CN114392664A

CN114392664A - Light brick raw materials mixing stirring equipment

Info

Publication number: CN114392664A
Application number: CN202111413659.6A
Authority: CN
Inventors: 章自伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-25
Filing date: 2021-11-25
Publication date: 2022-04-26

Abstract

The invention discloses light brick raw material mixing and stirring equipment, which relates to the technical field of light building material manufacturing, and adopts the technical scheme that the equipment comprises a stirring barrel provided with a stirring cavity, wherein a stirring shaft driven by a driving piece is arranged in the stirring cavity, the stirring shaft is rotatably arranged on a fixed round rod, and the fixed round rod is fixedly arranged in the stirring cavity; the upper end of the stirring cavity is provided with a plurality of feeding devices which are driven by a driving device to slide up and down so as to feed materials into the stirring cavity intermittently, and the driving device is powered by the rotation of the stirring shaft; every the feed arrangement position all correspond and be provided with one along with it gliding provides power, and then carry out the rolling machine who rolls to blockking up the material, the technical effect has can be under the condition that does not increase external power source, accomplish intermittent type nature material loading and carry out the advantage that rolls in step to bold material when realizing the stirring.

Description

Light brick raw materials mixing stirring equipment

Technical Field

The invention relates to the technical field of light building material manufacturing, in particular to light brick raw material mixing and stirring equipment.

Background

The light brick is used as a building material and can reduce the load of a floor, and the light brick is usually manufactured by mixing multiple materials, molding under high pressure and firing at high temperature.

In the existing light brick raw material mixing process, a stirrer, manual feeding or equipment feeding is generally directly used for mixing.

Although the mixing of raw materials can be realized to foretell agitated vessel, can't carry out intermittent type nature reinforced a small amount of times to the raw materials, can't be under the condition that does not increase external power source more, accomplish intermittent type nature material loading and carry out the synchronization to rolling to bold material when realizing the stirring, and then make the stirring effect of material relatively poor, consequently, be worth us research to the improvement of current light brick raw materials mixing apparatus.

Disclosure of Invention

The invention aims to provide light brick raw material mixing and stirring equipment which has the advantages that intermittent feeding and synchronous rolling of large materials can be completed while stirring is realized under the condition that an external power source is not increased.

The technical purpose of the invention is realized by the following technical scheme:

a light brick raw material mixing and stirring device comprises a stirring barrel provided with a stirring cavity, wherein a stirring shaft driven by a driving piece is arranged in the stirring cavity, the stirring shaft is rotatably arranged on a fixed round rod, and the fixed round rod is fixedly arranged in the stirring cavity; the upper end of the stirring cavity is provided with a plurality of feeding devices which are driven by a driving device to slide up and down so as to feed materials into the stirring cavity intermittently, and the driving device is powered by the rotation of the stirring shaft; each feeding device is correspondingly provided with a rolling device which can slide upwards and downwards along with the feeding device to provide power so as to roll the blocked materials.

By adopting the technical scheme, the driving device utilizes the stirring shaft to provide power and drives the feeding device to be intermittently opened and closed, so that intermittent blanking can be realized while the stirring shaft is stirred, and the defect that the feeding efficiency is influenced by boring accumulation or intermittent stopping feeding during sequential feeding is avoided; in addition, the auxiliary rolling device is arranged at the position of the feeding device, so that the large boring can be pretreated.

Further setting: the stirring chamber upper end be provided with the mounting panel, feed arrangement including running through the feed opening of mounting panel, with feed opening mutually supported block and connect block with drive arrangement's connecting rod.

Further setting: the width of the feed opening is gradually reduced from top to bottom, and the minimum position of the feed opening away from the central axis of the stirring shaft is larger than the maximum diameter of the stirring shaft.

Through adopting above-mentioned technical scheme, the design that the minimum position of feed opening distance (mixing) shaft central axis is greater than the maximum diameter of (mixing) shaft avoids boring to be detained on the (mixing) shaft, influences the operation and the life of (mixing) shaft

Further setting: the rolling device comprises a matching block fixedly arranged at the lower end of the feed opening, a plurality of rolling grooves formed in the matching block and a plurality of rolling blocks matched with the rolling grooves; the rolling block is connected with the lower end face of the blocking block through an elastic piece.

