CN210544612U - Stirring equipment capable of continuously feeding materials - Google Patents

Abstract

The utility model provides an agitated vessel of pan feeding in succession belongs to mechanical technical field. This agitated vessel includes the frame, the agitator, driving motor and the (mixing) shaft of fixing on driving motor output shaft, the agitator is fixed in the frame, the fixed stirring leaf that is located a plurality of agitator that is provided with on the (mixing) shaft, agitated vessel includes an unloading mechanism, unloading mechanism is including fixing on the stirring leaf, and be located the guide ring between stirring leaf and the agitator inner wall, a plurality of has the sunken concave part of a plurality of to the (mixing) shaft direction on the guide ring and to the bellied convex part of agitator inner wall direction, concave part and convex part alternate distribution, be provided with the feed subassembly that a plurality of and guide ring are in on the agitator on the same horizontal plane, the feed subassembly can be under the effect of convex part and concave part on the guide ring intermittent type nature to the feed in the. The utility model has the advantages of the homogenization effect is good.

Description

Stirring equipment capable of continuously feeding materials

Technical Field

The utility model belongs to the technical field of machinery, a agitated vessel of continuous pan feeding is related to.

Background

In the production process of the cleaning agent, firstly, propylene glycol methyl ether, butanone and cyclohexane are mixed according to a proportion, and secondly, nonylphenol polyvinyl ether, alkylbenzene sulfonic acid, fatty alcohol polyvinyl ether and water are fully stirred and added into the mixed solution obtained in the first step; thirdly, adding 0.1-10 parts of triethanolamine at a stirring speed of 200-250 rpm, and supplementing the required water amount to make the total weight of all the materials 100 parts; and fourthly, emulsifying for 1-2 hours at the rotating speed of 200-3000 rpm to obtain white emulsion, namely the product.

In the first step and the second step, different materials need to be mixed simultaneously and need to be stirred, all the materials are directly and completely added, the stirring difficulty and the stirring uniformity are influenced, and the homogenization effect is favorably realized by continuously adding a small amount of materials for multiple times.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem that exists to current technique, provide an agitated vessel of continuous pan feeding, the utility model aims to solve the technical problem how realize pan feeding a small amount of a lot of to improve the homogenization effect.

The purpose of the utility model can be realized by the following technical proposal: the utility model provides an agitated vessel of pan feeding in succession, its characterized in that, this agitated vessel include frame, agitator, driving motor and fix the (mixing) shaft in the driving motor output shaft, the agitator is fixed in the frame, the fixed stirring leaf that is located the agitator that is provided with on the (mixing) shaft, agitated vessel includes an unloading mechanism, unloading mechanism is including fixing on the stirring leaf and being located the guide ring between stirring leaf and the agitator inner wall, have a plurality of on the guide ring to the sunken concave part of (mixing) shaft direction and to the bellied convex part of agitator inner wall direction, concave part and convex part are distributed alternately, be provided with the feed subassembly that a plurality of and guide ring are in on the agitator on same horizontal plane, feed subassembly can be under the effect of convex part and concave part on the guide ring intermittent type nature to the feed in the agitator.

Because the part of the raw materials required by the production of the cleaning agent is not mutually soluble with water, if all the materials are directly added into water, emulsion is difficult to form in a short time, and the equipment enables the mixing strength and the dispersion uniformity of the raw materials and the water to be higher, the homogenization effect to be better and the efficiency to be higher through a small quantity of continuous feeding modes for multiple times.

In foretell agitated vessel of pan feeding in succession, the feed subassembly is including stretching into the feed pipe in the agitator, the one end that the feed pipe is located the agitator has a trigger switch, trigger switch can contact and open the feed pipe with the convex part.

The trigger switch is turned on after being extruded by the convex part and turned off again after the convex part is separated from the convex part, so that a small amount of materials are fed for multiple times.

The feeding assembly can also only comprise a feeding pipe, the inner end of the feeding pipe is shielded by the convex part and cannot be fed, and the convex part is communicated with the stirring barrel after leaving to realize feeding.

In the agitated vessel of foretell pan feeding in succession, the feed subassembly includes a valve body, sliding connection has a valve rod in the clockwork spring, the middle part of valve rod has an annular stock chamber, connect a feed hose on the valve rod, the feed hose links to each other with an transfer pump, be connected with one between valve rod outer end and the valve body bottom inner wall and be in reset spring under the compression state, the outer wall of valve body can hide and close the export of feed hose.

