CN213967650U - Aggregate vibrating screen for producing refractory bricks - Google Patents

Abstract

The utility model relates to an aggregate shale shaker that production is able to bear or endure firebrick and is used, including the bottom plate, be provided with parallel slow vibration pole through the supporting leg that slowly shakes on the bottom plate, the supporting leg that slowly shakes is provided with four, and four slow vibration supporting legs do not set up four edges of bottom plate, and parallel slow vibration pole is provided with two, and every parallel slow vibration pole is located same one side of bottom plate by two slow vibration supporting legs prop up, are provided with the sieve between the parallel slow vibration pole, and vibrating motor is installed to the sieve bottom, and vibrating motor is provided with two, and two vibrating motor are close to the both ends of sieve respectively, and the sieve is connected with parallel slow vibration pole through pressing clamping assembly. The utility model discloses have the effect that slows down the complete machine vibration, can prolong the life of machine.

Description

Aggregate vibrating screen for producing refractory bricks

Technical Field

The utility model belongs to the technical field of the technique of refractory aggregate screening and specifically relates to an aggregate shale shaker that refractory brick of production was used is related to.

Background

The refractory aggregate is an indispensable raw material for manufacturing refractory bricks, and the refractory aggregate is a refractory granule which plays a skeleton role in the grain size composition of the refractory material. They are made up by using various fire-loaded raw materials through the processes of calcining, breaking and artificial synthesis, and their grain size is greater than 0.088 mm.

Present refractory aggregate need sieve the granule after the breakage in production, and a current vibrating screen machine of having now can make whole organism take place the vibration when sieving the aggregate, and this kind of vibration can bring not good influence to the normal operation of organism, can shorten vibrating screen machine's life.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an aggregate shale shaker that production is able to bear or endure firebrick and is used, it has the advantage that can slow down the fuselage vibration when sieving the aggregate.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides an aggregate shale shaker that resistant firebrick of production was used, includes the bottom plate, is provided with parallel slow vibration pole through the supporting leg that slowly shakes on the bottom plate, and the supporting leg that slowly shakes is provided with four, and four slow vibration supporting legs do not set up four edges of bottom plate, and parallel slow vibration pole is provided with two, and every parallel slow vibration pole is by two lieing in the same one side of bottom plate the supporting leg that slowly shakes props up, is provided with the sieve between the parallel slow vibration pole, and vibrating motor is installed to the sieve bottom, and vibrating motor is provided with two, and two vibrating motor are close to the both ends of sieve respectively, and the sieve is connected with parallel slow vibration pole through pressing clamping component.

As a further aspect of the present invention: the parallel slow-vibration rod comprises parallel slow-vibration rods, a through groove parallel to the length direction of the parallel slow-vibration rods is formed in one side, close to each other, of each parallel slow-vibration rod, a pressing and clamping assembly is arranged in the through groove and comprises a first pressing elastic piece, a first pressing plate, a second pressing plate and a second pressing elastic piece, the first pressing elastic piece and the second pressing elastic piece are respectively installed on the inner walls of the two sides of the through groove, the first pressing elastic piece and the second pressing elastic piece are oppositely arranged, the length directions of the first pressing plate and the second pressing plate are parallel to each other and are parallel to the length direction of the parallel slow-vibration rods, the first pressing plate and the second pressing plate are respectively fixed at one end, close to the second pressing elastic piece, of the first pressing elastic piece and one end, close to the first pressing elastic piece, of the second pressing elastic piece, and the sieve plate is inserted between the first pressing plate and the second pressing plate.

