CN219333977U - Turnover glass lining vacuum separation container - Google Patents

Abstract

The utility model discloses a turnover glass lining vacuum separation container which comprises a frame, a jacket, a gear, a rack, a fixed sleeve, an electric telescopic rod I, a deflector rod, an electric telescopic rod II, a movable rod, a travel switch, a motor, a sight glass, a temperature measuring hole, a hand hole, an upper end cover, a locking buckle, a stirring mechanism, a tank body, a deflation port, a steam inlet, a liquid outlet, a discharge port, a clean port and a rotating shaft, wherein the discharge port is arranged at the bottom of the tank body, the top of the tank body is meshed with the upper end cover through the locking buckle, the upper end cover is provided with a plurality of sight glass, the temperature measuring hole and the hand hole, the motor is arranged above the upper end cover, the output end of the motor is fixedly connected with the rotating shaft, two groups of identical stirring mechanisms are arranged on the rotating shaft, and the jacket is arranged outside the tank body. According to the stirring mechanism, the movable blades are movably arranged in the stirring mechanism, the guide blades are arranged on the movable blades and matched with the tension springs to finish rotation of the movable blades, so that the rotary blades are driven to fully decompose materials, and the stirring effect is further improved.

Description

Turnover glass lining vacuum separation container

Technical Field

The utility model belongs to the technical field of glass lining stirring containers, and particularly relates to a turnover glass lining vacuum separation container.

Background

The glass lining vacuum separation container is often applied to stirring work in various industries, and the existing turnover glass lining vacuum container has the following problems in the use process: 1) Because the materials can be continuously turned over and moved in the tank body, the existing stirring equipment cannot quickly break up and dissolve the materials, so that the stirring time is prolonged, and the stirring effect is poor; 2) The motor is used for switching forward and reverse rotation to drive the tank body to turn over, so that the turning angle can not be controlled in real time, and the tank body can always work continuously after a related program is set in a halt mode.

Through retrieving, prior art CN115282620B discloses a convertible glass lining vacuum separation equipment, including the vacuum separation jar, a support, tilting mechanism and clearance rabbling mechanism, wherein when driving vacuum separation jar reciprocating rotation through tilting mechanism in the clearance rabbling mechanism, the clearance rabbling mechanism drives the inner wall clearance unit through the centrifugal force that reciprocating rotation produced and the reset elasticity of spring and reciprocates about the inner wall of knockout drum, and then clear up the inner wall of knockout drum, prevent that the dregs of a decoction from being dried and adhered on the knockout drum inner wall, and then make the knockout drum inner wall keep clean, can be with the bottom that the dregs of a decoction clearance drops in the knockout drum simultaneously, the follow-up clearance of gathering the dregs of a decoction is discharged conveniently, although can realize the clearance effect of inner wall, but do not set up extra stirring crushing blade, stirring effect is not good, can't scatter fast material, lead to the material to gather into the piece, increase stirring time.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides a turnover glass lining vacuum separation container, wherein a movable blade is movably arranged in a stirring mechanism, and the movable blade is provided with a guide blade and a tension spring to complete the rotation of the movable blade in a matched manner, so that a rotating blade is driven to fully decompose materials, and the stirring effect is further improved.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a convertible glass lining vacuum separation container, includes frame, clamp sleeve, gear, rack, fixed sleeve, electric telescopic handle I, driving lever, electric telescopic handle II, movable rod, travel switch, motor, sight glass, temperature measurement hole, hand hole, upper end cover, locking buckle, rabbling mechanism, jar body, relief vent, steam inlet, liquid outlet, drain hole, clean mouth, rotation axis, jar body bottom is equipped with the drain hole, and jar body top is installed the upper end cover through locking buckle meshing, is equipped with a plurality of sight glass, temperature measurement hole, hand hole on the upper end cover, and upper end cover top is equipped with the motor, and motor output end fixed connection rotation axis is equipped with two sets of identical rabbling mechanism on the rotation axis, and the jar outside is equipped with the cover, and cover one side is equipped with the steam inlet, and the cover bottom is equipped with two sets of liquid outlets, is equipped with the clean mouth between liquid outlet and the drain hole, clean mouth and clamp sleeve fixed connection, and clamp sleeve outside movable mounting are equipped with the gear, and rack movable mounting is in fixed sleeve, and fixed sleeve is equipped with the rotation axis I is equipped with the electric telescopic handle I, and movable telescopic handle II is equipped with movable telescopic handle I through the fixed connection, movable telescopic handle I is equipped with movable telescopic handle II on the frame, movable mounting movable telescopic handle II.