The material storage cavity in each feeding assembly is arranged according to different feeding proportions, when the convex part is in contact with the inner end of the valve rod, the valve rod opens the intercommunication of the feeding hose and the material storage cavity, materials enter the material storage cavity, when the concave part is in contact with the outer end of the valve rod, the valve rod closes the feeding hose under the action of the reset spring, the material storage cavity is communicated with the stirring barrel, and the materials are pushed into the stirring barrel.

In the stirring equipment for continuous feeding, an upper grinding disc which is horizontally distributed is fixedly arranged on a stirring shaft, each stirring blade is positioned above the upper grinding disc and is fixedly connected with the upper grinding disc, a refining shaft is sleeved at the lower end of the stirring shaft, a lower grinding disc is fixedly arranged on the outer wall of the refining shaft, the lower grinding disc divides the inner cavity of a stirring barrel into a stirring cavity positioned above the lower grinding disc and a discharging cavity positioned below the lower grinding disc, the outer edge of the lower grinding disc is in sliding connection with the inner wall of the stirring barrel, a gap is formed between the outer edge of the upper grinding disc and the inner wall of the stirring barrel, a plurality of discharging holes positioned below the upper grinding disc are arranged on the lower grinding disc, a compression spring in a compression state is connected between the lower end of the stirring shaft and the upper end of the refining shaft, an air cylinder is arranged at the bottom of the stirring barrel, and a push rod of the air cylinder is, the refining shaft is connected with the stirring shaft in a longitudinal sliding mode.

The cylinder drives the lower grinding disc to move longitudinally intermittently, so that materials in the stirring cavity can enter the space between the upper grinding disc and the lower grinding disc intermittently, are rubbed by the upper grinding disc and the lower grinding disc, are discharged into the discharging cavity from the discharging hole, are ground and sheared to be discharged, and have a better homogenization effect.

In the stirring equipment for continuous feeding, the material homogenizing shaft is fixedly provided with the material homogenizing paddle positioned in the discharging cavity.

The function of the material homogenizing paddle is to prevent the material in the blanking cavity from precipitating.

In the stirring equipment for continuous feeding, the stirring barrel is provided with a discharging pipe communicated with the discharging cavity.

In the stirring equipment for continuous feeding, the upper grinding disc is in a round cake shape, the upper surface of the upper grinding disc is an upward convex curved surface, the lower surface of the upper grinding disc is a downward convex curved surface, and the upper surface of the lower grinding disc is a curved surface matched with the lower surface of the upper grinding disc.

The structure of the upper grinding disc and the lower grinding disc can prevent materials from remaining on the upper grinding disc and the lower grinding disc due to high viscosity.

Drawings

FIG. 1 is a schematic view of the stirring apparatus.

FIG. 2 is a schematic structural view of a guide ring and a stirring blade.

In the figure, 1, a frame; 2. a stirring barrel; 3. a drive motor; 4. a stirring shaft; 5. stirring blades; 6. a guide ring; 61. a recess; 62. a convex portion; 71. a valve body; 72. a valve stem; 73. a storage cavity; 74. a supply hose; 75. a return spring; 81. an upper grinding disc; 82. a refining shaft; 83. a lower grinding disc; 84. a stirring chamber; 85. a blanking cavity; 86. a blanking hole; 87. a compression spring; 91. a material homogenizing paddle; 92. a discharge pipe; 93. and a cylinder.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 2, the stirring device includes a frame 1, a stirring barrel 2, a driving motor 3 and a stirring shaft 4 fixed on an output shaft of the driving motor 3, the stirring barrel 2 is fixed on the frame 1, a plurality of stirring blades 5 located in the stirring barrel 2 are fixedly arranged on the stirring shaft 4, the stirring device includes a blanking mechanism, the blanking mechanism includes a guide ring 6 fixed on the stirring blades 5 and located between the stirring blades 5 and an inner wall of the stirring barrel 2, the guide ring 6 is provided with a plurality of concave portions 61 depressed towards the direction of the stirring shaft 4 and convex portions 62 raised towards the direction of the inner wall of the stirring barrel 2, the concave portions 61 and the convex portions 62 are distributed alternately, the stirring barrel 2 is provided with a plurality of feeding assemblies located on the same horizontal plane with the guide ring 6, and the feeding assemblies can intermittently feed into the stirring barrel 2 under the action of the convex portions 62 and the concave portions 61 on the.

