CN212681650U - Vibration feeding screening machine - Google Patents

Vibration feeding screening machine Download PDF

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Publication number
CN212681650U
CN212681650U CN202020847443.5U CN202020847443U CN212681650U CN 212681650 U CN212681650 U CN 212681650U CN 202020847443 U CN202020847443 U CN 202020847443U CN 212681650 U CN212681650 U CN 212681650U
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CN
China
Prior art keywords
sieve
sieve plate
casing
plate
screening machine
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Expired - Fee Related
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CN202020847443.5U
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Chinese (zh)
Inventor
刘俊祥
胡克
李凡仓
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Beijing Eascity Environmental Protection Technology Co ltd
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Beijing Eascity Environmental Protection Technology Co ltd
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Priority to CN202020847443.5U priority Critical patent/CN212681650U/en
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Abstract

The utility model discloses a vibration feeding screening machine, including casing, sieve and vibration mechanism. The casing is squarely, and the casing is upper and lower open-ended and link up the form, the left end upside of casing is the raw materials feed inlet, and the right-hand member of casing is the aggregate discharge gate that the granule is bigger, and the lower extreme of casing is the more fine dregs discharge gate of granule. The sieve is installed in the casing, and the sieve sets up a plurality ofly along the casing right, the height of sieve from left to right reduces gradually and is the notch cuttype, through the leg joint of "L" type between two adjacent sieves. It should be noted here that the raw material entering from the raw material inlet is sliding in the right direction, and the step shape is convenient for sliding down. The vibrating mechanism is installed on the sieve plate, and the vibrating mechanism increases the shaking amplitude of the sieve plate through vibration. The vibration mechanism increases the vibration amplitude of the sieve plate, facilitates the separation of the residue soil and the aggregate, and improves the sieving effect.

Description

Vibration feeding screening machine
Technical Field
The utility model relates to a vibration feed screening field specifically is a vibration feed screening machine.
Background
Currently, along with the continuous acceleration of engineering construction, the production amount of construction waste is also increasing at a high speed and accounts for 30% -40% of the total amount of urban waste. The construction waste recycling industry is also developed at a high speed, and the construction waste is screened to remove impurities and then is crushed into recycled aggregate for recycling, so that the resource utilization rate is improved. The high-quality raw sandstone aggregate is less and less, most of the high-quality raw sandstone aggregate contains more impurities such as muck, and the traditional vibrating feeder cannot meet the actual production requirement and needs to remove the impurities before crushing. The vibration feeding impurity remover can remove impurities such as muck in the crusher before feeding, improves the quality of crushed aggregates, has multiple functions, has a feeding function and also has a function of screening and removing impurities such as muck. With the continuous improvement of the living standard of residents, the domestic garbage and the landfill decayed garbage are increased day by day, and the domestic garbage and the decayed garbage need to be screened before being reused, so that the utilization efficiency of the domestic garbage and the buried decayed garbage is improved. Therefore, there is a need for a device that can perform the screening while feeding.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a vibration feeding screening machine to solve the problem that proposes among the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: a vibrating feeding and screening machine comprises a shell, a screen plate and a vibrating mechanism.
The casing is squarely, and the casing is upper and lower open-ended and link up the form, the left end upside of casing is the raw materials feed inlet, and the right-hand member of casing is the aggregate discharge gate that the granule is bigger, and the lower extreme of casing is the more fine dregs discharge gate of granule.
The sieve is installed in the casing, and the sieve sets up a plurality ofly along the casing right, the height of sieve from left to right reduces gradually and is the notch cuttype, through the leg joint of "L" type between two adjacent sieves. It should be noted here that the raw material entering from the raw material inlet is sliding in the right direction, and the step shape is convenient for sliding down.
The vibrating mechanism is installed on the sieve plate, and the vibrating mechanism increases the shaking amplitude of the sieve plate through vibration. The vibration mechanism increases the vibration amplitude of the sieve plate, facilitates the separation of the residue soil and the aggregate, and improves the sieving effect.
A vibratory feed screening machine as described above wherein preferably the vibratory mechanism is a vibratory motor connected to the screen deck. Vibrating motor drives the sieve vibrations, and the material shake of being convenient for is sieved, also is convenient for to slide right simultaneously.