As a further aspect of the present invention: the vibration damping support leg comprises a top vibration damping barrel, a bottom vibration damping barrel, a middle bearing shaft, a top vibration damping piece, a bottom vibration damping piece, a top pressing plate and a bottom pressing plate, wherein the bottom vibration damping barrel is arranged on the bottom plate, the barrel mouth of the bottom vibration damping barrel faces upwards, the bottom vibration damping piece is arranged at the barrel bottom of the bottom vibration damping barrel, one end of the bottom vibration damping piece, which is far away from the barrel bottom of the bottom vibration damping barrel, is fixedly connected with the bottom pressing plate, the section radius of the bottom pressing plate is mutually matched with the inner barrel radius of the bottom vibration damping barrel, the bottom pressing plate is movably arranged in the bottom vibration damping barrel, the side wall of the bottom pressing plate is abutted against the inner barrel wall of the bottom vibration damping barrel, the middle bearing shaft is fixed at one side, which is far away from the barrel bottom of the bottom vibration damping barrel, the top vibration damping barrel is arranged at the bottom of the parallel vibration damping rod through the middle bearing shaft, the barrel mouth of the top vibration damping barrel faces towards the bottom plate and mutually corresponds to the barrel mouth of the bottom vibration damping barrel, the top buffering piece is installed at the bobbin base of a top buffering section of thick bamboo that shakes, and the top is supported the clamp plate and is fixed in the top buffering piece and keep away from the one end at the bobbin base of a top buffering section of thick bamboo that shakes, and the one end that the top buffering piece was kept away from to the clamp plate is supported at the top and the one end fixed connection that the bottom was kept away from to the clamp plate was accepted to the axle with the middle part, and the top is supported the clamp plate and is corresponded each other with the nozzle of a top buffering section of thick bamboo that shakes, and the activity of top is supported the clamp plate and is set up in a top buffering section of thick bamboo to its lateral wall is contradicted with the inner tube wall of a top buffering section of thick bamboo.

As a further aspect of the present invention: the end parts of the first pressing plate and the second pressing plate are provided with easy-to-insert inclined planes.

As a further aspect of the present invention: the first abutting elastic piece, the second abutting elastic piece, the top vibration damping piece and the bottom vibration damping piece are all selected to be springs.

As a further aspect of the present invention: the recycling and conveying assembly is arranged on the bottom plate and comprises long mounting rods, short mounting rods, a bearing plate, rotary rolling shafts, a conveying belt, side baffles, an auxiliary bearing plate and a conveying motor, the number of the long mounting rods and the number of the short mounting rods are two, the two long mounting rods and the two short mounting rods are respectively close to two ends of the bottom plate and are respectively close to the adjacent slow-vibration supporting legs, the long mounting rods and the short mounting rods are vertically arranged, the bearing plate is fixed on the two long mounting rods and the two short mounting rods, the bearing plate is obliquely arranged and is positioned under the sieve plate, the two side baffles are respectively fixed on two sides of the bearing plate, the length direction of the side baffles is parallel to the length direction of the bearing plate, the number of the rotary rolling shafts is two, the two rotary rolling shafts are respectively and rotatably connected between the two side baffles and are respectively close to two ends of the side baffles, the auxiliary supporting plate is fixed between the two side baffles and positioned between the two rotary rolling shafts, the auxiliary supporting plate is parallel to the supporting plate, the conveying belt is arranged to be one, the conveying belt is sleeved on the two rotary rolling shafts and the auxiliary supporting plate, and the conveying motor is installed on the bottom plate and is connected with the rotary rolling shaft belt close to the bottom plate through a belt.

To sum up, the utility model discloses a beneficial technological effect does:

1. when people use the utility model to sieve the refractory aggregate, the aggregate particles to be sieved are poured on the sieve plate, then the vibrating motors at the two ends of the sieve plate and the conveying motor on the bottom plate are started, and the vibrating motors drive the sieve plate to vibrate between the two parallel slow vibration rods, so that the aggregate particles on the sieve plate can be sieved;

2. the first clamp plate and the second of supporting to setting up on clamp plate tip inclined plane make things convenient for the insertion of sieve more, and first clamp plate and the second of supporting to the clamp plate are pressed tightly under the effect of the first elastic component that supports that corresponds, second support and are pressed between two parallel slow vibration poles simultaneously, can make the vibration of sieve more smooth and easy, can also slow down the vibration of complete machine simultaneously, and the top slow vibration piece and the bottom slow vibration piece in the supporting leg of slowly shaking can play the effect that slows down the complete machine vibration equally moreover.

