CN114146756A - Batching grinder is used in production of waterborne architectural coatings - Google Patents

Abstract

The invention provides a batching and grinding device for producing water-based architectural coatings, which comprises a stirring tank, wherein a conical grinding barrel extending into the stirring tank is installed on the stirring tank, a plurality of batching barrels are fixedly installed on the periphery of a barrel opening of the conical grinding barrel, blanking channels communicated with the barrel opening of the conical grinding barrel are arranged at the barrel bottoms of the batching barrels, top plates are fixedly connected among the barrel openings of the batching barrels, an installing plate capable of moving up and down is installed below the top plates, a rotatable conical grinding head is elastically installed at the bottom of the installing plate, and the conical grinding head is matched with the conical grinding barrel; a plurality of striker plates are elastically installed to mounting panel circumference, a plurality of striker plates reciprocate along with the mounting panel and get into or leave the unloading passageway, realize the switching. The device can realize the automatic unloading and the process of grinding of multiple batching to can stir in the powder suction agitator tank that the particle diameter accords with after grinding, degree of automation is high, and is efficient.

Description

Batching grinder is used in production of waterborne architectural coatings

Technical Field

The invention relates to the technical field of water-based building coating production, in particular to a batching and grinding device for water-based building coating production.

Background

The water-based architectural coating is a type of architectural coating produced by classifying liquid architectural coatings according to the types of dispersion media. The coating uses water as a dispersion medium, and is a novel coating technology meeting the requirements of environmental protection regulations.

Waterborne architectural coating mixes for multiple batching and forms, and required batching is graininess mostly, need further to grind into powdered, pours into the stirring jar after and stirs the mixture, need use grinding device during the grinding, but present grinding device needs artificial adding the batching, and in artificial pouring the material into the stirring jar again after the grinding, degree of automation is low to the grinding effect is general, needs to grind repeatedly.

Disclosure of Invention

In order to solve the problems, the invention provides a batching and grinding device for producing water-based architectural coatings, which can realize automatic blanking and grinding processes of various batchs, can suck powder with consistent grain diameter into a stirring tank after grinding, and can stir simultaneously, and has high automation degree and high efficiency.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a batching and grinding device for producing water-based architectural coatings comprises a stirring tank, wherein a conical grinding barrel extending into the stirring tank is mounted on the stirring tank, a plurality of batching barrels are fixedly mounted on the periphery of a barrel opening of the conical grinding barrel, blanking channels communicated with the barrel opening of the conical grinding barrel are arranged at the barrel bottoms of the batching barrels, a top plate is fixedly connected among the barrel openings of the batching barrels, a mounting plate capable of moving up and down is mounted below the top plate, a rotatable conical grinding head is elastically mounted at the bottom of the mounting plate, and the conical grinding head is matched with the conical grinding barrel;

a plurality of striker plates are elastically arranged on the mounting plate in the circumferential direction, move up and down along with the mounting plate and enter or leave the blanking channel to realize opening and closing;

a material sucking mechanism is arranged in the conical grinding head, and the material sucking mechanism can suck the ground ingredients away and send the ingredients into a stirring tank;

the outer wall of the conical grinding barrel is provided with a plurality of stirring blades which can rotate along with the rotation of the conical grinding head.

Preferably, install the pneumatic cylinder on the roof, the flexible end fixedly connected with connecting plate of pneumatic cylinder, the bottom fixedly connected with of connecting plate runs through many connecting rods of roof, the lower extreme of many connecting rods all is fixed with the mounting panel.

Preferably, a hollow rotating shaft is rotatably connected to the mounting plate, a motor is mounted on the mounting plate, the hollow rotating shaft and an output shaft of the motor are in meshing transmission through a pair of gears, and the lower end of the hollow rotating shaft penetrates through the mounting plate and is fixed with the conical grinding head.

Preferably, the hollow rotating shaft is fixedly connected with a supporting plate, the bottom of the supporting plate is circumferentially and fixedly connected with a plurality of sliding rods, the top of the conical grinding head is provided with sliding grooves matched with the plurality of sliding rods one by one, the plurality of sliding rods are sleeved with second springs and are in sliding connection with the corresponding sliding grooves, the hollow rotating shaft is disconnected, and the disconnected part is connected with a corrugated pipe.

