CN202498015U - Efficient screening vibrating screen with integrated internal-and-external screen frame - Google Patents
Efficient screening vibrating screen with integrated internal-and-external screen frame Download PDFInfo
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- CN202498015U CN202498015U CN2012200662963U CN201220066296U CN202498015U CN 202498015 U CN202498015 U CN 202498015U CN 2012200662963 U CN2012200662963 U CN 2012200662963U CN 201220066296 U CN201220066296 U CN 201220066296U CN 202498015 U CN202498015 U CN 202498015U
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- screen frame
- ring
- vibration
- hole
- sympathetic response
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Abstract
Disclosed is an efficient screening vibrating screen with integrated internal-and-external screen frame, comprising a screen frame (3), a screen mesh (1) arranged upon the screen frame (3), and a vibration head (2). The efficient screening vibrating screen is characterized in that: the screen frame (3) comprises an outer ring (32), a resonance ring (31), and a connecting band (33), wherein the outer ring (32) and the resonance ring (31) are connected via the connecting band (33); the vibration head (2), arranged at the outboard of the screen frame (3), is connected with a vibration-transmission shaft (4); the outer ring (32) is provided with an axle hole (321); the resonance ring (31) is provided with a connecting hole (311); the vibration-transmission shaft (4) is inserted from the axle hole (321) of the outer ring (32) to the connecting hole (311) of the resonance ring (31), thus to make the end face of the vibration-transmission shaft (4) and the end face of the connecting hole (311) tightly contact with each other by the action of a connecting bolt; and the resonance ring (31) is provided with the screen mesh (1) thereon. The efficient screening vibrating screen has advantages of high efficiency, low making cost, easy cleaning, and long service lifetime, and is not easy to damage the screen mesh during operation.
Description
1, technical field
The utility model relates to the efficient sifting vibrating sieve of the inside and outside screen frame of a kind of monoblock type.
2, background technology
The structure that existing ultrasonic vibration commonly used is sieved has two kinds:
A kind of structure is as shown in Figure 1, generally comprises screen frame 01, is located at the screen cloth that has mesh 02 on the screen frame 01 and is located at the ultrasonic vibration 03 of screen cloth 02 central authorities, and ultrasonic vibration 03 is provided with and power supply wire connecting 04.There is following defective in this ultrasonic vibration screen cloth when the filtering screening electrostatic powder: 1, because ultrasonic vibration head and connected electric wire expose above screen cloth; So when the filtering screening electrostatic powder; Ultrasonic vibration head and connected electric wire can be covered by powder, not easy to clean; 2, the ultrasonic vibration head can generate heat in the course of the work, causes electrostatic powder to solidify inefficiency; 3, the ultrasonic vibration head has constant weight, and it directly is carried in screen cloth central authorities, and when the ultrasonic vibration head was worked, screen cloth was fragile.
Another kind of structure is as shown in Figure 2, generally comprises screen frame 01, is located at the screen cloth that has mesh 02 on the screen frame 01, and is fixed on the ultrasonic vibration 03 on the screen frame 01.There is following defective in this ultrasonic vibration screen cloth when the filtering screening electrostatic powder: 1, the ultrasonic vibration head acts directly on the screen frame 01, and screen frame 01 is heavier, and the vibrational energy loss is big, and vibration frequency is low, and filter screen efficient is not high.
Except that the defective that two kinds of ultrasonic vibrations commonly used sieves exist as previously mentioned, the defective that also has a maximum is that the cost of ultrasonic vibrator is than higher.
3, summary of the invention
The purpose of the utility model is that a kind of high efficiency, low cost of manufacture are provided, be easy to clear up, the efficient sifting vibrating sieve of the inside and outside screen frame of the monoblock type of fragile screen cloth not when working.
The utility model is realized through following technical scheme scheme:
The efficient sifting vibrating sieve of the inside and outside screen frame of a kind of monoblock type comprises screen cloth and vibration head on screen frame, the screen frame, and described screen frame comprises outer ring, sympathetic response ring and connecting band; Outer ring and sympathetic response ring couple together through connecting band; Said vibration head is located at the outside of screen frame, and this vibration head is connected with one and passes the axle that shakes, and said outer ring is provided with an axis hole; Said sympathetic response ring is provided with connecting hole; The said biography axle that shakes inserts the connecting hole up to the sympathetic response ring in the axis hole of outer ring, and the end face that passes the axle that shakes is closely contacted under the effect of connecting bolt with the connecting hole end face, on the said sympathetic response ring screen cloth is installed.
Above-mentioned described outer ring, sympathetic response ring and connecting band are one-body molded.
Above-mentioned described connecting band is " Z " shape.
Above-mentioned described connecting hole is a stepped hole; Biography is shaken and is offered screwed hole on the axial end; Connecting bolt passes stepped hole and is screwed into the screwed hole that passes on the axial end of shaking from the inboard of sympathetic response ring, makes the end face that passes the axle that shakes with the closely contact under the effect of connecting bolt of stepped hole inner face.