Further setting: the elastic part is arranged as an elastic bin, the lower end of the elastic bin is connected with a plurality of air supply grooves, and the air supply grooves are connected with a plurality of telescopic blocks; the telescopic block is arranged on the rolling block and is matched with the rolling groove.

Through adopting above-mentioned technical scheme, through the groove of rolling and the design that rolls the piece for it is better to roll the effect, and can further slow down unloading speed, and then avoids a large amount of material cards in the discharge gate position, and the setting of elastic component can enough reach and roll the effect, can avoid too big to the impact of cooperation piece again, and the elastic component sets up to the elastic bin can also be for flexible the providing power of flexible piece, avoids boring to glue on the face of rolling groove and rolling piece.

Further setting: the rolling device comprises a pressing plate arranged on the lower end face of the blocking block and a rolling net matched with the pressing plate, and the rolling net is fixedly arranged at the lowest end position of the feed opening.

Through adopting above-mentioned technical scheme, can directly utilize and roll briquetting and roll the cooperation of net, realize rolling in advance of material.

Further setting: the driving device comprises a chute arranged on the mounting plate, a sliding plate slidably arranged in the chute, a cylindrical rod fixedly arranged at the lower end of the sliding plate, an arc block fixedly arranged at the lower end of the cylindrical rod, a driving block fixedly arranged at the inner side of the stirring shaft and a driving inclined plane arranged at the upper end of the driving block; a spring for driving the arc block to be always attached to the driving inclined plane is arranged between the sliding plate and the sliding chute; the sliding plate is connected with all the connecting rods.

Through adopting above-mentioned technical scheme, utilize the drive inclined plane that sets up on spring, circular arc slider and the drive block, can directly give feed arrangement with the power transmission of (mixing) shaft, save power on the one hand, on the other hand is favorable to stirring to go on in step with intermittent type unloading for stirring effect is better.

Further setting: the outer circular surface of the stirring shaft is fixedly provided with a stirring plate which is spirally arranged from top to bottom; a plurality of horizontal stirring devices are rotatably arranged on the stirring shaft and are arranged in gaps in the upper space and the lower space of the threaded stirring plate; the horizontal stirring device is driven by a driving guide rail arranged on the fixed round rod.

Further setting: the horizontal stirring device comprises a spiral plate which is rotatably arranged on the stirring shaft through a rotating shaft; one end of the rotating shaft is provided with a driving component which is matched with the driving guide rail so as to drive the spiral plate to rotate; the driving component is movably arranged in a mounting cavity arranged in the stirring shaft.

Further setting: the drive assembly include one end with pivot fixed connection's first connecting rod, the first connecting rod other end rotate and install the second connecting rod, the second connecting rod keep away from the one end rotation of articulated position install with the spheroid of mutually supporting of drive guide rail.

Through adopting above-mentioned technical scheme, utilize (mixing) shaft pivoted power and guide rail, drive assembly mutually support, make the stirring board that can drive horizontal mixing device when the (mixing) shaft pivoted rotate in the horizontal direction, horizontal direction and vertical direction go on in step when making the stirring, and then make stirring effect better, meanwhile, according to the spiral direction of spiral plate and the rotation direction of (mixing) shaft mutually support, the material of steerable stirring is from the top down operation, avoid the material gathering at the lower extreme and make the effect of material stirring better.

Drawings

FIG. 1 is a block diagram of the apparatus of the present invention.

Figure 2 is a front cut-away schematic view of the apparatus of the present invention.

Fig. 3 is an enlarged view of the position a in fig. 2.

Fig. 4 is an enlarged view of the position B in fig. 2.

Fig. 5 is a schematic view of the apparatus of the present invention in cross-section at the laminating device.

Fig. 6 is a schematic structural view of a second embodiment of the laminating device.

