CN210969393U - Gypsum flush coater compounding device - Google Patents

Abstract

A mixing device of a gypsum spraying machine relates to the field of gypsum spraying machines and comprises a mixing bin, wherein a speed reducing motor is arranged above the mixing bin, a screw conveying pump is arranged below the mixing bin, the mixing bin is provided with a feeding chamber, a feeding chamber and a mixing chamber, and the feeding chamber is provided with a feeding hole; the lower outlet of the mixing chamber is butted with a screw conveying pump; the lower end of the screw conveying pump is connected with a material pipe; a spiral stirring cage is arranged in the mixing bin, the spiral stirring cage comprises a connecting section arranged in the feeding chamber, a pressing section arranged in the feeding chamber and a stirring section arranged in the mixing chamber, the connecting section is upwards connected with an output shaft of a speed reducing motor, and the lower end of the stirring section is butted with a screw end of a screw conveying pump; the material pressing section of the spiral stirring cage is provided with material pressing fins; the mixing chamber is provided with a water inlet, a water inlet connecting pipe is arranged on the water inlet, the water inlet connecting pipe is arranged in an upward inclined mode, and the inflow direction of the water inlet connecting pipe and the central axis of the mixing chamber are arranged in an eccentric mode. The utility model has the characteristics of simple structure, operation are stable, the compounding is even, the mixing effect is good.

Description

Gypsum flush coater compounding device

Technical Field

The utility model belongs to the technical field of the gypsum flush coater and specifically relates to a gypsum flush coater compounding device.

Background

At present, when a building is subjected to indoor decoration, putty powder, paint and the like need to be brushed on a wall surface, the production cost is gradually increased, and nowadays, the technological equipment which is more efficient and more convenient is urgently required to meet the increasingly developed decoration requirements in the technological development of the decoration industry; in order to meet the texture of the surface of a decorative wall, the spray coating is usually a plurality of mixed materials, but the existing spraying machine is not provided with a mixing device, a worker needs to mix materials by using a stirring shaft, on one hand, the efficiency is low, on the other hand, the mixed materials are difficult to be effectively mixed uniformly, a box body after mixing is difficult to clean, the residual of the coatings is serious, and the operation of the next construction operation is influenced. The existing gypsum spraying machine has the defect of poor spraying effect caused by uneven mixing of dry powder and inlet water in a mixing bin, and particularly has the problems of poor water absorption, more impurities and poor mixing effect caused by the fact that slurry is dried for a moment and is diluted for a moment when materials with uneven components are produced.

Disclosure of Invention

The utility model aims to solve the technical problem that to prior art not enough, provide a simple structure, operation are stable, the compounding is even, mix effectual gypsum flush coater compounding device.

The technical problem to be solved by the utility model is realized by the following technical proposal, the utility model is a mixing device of a gypsum spraying machine, which is characterized in that,

the device comprises a mixing bin, wherein a speed reducing motor is arranged above the mixing bin, a screw conveying pump is arranged below the mixing bin, the mixing bin is provided with a feeding chamber and a mixing chamber, a transitional feeding chamber is arranged between the feeding chamber and the mixing chamber, and the feeding chamber is provided with a feeding hole butted with a crescent discharge hole of a feeding device of a gypsum spraying machine; the lower outlet of the mixing chamber is butted with a screw conveying pump; the lower end of the screw conveying pump is connected with a material pipe connected with a spray gun;

a spiral stirring cage is arranged in the mixing bin, the spiral stirring cage comprises a connecting section arranged in the feeding chamber, a pressing section arranged in the feeding chamber and a stirring section arranged in the mixing chamber, the connecting section is upwards connected with an output shaft of a speed reducing motor, and the lower end of the stirring section is butted with a screw end of a screw conveying pump; the spiral stirring cage pressing section is provided with spiral pressing fins;