Preferably, circumference has many T type poles through second spring elastic mounting on the mounting panel, the lower extreme of many T type poles runs through the mounting panel and all with corresponding striker plate fixed connection.

Preferably, the bottom of the striker plate is arranged in a relatively inclined mode, and an opening for the striker plate to enter is formed in the blanking channel.

Preferably, inhale material mechanism including installing the material pump of inhaling on the agitator tank, be equipped with the negative pressure chamber in the toper grinding head, the outer wall of toper grinding head is equidistant to be equipped with a plurality of and the negative pressure chamber intercommunication inhale the material mouth, inhale and install in the material mouth and keep off the net, the lower extreme and the negative pressure chamber intercommunication of cavity pivot, the upper end of cavity pivot is connected with through rotary joint and inhales the material pipe, inhale the material pump inhale the material end and connect and inhale the material pipe, inhale the discharge end of material pump and extend to in the agitator tank.

Preferably, a plurality of magnetic blocks are mounted in the side wall of the conical grinding head, the magnetic blocks are located between adjacent blocking nets, a plurality of magnetic rings matched with the corresponding magnetic blocks are connected to the side wall of the conical grinding barrel in a rotating mode at equal intervals, and the plurality of stirring blades are fixedly connected to the corresponding magnetic rings in the circumferential direction.

Preferably, the bottom of agitator tank slope sets up, and is equipped with the discharge gate, and one side top of agitator tank is equipped with the feed inlet.

The invention has the beneficial effects that:

1. through installing a plurality of batching buckets, can pour different kinds of batching into batching bucket respectively in, once fill up the use that can satisfy a period, through installation mounting panel and a plurality of striker plate that can reciprocate, can move down at the mounting panel, in the striker plate gets into the unloading passageway, with its closure, the mounting panel moves up, the striker plate leaves the unloading passageway, multiple batching can fall into the toper grinding barrel automatically in, the automatic grinding process of unloading of realizing.

2. Through elastic mounting toper grinding head, its shape and toper grinding barrel adaptation, when toper grinding head moved down, can be earlier with the batching crushing, back starter motor drives the rotation of toper grinding head through a pair of gear and cavity pivot, realizes the grinding process.

3. Inhale material mechanism through the installation, start and inhale the material pump, make the negative pressure intracavity form the negative pressure, can inhale the powdered batching after grinding in the toper grinding vessel, be provided with and keep off the net, can select the powder that accords with the particle size, the powder that does not accord with continues to grind, and grinding effect is good, and the powder can be inhaled in the agitator tank automatically.

4. Through installation magnetic ring, magnetic path and stirring leaf, when the toper grinding head ground, a plurality of magnetic paths correspond and face a plurality of magnetic rings, under the effect of magnetic attraction, can drive a plurality of stirring leaves through a plurality of magnetic rings and rotate, and then can realize batching and the mixed stirring process of other raw materialss when grinding.

Drawings

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

FIG. 2 is a cross-sectional view of a conical polishing head in accordance with the present invention;

FIG. 3 is a perspective view of a conical polishing head in accordance with the present invention;

FIG. 4 is a top view of the present invention;

FIG. 5 is a schematic view of the grinding and stirring state of the present invention.