In the figure, the stirring barrel 1, the stirring cavity 11, the driving member 12, the stirring shaft 13, the fixed round rod 14, the mounting plate 15, the spiral plate 16, the driving guide rail 17, the driving device 2, the sliding chute 21, the sliding plate 22, the cylindrical rod 23, the arc block 24, the driving block 25, the driving inclined surface 26, the spring 27, the feeding device 3, the discharging opening 31, the blocking block 32, the inclined surface 321, the elastic plate 322, the connecting rod 33, the rolling device 4, the matching block 41, the rolling groove 42, the rolling block 43, the elastic member 44, the elastic bin 441, the air supply groove 442, the telescopic block 443, the pressing plate 45, the rolling net 46, the horizontal stirring device 5, the rotating shaft 51, the stirring plate 52, the mounting cavity 53, the driving assembly 50, the first connecting rod 501, the second connecting rod 502 and the sphere 503 are shown in the figure.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A light brick raw material mixing and stirring device is shown in figures 1 and 2 and comprises a stirring barrel 1 provided with a stirring cavity 11, wherein a stirring shaft 13 driven by a driving part 12 is arranged in the stirring cavity 11, and the driving part 12 in the device can drive a meshing gear set to rotate by adopting a motor so as to drive the stirring shaft 13; the stirring shaft 13 is rotatably arranged on the fixed round rod 14, and the fixed round rod 14 is fixedly arranged in the stirring cavity 11; the upper end of the stirring cavity 11 is provided with a plurality of feeding devices 3 which are driven by the driving device 2 to slide up and down so as to feed materials into the stirring cavity 11 intermittently, the feeding devices 3 are arranged according to the inner diameter of the stirring cavity 11, 3-6 feeding devices can be arranged, and the driving device 2 is powered by the rotation of the stirring shaft 13; a rolling device 4 which provides power along with the upward and downward sliding of each feeding device 3 and rolls the blocked materials is correspondingly arranged at the position of each feeding device 3, and the rolling device 4 is arranged at the lower end or the side surface of each feeding device; a spiral plate 16 which is spirally arranged from top to bottom is fixedly arranged on the outer circumferential surface of the stirring shaft 13; a plurality of horizontal stirring devices 5 are rotatably arranged on the stirring shaft 13, and the horizontal stirring devices 5 are arranged in gaps in the upper space and the lower space of the spiral plate 16; horizontal mixing device 2 is driven by the drive guide rail 17 that sets up on fixed round bar 24, and the spiral of the spiral plate 16 in this device sets up according to the rotation direction of (mixing) shaft 13 for spiral plate 16 can drive the material and move from bottom to top, and agitator 1 upper end can set up the water injection pipe, and the lower extreme can set up the bin outlet.

As shown in fig. 2 and 3, a mounting plate 15 is arranged at the upper end of the stirring cavity 11, the mounting plate 15 is fixedly connected with the stirring barrel 1, the feeding device 3 comprises a feed opening 31 penetrating through the mounting plate 15, a blocking block 32 mutually matched with the feed opening 31 and a connecting rod 33 connecting the blocking block 32 with the driving device 2, the width of the feed opening 31 is gradually reduced from top to bottom, and the minimum position of the feed opening 31 from the central axis of the stirring shaft 13 is greater than the maximum diameter of the stirring shaft 13.

As shown in fig. 3 and 4, the driving device 2 includes a sliding chute 21 disposed on the mounting plate 15, a sliding plate 22 slidably mounted in the sliding chute 21, a cylindrical rod 23 fixedly disposed at the lower end of the sliding plate 22, an arc block 24 fixedly disposed at the lower end of the cylindrical rod 23, a driving block 25 fixedly disposed inside the stirring shaft 13, and a driving inclined surface 26 disposed at the upper end of the driving block 23; a spring 27 for driving the arc block 24 to be always attached to the driving inclined plane 26 is arranged between the sliding plate 22 and the sliding chute 21; the slide 22 is connected to all the links 33.

As shown in fig. 3 and 5, the rolling device 4 includes a pressing plate 45 disposed on the lower end surface of the blocking block 42 and a rolling net 46 cooperating with the pressing plate 45, and the rolling net 42 is fixedly disposed at the lowest position of the discharging opening 31.

As shown in fig. 4, the horizontal stirring device 5 includes a stirring plate 52 rotatably mounted on the stirring shaft 13 via a rotating shaft 51; one end of the rotating shaft 51 is provided with a driving component 50 which is matched with the driving guide rail 17 so as to drive the stirring plate 22 to rotate; the driving component 50 is movably arranged in a mounting cavity 53 arranged in the stirring shaft 13.