the side wall of the mixing chamber is provided with a water inlet, a water inlet connecting pipe is arranged on the water inlet, the water inlet connecting pipe is arranged in an upward inclined mode, and the inflow direction of the water inlet connecting pipe and the central axis of the mixing chamber are arranged in an eccentric mode.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, above gypsum flush coater compounding device in: the feeding chamber is cylindrical, the feeding chamber is in an inverted round table shape, the mixing chamber is cylindrical, and the feeding chamber, the feeding chamber and the mixing chamber are connected in a smooth mode.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, above gypsum flush coater compounding device in: the spiral stirring cage comprises a spiral stirring cage stirring section, a spiral stirring cage stirring section and a spiral stirring cage stirring section, wherein the spiral stirring cage stirring section is provided with two parallel vertically arranged stirring fins, wear-resistant sheets are welded on the outer sides of the stirring fins, a reinforcing cross rod for connecting the two stirring fins is welded on the lower part between the two stirring fins, the reinforcing cross rod and the stirring fins are vertically arranged, and a transmission block connected with a screw rod conveying pump and used for transmitting power to the screw rod conveying pump is arranged in the middle of the; the lower part of the stirring fin is provided with a scraping lug plate used for scraping materials accumulated at the joint of an outlet below the mixing chamber and the screw conveying pump, and the scraping lug plate faces to the stirring direction of the spiral stirring blade.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, above gypsum flush coater compounding device in: the included angle between the water inlet connecting pipe and the axis of the mixing chamber is 50-85 degrees.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, above gypsum flush coater compounding device in: the top of the mixing bin is provided with a motor mounting seat, and the motor is fixedly arranged on the motor mounting seat; a handle convenient for pulling the motor to turn is arranged on the motor mounting seat, and one side of the motor mounting seat is connected with the outer side wall of the mixing chamber in a turnover manner through a hinge; and a self-locking latch for controlling the motor mounting seat to open and close with the mixing bin is arranged between the other side of the motor mounting seat and the outer side wall of the mixing chamber, and a latch hook matched with the self-locking latch is arranged on the outer side wall of the mixing bin.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, above gypsum flush coater compounding device in: the self-locking lock catch comprises a self-locking handle, a first rotating seat and a retaining ring matched with the lock hook, the lower portion of the self-locking handle is hinged to the upper portion of the first rotating seat, and the lower portion of the first rotating seat is connected with the retaining ring through a bolt.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, above gypsum flush coater compounding device in: the screw conveying pump comprises a screw and a rubber sleeve sleeved on the screw, an upper rhombic flange and a lower rhombic flange are respectively arranged at two ends of the screw, and the upper rhombic flange and the lower rhombic flange are connected into a whole through a double-end screw; the lower end of the mixing chamber is provided with a connecting flange, and the whole screw conveying pump is butted with the connecting flange through an upper diamond flange.

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

(1) the mixing bin is provided with a feeding chamber, a feeding chamber and a mixing chamber, the spiral stirring cage is provided with a connecting section, a pressing section and a stirring section and is correspondingly arranged in the feeding chamber, the feeding chamber and the mixing chamber and is matched with the mixing bin to complete feeding, feeding and mixing of dry powder, the spiral stirring cage not only plays a role of transmitting the power of the speed reducing motor to the screw conveying pump, but also plays a role of spiral feeding of the dry powder due to the spiral pressing fins, and simultaneously, the stirring section also plays a role of stirring and mixing the dry powder and water, and the mixed slurry is pressurized by the screw conveying pump and then conveyed to the spray gun through the material pipe for spraying; the water inlet connecting pipe of the water inlet is eccentrically arranged, so that the mixing is more complete, the discharging is fine and smooth, and the spraying effect is good;

(2) the stirring section of the spiral stirring cage is provided with the stirring fins, so that the stirring effect can be increased, the dry powder and the inlet water are more fully and uniformly mixed under the stirring action, and the formed slurry is uniform and fine; the material scraping lug plates are arranged, so that slurry accumulated on the inner wall of the mixing chamber and at a lower outlet butted with the screw conveying pump can be scraped completely, a discharging channel is made in time, the discharging speed is ensured, and the slurry is prevented from being condensed and agglomerated to influence discharging;