In the figure: 1 stirring tank, 2 batching barrels, 3 top plates, 4 hydraulic cylinders, 5 connecting rods, 6 mounting plates, 7 striker plates, 8 blanking channels, 9 conical grinding heads, 10 conical grinding barrels, 11 magnetic rings, 12 stirring blades, 13 material suction pumps, 14 material suction pipes, 15 gears, 16 motors, 17 hollow rotating shafts, 18 abutting plates, 19 second springs, 20T-shaped rods, 21 first springs, 22 corrugated pipes, 23 negative pressure cavities, 24 blocking nets, 25 magnetic blocks, 26 discharge ports and 27 rotary joints.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1-5, a batching and grinding device for water-based architectural coating production comprises a stirring tank 1, wherein a conical grinding barrel 10 extending into the stirring tank is installed on the stirring tank 1, a plurality of batching barrels 2 are fixedly installed on the periphery of a barrel opening of the conical grinding barrel 10, blanking passages 8 communicated with the barrel opening of the conical grinding barrel 10 are arranged at the barrel bottoms of the batching barrels 2, a top plate 3 is fixedly connected among the barrel openings of the batching barrels 2, an installation plate 6 capable of moving up and down is installed below the top plate 3, a rotatable conical grinding head 9 is elastically installed at the bottom of the installation plate 6, and the conical grinding head 9 is matched with the conical grinding barrel 10;

a plurality of material blocking plates 7 are elastically installed on the circumferential direction of the installation plate 6, and the material blocking plates 7 move up and down along with the installation plate 6 to enter or leave the blanking channel 8 to realize opening and closing;

a material sucking mechanism is arranged in the conical grinding head 9, and the material sucking mechanism can suck the ground ingredients away and send the ingredients into the stirring tank 1;

the outer wall of the conical grinding barrel 10 is provided with a plurality of stirring blades 12 which can rotate along with the rotation of the conical grinding head 9.

Further, install pneumatic cylinder 4 on roof 3, the flexible end fixedly connected with connecting plate of pneumatic cylinder 4, the bottom fixedly connected with of connecting plate runs through many connecting rods 5 of roof 3, and the lower extreme of many connecting rods 5 all is fixed with mounting panel 6, starts pneumatic cylinder 4, can realize reciprocating of toper grinding head 9 and striker plate 7.

Furthermore, the mounting plate 6 is rotatably connected with a hollow rotating shaft 17, the mounting plate 6 is provided with a motor 16, the hollow rotating shaft 17 and an output shaft of the motor 16 are in meshing transmission through a pair of gears 15, the lower end of the hollow rotating shaft 17 penetrates through the mounting plate 6 and is fixed with the conical grinding head 9, the motor 16 is started, the hollow rotating shaft 17 is driven to rotate through the pair of gears 15, the conical grinding head 9 is driven to rotate, and the ingredients are ground into powder under the elastic action of the second springs 21.

Further, fixedly connected with supports board 18 in the cavity pivot 17, support many slide bars of the bottom circumference fixedly connected with of board 18, the top of toper grinding head 9 be equipped with the spout of many slide bar one-to-one adaptations, the cover is equipped with second spring 21 on many slide bars, many slide bars with correspond spout sliding connection, cavity pivot 17 disconnection sets up, and disconnection department is connected with bellows 22, toper grinding head 9 can paste and face toper grinding barrel 10 under the effect of second spring 21, improve the grinding effect.

Furthermore, a plurality of T-shaped rods 20 are elastically installed on the installing plate 6 in the circumferential direction through a second spring 19, the lower ends of the T-shaped rods 20 penetrate through the installing plate 6 and are fixedly connected with the corresponding striker plates 7, and the opening and closing of the blanking channel 8 can be realized.

Further, the bottom of striker plate 7 sets up in the slope relatively, offers the opening that supplies striker plate 7 to get into on the unloading passageway 8, and the bottom of striker plate 7 slope reduces the contact with the batching to avoid the dead condition of card.

Concretely, inhale material mechanism including installing the material pump 13 of inhaling on agitator tank 1, be equipped with negative pressure chamber 23 in the toper grinding head 9, the outer wall of toper grinding head 9 is equidistant to be equipped with a plurality of with the material mouth of inhaling of negative pressure chamber 23 intercommunication, inhale and install in the material mouth and keep off net 24, the lower extreme and the negative pressure chamber 23 intercommunication of cavity pivot 17, the upper end of cavity pivot 17 is connected with through rotary joint 27 and inhales material pipe 14, inhale material pump 13 inhale the material end and connect and inhale material pipe 14, inhale in material pump 13's the discharge end extends to agitator tank 1.