The vibratory feed screening machine as described above preferably further comprises a receiving member for facilitating the material entering from the material inlet to slide to the right, wherein the receiving member facilitates the material to slide to the right and is mounted on the housing. The receiving member facilitates the material to have a velocity to the right while also avoiding sliding to the left.
The vibratory feed screening machine as described above, wherein preferably, the receiving member is a sliding material plate, the sliding material plate is mounted at the left end of the housing and is located at the left side of the screen plate, the left end of the sliding material plate is inclined upwards, and the raw material slides towards the screen plate through the sliding material plate. The sliding material plate is obliquely arranged, so that a component force to the right is given to the raw materials, and a rightward speed is generated, so that the rightward movement is accelerated, and the screening and the separation are facilitated.
The vibratory feed screening machine as described above preferably further comprising a resilient member mounted between the screen deck and the lower end of the housing to urge the screen deck to vibrate up and down on the resilient member as the material moves and the screen deck is able to move up and down along the housing. The elastic component can increase the vibration amplitude of the sieve plate, is convenient for sieving, is provided with the conveyor belt mechanism at the lower side of the shell, and can convey the dregs sieved by the dregs discharging port to the left side to be separated from the aggregates on the right side.
The vibrating feeding and screening machine is characterized in that the screen plate is a finger-shaped screen plate, and a strip-shaped screen hole penetrating rightwards is formed in the screen plate. The bar sieve mesh runs through the sieve board to the right, just so be difficult to block, and moreover, the resistance is little because it is open to run through to the right.
The vibrating feeding screening machine is characterized in that the screen plate is a circular hole type screen plate, and circular screen holes are uniformly formed in the screen plate. The circular sieve pores are uniformly distributed, the sieving area is large, and the sieving effect is good.
The vibratory feed screening machine as described above, wherein preferably the screen plate is a steel wire mesh and is provided with meshes. The wire net is for general sieve mesh, and the mesh quantity is many, and it is gliding more easily, simultaneously, toughness is good, shakes easily.
The vibratory feed screening machine as described above, wherein preferably the resilient member is a rubber spring and the lower end of the rubber spring is secured to the housing. The rubber spring belongs to the support column of rubber material, and stability is good, has toughness simultaneously.
The vibratory feeding screening machine as described above, wherein preferably, the elastic member is a plurality of metal springs arranged in front and behind each other, lower ends of the metal springs are connected by a support plate, and the support plate is fixed on the casing. The metal spring has good elasticity and large vibration amplitude.
For the background art, the application provides a vibratory feed screening machine:
1. raw materials are added from a raw material inlet and slide onto a right sieve plate along a sliding plate, the inclined sliding plate enables the raw materials to have kinetic energy to the right so as to be convenient to slide to the right, so that screening is realized, large aggregates slide out from a right aggregate outlet, fine muck is screened out from a muck outlet and is conveyed to the left side through a lower conveyor belt mechanism to realize separation, and the aggregates are convenient to recycle;
2. the sieve is the notch cuttype, and the raw materials of being convenient for moves right, and elastomeric element provides elastic support, and vibrating motor then increases vibration amplitude, improves the screening effect of sieve.
Drawings
FIG. 1 is a schematic structural view of the present invention;
fig. 2 is a top view of the present invention;
fig. 3 is a top view of a second embodiment of the present invention;
fig. 4 is a top view of a third embodiment of the present invention;
fig. 5 is a schematic structural diagram of a fourth embodiment of the present invention.
In the figure: 1. a housing; 2. a vibration motor; 3. a rubber spring; 31. a metal spring; 32. a support plate; 4. a material sliding plate; 5. a sieve plate; 51. strip-shaped sieve pores; 52. circular sieve pores; 53. mesh openings; 6, a raw material feeding hole; 7. a residue soil discharge hole; 8. and (4) discharging the aggregate.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Example 1
Please refer to fig. 1 to 2, the utility model provides a vibrating feeding sieving machine technical scheme: a vibratory feeding and screening machine comprises a shell 1, a screen plate 5 and a vibrating mechanism.