(3) install the motor on the motor mount pad, and motor mount pad one side is articulated with the blending bunker, and the opposite side adopts opening and shutting of auto-lock hasp control motor and blending bunker, compares the direct dismouting of gear motor, rotates to open and shut and more conveniently overhauls and observe the interior situation of feed bin.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a front view of the spiral agitator cage;

FIG. 4 is a perspective view of a helical agitator cage;

FIG. 5 is a schematic structural view of a working position and a maintenance position;

FIG. 6 is a perspective view of the self-locking latch;

FIG. 7 is a front view of the self-locking latch;

FIG. 8 is an exploded view of the self-locking latch;

FIG. 9 is a schematic view of a knuckle clasp;

FIG. 10 is an exploded schematic view of a screw-type delivery pump;

fig. 11 is a schematic structural view of the coupling.

In the figure: 1. mixing bin, 101 feeding chamber, 102 feeding chamber, 103 mixing chamber, 104 feeding port, 105 water inlet connecting pipe, 106 overturning limiting plate, 2 reducing motor, 2 'motor for maintenance position, 3 spiral stirring cage, 301 connecting section, 302 pressing section, 30201 pressing fin, 303 stirring section, 30301 stirring fin, 30302 reinforcing cross bar, 30303 scraping lug plate, 30304 driving block, 30305 mixing stirring blade, 4 screw rod delivery pump, 401 screw rod, 402 rubber sleeve, 403 upper diamond flange, 404 lower diamond flange, 405 double-head screw rod, 5 motor mounting seat, 6 self-locking buckle, 601 self-locking handle body, 602 first rotating seat, 60201 self-locking limiting groove, 603 retaining ring, 604 second rotating seat, 60401 limiting shaft, 605 joint buckle, 605' joint buckle for opening position, 60501 joint hole, 60502. the limiting block 60503 joint block 7 latch hook 8 coupling.

Detailed Description

The following further describes embodiments of the present invention in order to facilitate further understanding of the present invention by those skilled in the art, and does not constitute a limitation to the right thereof.

[ example 1 ]

Referring to fig. 1 and fig. 2, a mixing device of a gypsum spraying machine comprises a mixing bin 1, a speed reduction motor 2 is arranged above the mixing bin 1, a screw conveying pump 4 is arranged below the mixing bin 1, the mixing bin 1 is provided with a feeding chamber 101 and a mixing chamber 103, a transitional feeding chamber 102 is arranged between the feeding chamber 101 and the mixing chamber 103, and the feeding chamber 101 is provided with a feeding hole 104 butted with a crescent-shaped discharge hole of the feeding device of the gypsum spraying machine; the lower outlet of the mixing chamber 103 is butted with the screw conveying pump 4; the lower end of the screw conveying pump 4 is connected with a material pipe connected with a spray gun; the feeding chamber 101 is cylindrical, the feeding chamber 102 is in an inverted circular truncated cone shape, the mixing chamber 103 is cylindrical, and the feeding chamber 101, the feeding chamber 102 and the mixing chamber 103 are connected smoothly.

Referring to fig. 3 and fig. 4, a spiral stirring cage 3 is arranged in the mixing silo 1, the spiral stirring cage 3 comprises a connecting section 301 arranged in the feeding chamber 101, the material pressing section 302 is arranged in the feeding chamber 102, the stirring section 303 is arranged in the mixing chamber 103, the connecting section 301 is upwards connected with an output shaft of the reducing motor 2, the upper part of the connecting section 301 is connected with the output shaft of the reducing motor 2 through a coupler, the coupler 8 adopted in the embodiment is provided with an oval cambered surface playing a role in guiding, referring to fig. 11, the upper part of the coupler 8 is provided with a clamping groove, the lower part of the coupler 8 is provided with an open oval guiding cambered surface, the upper part of the connecting section 301 of the spiral stirring cage 3 is conveniently butted with the coupler 8, the upper part of the connecting section 301 of the spiral stirring cage 3 is provided with a clamping block matched with the clamping groove of the coupler 8, the spiral stirring cage 3 and the coupler 8 are clamped into the clamping groove through the clamping block for butting, and the lower end of; the pressing section 302 of the spiral stirring cage 3 is provided with a spiral pressing fin 30201;