Because the part of the raw materials required by the production of the cleaning agent is not mutually soluble with water, if all the materials are directly added into water, emulsion is difficult to form in a short time, and the equipment enables the mixing strength and the dispersion uniformity of the raw materials and the water to be higher, the homogenization effect to be better and the efficiency to be higher through a small quantity of continuous feeding modes for multiple times.

The feed subassembly is including stretching into the feed pipe in the agitator 2, and the one end that the feed pipe is located agitator 2 has a trigger switch, and trigger switch can contact and open the feed pipe with convex part 62. The trigger switch is turned on after being extruded by the convex part 62 and turned off again after the convex part 62 is separated from the convex part, so that a small amount of materials are fed for multiple times.

The feeding assembly may only include a feeding pipe, the inner end of the feeding pipe is shielded by the protrusion 62 and cannot be fed, and the protrusion 62 is separated and communicated with the stirring barrel 2 to feed.

The feeding assembly comprises a valve body 71, a valve rod 72 is connected in a spring in a sliding mode, an annular material storage cavity 73 is formed in the middle of the valve rod 72, a feeding hose 74 is connected to the valve rod 72, the feeding hose 74 is connected with a liquid conveying pump, a return spring 75 in a pressing state is connected between the outer end of the valve rod 72 and the inner wall of the bottom of the valve body 71, and the outer wall of the valve body 71 can close an outlet of the feeding hose 74. The material storage cavity 73 in each feeding assembly is arranged according to different feeding proportions, when the convex part 62 is in contact with the inner end of the valve rod 72, the valve rod 72 opens the intercommunication of the feeding hose 74 and the material storage cavity 73, materials enter the material storage cavity 73, when the concave part 61 is in contact with the outer end of the valve rod 72, the valve rod 72 is under the action of the reset spring 75, the feeding hose 74 is closed by the valve rod 72, the material storage cavity 73 is communicated with the stirring barrel 2, and the materials are pushed into the stirring barrel 2.

An upper grinding disc 81 which is horizontally distributed is fixedly arranged on a stirring shaft 4, each stirring blade 5 is positioned above the upper grinding disc 81, each stirring blade 5 is fixedly connected with the upper grinding disc 81, a refining shaft 82 is sleeved at the lower end of the stirring shaft 4, a lower grinding disc 83 is fixedly arranged on the outer wall of the refining shaft 82, the inner cavity of a stirring barrel 2 is divided into a stirring cavity 84 positioned above the lower grinding disc 83 and a discharging cavity 85 positioned below the lower grinding disc 83 by the lower grinding disc 83, the outer edge of the lower grinding disc 83 is in sliding connection with the inner wall of the stirring barrel 2, a gap is arranged between the outer edge of the upper grinding disc 81 and the inner wall of the stirring barrel 2, a plurality of discharging holes 86 positioned below the upper grinding disc 81 are arranged on the lower grinding disc 83, a compression spring 87 in a compression state is connected between the lower end of the stirring shaft 4 and the upper end of the refining shaft 82, an air cylinder 93 is arranged at, the refining shaft 82 is connected with the stirring shaft 4 in a longitudinal sliding way. The cylinder 93 intermittently drives the lower grinding disc 83 to move longitudinally, so that the material in the stirring cavity 84 can intermittently enter between the upper grinding disc 81 and the lower grinding disc 83, and is rubbed by the upper grinding disc 81 and the lower grinding disc 83, then is discharged into the discharging cavity 85 from the discharging hole 86, and is discharged after being fully stirred through grinding and shearing, and the better homogenization effect is achieved.

The refining shaft 82 is fixedly provided with a refining paddle 91 positioned in the blanking cavity 85. The function of the homogenizing paddle 91 is to prevent the material in the blanking chamber 85 from settling.

The stirring barrel 2 is provided with a discharge pipe 92 communicated with the blanking cavity 85.