The wall thickness of the connecting band between above-mentioned described outer ring and the sympathetic response ring is 0.2~2 millimeter.
Above-mentioned described biography is shaken and is provided with the vibration isolation cover between axle and the axis hole, and said vibration isolation cover is processed by nonmetallic materials.
Above-mentioned described said vibration head is gas vibrator vibration source or ultrasonic transducer vibration source.
Above-mentioned described screen cloth mesh pitch-row is 100~500 microns.
The utility model compared with prior art has following advantage: 1, the screen frame of the utility model comprises outer ring, sympathetic response ring and connecting band, and outer ring and sympathetic response ring couple together through connecting band, and vibration head is located at the outside, screen frame outer ring; Be delivered to screen cloth to vibration through the sympathetic response ring, so when vibration head is worked, even its heating; Can not make the electrostatic powder curing on the screen cloth cause the screen cloth mesh to stop up high efficiency, compact conformation yet; The screen cloth dust is cleared up easily, low cost of manufacture; 2, hold together with the thin-walled connecting band between the sympathetic response ring of screen frame and the outer ring; Said biography is shaken and is provided with the vibration isolation cover that nonmetallic materials are processed between axle and the axis hole; These prevent that when guaranteeing the screen frame cramped construction vibration is delivered on the screen frame outer ring; Energy loss with minimum passes to vibration on the screen cloth, and screen cloth obtains maximum vibratory output, the power that output is maximum; 3, vibration head and screen cloth adopt to divide a body structure, the cleaning of screen cloth, change convenient, quick; 4, said outer ring is provided with an axis hole, and said sympathetic response ring is provided with connecting hole, and the said biography axle that shakes inserts the connecting hole up to the sympathetic response ring in the axis hole of outer ring; Connecting hole is a stepped hole; Biography is shaken and is offered screwed hole on the axial end, and connecting bolt passes stepped hole and is screwed into the screwed hole that passes on the axial end of shaking from the inboard of sympathetic response ring, and the end face that passes the axle that shakes is closely contacted under the effect of connecting bolt with the stepped hole inner face; Simple in structure, pass the axle that shakes and be connected tightr with the sympathetic response ring; 5, said vibratory sieve is applicable to gas vibrator vibration source and ultrasonic transducer vibration source simultaneously; The cost of gas vibrator is lower than the cost of ultrasonic transducer; In use various conditions is selected different vibration sources for use, and efficent use of resources is practiced thrift manufacturing cost greatly.6, the connecting band between above-mentioned described outer ring and the sympathetic response ring is " Z " shape, and wall thickness is 0.2~2 millimeter, and the vibration of sympathetic response ring is isolated by connecting band, is difficult to be delivered to the outer ring.
4, description of drawings:
Fig. 1 is a kind of structural representation of existing ultrasonic vibration screen cloth.
Fig. 2 is the another kind of structural representation of existing ultrasonic vibration screen cloth.
Fig. 3 is the utility model structural representation.
Fig. 4 is the vertical view of Fig. 3.
Fig. 5 is the A-A partial enlarged drawing of Fig. 3.
Fig. 6 is the structure cutaway view of the utility model screen frame
5, the specific embodiment:
Like Fig. 3, Fig. 4, Fig. 5 and shown in Figure 6, the efficient sifting vibrating sieve of the inside and outside screen frame of a kind of monoblock type comprises screen frame 3, is located at screen cloth 1 and vibration head 2 on the screen frame 3; Described screen frame 3 comprises outer ring 32, sympathetic response ring 31 and connecting band 33, and outer ring 32 couples together through connecting band 33 with sympathetic response ring 31, and said vibration head 2 is located at the outside of screen frame 3; This vibration head 2 is connected with one and passes the axle 4 that shakes, and said outer ring 32 is provided with an axis hole 321, and said sympathetic response ring 31 is provided with connecting hole 311; Shake axle 4 of said biography inserts the connecting holes 311 up to sympathetic response ring 31 in 32 the axis hole 321 from the outer ring, the end face that passes the axle 4 that shakes is closely contacted under the effect of connecting bolt 5 with connecting hole 311 end faces, on the said sympathetic response ring 31 screen cloth 1 is installed; Outer ring 32, sympathetic response ring 31 and connecting band 33 are one-body molded; Connecting band 33 is " Z " shapes, plays certain vibration isolation effect, and connecting hole 311 is stepped holes; The biography axle that shakes offers screwed hole 41 on 4 end faces; Connecting bolt 5 passes stepped hole and is screwed into the screwed hole 41 that passes on axle 4 end faces that shake from the inboard of sympathetic response ring 31, makes the end face that passes the axle 4 that shakes with the closely contact under the effect of connecting bolt of stepped hole inner face, and the wall thickness of the connecting band 33 between said outer ring 32 and the sympathetic response ring 31 is 0.2~2 millimeter; Said biography is shaken and is provided with vibration isolation cover 6 between axle 4 and the axis hole 321; Said vibration isolation cover 6 is processed by nonmetallic materials, and said vibration head 2 is gas vibrator vibration source or ultrasonic transducer vibration source, and said screen cloth 1 mesh pitch-row is 100~500 microns.
