is as follows: when the device works, the pump body 8 is started, liquid materials are uniformly filled into the cavity 3 through the pump body 8 through the liquid inlet pipe 9 and the three liquid distributing pipes 11, then the movable column driving device 6 drives the movable column 5 to move towards the left side to extrude the liquid materials in the cavity 3, the liquid materials in the cavity 3 are sprayed out through the liquid distributing pipe 12 to enter the converging pipe 13 to converge, and the liquid materials are fully and effectively mixed in the spraying process; then the movable column driving device 6 drives the movable plate 5 to move towards the right side, so that the liquid material can be conveniently refilled; when the movable column 604 needs to move left and right, the motor is started, the motor drives the first rotating shaft 602 to rotate, the first rotating shaft 602 drives the disc 603 to rotate, and the horizontal column 604 on the disc 603 also rotates along with the first rotating shaft, so that the horizontal column 604 can drive the swinging plate 607 to rotate around the second rotating shaft 605, the left and right reciprocating swing of the sector gear 606 is realized, the rack 601 meshed with the sector gear 606 moves left and right, the left and right movement of the movable plate 4 is realized, and the liquid material in the cavity 3 is extruded;

when part of the liquid material is sprayed out from the bottom of the first spray pipe 19, the liquid material has a certain flow velocity, so that the sprayed liquid material acts on the driving blade 154 to drive the driving blade 154 to rotate, and the driving blade 154 drives the rotating body 153 to rotate continuously;

when part of the liquid material is sprayed out through the second spray pipe 20, the liquid material enters the inside of the rotating body 153 and then falls on the disturbing body 156, and because the disturbing body 156 is in an incomplete spherical shell shape, the liquid material can form a certain vortex inside the disturbing body 156, and the liquid material is better mixed by matching with the disturbing protrusion 1561; the disturbed liquid material flows out from the upper part of the disturbing body 156 or is discharged from the blanking through hole 1562 at the bottom.

The liquid material continuously falls and is finally sprayed out from the bottom of the rotating body 153, because the rotating body 153 continuously rotates during working, the rotating body 153 drives the emptying plate 157 arranged on the outer side wall of the second circular truncated cone 1534 to rotate, the emptying plate 157 can enable the lower part of the rotating body 153 to present a state of local negative pressure during rotation, so that the pressure inside the rotating body 153 is greater than the pressure below, and under the action of the pressure, the speed of the liquid material sprayed out from the inside of the rotating body 153 is higher, so that a better impact effect is formed, and the mixing effect of the liquid material is better;

because the right part of the liquid inlet pipe 9 is positioned right below the second truncated cone 1534, the liquid inlet pipe 9 empties the liquid material in the area below the rotating body 153, and the liquid material is used together with the emptying plate 157, so that the pressure in the area below the rotating body 153 is further reduced, the pressure difference is effectively increased, and the mixing effect is further improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, and it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention.

Claims

1. A working method of a fluid-driven jet-type material mixing device for industrial production comprises a barrel, wherein the top of the barrel is open, and the fluid-driven jet-type material mixing device is characterized in that a supporting shell is fixedly connected inside the barrel through two L-shaped connecting rods, three cavities are uniformly formed in the supporting shell, each cavity is rectangular, movable plates are arranged inside the cavities, the three movable plates are connected through a movable column, and the right end of the movable column is connected with a movable column driving device; the bottom in the barrel is provided with a pump body, the pump body is connected with a liquid inlet pipe, the top of the liquid inlet pipe is connected with three liquid distribution pipes, and the bottom ends of the liquid distribution pipes are communicated with the inside of the cavity; a branch liquid outlet pipe is connected to the lower side of the cavity, the bottom ends of the branch liquid outlet pipes are communicated with a junction pipe, and a first jet pipe and a second jet pipe are connected to the lower side of the junction pipe; a rotary spraying device is arranged below the supporting shell; the rotary spraying device comprises a supporting plate, the supporting plate is fixedly connected with the inner side wall of the barrel, a bearing is embedded in the middle of the supporting plate, a rotating body is fixedly connected with an inner ring of the bearing, the rotating body comprises a first cylinder, a first circular truncated cone, a second cylinder and a second circular truncated cone, the first circular truncated cone is in a shape of small top and large bottom, the second circular truncated cone is in a shape of large top and small bottom, and the first cylinder, the first circular truncated cone, the second cylinder and the second circular truncated cone are sequentially connected from top to bottom; the outer side wall of the first cylinder is uniformly and fixedly connected with a plurality of driving blades; the front inner side wall and the rear inner side wall of the second cylinder are fixedly connected with mounting plates, gaps are reserved between the mounting plates and the left side wall and the right side wall of the second cylinder, and a plurality of interference bodies are uniformly and fixedly connected onto the mounting plates; the outer side wall of the second circular truncated cone body is symmetrically and fixedly connected with two emptying plates; the outlet of the first jet pipe is opposite to the driving blade, the second jet pipe extends into the rotating body, and the right part of the liquid inlet pipe is positioned under the second round table body; the working method comprises the following steps: when the device works, a pump body is started, liquid materials are uniformly poured into the cavity by the pump body through the liquid inlet pipe and the three liquid distributing pipes, then the movable column driving device drives the movable column to move to the left side to extrude the liquid materials in the cavity, the liquid materials in the cavity are sprayed out through the liquid distributing pipes to enter the junction pipe to be converged, and the liquid materials are fully and effectively mixed in the spraying process; then the movable column driving device drives the movable plate to move towards the right side, so that the liquid material can be conveniently refilled; when the movable plate needs to move left and right, the motor is started, the motor drives the first rotating shaft to rotate, the first rotating shaft drives the disc to rotate, and the horizontal column on the disc also rotates along with the first rotating shaft, so that the horizontal column can drive the swinging plate to rotate around the second rotating shaft, the left and right reciprocating swinging of the sector gear is realized, the rack meshed with the sector gear moves left and right, the movable plate moves left and right, and the liquid material in the cavity is extruded; when part of liquid materials are sprayed out of the bottom of the first jet pipe, the liquid materials have certain flow velocity, so that the sprayed liquid materials act on the driving blades to drive the driving blades to rotate, and the driving blades drive the rotating body to rotate continuously; when part of liquid materials are sprayed out through the second spray pipe, the liquid materials enter the inside of the rotor and then fall onto the disturbing body, and because the disturbing body is in an incomplete spherical shell shape, the liquid materials can form a certain vortex in the disturbing body, and the liquid materials are matched with the disturbing protrusion to achieve a better mixing effect; the liquid material after disturbance flows out from the upper part of the disturbance body or is discharged from a blanking through hole at the bottom.

2. The method of operation of claim 1, wherein: liquid material continues whereabouts and at last from rotor bottom blowout, because the rotor can constantly rotate at the during operation, the rotor drives the evacuation board that second round platform body lateral wall arranged and rotates, the evacuation board can make the rotor below demonstrate the state of local negative pressure when rotating, thereby make the inside pressure of rotor be greater than the pressure of below, under the pressure effect, liquid material is faster from the inside speed when spouting of rotor, thereby form better impact effect, then make the mixed effect of liquid material better.

3. The method of operation of claim 2, wherein: because the right part of feed liquor pipe is located the second round platform body under, the feed liquor pipe is with the regional liquid material evacuation in rotor below, and the cooperation is used to the evacuation board for regional pressure below the rotor further reduces, has effectively increased the pressure difference, further improves the mixed effect.