3. When the aggregate is screened, the aggregate particles with small particles can pass through the sieve holes of the sieve plate and fall onto the conveying belt below the sieve plate, the aggregate is screened, then the conveying motor can drive the rotary rolling shaft close to the bottom plate to rotate through belt transmission, the rotary rolling shaft can drive the conveying belt to rotate, the aggregate particles on the conveying belt are further conveyed out from the top of the bottom plate, and people can collect the aggregate on the conveying belt.

Drawings

Fig. 1 is a schematic view of the overall cross-sectional structure of the present invention;

fig. 2 is a schematic sectional structure diagram of the recycling conveying assembly of the present invention.

In the figure, 1, a bottom plate; 2. a vibration damping support leg; 3. a parallel vibration damping rod; 4. a sieve plate; 5. a vibration motor; 6. pressing the clamping component; 31. a through groove; 61. a first abutting elastic piece; 62. a first pressing plate; 63. a second pressing plate; 64. the second pressing elastic piece; 7. the inclined plane is easy to insert; 21. a top damper cylinder; 22. a bottom damper cylinder; 23. the middle part is connected with the shaft; 24. a top vibration damping member; 25. a bottom vibration damping member; 26. the top part supports the pressing plate; 27. the bottom part supports the pressing plate; 8. a recovery conveying assembly; 81. a long mounting rod; 82. a short mounting bar; 83. a support plate; 84. rotating the roller; 85. a conveyor belt; 86. a side dam; 87. an auxiliary pallet; 88. a conveying motor.

Detailed Description

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

Referring to fig. 1, an aggregate shale shaker that production is able to bear or endure firebrick and is used, including bottom plate 1, be provided with parallel bradyseism pole 3 through bradyseism supporting leg 2 on the bottom plate 1, bradyseism supporting leg 2 is provided with four, and four bradyseism supporting legs 2 do not set up four edges of bottom plate 1. The parallel slow vibration rods 3 are arranged in two numbers, and each parallel slow vibration rod 3 is supported by two slow vibration supporting legs 2 which are positioned on the same side of the bottom plate 1. Be provided with sieve 4 between parallel slow vibration pole 3, vibrating motor 5 is installed to sieve 4 bottom, and vibrating motor 5 is provided with two, and two vibrating motor 5 are close to the both ends of sieve 4 respectively on sieve 4. The screen plate 4 is connected with the parallel vibration damping rods 3 through the abutting-pressing clamping assembly 6.

One side of the parallel vibration damping rods 3 close to each other is provided with a through groove 31 parallel to the length direction of the parallel vibration damping rods 3. The pressing and clamping assembly 6 is disposed in the through groove 31, and the pressing and clamping assembly 6 includes a first pressing elastic member 61, a first pressing plate 62, a second pressing plate 63, and a second pressing elastic member 64. The first abutting elastic member 61 and the second abutting elastic member 64 are both selected as springs. The first abutting elastic piece 61 and the second abutting elastic piece 64 are respectively installed on the inner walls of the two sides of the through groove 31, and the first abutting elastic piece 61 and the second abutting elastic piece 64 are oppositely arranged. The first pressing plate 62 and the second pressing plate 63 have length directions parallel to each other and to the length direction of the parallel vibration damping rod 3. The first pressing plate 62 and the second pressing plate 63 are respectively fixed at one end of the first pressing elastic member 61 close to the second pressing elastic member 64 and one end of the second pressing elastic member 64 close to the first pressing elastic member 61. The screen plate 4 is interposed between the first pressing plate 62 and the second pressing plate 63. The end parts of the first pressing plate 62 and the second pressing plate 63 are provided with easy-to-insert slopes 7.

