CN218835164U - Straight following formula shale shaker - Google Patents

Straight following formula shale shaker Download PDF

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Publication number
CN218835164U
CN218835164U CN202320312672.0U CN202320312672U CN218835164U CN 218835164 U CN218835164 U CN 218835164U CN 202320312672 U CN202320312672 U CN 202320312672U CN 218835164 U CN218835164 U CN 218835164U
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CN
China
Prior art keywords
frame
fixed
powder
vibrating motor
shale shaker
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Active
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CN202320312672.0U
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Chinese (zh)
Inventor
张歌
贾济
张康康
贺占胥
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Xinxiang Gaofu Machinery Co Ltd
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Xinxiang Gaofu Machinery Co Ltd
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Priority to CN202320312672.0U priority Critical patent/CN218835164U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/62Plastics recycling; Rubber recycling

Abstract

The utility model discloses a straight following formula shale shaker relates to the relevant technical field of shale shaker. The utility model discloses a restriction frame, splice box, fixed frame and vibrating motor, upper portion is provided with the splice box in the restriction frame, and the splice box internal fixation has fixed frame, is the rectangle array in the fixed frame and is fixed with the branch box mutually, divides the box internal fixation to have the screen cloth, and fixed frame one side of splice box top is provided with vibrating motor. The utility model discloses a set up restriction frame, connection frame, fixed frame and vibrating motor, the powder is easy to cause because of hardening when having solved the shale shaker screening powder to arrange the problem that the powder scatters easily after the screening because the collision is great causes derivation back powder easily, the utility model has the advantages of: the powder can be fully loosened during screening, and can be better concentrated and output during leading out the powder, so that the powder is prevented from scattering.