The casing 1 is square, and the casing 1 is the form that link up of upper and lower open-ended, and the left end upside of casing 1 is raw materials feed inlet 6, and the right-hand member of casing 1 is the aggregate discharge gate 8 that the granule is bigger, and the lower extreme of casing 1 is the dregs discharge gate 7 that the granule is finer.
The sieve 5 is installed in casing 1, and sieve 5 sets up a plurality ofly along casing 1 right, and the height of sieve 5 from left to right reduces gradually and is the notch cuttype, through the leg joint of "L" type between two adjacent sieves 5. It should be noted here that the raw material entering from the raw material inlet 6 slides in the right direction, and the stepped shape is convenient for sliding down in the right direction. Still including the convenient raw materials that gets into from raw materials feed inlet 6 slide right the portion of accepting, make things convenient for the raw materials to slide right through the portion of accepting, and accept the portion and install on casing 1. The receiving member facilitates the material to have a velocity to the right while also avoiding sliding to the left. The receiving component is a sliding plate 4, the sliding plate 4 is installed at the left end of the shell 1, the sliding plate 4 is located on the left side of the sieve plate 5, the left end of the sliding plate 4 inclines upwards, and the raw materials slide to the sieve plate 5 through the sliding plate 4. The sliding material plate 4 is arranged obliquely, so that a component force to the right is given to the raw materials, a rightward speed is generated, the rightward movement is accelerated, and the screening and the separation are facilitated.
The vibration mechanism is installed on the sieve plate 5, and the vibration mechanism increases the shaking amplitude of the sieve plate 5 through vibration. The vibration mechanism increases the vibration amplitude of the sieve plate 5, so that the separation of the muck and the aggregate is facilitated, and the sieving effect is improved. The vibrating mechanism is a vibrating motor 2 connected with the sieve plate 5. Vibrating motor 2 drives sieve 5 vibrations, and the material shake of being convenient for is sieved, also is convenient for to slide right simultaneously. The sieve plate 5 is a finger-shaped sieve plate, and a strip-shaped sieve pore 51 which runs through rightwards is arranged on the sieve plate 5. The bar screen holes 51 penetrate the screen deck 5 to the right, so that they are not easily stuck, and moreover, the resistance is small because they penetrate the opening to the right.
Still include elastomeric element, elastomeric element installs between the lower extreme of sieve 5 and casing 1, drives sieve 5 vibrations from top to bottom on elastomeric element when the raw materials removes, and sieve 5 can reciprocate along casing 1. The elastic component can increase the vibration amplitude of the sieve plate 5, is convenient for sieving, is provided with a conveyor belt mechanism at the lower side of the shell 1, and can convey the dregs sieved out by the dregs discharging port 7 to the left side and separate the dregs from the aggregates on the right side. Rubber spring 3 belongs to the support column of rubber material, and stability is good, has toughness simultaneously.
Example 2
Referring to fig. 3, the utility model provides a vibrating feeding screening machine technical scheme: a vibratory feeding and screening machine comprises a shell 1, a screen plate 5 and a vibrating mechanism.
The casing 1 is square, and the casing 1 is the form that link up of upper and lower open-ended, and the left end upside of casing 1 is raw materials feed inlet 6, and the right-hand member of casing 1 is the aggregate discharge gate 8 that the granule is bigger, and the lower extreme of casing 1 is the dregs discharge gate 7 that the granule is finer.
The sieve 5 is installed in casing 1, and sieve 5 sets up a plurality ofly along casing 1 right, and the height of sieve 5 from left to right reduces gradually and is the notch cuttype, through the leg joint of "L" type between two adjacent sieves 5. It should be noted here that the raw material entering from the raw material inlet 6 slides in the right direction, and the stepped shape is convenient for sliding down in the right direction. Still including the convenient raw materials that gets into from raw materials feed inlet 6 slide right the portion of accepting, make things convenient for the raw materials to slide right through the portion of accepting, and accept the portion and install on casing 1. The receiving member facilitates the material to have a velocity to the right while also avoiding sliding to the left. The receiving component is a sliding plate 4, the sliding plate 4 is installed at the left end of the shell 1, the sliding plate 4 is located on the left side of the sieve plate 5, the left end of the sliding plate 4 inclines upwards, and the raw materials slide to the sieve plate 5 through the sliding plate 4. The sliding material plate 4 is arranged obliquely, so that a component force to the right is given to the raw materials, a rightward speed is generated, the rightward movement is accelerated, and the screening and the separation are facilitated.
