CN215312168U - High-speed caragana microphylla granulator capable of removing tannin - Google Patents

Abstract

The utility model relates to the technical field of granulators, and discloses a high-speed caragana microphylla granulator capable of removing tannin, which comprises the following components: bottom plate and casing, the casing assembly is at the upper surface of bottom plate, the upper surface of bottom plate is equipped with the fixed block, the top of fixed block is equipped with the square, the front of square is equipped with electric putter, feed inlet and discharge gate have been seted up respectively to the both sides of casing. This can get rid of high-speed caragana microphylla granulator of tannin, through setting up feed arrangement, the putty device, electric putter and extension spring, when using, electric putter provides power for the removal of putty device, limiting plate and spacing ring are fixed on the movable plate, the gag lever post removes in the spacing ring, guide for the removal of movable plate and limiting plate, prevent that the limiting plate from taking place the skew at the removal in-process, through setting up the putty device, the limiting plate is stopped up the inlet pipe, make the material can't get into the inlet pipe, and then can not be because of the material is many machine blocks up, the effect that improves production efficiency has been reached.

Description

High-speed caragana microphylla granulator capable of removing tannin

Technical Field

The utility model relates to the technical field of granulators, in particular to a high-speed caragana microphylla granulator capable of removing tannin.

Background

The caragana microphylla is a traditional Chinese medicine, has the effects of nourishing yin, enriching blood and activating blood, needs to be used in a granulator in the processing process, mainly comprises a feeding system, a stirring system, a granulating system, a transmission system, a lubricating system and the like, and is widely applied to the pharmaceutical industry, the chemical industry and the food industry.

Among the prior art, current common granulator is in the use, and current most granulator is when using, and the material that will process is put into the granulator back, may be because of the volume of putting into more and stifled machine, and stifled machine then can make the progress of processing reduce, and then leads to reducing the work efficiency of granulator, and simultaneously, current most granulator needs the manual work to mix the stirring to the material in the course of working, consumes a large amount of manpower and materials, and then leads to having improved manufacturing cost.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides the high-speed caragana microphylla granulator capable of removing tannin, which has the advantages of improving the production efficiency and reducing the cost, and solves the problems that in the prior art, most of the conventional granulators are blocked due to excessive amount of materials after the conventional granulators are put into the granulator in the use process, the working efficiency of the granulator is reduced, and meanwhile, the granulator needs manual mixing and stirring to the materials in the processing process, so that a large amount of manpower and material resources are consumed, and the production cost is further improved.

The utility model provides the following technical scheme: a high-speed caragana microphylla granulator capable of removing tannin comprises: bottom plate and casing, the casing assembly is at the upper surface of bottom plate, the upper surface of bottom plate is equipped with the fixed block, the top of fixed block is equipped with the square, the front of square is equipped with electric putter, feed inlet and discharge gate have been seted up respectively to the both sides of casing, the side of casing sets up has feed arrangement and putty device respectively, the inside of casing is provided with agitating unit, the inner wall of casing is equipped with hopper and conveyer belt respectively, the hopper is located the top of conveyer belt, the through-hole has been seted up to the upper surface of hopper, the inner wall of through-hole is provided with the extension spring, the one end assembly of extension spring is at the inner wall of through-hole, the other end of extension spring is equipped with the circle piece, the surface of circle piece and the inner wall sliding connection of through-hole.

Preferably, the feeding device comprises an aggregation hopper and a feeding pipe, the feeding pipe is assembled on the side face of the shell, the feeding pipe is communicated with the feeding hole, and the aggregation hopper is assembled at one end of the feeding pipe.

Preferably, the putty device includes movable plate, gag lever post, spacing ring, leads to groove and limiting plate, the gag lever post assembles the side at the inlet pipe inner wall, lead to the back of groove and seting up at the inlet pipe, the movable plate assembles the one end at electric putter, gag lever post and limiting plate all assemble the front at the movable plate, the surface of gag lever post and the inner wall sliding connection of spacing ring, the surface of limiting plate and the inner wall sliding connection who leads to the groove.