As shown in fig. 4, the driving assembly 50 includes a first link 501 having one end fixedly connected to the rotating shaft 51, a second link 502 rotatably mounted on the other end of the first link 501, and a ball 503 rotatably mounted on one end of the second link 502 away from the hinge position and cooperating with the driving rail 17.

As shown in fig. 6, the rolling device 4 includes a matching block 41 fixed at the lower end of the feed opening 31, a plurality of rolling grooves 42 arranged on the matching block 41, and a plurality of rolling blocks 43 matched with the rolling grooves 42; the ballast block 43 is connected to the lower end face of the stopper block 32 by the elastic member 44.

As shown in fig. 6, the elastic member 44 is configured as an elastic bin 441, the lower end of the elastic bin 441 is connected with a plurality of air supply grooves 442, and the air supply grooves 442 are connected with a plurality of telescopic blocks 443; the expansion block 443 is disposed on the surface of the rolling block 43 that is engaged with the rolling groove 42.

As shown in fig. 6, the upper end of chock 32 sets up to the inclined plane 321 of downward sloping gradually from the centre to both ends, and then the unloading of being convenient for, avoid the material gathering in the upper end of chock 32, the both ends of chock 32 can set up outer elastic plate 322, elastic plate 322 is along with the ascending extension of chock 32 gradually expandes, the terminal surface that breaks away from feed opening 31 after one end time supplies, and then the unloading volume once can be controlled better, avoid the material all to block up the position at rolling device 4, elastic plate 322 can directly set up to rubber slab or articulated hard board, also can set up to the flat board that slides through spring level control.

The working principle is as follows: in an initial state, all the devices are in a static state, the ball body 503 is matched with the driving guide rail 17, the blocking block 32 is matched with the feed opening 31, the arc block 24 is positioned at the lowest limit position of the driving inclined surface 26, the pressing plate 45 is attached to the rolling net 46 (or the rolling groove 42 is matched with the rolling block 43), the elastic bin 441 is in a minimum volume state, and the telescopic block 443 extends out of the side surface of the rolling block 43 and is attached to the inclined surface of the rolling groove 42.

When needs use this product, put into pending material in the feed opening 31 earlier, recycle driving piece 12 and drive (mixing) shaft 13 and rotate, and then make (mixing) shaft 13 drive spiral plate 16 and rotate, when the material gets into stirring chamber 11, still drive the material and shift up when stirring the material.

Meanwhile, the driving block 25 is driven to synchronously rotate in the rotating process of the stirring shaft 13, so that the contact position of a driving inclined surface 26 arranged on the driving block 25 and the arc block 24 is changed, the driving inclined surface is further matched with the spring 27 to drive the sliding plate 22 to slide in the sliding groove 21 in a reciprocating manner, the sliding plate 22 drives the blocking block 32 to move upwards through the connecting rod 33 while moving, at the moment, the material in the discharging opening 31 enters the stirring cavity 11, and after one rotation, the arc block 24 returns to the initial state position again, so that the intermittent feeding is realized; in the process of moving the blocking block 32 downwards, the pressing plate 45 is matched with the rolling net 46 to roll the materials retained on the rolling net 46.

If the structure of the rolling groove 42 and the rolling block 43 is set, the rolling groove 42 and the rolling block 43 are used for rolling the material, and when the blocking block 32 moves up and down, the volume of the elastic bin 441 changes, so that the telescopic block 443 is driven to extend or retract, and the material can be prevented from being retained on a rolling contact surface.

While the stirring shaft 13 rotates, the first connecting rod 501 and the second connecting rod 502 drive the ball 503 to move in the driving guide rail 17, and further drive the stirring plate 52 to stir the material.

The above-mentioned embodiments are merely illustrative and not restrictive, and those skilled in the art can make modifications to the embodiments without inventive contribution as required after reading the present specification, but only protected by the patent laws within the scope of the claims.