The vibration damping support leg 2 comprises a top vibration damping barrel 21, a bottom vibration damping barrel 22, a middle bearing shaft 23, a top vibration damping piece 24, a bottom vibration damping piece 25, a top pressing plate 26 and a bottom pressing plate 27. The bottom vibration damping cylinder 22 is installed on the bottom plate 1, and the cylinder opening of the bottom vibration damping cylinder 22 faces upwards. The bottom vibration damping piece 25 is a spring, and the bottom vibration damping piece 25 is arranged at the bottom of the bottom vibration damping cylinder 22. One end of the bottom vibration damper 25 far away from the bottom of the bottom vibration damper 22 is fixedly connected with a bottom pressing plate 27. The cross-sectional radius of the bottom pressing plate 27 is matched with the inner cylinder radius of the bottom vibration damping cylinder 22, the bottom pressing plate 27 is movably arranged in the bottom vibration damping cylinder 22, and the side wall of the bottom pressing plate 27 is abutted against the inner cylinder wall of the bottom vibration damping cylinder 22. The middle bearing shaft 23 is fixed on one side of the bottom pressing plate 27 far away from the bottom of the bottom vibration damper 22. The top vibration damping cylinder 21 is arranged at the bottom of the parallel vibration damping rod 3 through a middle bearing shaft 23, and the cylinder opening of the top vibration damping cylinder 21 faces the bottom plate 1 and corresponds to the cylinder opening of the bottom vibration damping cylinder 22. The top damper 24 is selected as a spring, and the top damper 24 is mounted on the bottom of the top damper cylinder 21. The top pressing plate 26 is fixed at one end of the top vibration damper 24 away from the bottom of the top vibration damper 21. The end of the top pressing plate 26 away from the top vibration damper 24 is fixedly connected with the end of the middle bearing shaft 23 away from the bottom pressing plate 27. The top abutting plate 26 corresponds to the mouth of the top vibration damping cylinder 21, the top abutting plate 26 is movably arranged in the top vibration damping cylinder 21, and the side wall of the top abutting plate abuts against the inner cylinder wall of the top vibration damping cylinder 21.

The recovery conveying assembly 8 is arranged on the bottom plate 1, and the recovery conveying assembly 8 comprises a long mounting rod 81, a short mounting rod 82, a bearing plate 83, a rotating roller 84, a conveying belt 85, a side baffle 86, an auxiliary bearing plate 87 and a conveying motor 88. Long installation pole 81 and short installation pole 82 are provided with two respectively, and two long installation poles 81 and two short installation poles 82 are close to the both ends of bottom plate 1 respectively to be close to neighbouring bradyseism supporting leg 2 respectively, long installation pole 81 and short installation pole 82 are vertical setting. The support plate 83 is fixed to the two long mounting rods 81 and the two short mounting rods 82, and the support plate 83 is arranged obliquely and is located right below the screen plate 4. The number of the side guards 86 is two, the two side guards 86 are respectively fixed on both sides of the support plate 83, and the length direction of the side guards 86 is parallel to the length direction of the support plate 83. Two rotating rollers 84 are provided, and both rotating rollers 84 are rotatably connected between the two side baffles 86 and are respectively close to two ends of the side baffles 86. The auxiliary support plate 87 is fixed between the two side baffles 86 and positioned between the two rotating rollers 84, and the auxiliary support plate 87 and the support plate 83 are parallel to each other. The conveying belt 85 is provided as a single belt, and the conveying belt 85 is sleeved on the two rotating rollers 84 and the auxiliary supporting plate 87. The conveyor motor 88 is mounted on the base plate 1 and is connected to the belt of the rotary rollers 84 adjacent to the base plate 1 by a belt.

The implementation principle of the embodiment is as follows: when people use the utility model to sieve the refractory aggregate, the aggregate particles to be sieved are poured on the sieve plate 4, then the vibrating motors 5 at the two ends of the sieve plate 4 and the conveying motor 88 on the bottom plate 1 are started, the vibrating motor 5 drives the sieve plate 4 to vibrate between the two parallel slow vibration rods 3, and the aggregate particles on the sieve plate 4 can be sieved;

during screening, aggregate particles with smaller particles can pass through the sieve holes of the sieve plate 4 and fall onto the conveying belt 85 below the sieve plate 4, namely screening of the aggregate is realized, then the conveying motor 88 can drive the rotating roller 84 close to the bottom plate 1 to rotate through belt transmission, the rotating roller 84 can drive the conveying belt 85 to rotate, so that the aggregate particles on the conveying belt 85 are sent out from the upper part of the bottom plate 1, and people can realize collection of the aggregate on the conveying belt 85;