Description

Straight following formula shale shaker
Technical Field
The utility model belongs to the technical field of the shale shaker is relevant, especially relate to a straight following formula shale shaker.
Background
The basic principle of the vibrating screen is that a heavy hammer (unbalanced weight hammer) arranged at the upper end and the lower end of a motor shaft is utilized to convert the rotary motion of the motor into horizontal, vertical and inclined three-dimensional motion, and then the motion is transmitted to a screen surface, if the phase angle of the heavy hammers at the upper part and the lower part is changed, the advancing direction of raw materials can be changed, starch or similar powder materials can be changed, because the treatment capacity of the powder materials is extremely large, most impurities are large-diameter impurities accidentally mixed for grinding and forming, the occupation ratio is very small, and the treatment capacity of the conventional rotary vibrating screen is obviously insufficient aiming at screening of the starch type powder materials, the high-precision screening is unnecessary, and more times, the blocking type screening is carried out for the sake of safety, but the following defects still exist in the practical use:
when the vibrating screen is used for screening powder, the discharging is not smooth due to the fact that the particles are extremely fine, the stacking density is high, and the powder is easy to harden and 'bridge' in the storage bin;
after the vibrating screen screens the powder, the powder after vibrating screen is usually directly guided to the next processing equipment, in the conveying process, the powder is screened fully, the state is loose, and in the conveying process, after collision and during guide, the scattering area is large, so that the powder flies upward, potential safety hazards are generated, and the powder is wasted to a certain extent.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a straight following formula shale shaker through setting up restriction frame, connection frame, fixed frame and vibrating motor, and the powder causes easily because hardening when having solved the shale shaker screening powder to arrange the material not smooth and sieve the back powder and cause the problem that the powder scatters easily after deriving because the collision is great easily.
In order to solve the technical problem, the utility model discloses a realize through following technical scheme:
the utility model relates to a straight following formula shale shaker, including restriction frame, splice box, fixed frame and vibrating motor, upper portion is provided with the splice box in the restriction frame, the splice box internal fixation has fixed frame, it is fixed with the branch box mutually to be the rectangular array in the fixed frame, divide the box internal fixation to have the screen cloth, fixed frame one side of splice box top is provided with vibrating motor, during operation, the utility model discloses a restriction frame limits supports the splice box, connects fixed frame wherein through the splice box, links together the branch box and the splice box wherein through the splice box, and during operation drives the splice box vibration through vibrating motor drive, drives fixed frame and splice box vibration for the branch box vibration in the fixed frame is loose with the powder vibration at this in-process, prevents that the powder from taking place bridging phenomenon and influence the screening to sieve the powder through the screen cloth.
Furthermore, a mounting frame is fixed in the middle of the outer side of the limiting frame, an outer conveying hopper is fixed at the bottom of the limiting frame, the limiting frame is mounted on the supporting frame structure through the mounting frame, and the powder screened in the connecting frame is guided into the output frame through the outer conveying hopper.
Furthermore, an output frame is fixed at the bottom of the outer conveying hopper, a support table is fixed at the lower part of the rear side of the output frame, and the powder intensively conveyed in the outer conveying hopper is guided to the next processing mechanism through the output frame.
Furthermore, the connecting frame includes inside casing and carriage, the outside lower part of inside casing is fixed with the carriage, the carriage sets up at the top of restriction frame, and inside casing swing joint of carriage below is in the restriction frame, and the connecting frame passes through the fixed frame of inside casing connection, and the cylinder-combining carriage supports at the restriction frame top.
Furthermore, the fixed frame is fixed in the connecting frame, an inner conveying hopper is fixed at the bottom of the fixed frame, a conveying frame is fixed at the bottom of the inner conveying hopper, and the powder screened in the fixed frame is guided into the conveying frame through the conveying hopper and then guided into the limiting frame through the conveying frame at the bottom of the conveying hopper.
Further, vibrating motor's output is fixed with the vibration axle, one side that vibrating motor was kept away from to the vibration axle is fixed in the inside casing one side that is close to vibrating motor, one side that the connecting frame was kept away from in the vibrating motor outside is fixed with the fixed block, the front side of fixed block and the lower part of rear side all are fixed with the mounting panel, and the vibration that vibrating motor produced passes through the vibration axle transmission back, the fixed frame vibration of drive.
The utility model discloses following beneficial effect has:
the utility model discloses a set up restriction frame, connection frame, fixed frame and vibrating motor, the powder is easy when having solved the shale shaker screening powder because harden and cause row's not smooth problem of material, and the during operation all makes the chamfer processing through the edge at top in the fixed frame in the separation frame for the powder is back in getting into fixed frame, when the separation frame is driven the vibration, and the powder is broken up, prevents that the powder from taking place the bridging phenomenon in the screening, has guaranteed the smoothness nature of row's material when using.
The utility model discloses a set up the restriction frame, connection frame and fixed frame, the problem that the powder scatters easily after having solved shale shaker screening because the collision is great causes derivation back powder easily, powder screening in fixed frame, lead in the interior transport fill, lead in the transport frame after concentrating through interior transport fill, the rethread transport frame leads in the restriction frame, lead in the outer transport fill by the restriction frame, lead in leading next processing agency in the output frame through outer transport fill, collect the powder through two steps, and concentrate the back transport, make powder output process can be concentrated better, and the arc through the output frame derives the collision when reducing the powder and deriving, the centralization when guaranteeing the powder and deriving, the powder is more difficult to scatter when deriving.
Drawings
FIG. 1 is a perspective view of the assembly structure of the present invention;
FIG. 2 is a perspective view of the structure of the limiting frame of the present invention;
FIG. 3 is a perspective view of the connecting frame structure of the present invention;
FIG. 4 is a perspective view of the fixing frame structure of the present invention;
FIG. 5 is a perspective view of the structure of the separation frame and the screen of the present invention;
fig. 6 is a perspective view of the structure of the vibration motor of the present invention.
Reference numerals:
100. a limit frame; 101. an outer conveying hopper; 102. installing a frame; 103. outputting a frame; 104. a support table; 200. a connecting frame; 201. an inner frame; 202. a support frame; 300. a fixing frame; 301. a separation frame; 302. a screen mesh; 303. an inner conveying hopper; 304. a conveying frame; 400. a vibration motor; 401. a vibration shaft; 402. a fixed block; 403. and (7) mounting the plate.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
Referring to fig. 1-6, the present invention relates to a direct type vibrating screen, including a limiting frame 100, a connection frame 200, a fixing frame 300 and a vibrating motor 400, wherein the upper portion of the limiting frame 100 is provided with the connection frame 200, the limiting frame 100 limits the connection frame 200 therein, the fixing frame 300 is connected therein through the connection frame 200, the fixing frame 200 is internally fixed with the fixing frame 300, the fixing frame 300 connects a separation frame 301 in an inner frame 201, the separation frame 301 is mutually fixed in the fixing frame 300 in a rectangular array, the edges of the inner top of the separation frame 301 are chamfered, so that after the powder enters the fixing frame 300, when the separation frame 301 is driven to vibrate, the powder is scattered, thereby preventing the powder from bridging during screening, the separation frame 301 is internally fixed with a screen 302, when the fixing frame 300 vibrates, the powder is screened through the screen 302 in the separation frame 301, large-particle impurities in the powder are screened out, one side of the fixing frame 300 above the connection frame 200 is provided with the vibrating motor 400, and the vibrating motor 400 drives the connection frame 200 to vibrate during operation.
As shown in FIGS. 1 and 2, a mounting frame 102 is fixed at the middle part of the outer side of the limiting frame 100, the mounting frame 102 enables the limiting frame 100 to be mounted on a supporting structure, an outer conveying hopper 101 is fixed at the bottom of the limiting frame 100, and powder enters the limiting frame 100 after being screened and then is guided into the outer conveying hopper 101 to be concentrated into an output frame 103.
As shown in fig. 1 and 2, an output frame 103 is fixed at the bottom of the outer conveying bucket 101, the output frame 103 guides the powder conveyed in the outer conveying bucket 101 to a next processing mechanism, a support table 104 is fixed at the lower part of the rear side of the output frame 103, and the support table 104 supports the output frame 103 on a corresponding support structure to maintain the inclined guiding of the output frame 103.
As shown in fig. 1 and 3, the connection frame 200 includes an inner frame 201 and a support frame 202, the support frame 202 is fixed on the lower portion of the outer side of the inner frame 201, the support frame 202 is disposed on the top of the limiting frame 100, the inner frame 201 below the support frame 202 is movably connected in the limiting frame 100, the inner frame 201 is supported on the limiting frame 100 through the support frame 202, the support frame 202 is matched with the inner frame 201 to close the top of the limiting frame 100, the fixing frame 300 is connected in the connection frame 200, and during sieving, powder is directly guided into the inner frame 201.
