CN112774539B - Preparation facilities of non-ionic fluorine-containing surfactant - Google Patents

Abstract

The invention discloses a preparation device of a non-ionic fluorine-containing surfactant, which structurally comprises: the invention realizes the operation effects of oil dissolution and water dissolution of nonionic fluorine-containing surfactant released by a floating ball shaft frame rod and a flow dividing pipe fan plate in a sleeve groove through the coordination of the shaft-driven sleeve and the propeller plate shaft frame, and the oil dissolution and water dissolution of the nonionic fluorine-containing surfactant released by a high-low position grid middle partition pipe and a high-low position in the sleeve groove, so that the subsequent nonionic atomic polymerization regulation operation effect obtains the chemical preparation operation effect and the extraction efficiency flow dividing operation effect, and the integral nonionic fluorine-containing surfactant obtains the hydrophilic lipophilic activity regulation operation effect.

Description

Preparation facilities of non-ionic fluorine-containing surfactant

Technical Field

The invention relates to a preparation device of a non-ionic fluorine-containing surfactant, belonging to the field of chemistry.

Background

The non-ionic fluorine-containing surfactant improves the reaction operation efficiency of strong acid and strong base and the mixing and lifting operation of water solvent, and guarantees the atomic polymerization operation effect of fluorine non-ions, thereby improving the general use efficiency of the reaction rate of the polymer preparation active agent and the active agent, and the common defects to be optimized in the prior art comprise:

the oleophylic and hydrophilic preparation of the nonionic fluorine-containing surfactant needs oscillation centrifugation and oil-water separation, the added fluorine-containing surfactant can be fully reflected on the oil surface of a high layer, the dissolving amount of the fluorine-containing surfactant on the water surface is low, the later-stage mixing and stirring is caused to cause overlarge dynamic lubrication of a pump pressure shaft, the compactness of an aqueous solution is insufficient, the oily quality is hydrolyzed and damaged, the doped impurities of a chemical preparation product are overlarge, and the extraction rate is reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a preparation device of a nonionic fluorine-containing surfactant, which aims to solve the problems that the oleophylic and hydrophilic preparation of the nonionic fluorine-containing surfactant needs oscillation centrifugation and oil-water separation, the added fluorine-containing surfactant can be fully reflected on the oil surface of a high layer, the dissolving amount of the water surface is low, the dynamic lubrication of a pump pressure shaft is too large due to later-stage mixing and stirring, the oil quality is damaged due to hydrolysis due to lack of density of an aqueous solution, the doped impurities of a chemical preparation product are too large, and the extraction rate is reduced.

In order to realize the purpose, the invention is realized by the following technical scheme: a preparation device of nonionic fluorine-containing surfactant structurally comprises: the axial-motion sleeve, the propeller plate shaft rod frame, the disc arc pad, the bearing disc seat and the controller are mounted inside the axial-motion sleeve, the axes of the axial-motion sleeve and the propeller plate shaft rod frame are collinear, the axial-motion sleeve and the propeller plate shaft rod frame are inserted and embedded on the top of the disc arc pad, the axes of the axial-motion sleeve and the propeller plate shaft rod frame are collinear, the disc arc pad is mounted on the top of the bearing disc seat, the bearing disc seat is tightly attached to the top surface of the controller and located on the same horizontal plane, the propeller plate shaft rod frame is provided with two ball float shaft frame rods, two flow distribution pipe fan plates and two pump cylinder grooves, the two flow distribution pipe fan plates are respectively mounted on the left side and the right side of the ball float shaft frame rod, the ball shaft frame rods are inserted and embedded inside the pump cylinder grooves and are collinear, the flow distribution pipe fan plates and the pump cylinder grooves are nested into a whole, and the pump cylinder grooves are mounted inside the axial-motion sleeve and are collinear.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the floating ball shaft lever comprises two floating ball pad seats and a shaft lever body, wherein the two floating ball pad seats are respectively arranged at the upper side and the lower side of the shaft lever body, and the floating ball pad seats and the shaft lever body are buckled together and the axes of the floating ball pad seats and the shaft lever body are collinear.

As a further improvement of the invention, the floating ball bearing seat consists of a water wheel ball groove and a grid cushion block, the water wheel ball groove is arranged on the top of the grid cushion block, the water wheel ball groove and the grid cushion block are nested into a whole, and the axes of the water wheel ball groove and the grid cushion block are collinear.