the inclined planes at the end parts of the first pressing plate 62 and the second pressing plate 63 are arranged to facilitate the insertion of the sieve plate 4, meanwhile, the first pressing plate 62 and the second pressing plate 63 are clamped between the two parallel vibration damping rods 3 under the action of the corresponding first pressing elastic part 61 and second pressing elastic part 64, so that the vibration of the sieve plate 4 can be smoother, the vibration of the whole machine can be reduced, the service life of the whole machine is prolonged, and the top vibration damping part 24 and the bottom vibration damping part 25 in the vibration damping supporting leg 2 can also play a role in reducing the vibration of the whole machine, so that the service life of the whole machine is further prolonged;

when people need to replace different screen plates 4, the vibrating motor 5 can be detached from the screen plate 4, then the new screen plate 4 is aligned with the inclined planes of the first pressing plate 62 and the second pressing plate 63 which are corresponding to each other, then the screen plate 4 is pressed into the space between the first pressing plate 62 and the second pressing plate 63 with force, the first pressing plate 62 and the second pressing plate 63 can press the corresponding first pressing elastic piece 61 and the second pressing elastic piece 64 after being pressed by the screen plate 4, the first pressing elastic piece 61 and the second pressing elastic piece 64 are compressed to enable the screen plate 4 to be detached into the space between the first pressing plate 62 and the second pressing plate 63, after the screen plate 4 is completely detached into the space between the first pressing plate 62 and the second pressing plate 63, the installation of the sieve plate 4 is realized, the sieve plate 4 is clamped between the two parallel vibration damping rods 3 under the abutting pressure of the first abutting pressure plate 62 and the second abutting pressure plate 63, and then the two vibration motors 5 are installed at two ends of the bottom surface of the new sieve plate 4.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (6)

1. An aggregate shale shaker that production is able to bear or endure firebrick was used, includes bottom plate (1), its characterized in that: parallel damping rods (3) are arranged on the bottom plate (1) through damping supporting legs (2), the damping supporting legs (2) are provided with four damping supporting legs, the four damping supporting legs (2) are arranged at four corners of the bottom plate (1), the parallel damping rods (3) are provided with two damping rods, each parallel damping rod (3) is located on the same side of the bottom plate (1) through two damping supporting legs (2), a sieve plate (4) is arranged between the parallel damping rods (3), a vibrating motor (5) is installed at the bottom of the sieve plate (4), the vibrating motor (5) is provided with two vibrating motors (5), the two vibrating motors (5) are close to two ends of the sieve plate (4) respectively, and the sieve plate (4) is connected with the parallel damping rods (3) through a pressing clamping assembly (6).

2. The aggregate vibrating screen for producing refractory bricks, according to claim 1, wherein: one side of the parallel slow vibration rod (3) close to each other is provided with a through groove (31) parallel to the length direction of the parallel slow vibration rod (3), the abutting clamping assembly (6) is arranged in the through groove (31), the abutting clamping assembly (6) comprises a first abutting elastic piece (61), a first abutting plate (62), a second abutting plate (63) and a second abutting elastic piece (64), the first abutting elastic piece (61) and the second abutting elastic piece (64) are respectively arranged on the inner walls of the two sides of the through groove (31), the first abutting elastic piece (61) and the second abutting elastic piece (64) are oppositely arranged, the length directions of the first abutting plate (62) and the second abutting plate (63) are parallel to each other and are parallel to the length direction of the parallel slow vibration rod (3), the first abutting plate (62) and the second abutting plate (63) are respectively fixed at one end of the first abutting elastic piece (61) close to the second abutting elastic piece (64) and the first abutting elastic piece (64) close to the second abutting elastic piece (64) One end of the piece (61), the sieve plate (4) being interposed between a first abutment plate (62) and a second abutment plate (63).