The stirring mechanism comprises a first stirring shaft, stirring blades, movable blades, guide blades, a second stirring shaft, rotating blades and tension springs, wherein the first stirring shaft is fixedly arranged on a rotating shaft, two groups of stirring blades are arranged on the first stirring shaft, the movable blades are movably arranged at the tail end of the first stirring shaft, the tension springs are arranged on the movable blades, the other ends of the tension springs are fixedly connected with the rotating shaft, four groups of guide blades are fixedly arranged on the inner sides of the movable blades, the second stirring shaft is movably arranged on one side of the guide blades, and a plurality of rotating blades are alternately arranged on the second stirring shaft.

The guide vanes and the movable vanes form an included angle of 40-50 degrees, the deflection directions of the guide vanes at the two sides of the first stirring shaft are opposite, the movable vanes can deflect through stirring liquid during rotation, the stirring effect is further enhanced, and floating particles are scattered.

Preferably, the rack is provided with guide sliding grooves on two sides, and the guide sliding grooves are meshed with the inner side wall of the fixed sleeve.

Compared with the prior art, the utility model has the beneficial effects that:

1) Through movable installation movable blade in rabbling mechanism, be equipped with the guide vane on the movable blade and can drive movable blade rotation through with liquid contact, the extension spring prevents that movable blade swing angle from being too big, can pull the movable blade simultaneously and carry out irregular rotation to drive the last rotary vane of second (mixing) shaft and carry out abundant decomposition to the material, further promote stirring effect;

2) Through setting up the movable rod, set up travel switch on the movable rod, through adjusting travel switch position, touch travel switch after when the driving lever, electric telescopic handle I reverse motion to realize can adjust jar body turned angle at any time, thereby can adapt to different stirring intensity.

Drawings

FIG. 1 is a schematic diagram of a turnover glass lining vacuum separation container according to the present utility model;

FIG. 2 is a schematic side view of a turnover glass lining vacuum separation vessel according to the present utility model;

FIG. 3 is a schematic view of the bottom structure of a turnover glass lining vacuum separation vessel according to the present utility model;

FIG. 4 is a schematic view of the internal structure of the tank;

FIG. 5 is a schematic structural view of a stirring mechanism;

in the figure: 10. a frame; 11. a jacket; 12. a gear; 13. a rack; 14. a fixed sleeve; 15. an electric telescopic rod I; 16. a deflector rod; 17. an electric telescopic rod II; 18. a movable rod; 19. a travel switch; 20. a motor; 21. a viewing mirror; 22. a temperature measuring hole; 23. a hand hole; 24. an upper end cap; 25. locking buckle; 26. a stirring mechanism; 111. a tank body; 112. a vent port; 113. a steam inlet; 114. a liquid outlet; 115. a discharge port; 116. cleaning the mouth; 131. a guide chute; 201. a rotation shaft; 261. a first stirring shaft; 262. stirring blades; 263. a movable blade; 264. a guide vane; 265. a second stirring shaft; 266. rotating the blades; 267. and a tension spring.

Detailed Description

In order to facilitate understanding of those skilled in the art, the technical scheme of the present utility model will be further specifically described below with reference to fig. 1 to 5.