As a further improvement of the invention, the shunt tube fan plate consists of a shunt tube wing plate and a propeller frame plate, wherein the shunt tube wing plate is arranged on the right side of the propeller frame plate and is positioned on the same vertical surface, and the shunt tube wing plate and the propeller frame plate are inserted and embedded together.

As a further improvement of the invention, the flow dividing pipe wing plate consists of a wing plate body and a flow dividing pipe frame, wherein the flow dividing pipe frame is arranged inside the wing plate body, and the wing plate body and the flow dividing pipe frame are tightly attached together and are positioned on the same vertical plane.

As a further improvement of the invention, the shaft-driven sleeve consists of a ball body and a sleeve groove, wherein the ball body is arranged on the top of the sleeve groove, and the ball body is in clearance fit with the sleeve groove.

As a further improvement of the invention, the ball body consists of a truss ball groove and a fan brush plate, the fan brush plate is arranged inside the truss ball groove, and the truss ball groove and the fan brush plate are in clearance fit.

As a further improvement of the invention, the disc arc pad consists of an ellipsoid pad block and an arc pad seat block, wherein the ellipsoid pad block is arranged inside the arc pad seat block, and the ellipsoid pad block and the arc pad seat block are inserted and embedded together and are positioned on the same horizontal plane.

As a further improvement of the invention, the ellipsoidal cushion block consists of an ellipsoidal groove and a ring buckle seat block, the ring buckle seat block is arranged inside the ellipsoidal groove, and the ellipsoidal groove and the ring buckle seat block are nested into a whole and are positioned on the same vertical plane.

As a further improvement of the invention, the water wheel ball groove is of a ball structure in which water wheel blades are inserted, so that rolling friction is facilitated to form a concentric operation effect for assisting the rotation of the high-low oil level and water level counterweight shafts.

As a further improvement of the invention, the shunt pipe frame is of a pipe frame structure with a right side provided with a three-gradient pipe inserted shunt lug plate, so that the operation effects of high-low level transverse pressure floating rotation, low level spiral sedimentation formation and other quality active agent preparation are facilitated.

As a further improvement of the invention, the fan brush plate is of a double-fan-plate structure with a narrow top and a wide bottom, so that the fan brush plate can rotate around the brush roller to form an integral coaxial linkage operation effect of adjusting the high-position axial mobility, aligning the low-position axial mobility and the like.

As a further improvement of the invention, the ring buckle seat block is a composite buckle seat structure with an inclined frame valve plate of a lantern ring of a column block at the top, so that the base can be conveniently bounced to form the operation effect of axial fluctuation, oscillation and centrifugal stirring.

Advantageous effects

The invention relates to a preparation device of a nonionic fluorine-containing surfactant, which is characterized in that a worker presses and covers a ball body of a shaft-driven sleeve on the top of a sleeve groove through a truss ball groove and a pump barrel groove of a fan brush plate pressing and buckling a propeller plate shaft frame to rotationally pull a linkage floating ball shaft frame rod and a flow dividing pipe fan plate, so that a disc arc pad and a bearing disc seat are matched with a small stepping motor at the top of a controller to axially move, the floating ball pad seat is pulled on the upper side and the lower side of the shaft rod to drive a water wheel ball groove and a grid pad floating oil surface and a water surface to be matched with a wing plate to realize the preparation of a reagent with the ingredient content of an aqueous solution by matching the high-low input nonionic fluorine-containing surfactant through the wing plate body and the flow dividing pipe frame under the linkage traction of the propeller plate, and the effects of flexibly whirling liquid level and stirring the high-homogeneous high-low polymeric compound are improved.

The invention has the following advantages after operation:

the shaft-driven sleeve is matched with the propeller plate shaft lever frame, the floating ball shaft lever frame and the shunt pipe fan plate form an integral high-low position net rack middle partition pipe in the sleeve groove and an integral high-low position net rack middle partition pipe and an integral high-low position oil dissolution and water dissolution operation effect for releasing the nonionic fluorine-containing surfactant, so that the subsequent nonionic atomic polymerization regulation operation effect obtains a chemical preparation operation effect and an extraction efficiency shunting operation effect, and the integral nonionic fluorine-containing surfactant obtains a hydrophilic lipophilic activity regulation operation effect.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic structural diagram of a device for preparing a nonionic fluorosurfactant according to the present invention.

Fig. 2 is a detailed sectional structure diagram of the shaft-driven sleeve and the propeller plate shaft bracket of the present invention.

Fig. 3 is a detailed cross-sectional structural diagram of the propeller plate shaft bracket and the disc arc pad of the present invention.