3. The aggregate vibrating screen for producing refractory bricks, according to claim 2, wherein: the vibration damping support leg (2) comprises a top vibration damping barrel (21), a bottom vibration damping barrel (22), a middle bearing shaft (23), a top vibration damping part (24), a bottom vibration damping part (25), a top pressing plate (26) and a bottom pressing plate (27), wherein the bottom vibration damping barrel (22) is installed on the bottom plate (1), the opening of the bottom vibration damping barrel (22) is upward, the bottom vibration damping part (25) is installed at the bottom of the bottom vibration damping barrel (22), one end, far away from the bottom vibration damping barrel (22), of the bottom vibration damping part (25) is fixedly connected with the bottom pressing plate (27), the section radius of the bottom pressing plate (27) is matched with the inner barrel radius of the bottom vibration damping barrel (22), the bottom pressing plate (27) is movably arranged in the bottom vibration damping barrel (22), the side wall of the bottom pressing plate (27) is in contact with the inner barrel wall of the bottom vibration damping barrel (22), the middle bearing shaft (23) is fixed on one side, far away from the bottom vibration damping barrel (22), of the bottom pressing plate (27), a top damping cylinder (21) passes through middle part bearing shaft (23) sets up parallel damping pole (3) bottom, the nozzle of a top damping cylinder (21) is towards bottom plate (1) to correspond each other with the nozzle of a bottom damping cylinder (22), the bobbin base at top damping cylinder (21) is installed in top damping piece (24), top is supported clamp plate (26) and is fixed in the one end that top damping piece (21) bobbin base was kept away from in top damping piece (24), top is supported clamp plate (26) and is kept away from the one end fixed connection that bottom supported clamp plate (27) was kept away from with middle part bearing shaft (23) to the one end that top damping piece (24) was kept away from in top damping piece (24), top is supported clamp plate (26) and is corresponded each other with the nozzle of a top damping cylinder (21), top is supported clamp plate (26) activity and is set up in a top damping cylinder (21), and its lateral wall is supported with the inner tube wall of a top damping cylinder (21).

4. The aggregate vibrating screen for producing refractory bricks, according to claim 2, wherein: the end parts of the first pressing plate (62) and the second pressing plate (63) are provided with easy-to-insert inclined planes (7).

5. The aggregate vibrating screen for producing refractory bricks according to claim 3, wherein: the first abutting elastic piece (61), the second abutting elastic piece (64), the top vibration damping piece (24) and the bottom vibration damping piece (25) are all selected as springs.

6. The aggregate vibrating screen for producing refractory bricks, according to claim 5, wherein: the recycling conveying assembly (8) is arranged on the bottom plate (1), the recycling conveying assembly (8) comprises long mounting rods (81), short mounting rods (82), bearing plates (83), rotary rolling shafts (84), conveying belts (85), side baffles (86), auxiliary bearing plates (87) and conveying motors (88), the long mounting rods (81) and the short mounting rods (82) are respectively provided with two parts, the two long mounting rods (81) and the two short mounting rods (82) are respectively close to two ends of the bottom plate (1) and respectively close to the adjacent slow-vibration supporting legs (2), the long mounting rods (81) and the short mounting rods (82) are vertically arranged, the bearing plates (83) are fixed on the two long mounting rods (81) and the two short mounting rods (82), the bearing plates (83) are obliquely arranged and are positioned under the sieve plate (4), and the two side baffles (86) are arranged, two side shield (86) are fixed respectively in the both sides of bearing board (83), the length direction of side shield (86) is parallel to each other with the length direction of bearing board (83), rotatory roller bearing (84) are provided with two, two rotatory roller bearing (84) all rotate to be connected between two side shield (86), and be close to the both ends of side shield (86) respectively, auxiliary supporting board (87) are fixed between two side shield (86), and be located between two rotatory roller bearing (84), auxiliary supporting board (87) are parallel to each other with bearing board (83), conveyor belt (85) set up to one, conveyor belt (85) cover is established on two rotatory roller bearing (84) and auxiliary supporting board (87), conveying motor (88) are installed on bottom plate (1) and are connected with rotatory roller bearing (84) belt that are close to bottom plate (1) through the belt.

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