The vibration mechanism is installed on the sieve plate 5, and the vibration mechanism increases the shaking amplitude of the sieve plate 5 through vibration. The vibration mechanism increases the vibration amplitude of the sieve plate 5, so that the separation of the muck and the aggregate is facilitated, and the sieving effect is improved. The vibrating mechanism is a vibrating motor 2 connected with the sieve plate 5. Vibrating motor 2 drives sieve 5 vibrations, and the material shake of being convenient for is sieved, also is convenient for to slide right simultaneously.
Still include elastomeric element, elastomeric element installs between the lower extreme of sieve 5 and casing 1, drives sieve 5 vibrations from top to bottom on elastomeric element when the raw materials removes, and sieve 5 can reciprocate along casing 1. The elastic component can increase the vibration amplitude of the sieve plate 5, is convenient for sieving, is provided with a conveyor belt mechanism at the lower side of the shell 1, and can convey the dregs sieved out by the dregs discharging port 7 to the left side and separate the dregs from the aggregates on the right side. The sieve plate 5 is a round hole sieve plate, and round sieve holes 52 are uniformly arranged on the sieve plate 5. The circular sieve holes 52 are uniformly distributed, the sieving area is large, and the sieving effect is good. Rubber spring 3 belongs to the support column of rubber material, and stability is good, has toughness simultaneously.
Example 3
Referring to fig. 4, the utility model provides a vibrating feeding screening machine technical scheme: a vibratory feeding and screening machine comprises a shell 1, a screen plate 5 and a vibrating mechanism.
The casing 1 is square, and the casing 1 is the form that link up of upper and lower open-ended, and the left end upside of casing 1 is raw materials feed inlet 6, and the right-hand member of casing 1 is the aggregate discharge gate 8 that the granule is bigger, and the lower extreme of casing 1 is the dregs discharge gate 7 that the granule is finer.
The sieve 5 is installed in casing 1, and sieve 5 sets up a plurality ofly along casing 1 right, and the height of sieve 5 from left to right reduces gradually and is the notch cuttype, through the leg joint of "L" type between two adjacent sieves 5. It should be noted here that the raw material entering from the raw material inlet 6 slides in the right direction, and the stepped shape is convenient for sliding down in the right direction. Still including the convenient raw materials that gets into from raw materials feed inlet 6 slide right the portion of accepting, make things convenient for the raw materials to slide right through the portion of accepting, and accept the portion and install on casing 1. The receiving member facilitates the material to have a velocity to the right while also avoiding sliding to the left. The receiving component is a sliding plate 4, the sliding plate 4 is installed at the left end of the shell 1, the sliding plate 4 is located on the left side of the sieve plate 5, the left end of the sliding plate 4 inclines upwards, and the raw materials slide to the sieve plate 5 through the sliding plate 4. The sliding material plate 4 is arranged obliquely, so that a component force to the right is given to the raw materials, a rightward speed is generated, the rightward movement is accelerated, and the screening and the separation are facilitated.
The vibration mechanism is installed on the sieve plate 5, and the vibration mechanism increases the shaking amplitude of the sieve plate 5 through vibration. The vibration mechanism increases the vibration amplitude of the sieve plate 5, so that the separation of the muck and the aggregate is facilitated, and the sieving effect is improved. The vibrating mechanism is a vibrating motor 2 connected with the sieve plate 5. Vibrating motor 2 drives sieve 5 vibrations, and the material shake of being convenient for is sieved, also is convenient for to slide right simultaneously. The sieve plate 5 is a steel wire mesh, and the sieve plate 5 is provided with meshes 53. The wire net is for general sieve mesh, and the mesh quantity is many, and it is gliding more easily, simultaneously, toughness is good, shakes easily.