The utility model vibration head will be vibrated and pass the axle that shakes through one and pass to the sympathetic response ring, and transmitting vibrations is in screen cloth behind the sympathetic response ring vibration, and the screen cloth vibration forces oarse-grained powder to rest on above the screen cloth; Short grained powder then passes through screen cloth; The utility model uses different vibration sources to different condition, and efficent use of resources saves production cost; High efficiency, screen cloth are easy to cleaning and its screen cloth is difficult for shaking brokenly long service life.
Claims (8)
1. the efficient sifting vibrating of the inside and outside screen frame of monoblock type sieves; Comprise screen frame (3), be located at screen cloth (1) and vibration head (2) on the screen frame (3); It is characterized in that: described screen frame (3) comprises outer ring (32), sympathetic response ring (31) and connecting band (33), and outer ring (32) and sympathetic response ring (31) couple together through connecting band (33), and said vibration head (2) is located at the outside of screen frame (3); This vibration head (2) is connected with one and passes the axle (4) that shakes; Said outer ring (32) is provided with an axis hole (321), and said sympathetic response ring (31) is provided with connecting hole (311), and the said biography axle (4) that shakes inserts the connecting hole (311) up to sympathetic response ring (31) in the axis hole (321) of (32) from the outer ring; Make the same connecting hole of end face (311) the end face closely contact under the effect of connecting bolt (5) that passes the axle (4) that shakes, screen cloth (1) is installed on the said sympathetic response ring (31).
2. the efficient sifting vibrating sieve of the inside and outside screen frame of a kind of monoblock type according to claim 1, it is characterized in that: outer ring (32), sympathetic response ring (31) and connecting band (33) are one-body molded.
3. the efficient sifting vibrating sieve of the inside and outside screen frame of a kind of monoblock type according to claim 2, it is characterized in that: connecting band (33) is " Z " shape.
4. the efficient sifting vibrating according to screen frame inside and outside claim 1 or the 2 or 3 described a kind of monoblock types sieves; It is characterized in that: connecting hole (311) is a stepped hole; The biography axle that shakes offers screwed hole (41) on (4) end face; Connecting bolt (5) passes stepped hole and is screwed into the screwed hole (41) that passes on axle (4) end face that shakes from the inboard of sympathetic response ring (31), makes the end face that passes the axle (4) that shakes with the closely contact under the effect of connecting bolt of stepped hole inner face.
5. according to the efficient sifting vibrating sieve of screen frame inside and outside claim 1 or the 2 or 3 described a kind of monoblock types, it is characterized in that: the wall thickness of the connecting band (33) between said outer ring (32) and the sympathetic response ring (31) is 0.2~2 millimeter.
6. according to the efficient sifting vibrating sieve of screen frame inside and outside claim 1 or the 2 or 3 described a kind of monoblock types, it is characterized in that: said biography is shaken and is provided with vibration isolation cover (6) between axle (4) and the axis hole (321), and said vibration isolation cover (6) is processed by nonmetallic materials.
7. according to the efficient sifting vibrating sieve of screen frame inside and outside claim 1 or the 2 or 3 described a kind of monoblock types, it is characterized in that: said vibration head (2) is gas vibrator vibration source or ultrasonic transducer vibration source.
8. according to the efficient sifting vibrating sieve of screen frame inside and outside claim 1 or the 2 or 3 described a kind of monoblock types, it is characterized in that: said screen cloth (1) mesh pitch-row is 100~500 microns.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2012200662963U CN202498015U (en) | 2012-02-27 | 2012-02-27 | Efficient screening vibrating screen with integrated internal-and-external screen frame |
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CN2012200662963U CN202498015U (en) | 2012-02-27 | 2012-02-27 | Efficient screening vibrating screen with integrated internal-and-external screen frame |
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CN202498015U true CN202498015U (en) | 2012-10-24 |
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CN2012200662963U Expired - Fee Related CN202498015U (en) | 2012-02-27 | 2012-02-27 | Efficient screening vibrating screen with integrated internal-and-external screen frame |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102580917A (en) * | 2012-02-27 | 2012-07-18 | 裕东(中山)机械工程有限公司 | High-efficiency screening and vibrating sieve for integrated inner and outer screening frame |
WO2013127282A1 (en) * | 2012-02-27 | 2013-09-06 | 裕东(中山)机械工程有限公司 | Vibrating sieve |
-
2012
- 2012-02-27 CN CN2012200662963U patent/CN202498015U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102580917A (en) * | 2012-02-27 | 2012-07-18 | 裕东(中山)机械工程有限公司 | High-efficiency screening and vibrating sieve for integrated inner and outer screening frame |
WO2013127282A1 (en) * | 2012-02-27 | 2013-09-06 | 裕东(中山)机械工程有限公司 | Vibrating sieve |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121024 Termination date: 20200227 |
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CF01 | Termination of patent right due to non-payment of annual fee |