The upper grinding disc 81 is in a round cake shape, the upper surface of the upper grinding disc 81 is an upward convex curved surface, the lower surface of the upper grinding disc 81 is a downward convex curved surface, and the upper surface of the lower grinding disc 83 is a curved surface matched with the lower surface of the upper grinding disc 81. The upper grinding disc 81 and the lower grinding disc 83 are structured to avoid the material remaining on the upper grinding disc 81 and the lower grinding disc 83 due to the high viscosity.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (7)

1. The stirring equipment capable of continuously feeding materials is characterized by comprising a rack (1), a stirring barrel (2), a driving motor (3) and a stirring shaft (4) fixed on an output shaft of the driving motor (3), wherein the stirring barrel (2) is fixed on the rack (1), a plurality of stirring blades (5) positioned in the stirring barrel (2) are fixedly arranged on the stirring shaft (4), the stirring equipment comprises a blanking mechanism, the blanking mechanism comprises a guide ring (6) which is fixed on the stirring blades (5) and positioned between the stirring blades (5) and the inner wall of the stirring barrel (2), a plurality of concave parts (61) sunken towards the direction of the stirring shaft (4) and convex parts (62) protruding towards the direction of the inner wall of the stirring barrel (2) are arranged on the guide ring (6), the concave parts (61) and the convex parts (62) are distributed alternately, and a plurality of feeding components which are positioned on the same horizontal plane with the guide ring (6) are arranged on the stirring barrel (2), the feeding assembly can intermittently feed materials into the stirring barrel (2) under the action of the convex parts (62) and the concave parts (61) on the guide ring (6).

2. A continuous feed stirring apparatus as in claim 1 wherein said feed assembly includes a feed tube extending into the stirring barrel (2), said feed tube having a trigger switch at an end of the stirring barrel (2) that contacts the protrusion (62) and opens the feed tube.

3. A stirring apparatus as set forth in claim 1, wherein said feeding assembly includes a valve body (71), a valve rod (72) is slidably connected in said spring, an annular material storage chamber (73) is formed in the middle of said valve rod (72), a feeding hose (74) is connected to said valve rod (72), said feeding hose (74) is connected to a liquid delivery pump, a return spring (75) is connected between the outer end of said valve rod (72) and the inner wall of the bottom of said valve body (71) in a compressed state, and the outer wall of said valve body (71) can block the outlet of said feeding hose (74).

4. The continuous feeding stirring device according to claim 1, 2 or 3, characterized in that a horizontally distributed upper grinding disc (81) is fixedly arranged on the stirring shaft (4), each stirring blade (5) is positioned above the upper grinding disc (81), each stirring blade (5) is fixedly connected with the upper grinding disc (81), a refining shaft (82) is sleeved at the lower end of the stirring shaft (4), a lower grinding disc (83) is fixedly arranged on the outer wall of the refining shaft (82), the lower grinding disc (83) divides the inner cavity of the stirring barrel (2) into a stirring cavity (84) positioned above the lower grinding disc (83) and a discharging cavity (85) positioned below the lower grinding disc (83), the outer edge of the lower grinding disc (83) is slidably connected with the inner wall of the stirring barrel (2), a gap is formed between the outer edge of the upper grinding disc (81) and the inner wall of the stirring barrel (2), a plurality of discharging holes (86) positioned below the upper grinding disc (81) are formed in the lower grinding disc (83), the stirring device is characterized in that a compression spring (87) in a compression state is connected between the lower end of the stirring shaft (4) and the upper end of the refining shaft (82), an air cylinder (93) is arranged at the bottom of the stirring barrel (2), a push rod of the air cylinder (93) is fixedly connected with the refining shaft (82), and the refining shaft (82) is connected with the stirring shaft (4) in a longitudinal sliding mode.

5. A stirring device with continuous feeding according to claim 4, characterized in that a material mixing paddle (91) positioned in the feeding cavity (85) is fixedly arranged on the material mixing shaft (82).

6. Continuous feeding stirring equipment according to claim 4, characterized in that the stirring barrel (2) is provided with a discharging pipe (92) communicated with the blanking cavity (85).

7. The stirring equipment for continuously feeding materials as claimed in claim 4, wherein the upper grinding disc (81) is in a round cake shape, the upper surface of the upper grinding disc (81) is a curved surface protruding upwards, the lower surface of the upper grinding disc (81) is a curved surface protruding downwards, and the upper surface of the lower grinding disc (83) is a curved surface matched with the lower surface of the upper grinding disc (81).

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