Still include elastomeric element, elastomeric element installs between the lower extreme of sieve 5 and casing 1, drives sieve 5 vibrations from top to bottom on elastomeric element when the raw materials removes, and sieve 5 can reciprocate along casing 1. The elastic component can increase the vibration amplitude of the sieve plate 5, is convenient for sieving, is provided with a conveyor belt mechanism at the lower side of the shell 1, and can convey the dregs sieved out by the dregs discharging port 7 to the left side and separate the dregs from the aggregates on the right side. Rubber spring 3 belongs to the support column of rubber material, and stability is good, has toughness simultaneously.
Example 4
Referring to fig. 5, the utility model provides a vibrating feeding screening machine technical scheme: a vibratory feeding and screening machine comprises a shell 1, a screen plate 5 and a vibrating mechanism.
The casing 1 is square, and the casing 1 is the form that link up of upper and lower open-ended, and the left end upside of casing 1 is raw materials feed inlet 6, and the right-hand member of casing 1 is the aggregate discharge gate 8 that the granule is bigger, and the lower extreme of casing 1 is the dregs discharge gate 7 that the granule is finer.
The sieve 5 is installed in casing 1, and sieve 5 sets up a plurality ofly along casing 1 right, and the height of sieve 5 from left to right reduces gradually and is the notch cuttype, through the leg joint of "L" type between two adjacent sieves 5. It should be noted here that the raw material entering from the raw material inlet 6 slides in the right direction, and the stepped shape is convenient for sliding down in the right direction. Still including the convenient raw materials that gets into from raw materials feed inlet 6 slide right the portion of accepting, make things convenient for the raw materials to slide right through the portion of accepting, and accept the portion and install on casing 1. The receiving member facilitates the material to have a velocity to the right while also avoiding sliding to the left. The receiving component is a sliding plate 4, the sliding plate 4 is installed at the left end of the shell 1, the sliding plate 4 is located on the left side of the sieve plate 5, the left end of the sliding plate 4 inclines upwards, and the raw materials slide to the sieve plate 5 through the sliding plate 4. The sliding material plate 4 is arranged obliquely, so that a component force to the right is given to the raw materials, a rightward speed is generated, the rightward movement is accelerated, and the screening and the separation are facilitated.
The vibration mechanism is installed on the sieve plate 5, and the vibration mechanism increases the shaking amplitude of the sieve plate 5 through vibration. The vibration mechanism increases the vibration amplitude of the sieve plate 5, so that the separation of the muck and the aggregate is facilitated, and the sieving effect is improved. The vibrating mechanism is a vibrating motor 2 connected with the sieve plate 5. Vibrating motor 2 drives sieve 5 vibrations, and the material shake of being convenient for is sieved, also is convenient for to slide right simultaneously.
Still include elastomeric element, elastomeric element installs between the lower extreme of sieve 5 and casing 1, drives sieve 5 vibrations from top to bottom on elastomeric element when the raw materials removes, and sieve 5 can reciprocate along casing 1. The elastic component can increase the vibration amplitude of the sieve plate 5, is convenient for sieving, is provided with a conveyor belt mechanism at the lower side of the shell 1, and can convey the dregs sieved out by the dregs discharging port 7 to the left side and separate the dregs from the aggregates on the right side. The sieve plate 5 is a finger-shaped sieve plate, and a strip-shaped sieve pore 51 which runs through rightwards is arranged on the sieve plate 5. The bar screen holes 51 penetrate the screen deck 5 to the right, so that they are not easily stuck, and moreover, the resistance is small because they penetrate the opening to the right. The elastic member is a metal spring 31, the metal springs 31 are arranged in a plurality of front and rear directions, the lower ends of the metal springs 31 are connected through a support plate 32, and the support plate 32 is fixed on the housing 1. The metal spring has good elasticity and large vibration amplitude.
The working principle is as follows: the raw materials are added from a raw material feeding hole 6 and slide into a sieve plate 5 on the right side along a material sliding plate 4, the inclined material sliding plate 4 enables the raw materials to have kinetic energy to the right side, the raw materials are convenient to slide to the right side, screening is achieved, large aggregates slide out of an aggregate discharging hole 8 on the right side, fine dregs are screened out of an dreg discharging hole 7, and the fine dregs are conveyed to the left side through a conveying belt mechanism on the lower side, so that the aggregates are convenient to recycle. Sieve 5 is the notch cuttype, and the raw materials of being convenient for moves rightwards, and elastomeric element provides elastic support, and vibrating motor 2 then increases amplitude of vibration, improves sieve 5's screening effect.