As shown in fig. 1, 3, 4 and 5, the fixing frame 300 is fixed in the connection frame 200, the inner hopper 303 is fixed to the bottom of the fixing frame 300, the conveying frame 304 is fixed to the bottom of the inner hopper 303, and the inner hopper 303 conveys the powder sieved in the fixing frame 300 to the conveying frame 304 and guides the powder to the limiting frame 100 through the inner conveying frame 304.
Wherein as shown in fig. 1, 6, the output of vibrating motor 400 is fixed with vibration axle 401, one side that vibrating motor 400 was kept away from to vibration axle 401 is fixed in the inside casing 201 and is close to one side of vibrating motor 400, the vibration that vibrating motor 400 produced is transmitted to inside casing 201 through vibration axle 401, drive the connecting frame 200 vibration, one side that the connecting frame 200 was kept away from in the vibrating motor 400 outside is fixed with fixed block 402, the front side of fixed block 402 and the lower part of rear side all are fixed with mounting panel 403, fixed block 402 supports vibrating motor 400 on bearing structure, and make fixed block 402 can link together with bearing structure through mounting panel 403.
The utility model discloses a concrete theory of operation does: when the vibrating screen is in work, the vibrating motor 400 is started, power generated by the vibrating motor 400 is transmitted to the connecting frame 200 through the vibrating shaft 401 to drive the connecting frame 200 to vibrate, then powder is guided into the inner frame 201, the connecting frame 200 vibrates to drive the fixed frame 300 to vibrate, the separation frame 301 in the fixed frame 300 is driven to vibrate in the vibrating process, chamfering processing is carried out on the edge of the inner top of the separation frame 301 in the vibrating process through the separation frame 301, the separation frame 301 enables the screen 302 to be separated into the inner frame 201 one by one, so that the powder is vibrated and dispersed after entering the inner frame 201, a bridging phenomenon is avoided in the screening process, meanwhile, the powder in the separation frame 301 is screened in the vibrating process through the screen 302 in the separation frame 301, the powder screened powder in the fixed frame 300 is guided into the inner conveying hopper 303, concentrated and then guided into the conveying frame 304 through the inner conveying hopper 303, then guided into the limiting frame 100 through the conveying frame 304, the limited frame 100 is guided into the outer conveying hopper 101, and guided into the output frame 103 through the outer conveying hopper 101 to be guided into the next processing mechanism.
The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a straight following formula shale shaker, includes restriction frame (100), linking frame (200), fixed frame (300) and vibrating motor (400), its characterized in that: upper portion is provided with link (200) in restriction frame (100), link (200) internal fixation has fixed frame (300), it separates frame (301) to be fixed with each other for the rectangular array in fixed frame (300), separate frame (301) internal fixation has screen cloth (302), fixed frame (300) one side of link (200) top is provided with vibrating motor (400).
2. The direct type vibrating screen of claim 1, wherein: the middle part of the outer side of the limiting frame (100) is fixed with a mounting frame (102), and the bottom of the limiting frame (100) is fixed with an outer conveying bucket (101).
3. A direct-lit shaker as claimed in claim 2, characterised in that: an output frame (103) is fixed at the bottom of the outer conveying hopper (101), and a support table (104) is fixed at the lower part of the rear side of the output frame (103).
4. The direct-lit vibrating screen of claim 1, wherein: the connecting frame (200) comprises an inner frame (201) and a supporting frame (202), the supporting frame (202) is fixed to the lower portion of the outer side of the inner frame (201), the supporting frame (202) is arranged at the top of the limiting frame (100), and the inner frame (201) below the supporting frame (202) is movably connected into the limiting frame (100).
5. The direct type vibrating screen of claim 4, wherein: the fixed frame (300) is fixed in the connecting frame (200), an inner conveying hopper (303) is fixed at the bottom of the fixed frame (300), and a conveying frame (304) is fixed at the bottom of the inner conveying hopper (303).
6. The direct type vibrating screen according to claim 5, wherein: the output of vibrating motor (400) is fixed with vibration axle (401), one side that vibrating motor (400) were kept away from in vibration axle (401) is fixed in one side that inside casing (201) is close to vibrating motor (400), one side that connecting frame (200) were kept away from in the vibrating motor (400) outside is fixed with fixed block (402), the front side of fixed block (402) and the lower part of rear side all are fixed with mounting panel (403).
CN202320312672.0U 2023-02-25 2023-02-25 Straight following formula shale shaker Active CN218835164U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320312672.0U CN218835164U (en) 2023-02-25 2023-02-25 Straight following formula shale shaker

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320312672.0U CN218835164U (en) 2023-02-25 2023-02-25 Straight following formula shale shaker

Publications (1)

Publication Number Publication Date
CN218835164U true CN218835164U (en) 2023-04-11

Family

ID=87306218

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320312672.0U Active CN218835164U (en) 2023-02-25 2023-02-25 Straight following formula shale shaker

Country Status (1)

Country Link
CN (1) CN218835164U (en)

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