the stirring section 303 of the spiral stirring cage 3 is provided with two parallel vertically arranged stirring fins 30301, wear-resistant sheets are welded on the outer sides of the stirring fins 30301, the spiral stirring cage 3 is cast by adopting wear-resistant high-strength materials, but in the actual use process, slurry continuously polishes the spiral stirring cage 3, so that the service life of the spiral stirring cage 3 is generally low, therefore, square grooves are milled on the outer side walls of the two stirring fins 30301, the wear-resistant sheets which are more wear-resistant are welded in, the wear-resistant sheets are contacted with the slurry, the wear resistance of the spiral stirring cage 3 is increased, and the service life of the spiral stirring cage 3 is greatly prolonged; a reinforcing cross bar 30302 connected with two stirring fins 30301 is welded at the lower part between the two stirring fins 30301, the reinforcing cross bar 30302 and the stirring fins 30301 are vertically arranged, a transmission block 30304 connected with the screw conveying pump 4 so as to transmit power to the screw conveying pump 4 is arranged in the middle of the reinforcing cross bar 30302, a transmission groove is arranged at the end of a screw 401 of the screw conveying pump 4, the transmission block 30304 is clamped in the transmission groove, and the spiral stirring cage 3 is connected with the screw conveying pump 4; the lower part of the stirring fin 30301 is provided with a scraping lug plate 30303 for scraping materials accumulated at the joint of the lower outlet of the mixing chamber 103 and the screw conveying pump 4, and the scraping lug plate 30303 faces the stirring direction of the spiral stirring blade. In the in-service use process, the plane of thick liquids and 4 contacts of screw conveyor pump, there always can be the stock blind area, thick liquids can long time be piled to stagnate, after the setting time that surpasses the material, can solidify the blocking, adhere to in 1 inner wall of blending bunker and the below exit with 4 butt joints of screw conveyor pump, the access area of unloading has been reduced, seriously influence unloading speed, welding scraper lug 30303 can stir 3 stirring rotations at the spiral and strike off these thick liquids that stagnate totally simultaneously, in time let out the unloading passageway, guarantee unloading speed, prevent that thick liquids from solidifying the caking, ensure that the unloading is unobstructed.

A mixing stirring blade 30305 is welded between the two stirring fins 30301; when a user uses the material, for example, some materials with poor water absorption and many impurities and uneven components can be in a state that the slurry is dried and diluted, so that a mixing stirring blade 30305 is added in the water and material mixing core area, the mixing stirring blade 30305 is welded along the rotating direction of the spiral pressing fin 30201, and when the spiral stirring cage 3 rotates, the mixing stirring blade 30305 forms an X-shaped stirring path in space, so that the dry powder and the water are fully stirred and mixed to form uniform slurry.

Be equipped with the water inlet on the lateral wall of mixing chamber 103, be equipped with into water takeover 105 on the water inlet, it sets up to advance water takeover 105 tilt up, and the influent direction of intaking takeover 105 sets up with the central axis off-centre of mixing chamber 103, and rivers top-down dives arrives the water inlet to form the vortex from water inlet tangential entering mixing chamber 103, rivers promote the compounding and carry out anticlockwise rotation and mix, and material, water are stirred rotatoryly, have increased the kinetic energy of mixing thick liquids. A spare water inlet connection pipe 105 is provided below the water inlet connection pipe 105.

The contained angle of intaking between takeover 105 and the compounding room 102 axis is 75, compares with welding contained angle among the prior art for 45, and welding angle grow, rivers flow in gently, are favorable to the increase of rotatory mixing velocity, make material, water mixture more even thoroughly.

Referring to fig. 5, a motor mounting seat 5 is mounted at the top of the mixing bin 1, and the motor is fixedly mounted on the motor mounting seat 5; the motor mounting seat 5 is provided with a handle which is convenient to lift and drive the motor to overturn, as shown in fig. 5, the motor 2' at the maintenance position is connected with the outer side wall of the mixing chamber 103 in a turnover manner through a hinge, and the outer side wall of the hinged part of the mixing bin 1 is provided with an overturn limiting plate 106 for limiting the overturn of the motor mounting seat 5. A self-locking latch 6 for controlling the opening and closing between the motor mounting seat 5 and the mixing bin 1 is arranged between the other side of the motor mounting seat 5 and the outer side wall of the mixing chamber 103, and a latch hook 7 matched with the self-locking latch 6 is arranged on the outer side wall of the mixing bin 1.