Fig. 4 is a detailed sectional structure diagram of the propeller plate shaft bracket, the floating ball shaft bracket rod and the shunt tube fan plate of the present invention.

FIG. 5 is an enlarged cross-sectional view of the ball of the present invention in operation.

FIG. 6 is an enlarged cross-sectional view of the ellipsoidal spacer of the present invention in its operating state.

FIG. 7 is an enlarged cross-sectional view of the floating ball seat according to the present invention.

Fig. 8 is an enlarged cross-sectional view of the wings of the shunt according to the present invention.

Description of the reference numerals: the device comprises a shaft-driven sleeve-1, a propeller plate shaft rod frame-2, a disc arc pad-3, a bearing disc seat-4, a controller-5, a floating ball shaft rod-2A, a shunt tube fan plate-2B, a pump cylinder groove-2C, a floating ball pad seat-2A 1, a shaft rod body-2A 2, a water wheel ball groove-2A 11, a grid pad block-2A 12, a shunt tube wing plate-2B 1, a propeller frame plate-2B 2, a wing plate body-2B 11, a shunt tube frame-2B 12, a ball body-11, a sleeve groove-12, a truss ball groove-111, a fan brush plate-112, an ellipsoid pad block-31, an arc pad seat block-32, an ellipsoid groove-311 and a ring buckle seat block-312.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained by combining the specific embodiments.

The first embodiment is as follows:

referring to fig. 1 to 8, the present invention provides an apparatus for preparing a non-ionic fluorine-containing surfactant, comprising: the pump comprises a shaft-driven sleeve 1, a propeller plate shaft rod frame 2, a disc arc pad 3, a bearing disc seat 4 and a controller 5, wherein the propeller plate shaft rod frame 2 is arranged in the shaft-driven sleeve 1, the axes of the propeller plate shaft rod frame 2 are collinear, the shaft-driven sleeve 1 and the propeller plate shaft rod frame 2 are inserted and embedded on the top of the disc arc pad 3, the axes of the disc arc pad 3 are collinear, the disc arc pad 3 is arranged on the top of the bearing disc seat 4, the axes of the disc arc pad are collinear, the bearing disc seat 4 is tightly attached to the top surface of the controller 5 and is positioned on the same horizontal plane, the propeller plate shaft rod frame 2 is provided with a ball shaft rod frame rod 2A, two flow distribution pipe fan plates 2B and a pump cylinder groove 2C, the two flow distribution pipe fan plates 2B are respectively arranged on the left side and the right side of the ball shaft rod 2A, the ball shaft rod 2A is inserted and embedded in the pump cylinder groove 2C, the axis of the flow distribution pipe plate 2B and the pump cylinder groove 2C are nested into a whole, the pump barrel groove 2C is arranged inside the shaft-driven sleeve 1, and the axes are collinear.

Referring to fig. 4, the floating ball pedestal bar 2A is composed of two floating ball pedestals 2A1 and a shaft body 2A2, the two floating ball pedestals 2A1 are respectively installed at the upper and lower sides of the shaft body 2A2, the floating ball pedestals 2A1 and the shaft body 2A2 are buckled together and have collinear axes, the shunt tube fan plate 2B is composed of a shunt tube wing plate 2B1 and a propeller frame plate 2B2, the shunt tube wing plate 2B1 is installed at the right side of the propeller frame plate 2B2 and is located on the same vertical plane, the shunt tube wing plate 2B1 and the propeller frame plate 2B2 are inserted and embedded together, and the liquid level rotation adjustment operation effect of oil buoyancy and water buoyancy is formed at the upper and lower sides of the propeller frame plate 2B2 through the floating ball pedestals 2A 1.

Referring to fig. 7, the floating ball bearing 2a1 is composed of a water wheel ball groove 2a11 and a grid cushion block 2a12, the water wheel ball groove 2a11 is installed on the top of the grid cushion block 2a12, the water wheel ball groove 2a11 and the grid cushion block 2a12 are nested into a whole, and the axis is collinear, the water wheel ball groove 2a11 is a ball structure through which water wheel blades are inserted, so that rolling friction is facilitated to form a concentric operation effect for assisting the rotation of high and low oil surfaces and a water surface counterweight shaft, and a floating winding liquid level operation effect is formed on the top of the grid cushion block 2a12 through the water wheel ball groove 2a 11.