Further, a plurality of magnetic blocks 25 are installed in the side wall of the conical grinding head 9, the plurality of magnetic blocks 25 are located between the adjacent blocking nets 24, the side wall of the conical grinding barrel 9 is connected with a plurality of magnetic rings 11 matched with the corresponding magnetic blocks 25 in an equidistant rotating mode, a plurality of stirring blades 12 are fixedly connected to the corresponding magnetic rings 11 in the circumferential direction, the magnetic blocks 25 and the magnetic ring 17 attract each other in a heteropolar mode, and the sticking is temporary, the magnetic attraction force is maximum, the magnetic ring 17 rotates along with the rotation of the magnetic blocks 25 under the action of the magnetic attraction force, the magnetic ring 17 drives the plurality of stirring blades 12 to rotate, and the raw materials are stirred and mixed.

Further, the bottom slope of agitator tank 1 sets up, and is equipped with discharge gate 26, and discharge gate 26 installation valve, and one side top of agitator tank 1 is equipped with the feed inlet, can articulate the apron in the feed inlet.

Different kinds of granular ingredients are poured into a plurality of ingredient barrels 2 respectively, the ingredients automatically fall into a conical grinding barrel 10 through a plurality of blanking passages 8, a hydraulic cylinder 4 is started, a plurality of connecting rods 5 are driven to move downwards through a connecting plate, then a mounting plate 6 is driven to move downwards, a plurality of material blocking plates 7 arranged in the circumferential direction enter the blanking passages 8 through openings, the blanking passages 8 are blocked, the mounting plate 6 continuously moves downwards, a T-shaped rod pulls up a first spring 19 to enable the material blocking plates 7 to be in a material blocking state all the time, after the conical grinding head 9 moves downwards, the ingredients of the conical grinding barrel 10 are firstly extruded and crushed into smaller granules, a motor 16 is started, a pair of gears 15 drive a hollow rotating shaft 17 to rotate, and then the conical grinding head 9 is driven to rotate, the ingredients are ground into powder under the elastic action of a plurality of second springs 21, a material suction pump 13 is started to enable a negative pressure cavity 23 to be in a negative pressure state, the powder with the particle size smaller than the mesh of the blocking net enters the negative pressure cavity 23 through the blocking net 24 after grinding, the powder with the particle size not in accordance continues to be ground, the powder sequentially passes through the hollow rotating shaft 17, the corrugated pipe 22 and the material suction pipe 14 and is finally pumped into the stirring tank 1, and the conical grinding head 9 is in a rotating state, so that the blocking condition of the blocking net 24 cannot occur.

After the primary grinding process is finished, the mounting plate 6 moves upwards, the material baffle 7 leaves the blanking channel 8, and the blanking grinding process can be carried out again.

Other raw materials are injected into the stirring tank 1 through the feeding hole, after the conical grinding head 9 completely enters the conical grinding barrel 10, the magnetic blocks 25 are parallel and are attached to the corresponding magnetic rings 17, the magnetic blocks 25 and the magnetic rings 17 are attracted in different poles and are attached temporarily, the magnetic attraction is maximum, the magnetic rings 17 rotate along with the rotation of the magnetic blocks 25 under the action of the magnetic attraction, the magnetic rings 17 drive the stirring blades 12 to rotate, the raw materials are stirred and mixed, the raw materials are ground and mixed simultaneously, and the processing efficiency is greatly improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. The batching and grinding device for the production of the water-based architectural coating comprises a stirring tank (1) and is characterized in that a conical grinding barrel (10) extending into the tank is installed on the stirring tank (1), a plurality of batching barrels (2) are fixedly installed on the circumferential direction of a barrel opening of the conical grinding barrel (10), a blanking channel (8) communicated with the barrel opening of the conical grinding barrel (10) is arranged at the barrel bottom of each batching barrel (2), a top plate (3) is fixedly connected among the barrel openings of the batching barrels (2), an installing plate (6) capable of moving up and down is installed below the top plate (3), a rotatable conical grinding head (9) is elastically installed at the bottom of the installing plate (6), and the conical grinding head (9) is matched with the conical grinding barrel (10);

a plurality of material blocking plates (7) are elastically installed on the installation plate (6) in the circumferential direction, and the material blocking plates (7) move up and down along with the installation plate (6) to enter or leave the blanking channel (8) to realize opening and closing;

a material sucking mechanism is arranged in the conical grinding head (9), and the material sucking mechanism can suck ground ingredients away and send the ingredients into the stirring tank (1);

the outer wall of the conical grinding barrel (10) is provided with a plurality of stirring blades (12) which can rotate along with the rotation of the conical grinding head (9).