The turnover glass lining vacuum separation container comprises a frame 10, a jacket 11, a gear 12, a rack 13, a fixed sleeve 14, an electric telescopic rod I15, a deflector rod 16, an electric telescopic rod II 17, a movable rod 18, a travel switch 19, a motor 20, a sight glass 21, a temperature measuring hole 22, a hand hole 23, an upper end cover 24, a locking buckle 25, a stirring mechanism 26, a tank 111, a vent 112, a steam inlet 113, a liquid outlet 114, a vent 115, a vent 116 and a rotating shaft 201, wherein the bottom of the tank 111 is provided with the vent 115, the top of the tank 111 is meshed with the upper end cover 24 through the locking buckle 25, the upper end cover 24 is provided with a plurality of sight glass 21, the temperature measuring hole 22 and the hand hole 23, the motor 20 is arranged above the upper end cover 24, the output end of the motor 20 is fixedly connected with the rotating shaft 201, the rotating shaft 201 is provided with two groups of identical stirring mechanisms 26, the outer side of the tank 111 is provided with the jacket 11, a steam inlet 113 is arranged on one side of the jacket 11, a deflation port 112 is arranged on the other side of the jacket 11, two groups of liquid outlets 114 are arranged at the bottom of the jacket 11, a clean opening 116 is arranged between the liquid outlets 114 and a discharge port 115, the clean opening 116 is fixedly communicated with the jacket 11, the outer side of the jacket 11 is movably arranged on the frame 10, one side of a rotating shaft arranged on the outer side of the jacket 11 is provided with a gear 12, the gear 12 is meshed with a rack 13, the rack 13 is movably arranged in a fixed sleeve 14, the fixed sleeve 14 is fixedly arranged on the frame 10, an electric telescopic rod I15 is arranged at the bottom of the fixed sleeve 14, one end of the electric telescopic rod I15 is fixedly connected with one end of the rack 13, the rack is driven to move along the fixed sleeve 14 through the reciprocating motion of the electric telescopic rod I15, the tank 111 is driven to integrally rotate through the meshing of the rack 13 and the gear 12, a deflector rod 16 is fixedly arranged on the other side of the rotating shaft arranged on the outer side of the jacket 11, a travel switch 19 is arranged on two sides of the deflector rod 16, the travel switch 19 is fixedly arranged on the movable rod 18, the movable rod 18 is movably arranged on the frame 10, an electric telescopic rod II 17 is movably arranged between the movable rod 18 and the frame 10, and the movable rod 18 is driven to rotate by the electric telescopic rod II 17, so that the travel switch is controlled.

The stirring mechanism 26 comprises a first stirring shaft 261, stirring blades 262, movable blades 263, guide blades 264, a second stirring shaft 265, rotating blades 266 and tension springs 267, wherein the first stirring shaft 261 is fixedly installed on the rotating shaft 201, two groups of stirring blades 262 are arranged on the first stirring shaft 261, movable blades 263 are movably installed at the tail end of the first stirring shaft 261, tension springs 267 are arranged on the movable blades 263, the other ends of the tension springs 267 are fixedly connected with the rotating shaft 201, four groups of guide blades 264 are fixedly installed on the inner sides of the movable blades 263, the second stirring shaft 265 is movably installed on one side of the guide blades 264, and a plurality of rotating blades 266 are installed on the second stirring shaft 265 in a staggered mode.

The guide vanes 264 and the movable vanes 263 form an included angle of 40-50 degrees, and the deflection directions of the guide vanes 264 at the two sides of the first stirring shaft 261 are opposite, so that the movable vanes 263 can deflect through stirring liquid during rotation, the stirring effect is further enhanced, and floating particles are scattered.

Guide sliding grooves 131 are formed in two sides of the rack 13, and the guide sliding grooves 131 are meshed with the inner side walls of the fixed sleeve 14.