Preferably, a sensor is assembled on the side surface of the inner wall of the feeding pipe, and the sensor is electrically connected with the electric push rod.

Preferably, the side of the inner wall of the feeding pipe is provided with a sliding groove, the surface of the limiting rod is provided with a sliding block, and the surface of the sliding block is in sliding connection with the inner wall of the sliding groove.

Preferably, agitating unit includes motor, round hole, pivot and stirring leaf, the motor assembly is at the top of casing, the top at the casing is seted up to the round hole, the one end at the motor fixed axle is assembled to the pivot, the stirring leaf assembles the surface at the pivot, the stirring leaf is located the inside of casing.

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

1. the high-speed caragana microphylla granulator capable of removing tannin is provided with a feeding device, a blocking device, an electric push rod and a tension spring, when in use, more materials enter the shell through the feeding pipe by the gathering hopper, the electric push rod provides power for the movement of the material blocking device, the limiting plate and the limiting ring are fixed on the movable plate, the limiting rod moves in the limiting ring to guide the movement of the movable plate and the limiting plate, so that the limiting plate is prevented from deviating in the moving process, by arranging the material blocking device, the material inlet pipe is blocked by the limiting plate, so that the material can not enter the material inlet pipe, further, the machine can not be blocked due to more materials, the effect of improving the production efficiency is achieved, the problems in the prior art are solved, at present common granulator in the use, the back is put into the granulator with the material to most of current granulators, because of the volume is many and stifled quick-witted, has reduced the problem of granulator's work efficiency.

2. This can get rid of high-speed caragana microphylla granulator of tannin, through setting up agitating unit, when using, the motor drives the pivot and stirs the leaf rotation, stir the material in the hopper, need not manual stirring, through setting up agitating unit, need not to consume a large amount of manpower and materials, the effect of cost reduction has been reached, prior art has been solved, present common granulator is in the use, the granulator needs the manual work to mix the stirring to the material in the course of working, consume a large amount of manpower and materials, and then lead to the problem that has improved manufacturing cost.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the spindle of the present invention;

FIG. 3 is a schematic top sectional view of a slider according to the present invention.

In the figure: 1. a base plate; 2. a housing; 3. a fixed block; 4. a square block; 5. an electric push rod; 6. a feed inlet; 7. a feeding device; 71. a gathering hopper; 72. a feed pipe; 8. a blocking device; 81. moving the plate; 82. a limiting rod; 83. a limiting ring; 84. a through groove; 85. a limiting plate; 9. a stirring device; 91. a motor; 92. a circular hole; 93. a rotating shaft; 94. stirring blades; 10. a hopper; 11. a conveyor belt; 12. a through hole; 13. a tension spring; 14. a round block; 15. a sensor; 16. a chute; 17. a slider; 18. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, a high-speed caragana microphylla granulator capable of removing tannin comprises: bottom plate 1 and casing 2, casing 2 assembles the upper surface at bottom plate 1, the upper surface of bottom plate 1 is equipped with fixed block 3, the top of fixed block 3 is equipped with square 4, square 4's front is equipped with electric putter 5, feed inlet 6 and discharge gate 18 have been seted up respectively to casing 2's both sides, casing 2's side sets up has feed arrangement 7 and putty device 8 respectively, casing 2's inside is provided with agitating unit 9, casing 2's inner wall is equipped with hopper 10 and conveyer belt 11 respectively, hopper 10 is located the top of conveyer belt 11, through-hole 12 has been seted up to hopper 10's upper surface, the inner wall of through-hole 12 is provided with extension spring 13, the inner wall at through-hole 12 is assembled to the one end of extension spring 13, the other end of extension spring 13 is equipped with circle piece 14, the surface of circle piece 14 and the inner wall sliding connection of through-hole 12.