Referring to fig. 8, the shunt tube wing plate 2B1 is composed of a wing plate body 2B11 and a shunt tube frame 2B12, the shunt tube frame 2B12 is installed inside the wing plate body 2B11, the wing plate body 2B11 is tightly attached to the shunt tube frame 2B12 and is located on the same vertical plane, the shunt tube frame 2B12 is a tube frame structure with a three-gradient tube inserted shunt lug plate on the right side, so that operation effects of high-low level transverse pressure floating rotation, low-level spiral sedimentation and other quality active agent preparations are facilitated, operation effects of diversion and homogeneous dissolution of high-low level release non-ionic fluorine-containing surfactant are formed by installing the wing plate body 2B11 on the periphery of the shunt tube frame 2B12, and inspection degree of preparation is improved.

Referring to fig. 2, the axially movable sleeve 1 is composed of a ball body 11 and a sleeve groove 12, the ball body 11 is mounted on the top of the sleeve groove 12, the ball body 11 and the sleeve groove 12 are in clearance fit, and the operation effect of preventing the shifting in the same direction of the axis is realized by balancing the weight, rotating and lifting the top of the sleeve groove 12 through the ball body 11.

Referring to fig. 5, the ball body 11 is composed of a truss ball groove 111 and a fan brush plate 112, the fan brush plate 112 is installed inside the truss ball groove 111, the truss ball groove 111 and the fan brush plate 112 are in clearance fit, the fan brush plate 112 is a double-fan-plate structure with a narrow top and a wide bottom, so that the rotation around the brush roller is facilitated to form an integral coaxial linkage operation effect of high-position axial mobility adjustment alignment and low-position axial mobility, and the fan brush plate 112 is wrapped around the brush through the truss ball groove 111 to form an integral counterweight rotation operation effect.

The working process is as follows: the worker presses and covers the ball body 11 of the shaft-driven sleeve 1 on the top of the sleeve groove 12, presses and pulls the pump cylinder groove 2C of the propeller plate shaft bracket 2 through the truss ball groove 111 and the fan brush plate 112, and then the pump cylinder groove 2C and the rotary traction linkage floating ball shaft bracket rod 2A and the shunt pipe fan plate 2B are matched, so that the disc arc pad 3 and the bearing disc seat 4 are matched with the small stepping motor on the top of the controller 5 to move, and the floating ball pad seat 2A1 is pulled to drive the water wheel ball groove 2A11 and the grid pad block 2A12 floating oil surface and the water surface matching shunt pipe wing plate 2B1 on the upper side and the lower side of the shaft rod body 2A2 to realize the high-low-level input of the reagent with the content of the nonionic fluorine-containing surfactant to be matched with the water solution component through the wing plate body 2B11 and the shunt pipe bracket plate 2B12 under the linkage traction of the propeller plate 2B2, and the effects of flexible vortex liquid level rotation and stirring of the homogeneous high-low polymer compound are improved.

Example two:

referring to fig. 1 to 8, the present invention provides an apparatus for preparing a non-ionic fluorosurfactant, which is otherwise the same as in example 1 except that:

referring to fig. 3, the disc arc pad 3 is composed of an ellipsoid pad 31 and an arc pad base block 32, the ellipsoid pad 31 is installed inside the arc pad base block 32, the ellipsoid pad 31 and the arc pad base block 32 are inserted and embedded together and are located on the same horizontal plane, and the ellipsoid pad 31 horizontally separates the pad in the arc pad base block 32 to be wrapped in a rotating manner with high efficiency.

Referring to fig. 6, the ellipsoidal cushion block 31 is composed of an ellipsoidal groove 311 and a ring fastener block 312, the ring fastener block 312 is installed inside the ellipsoidal groove 311, the ellipsoidal groove 311 and the ring fastener block 312 are embedded into a whole and located on the same vertical plane, the ring fastener block 312 is a composite fastener structure with a pillar block collar inclined frame petal plate at the top, so that the base can bounce to form an axial fluctuation oscillation centrifugal stirring operation effect, and the ring fastener block 312 is wrapped by the ellipsoidal groove 311 to be supported efficiently.

Oil and water are input through a guide pipe at the early stage, are vertically and hierarchically clamped in a cylinder groove and are matched with an ellipsoid cushion block 31 of a disc arc cushion 3 to rotate in an arc cushion block 32 to form the operation effect of upper and lower support of an ellipsoid groove 311 and a ring buckle block 312, and the subsequent linkage of the rotary mixed materials improves the whole preparation operation flexibility and liquid separation treatment effect of the nonionic fluorine-containing surfactant.