Referring to fig. 6, in conjunction with fig. 7-9, the self-locking latch 6 includes a self-locking handle, a first rotating seat 602, and a retaining ring 603 cooperating with the locking hook 7, wherein a lower portion of the self-locking handle is hinged to an upper portion of the first rotating seat 602, and a lower portion of the first rotating seat 602 is connected to the retaining ring 603 through a bolt.

The self-locking handle comprises a self-locking handle body 601, the lower part of the self-locking handle body 601 is provided with two second rotating seats 604 which are arranged in parallel, the second rotating seats 604 are hinged with the first rotating seat 602, the lower part of the second rotating seat 604 is provided with a limiting shaft 60401, and a self-locking limiting groove 60201 which is matched with the limiting shaft 60401 and is used for limiting the closing position of the self-locking handle is arranged at the corresponding position of the lower part of the first rotating seat 602;

a joint buckle 605 is hinged on the second rotating seat 604 between the self-locking handle body and the first rotating seat 602, the joint buckle 605 comprises a joint hinge hole 60501 which is arranged in the middle and is used for being hinged with the second rotating seat 604, two sides of the joint hinge hole 60501 are provided with a limit block 60502 which is used for clamping the first rotating seat 602 to realize self-locking when being closed and a joint block 60503 which is pressed to release self-locking so as to open the self-locking buckle 6, and the lower end of the self-locking handle body is provided with a limit part extending into the front end of the second rotating seat 604.

Under the working locking state, the joint buckle 605 and the limit shaft 60401 prevent the first rotating seat 602 from rotating to play a locking role, when the buckle needs to be opened, the limit block 60502 of the joint buckle 605 is manually pressed down, the joint buckle 605 integrally rotates to reach the opening position, like the joint buckle 605' at the opening position in fig. 10, at the moment, the limit of the first rotating seat 602 is released, the self-locking buckle 6 can be opened around the rotation of the hinge point relative to the second rotating seat 604, and the self-locking is released.

When the locking clearance of the self-locking lock catch 6 is too large and the lock cannot be locked, the distance is reduced by screwing the bolt between the retaining ring 603 and the first rotating seat 602, and the locking force is improved.

Referring to fig. 10, the screw transfer pump 4 includes a screw 401 and a rubber sleeve 402 sleeved on the screw 401, an upper rhombic flange 403 and a lower rhombic flange 404 are respectively installed at two ends of the screw 401, and the upper rhombic flange 403 and the lower rhombic flange 404 are connected into a whole through a double-headed screw 405; the lower end of the mixing chamber 103 is provided with a connecting flange 110, and the whole screw conveying pump 4 is butted with the connecting flange 110 through an upper diamond-shaped flange 403.

The traditional installation mode of the screw conveying pump 4 is that the screw 401 and the rubber sleeve 402 are locked on the connecting flange 110 below the mixing bin 1 through the lower diamond-shaped flange 404, the double-head screw 405 and the hexagon nut, when the screw 401 and the rubber sleeve 402 are installed, because all parts are heavy, the assembly space is narrow, the assembly is difficult, the screw 401 and the rubber sleeve 402 are inclined to install and are not coaxial with the mixing bin 1 after being locked, the normal work of the screw conveying pump 4 is influenced, the service life of the screw conveying pump is shortened, the upper diamond-shaped flange 403 is added, the screw 401, the rubber sleeve 402, the double-head screw 405 and the lower diamond-shaped flange 404 are installed into a whole, and then the whole is assembled with the connecting flange 110 below the mixing bin 1 through the upper diamond-shaped flange, so that the assembly is easier, the assembly space is not limited, and the coaxiality can be ensured.