Wherein; the feeding device 7 comprises a gathering hopper 71 and a feeding pipe 72, the feeding pipe 72 is arranged on the side surface of the shell 2, the feeding pipe 72 is communicated with the feeding port 6, the gathering hopper 71 is arranged at one end of the feeding pipe 72, the gathering hopper 71 enables more materials to enter the shell 2 through the feeding pipe 72, and the feeding pipe 72 is communicated with the feeding port 6 and enables the materials to enter the shell 2 through the feeding port 6.

Wherein; the blocking device 8 comprises a moving plate 81, a limiting rod 82, a limiting ring 83, a through groove 84 and a limiting plate 85, the limiting ring 83 is assembled on the side face of the inner wall of the feeding pipe 72, the through groove 84 is formed in the back face of the feeding pipe 72, the moving plate 81 is assembled at one end of the electric push rod 5, the limiting rod 82 and the limiting plate 85 are assembled on the front face of the moving plate 81, the surface of the limiting rod 82 is in sliding connection with the inner wall of the limiting ring 83, the surface of the limiting plate 85 is in sliding connection with the inner wall of the through groove 84, the electric push rod 5 provides power for the movement of the blocking device 8, the limiting plate 85 and the limiting ring 83 are fixed on the moving plate 81, the limiting rod 82 moves in the limiting ring 83, the moving plate 81 and the limiting plate 85 are guided, and the limiting plate 85 is prevented from shifting in the moving process.

Wherein; the sensor 15 is assembled on the side surface of the inner wall of the feeding pipe 72, the sensor 15 is electrically connected with the electric push rod 5, when the material in the feeding pipe 72 is accumulated to the same horizontal plane as the sensor 15, the sensor 15 transmits a signal to the electric push rod 5, the electric push rod 5 pushes the blocking device 8 to prevent the material from entering the feeding pipe 72, and when the material does not exist in the feeding pipe 72 any more, the sensor 15 enables the blocking device 8 to be partially separated from the feeding pipe 72 to enable the material to enter the feeding pipe 72 again.

Wherein; the side of the inner wall of the feeding pipe 72 is provided with a sliding groove 16, the surface of the limiting rod 82 is provided with a sliding block 17, the surface of the sliding block 17 is in sliding connection with the inner wall of the sliding groove 16, the sliding block 17 moves in the sliding groove 16, the sliding block 17 reduces the contact area between the limiting rod 82 and the limiting ring 83, and the abrasion between the sliding block 17 and the limiting ring 83 is reduced.

Wherein; agitating unit 9 includes motor 91, round hole 92, pivot 93 and stirring leaf 94, and motor 91 assembles at the top of casing 2, and round hole 92 is seted up at the top of casing 2, and pivot 93 assembles the one end at the motor 91 fixed axle, and stirring leaf 94 assembles on the surface of pivot 93, and stirring leaf 94 is located the inside of casing 2, and motor 91 drives pivot 93 and stirring leaf 94 and rotates, stirs the material in the hopper 10, need not manual stirring.