The invention achieves the operation effects of oil dissolution and water dissolution of the non-ionic fluorine-containing surfactant by utilizing the axial-motion sleeve 1 and the propeller plate shaft rack 2 to be matched, forming an integral high-low position net rack middle partition pipe and high-low position release non-ionic fluorine-containing surfactant in the sleeve groove 12 by the floating ball shaft rack rod 2A and the shunt pipe fan plate 2B, so that the subsequent non-ionic atom polymerization regulation operation effect obtains the chemical preparation operation effect and the extraction efficiency shunting operation effect, the integral non-ionic fluorine-containing surfactant obtains the hydrophilic lipophilic activity regulation operation effect, thereby solving the problem that the lipophilic hydrophilic preparation of the non-ionic fluorine-containing surfactant needs vibration centrifugation and oil-water separation, the added fluorine-containing surfactant can be fully reflected on the oil surface of a high layer, the dissolving amount on the water surface is lower, and the pumping shaft dynamic lubrication is overlarge due to later-stage mixing stirring, and the density of the aqueous solution is insufficient, so that the oily quality is damaged by hydrolysis, and the chemical preparation product is excessively doped with impurities, so that the extraction rate is reduced.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (4)

1. A preparation device of nonionic fluorine-containing surfactant structurally comprises: shaft-driven sleeve (1), propeller plate shaft frame (2), disc arc pad (3), bearing plate seat (4), controller (5), its characterized in that:

the propeller plate shaft rod frame (2) is arranged inside the shaft moving sleeve (1), the shaft moving sleeve (1) and the propeller plate shaft rod frame (2) are inserted and embedded on the top of the disc arc pad (3), the disc arc pad (3) is arranged on the top of the bearing disc seat (4), and the bearing disc seat (4) is tightly attached to the top surface of the controller (5);

the propeller plate shaft rod frame (2) is provided with a floating ball shaft rod frame rod (2A), a flow distribution pipe fan plate (2B) and a pump cylinder groove (2C);

the two shunt tube fan plates (2B) are arranged and are respectively arranged at the left side and the right side of the floating ball shaft frame rod (2A), the floating ball shaft frame rod (2A) is inserted and embedded in the pump cylinder groove (2C), the shunt tube fan plates (2B) and the pump cylinder groove (2C) are embedded into a whole, and the pump cylinder groove (2C) is arranged in the shaft-driven sleeve (1);

the floating ball shaft bracket rod (2A) consists of two floating ball pad seats (2A1) and a shaft body (2A2), the two floating ball pad seats (2A1) are respectively arranged at the upper side and the lower side of the shaft body (2A2), and the floating ball pad seats (2A1) are buckled with the shaft body (2A 2);

the floating ball bearing seat (2A1) consists of a water wheel ball groove (2A11) and a grid cushion block (2A12), the water wheel ball groove (2A11) is installed on the top of the grid cushion block (2A12), and the water wheel ball groove (2A11) and the grid cushion block (2A12) are nested into a whole;

the shunt tube fan plate (2B) is composed of a shunt tube wing plate (2B1) and a propeller frame plate (2B2), the shunt tube wing plate (2B1) is installed on the right side of the propeller frame plate (2B2), and the shunt tube wing plate (2B1) and the propeller frame plate (2B2) are inserted and embedded together;

the shaft-driven sleeve (1) consists of a ball body (11) and a sleeve groove (12), the ball body (11) is arranged on the top of the sleeve groove (12), and the ball body (11) is matched with the sleeve groove (12);

the ball body (11) comprises truss ball groove (111) and fan brush plate (112), the fan brush plate (112) is installed in the truss ball groove (111), and the truss ball groove (111) is matched with the fan brush plate (112).

2. The apparatus according to claim 1, wherein: shunt tubes pterygoid lamina (2B1) comprise pterygoid lamina body (2B11), reposition of redundant personnel pipe support (2B12), the inside in pterygoid lamina body (2B11) is installed in reposition of redundant personnel pipe support (2B12), pterygoid lamina body (2B11) hug closely together with reposition of redundant personnel pipe support (2B 12).

3. The apparatus according to claim 1, wherein: the disc arc pad (3) is composed of an ellipsoid cushion block (31) and an arc cushion block (32), the ellipsoid cushion block (31) is installed inside the arc cushion block (32), and the ellipsoid cushion block (31) and the arc cushion block (32) are inserted and embedded together.

4. The apparatus according to claim 3, wherein: the ellipsoid cushion block (31) is composed of an ellipsoid groove (311) and a ring buckle seat block (312), the ring buckle seat block (312) is installed inside the ellipsoid groove (311), and the ellipsoid groove (311) and the ring buckle seat block (312) are nested into a whole.

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