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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A vibratory feed screening machine, comprising:
the device comprises a shell (1), wherein the shell (1) is square, the shell (1) is in a through shape with an upper opening and a lower opening, a raw material inlet (6) is formed in the upper side of the left end of the shell (1), an aggregate discharge hole (8) with larger particles is formed in the right end of the shell (1), and a residue discharge hole (7) with finer particles is formed in the lower end of the shell (1);
the sieve plate (5), the sieve plate (5) is installed in the shell (1), the sieve plate (5) is arranged rightwards along the shell (1) in a plurality of forms, the height of the sieve plate (5) is gradually reduced from left to right to form a ladder shape, and two adjacent sieve plates (5) are connected through an L-shaped support;
the vibrating mechanism is installed on the sieve plate (5), and the vibrating mechanism increases the shaking amplitude of the sieve plate (5) through vibration.
2. A vibratory feed screening machine according to claim 1 wherein: the vibrating mechanism is a vibrating motor (2) connected with the sieve plate (5).
3. A vibratory feed screening machine according to claim 2 wherein: still including the convenient raw materials that gets into from raw materials feed inlet (6) the gliding receiving part of right, make things convenient for the raw materials to slide right through the receiving part, and the receiving part is installed on casing (1).
4. A vibratory feed screening machine according to claim 3 wherein: the bearing part is a sliding plate (4), the sliding plate (4) is installed at the left end of the shell (1), the sliding plate (4) is located on the left side of the sieve plate (5), the left end of the sliding plate (4) is inclined upwards, and raw materials slide to the sieve plate (5) through the sliding plate (4).
5. A vibratory feed screening machine according to claim 4 wherein: still include elastomeric element, elastomeric element installs between the lower extreme of sieve (5) and casing (1), drives sieve (5) vibrations from top to bottom on elastomeric element when the raw materials removes, and sieve (5) can reciprocate along casing (1).
6. A vibratory feed screening machine according to claim 5, wherein: the sieve plate (5) is a finger-shaped sieve plate, and a bar-shaped sieve mesh (51) which penetrates through the sieve plate (5) rightwards is arranged on the sieve plate.
7. A vibratory feed screening machine according to claim 5, wherein: the sieve plate (5) is a round hole sieve plate, and round sieve holes (52) are uniformly formed in the sieve plate (5).
8. A vibratory feed screening machine according to claim 5, wherein: the sieve plate (5) is a steel wire mesh, and meshes (53) are arranged on the sieve plate (5).
9. A vibratory feed screening machine as claimed in any one of claims 6 to 8 wherein: the elastic component is a rubber spring (3), and the lower end of the rubber spring (3) is fixed on the shell (1).
10. A vibratory feed screening machine as claimed in any one of claims 6 to 8 wherein: the elastic component is a plurality of metal springs (31), the metal springs (31) are arranged in the front and at the back, the lower ends of the metal springs (31) are connected through supporting plates (32), and the supporting plates (32) are fixed on the shell (1).
CN202020847443.5U 2020-05-20 2020-05-20 Vibration feeding screening machine Expired - Fee Related CN212681650U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020847443.5U CN212681650U (en) 2020-05-20 2020-05-20 Vibration feeding screening machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020847443.5U CN212681650U (en) 2020-05-20 2020-05-20 Vibration feeding screening machine

Publications (1)

Publication Number Publication Date
CN212681650U true CN212681650U (en) 2021-03-12

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CN202020847443.5U Expired - Fee Related CN212681650U (en) 2020-05-20 2020-05-20 Vibration feeding screening machine

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111482357A (en) * 2020-05-20 2020-08-04 北京宜城环保科技有限公司 Vibration feeding screening machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111482357A (en) * 2020-05-20 2020-08-04 北京宜城环保科技有限公司 Vibration feeding screening machine

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Granted publication date: 20210312