2. The batching and grinding device for producing water-based architectural coating according to claim 1, characterized in that a hydraulic cylinder (4) is installed on the top plate (3), a connecting plate is fixedly connected to the telescopic end of the hydraulic cylinder (4), a plurality of connecting rods (5) penetrating through the top plate (3) are fixedly connected to the bottom of the connecting plate, and the lower ends of the connecting rods (5) are fixed to the mounting plate (6).

3. The batching and grinding device for producing the water-based architectural coating according to claim 1, characterized in that a hollow rotating shaft (17) is rotatably connected to the mounting plate (6), a motor (16) is mounted on the mounting plate (6), the hollow rotating shaft (17) and an output shaft of the motor (16) are in meshing transmission through a pair of gears (15), and the lower end of the hollow rotating shaft (17) penetrates through the mounting plate (6) and is fixed with the conical grinding head (9).

4. The batching and grinding device for producing the water-based architectural coating according to claim 3, wherein a supporting plate (18) is fixedly connected to the hollow rotating shaft (17), a plurality of sliding rods are fixedly connected to the bottom of the supporting plate (18) in the circumferential direction, sliding grooves matched with the plurality of sliding rods one by one are formed in the top of the conical grinding head (9), a second spring (21) is sleeved on the plurality of sliding rods, the plurality of sliding rods are slidably connected with the corresponding sliding grooves, the hollow rotating shaft (17) is disconnected, and the disconnected part is connected with a corrugated pipe (22).

5. The batching and grinding device for producing water-based architectural coating according to claim 1, wherein a plurality of T-shaped rods (20) are elastically installed on the mounting plate (6) in the circumferential direction through a second spring (19), and the lower ends of the T-shaped rods (20) penetrate through the mounting plate (6) and are fixedly connected with the corresponding striker plate (7).

6. The batching and grinding device for producing the water-based architectural coating according to claim 1, wherein the bottom of the material baffle plate (7) is arranged in a relatively inclined manner, and an opening for the material baffle plate (7) to enter is formed in the blanking channel (8).

7. The batching and grinding device for the production of water-based architectural coating according to claim 3, wherein the material suction mechanism comprises a material suction pump (13) installed on the stirring tank (1), a negative pressure cavity (23) is arranged in the conical grinding head (9), a plurality of material suction ports communicated with the negative pressure cavity (23) are arranged on the outer wall of the conical grinding head (9) at equal intervals, a blocking net (24) is installed in each material suction port, the lower end of the hollow rotating shaft (17) is communicated with the negative pressure cavity (23), the upper end of the hollow rotating shaft (17) is connected with a material suction pipe (14) through a rotary joint (27), the material suction end of the material suction pump (13) is connected with the material suction pipe (14), and the discharge end of the material suction pump (13) extends into the stirring tank (1).

8. The batching and grinding device for producing the water-based architectural coating according to claim 7, wherein a plurality of magnetic blocks (25) are installed in the side wall of the conical grinding head (9), the plurality of magnetic blocks (25) are located between the adjacent blocking nets (24), a plurality of magnetic rings (11) matched with the corresponding magnetic blocks (25) are rotatably connected to the side wall of the conical grinding barrel (9) at equal intervals, and the plurality of stirring blades (12) are circumferentially and fixedly connected to the corresponding magnetic rings (11).

9. The ingredient grinding device for producing the water-based architectural coating according to claim 1, wherein the bottom of the stirring tank (1) is inclined and provided with a discharge hole (26), and the top of one side of the stirring tank (1) is provided with a feed hole.

Images