The working principle is that before use, the sensor 15, the electric push rod 5, the conveyor belt 11 and the motor 91 are all closed, when the device is used, the motor 91 and the conveyor belt 11 are started, the motor 91 drives the stirring blade 94 to rotate through the rotating shaft 93, materials are put into the gathering hopper 71, the materials enter the shell 2 through the feeding pipe 72 and the feeding hole 6 and fall into the hopper 10, the stirring device 9 stirs the materials, when the materials reach a certain amount, the tension spring 13 stretches, the round block 14 is separated from the through hole 12, the stirred materials fall onto the conveyor belt 11, the conveyor belt sends the materials out through the discharging hole 18, if the hopper 10 does not contain the materials, the tension spring 13 retracts, the round block 14 retracts into the through hole 12, if the feeding pipe 72 contains more materials and is positioned on the same horizontal plane with the sensor moving plate 15, the sensor 15 enables the electric push rod 5 to drive the limiting plate 85 and the limiting rod 82 to move along the inner walls of the through groove 84 and the limiting ring 83 respectively through the 81, the sliding block 17 moves along the inner wall of the sliding groove 16, when the moving plate 81 is attached to the feeding pipe 72, the electric push rod 5 stops moving, the materials in the gathering hopper 71 cannot enter the feeding pipe 72, when the materials in the feeding pipe 72 are lower than the level of the sensor 15, the sensor 15 enables the electric push rod 5 to drive the blocking device 8 to be partially separated from the feeding pipe 72, and the materials can continuously and normally enter the feeding pipe 72, so that the device can be continuously used.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A high-speed caragana microphylla granulator capable of removing tannin is characterized by comprising: the automatic feeding device comprises a base plate (1) and a shell (2), wherein the shell (2) is assembled on the upper surface of the base plate (1), a fixed block (3) is assembled on the upper surface of the base plate (1), a square block (4) is assembled at the top of the fixed block (3), an electric push rod (5) is assembled on the front surface of the square block (4), a feeding hole (6) and a discharging hole (18) are respectively formed in two sides of the shell (2), a feeding device (7) and a blocking device (8) are respectively arranged on the side surface of the shell (2), a stirring device (9) is arranged inside the shell (2), a hopper (10) and a conveying belt (11) are respectively assembled on the inner wall of the shell (2), the hopper (10) is positioned above the conveying belt (11), a through hole (12) is formed in the upper surface of the hopper (10), a tension spring (13) is arranged on the inner wall of the through hole (12), one end of the tension spring (13) is assembled on the inner wall of the through hole (12), the other end of the tension spring (13) is assembled with a round block (14), and the surface of the round block (14) is connected with the inner wall of the through hole (12) in a sliding mode.

2. A high-speed caragana micropellet granulator capable of removing tannin according to claim 1, characterized in that the feeding device (7) comprises a gathering hopper (71) and a feeding pipe (72), the feeding pipe (72) is mounted on the side of the casing (2), the feeding pipe (72) is in communication with the feeding port (6), and the gathering hopper (71) is mounted at one end of the feeding pipe (72).

3. A high-speed caragana microphylla granulator capable of removing tannin according to claim 1, wherein the blocking device (8) comprises a moving plate (81), a limiting rod (82), a limiting ring (83), a through groove (84) and a limiting plate (85), the limiting ring (83) is assembled on the side surface of the inner wall of the feeding pipe (72), the through groove (84) is arranged on the back surface of the feeding pipe (72), the moving plate (81) is assembled at one end of the electric push rod (5), the limiting rod (82) and the limiting plate (85) are assembled on the front surface of the moving plate (81), the surface of the limiting rod (82) is in sliding connection with the inner wall of the limiting ring (83), and the surface of the limiting plate (85) is in sliding connection with the inner wall of the through groove (84).

4. The high-speed caragana microphylla granulator according to claim 2 or 3, characterized in that the side of the inner wall of the feeding pipe (72) is equipped with a sensor (15), said sensor (15) is electrically connected with the electric push rod (5).

5. A high-speed caragana microphylla granulator capable of removing tannin according to claim 3, characterized in that the side of the inner wall of the feeding pipe (72) is provided with a chute (16), the surface of the limiting rod (82) is provided with a slide block (17), and the surface of the slide block (17) is connected with the inner wall of the chute (16) in a sliding way.

6. A high-speed caragana microphylla granulator capable of removing tannin according to claim 1, wherein the stirring device (9) comprises a motor (91), a round hole (92), a rotating shaft (93) and a stirring blade (94), the motor (91) is assembled on the top of the shell (2), the round hole (92) is arranged on the top of the shell (2), the rotating shaft (93) is assembled at one end of a fixed shaft of the motor (91), the stirring blade (94) is assembled on the surface of the rotating shaft (93), and the stirring blade (94) is positioned inside the shell (2).

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