Claims

1. The utility model provides a light brick raw materials mixes agitated vessel, is including agitator (1) that is equipped with stirring chamber (11), stirring chamber (11) in be equipped with by driving piece (12) driven (mixing) shaft (13), its characterized in that: the stirring shaft (13) is rotatably arranged on a fixed round rod (14), and the fixed round rod (14) is fixedly arranged in the stirring cavity (11); the upper end of the stirring cavity (11) is provided with a plurality of feeding devices (3) which are driven by a driving device (2) to slide up and down so as to feed materials into the stirring cavity (11) intermittently, and the driving device (2) is powered by the rotation of the stirring shaft (13); each feeding device (3) is correspondingly provided with a rolling device (4) which can slide upwards and downwards to provide power so as to roll the blocked materials.

2. The lightweight brick raw material mixing and stirring device as claimed in claim 1, wherein: stirring chamber (11) upper end be provided with mounting panel (15), feed arrangement (3) including running through feed opening (31) of mounting panel (15), with feed opening (31) mutually support block (32) and connect block (32) with connecting rod (33) of drive arrangement (2).

3. The lightweight brick raw material mixing and stirring device as claimed in claim 2, wherein: the width of the feed opening (31) is gradually reduced from top to bottom, and the minimum position of the feed opening (31) away from the central axis of the stirring shaft (13) is larger than the maximum diameter of the stirring shaft (13).

4. A lightweight brick raw material mixing and stirring apparatus according to claim 2 or 3, characterized in that: the rolling device (4) comprises a matching block (41) fixedly arranged at the lower end of the feed opening (31), a plurality of rolling grooves (42) arranged on the matching block (41) and a plurality of rolling blocks (43) mutually matched with the rolling grooves (42); the grinding block (43) is connected with the lower end face of the blocking block (32) through an elastic element (44).

5. The lightweight brick raw material mixing and stirring apparatus according to claim 4, wherein: the elastic element (44) is arranged as an elastic bin (441), the lower end of the elastic bin (441) is connected with a plurality of air supply grooves (442), and the air supply grooves (442) are connected with a plurality of telescopic blocks (443); the telescopic block (443) is arranged on the rolling block (43) and is matched with one surface of the rolling groove (42).

6. A lightweight brick raw material mixing and stirring apparatus according to claim 2 or 3, characterized in that: rolling device (4) including set up in jam block (42) down clamp plate (45) of terminal surface and with clamp plate (45) mutually supported roll net (46), roll net (42) set firmly in feed opening (31) lower extreme position.

7. The lightweight brick raw material mixing and stirring device as claimed in claim 2, wherein: the driving device (2) comprises a sliding chute (21) arranged on the mounting plate (15), a sliding plate (22) arranged in the sliding chute (21) in a sliding manner, a cylindrical rod (23) fixedly arranged at the lower end of the sliding plate (22), an arc block (24) fixedly arranged at the lower end of the cylindrical rod (23), a driving block (25) fixedly arranged on the inner side of the stirring shaft (13) and a driving inclined plane (26) arranged at the upper end of the driving block (23); a spring (27) for driving the arc block (24) to be always attached to the driving inclined plane (26) is arranged between the sliding plate (22) and the sliding chute (21); the sliding plate (22) is connected with all the connecting rods (33).

8. The lightweight brick raw material mixing and stirring device as claimed in claim 1, wherein: a spiral plate (16) which is spirally arranged from top to bottom is fixedly arranged on the outer circular surface of the stirring shaft (13); a plurality of horizontal stirring devices (5) are rotatably arranged on the stirring shaft (13), and the horizontal stirring devices (5) are arranged in gaps in the upper space and the lower space of the spiral plate (16); the horizontal stirring device (2) is driven by a driving guide rail (17) arranged on the fixed round rod (24).

9. The lightweight brick raw material mixing and stirring apparatus according to claim 9, wherein: the horizontal stirring device (5) comprises a stirring plate (52) which is rotatably arranged on the stirring shaft (13) through a rotating shaft (51); one end of the rotating shaft (51) is provided with a driving component (50) which is matched with the driving guide rail (17) so as to drive the stirring plate (22) to rotate; the driving component (50) is movably arranged in a mounting cavity (53) formed in the stirring shaft (13).

10. The lightweight brick raw material mixing and stirring device as claimed in claim 2, wherein: drive assembly (50) include one end with pivot (51) fixed connection's first connecting rod (501), first connecting rod (501) other end rotate and install second connecting rod (502), second connecting rod (502) keep away from the one end rotation of articulated position install with drive guide rail (17) ball (503) of mutually supporting.