A turnover glass lining vacuum separation container has the following working process: placing materials to be mixed and stirred into a tank body through an upper opening of an upper end cover, checking whether a locking buckle is locked or not, adjusting an electric telescopic rod II, adjusting a movable rod to determine the position of a travel switch, adjusting the swing amplitude of the tank body, driving a rack to reciprocate by the electric telescopic rod I, driving the tank body to rotate through meshing of the rack and a gear, simultaneously matching with the travel switch to adjust the swing angle at any time, then starting a motor to drive a rotating shaft to rotate, driving a stirring mechanism to stir the materials in the tank body, and driving a movable blade to rotate along a first stirring shaft under the action of a guide blade in the rotating process, wherein the rotating process is under the tensile force of a tension spring to realize the reciprocating swing effect, so that a second stirring shaft is driven to rotate, the rotating blade can rapidly scatter and uniformly mix the materials in the tank body in the random rotating process, and the mixed materials can be discharged at a discharge port;

if the material stirring has a requirement on temperature, hot steam is introduced between the jacket and the tank body through the steam inlet, the tank body is heated and warmed, the steam is condensed and then discharged at the liquid outlet, gas is discharged at the gas discharge port, the gas discharge port is arranged at the lowest point of the jacket, and if the machine is stopped, the liquid between the jacket and the tank body can be completely discharged.

The foregoing is merely illustrative and explanatory of the utility model, as it is well within the scope of the utility model as claimed, as it relates to various modifications, additions and substitutions for those skilled in the art, without departing from the inventive concept and without departing from the scope of the utility model as defined in the accompanying claims.

Claims (4)

1. The utility model provides a convertible glass lining vacuum separation container, includes frame, clamp sleeve, gear, rack, fixed sleeve, electric telescopic handle I, driving lever, electric telescopic handle II, movable rod, travel switch, motor, sight glass, temperature measurement hole, hand hole, upper end cover, locking buckle, rabbling mechanism, jar body, relief vent, steam inlet, liquid outlet, drain hole, put clean mouth, rotation axis, characterized by jar body bottom is equipped with the drain hole, and jar body top is installed the upper end cover through locking buckle meshing, is equipped with a plurality of sight glass, temperature measurement hole, hand hole on the upper end cover, and upper end cover top is equipped with the motor, and motor output fixed connection rotation axis is equipped with two sets of identical rabbling mechanism on the rotation axis, and jar outside is equipped with and presss from both sides the cover, presss from both sides one side and is equipped with the relief vent, presss from both sides and is equipped with two sets of liquid outlets bottom the cover, is equipped with the drain mouth between liquid outlet and the drain mouth, presss from both sides clean mouth and presss from both sides cover fixed connection, presss from both sides outside movable mounting in the frame, presss from both sides outside movable mounting in the cover, presss from both sides outside and is equipped with the rotation axis one side and is equipped with the gear, and rack movable mounting in fixed sleeve, fixed sleeve is equipped with the fixed telescopic handle I, movable mounting has a fixed telescopic handle, movable mounting on the frame, movable mounting has a movable telescopic handle.

2. The turnover glass lining vacuum separation container of claim 1, wherein the stirring mechanism comprises a first stirring shaft, stirring blades, movable blades, guide blades, a second stirring shaft, rotating blades and tension springs, the first stirring shaft is fixedly arranged on the rotating shaft, two groups of stirring blades are arranged on the first stirring shaft, movable blades are movably arranged at the tail end of the first stirring shaft, the tension springs are arranged on the movable blades, the other ends of the tension springs are fixedly connected with the rotating shaft, four groups of guide blades are fixedly arranged on the inner sides of the movable blades, the second stirring shaft is movably arranged on one side of the guide blades, and a plurality of rotating blades are alternately arranged on the second stirring shaft.

3. The turnover glass lining vacuum separation container of claim 1, wherein guide sliding grooves are formed in two sides of the rack.

4. The turnover glass lining vacuum separation container of claim 2, wherein the guide vane forms an included angle of 40-50 degrees with the movable vane, and the deflection directions of the guide vanes at two sides of the first stirring shaft are opposite.

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