Claims (7)

1. The utility model provides a gypsum flush coater compounding device which characterized in that:

the device comprises a mixing bin, wherein a speed reducing motor is arranged above the mixing bin, a screw conveying pump is arranged below the mixing bin, the mixing bin is provided with a feeding chamber and a mixing chamber, a transitional feeding chamber is arranged between the feeding chamber and the mixing chamber, and the feeding chamber is provided with a feeding hole butted with a crescent discharge hole of a feeding device of a gypsum spraying machine; the lower outlet of the mixing chamber is butted with a screw conveying pump; the lower end of the screw conveying pump is connected with a material pipe connected with a spray gun;

a spiral stirring cage is arranged in the mixing bin, the spiral stirring cage comprises a connecting section arranged in the feeding chamber, a pressing section arranged in the feeding chamber and a stirring section arranged in the mixing chamber, the connecting section is upwards connected with an output shaft of a speed reducing motor, and the lower end of the stirring section is butted with a screw end of a screw conveying pump; the spiral stirring cage pressing section is provided with spiral pressing fins;

the side wall of the mixing chamber is provided with a water inlet, a water inlet connecting pipe is arranged on the water inlet, the water inlet connecting pipe is arranged in an upward inclined mode, and the inflow direction of the water inlet connecting pipe and the central axis of the mixing chamber are arranged in an eccentric mode.

2. The mixing device of the gypsum spraying machine according to claim 1, characterized in that: the feeding chamber is cylindrical, the feeding chamber is in an inverted round table shape, the mixing chamber is cylindrical, and the feeding chamber, the feeding chamber and the mixing chamber are connected in a smooth mode.

3. The mixing device of the gypsum spraying machine according to claim 1, characterized in that: the spiral stirring cage comprises a spiral stirring cage stirring section, a spiral stirring cage stirring section and a spiral stirring cage stirring section, wherein the spiral stirring cage stirring section is provided with two parallel vertically arranged stirring fins, wear-resistant sheets are welded on the outer sides of the stirring fins, a reinforcing cross rod for connecting the two stirring fins is welded on the lower part between the two stirring fins, the reinforcing cross rod and the stirring fins are vertically arranged, and a transmission block connected with a screw rod conveying pump and used for transmitting power to the screw rod conveying pump is arranged in the middle of the; the lower part of the stirring fin is provided with a scraping lug plate used for scraping materials accumulated at the joint of an outlet below the mixing chamber and the screw conveying pump, and the scraping lug plate faces to the stirring direction of the spiral stirring blade.

4. The mixing device of the gypsum spraying machine according to claim 1, characterized in that: the included angle between the water inlet connecting pipe and the axis of the mixing chamber is 50-85 degrees.

5. The mixing device of the gypsum spraying machine according to claim 1, characterized in that: the top of the mixing bin is provided with a motor mounting seat, and the motor is fixedly arranged on the motor mounting seat; a handle convenient for pulling the motor to turn is arranged on the motor mounting seat, and one side of the motor mounting seat is connected with the outer side wall of the mixing chamber in a turnover manner through a hinge; and a self-locking latch for controlling the motor mounting seat to open and close with the mixing bin is arranged between the other side of the motor mounting seat and the outer side wall of the mixing chamber, and a latch hook matched with the self-locking latch is arranged on the outer side wall of the mixing bin.

6. The mixing device of the gypsum spraying machine according to claim 5, characterized in that: the self-locking lock catch comprises a self-locking handle, a first rotating seat and a retaining ring matched with the lock hook, the lower portion of the self-locking handle is hinged to the upper portion of the first rotating seat, and the lower portion of the first rotating seat is connected with the retaining ring through a bolt.

7. The mixing device of the gypsum spraying machine according to claim 1, characterized in that: the screw conveying pump comprises a screw and a rubber sleeve sleeved on the screw, an upper rhombic flange and a lower rhombic flange are respectively arranged at two ends of the screw, and the upper rhombic flange and the lower rhombic flange are connected into a whole through a double-end screw; the lower end of the mixing chamber is provided with a connecting flange, and the whole screw conveying pump is butted with the connecting flange through an upper diamond flange.

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