CN203470326U - Screen plate assembly of vibrating screen - Google Patents
Screen plate assembly of vibrating screen Download PDFInfo
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- CN203470326U CN203470326U CN201320515150.7U CN201320515150U CN203470326U CN 203470326 U CN203470326 U CN 203470326U CN 201320515150 U CN201320515150 U CN 201320515150U CN 203470326 U CN203470326 U CN 203470326U
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- cushion block
- elastic cushion
- plate
- wing plate
- connector
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Abstract
The utility model discloses a screen plate assembly of a vibrating screen. The screen plate assembly comprises a cross beam, a wing plate, a plurality of screen plates and elastic fastener assemblies. The wing plate is fixed to the cross beam, and the screen plates are connected with the wing plate through the elastic fastener assemblies in a fastening mode. The screen plate assembly of the vibrating screen has the advantages of being simple in structure, convenient to install and capable of saving manpower and improving the construction safety.
Description
Technical field
The utility model relates to a kind of sieve plate of screening plant, relates in particular to Vibration Screen board component.
Background technology
Vibratory sieve is the common equipment in industrial production, its role is to filter out the material particles that granularity meets production requirement.The main consumptive material of vibratory sieve is compass screen surface, due to the wearing and tearing of material to compass screen surface, must regularly change guarantee screening effect.Because compass screen surface will meet this Production requirement, thereby the not only solid and reliable but also easy disassembly of the fixed form of compass screen surface.
The compass screen surface structure of existing vibratory sieve as depicted in figs. 1 and 2, it is comprised of by certain rule proper alignment in screen frame some sieve plates 1, on each sieve plate 1 with four through holes, sieve plate 1 below is provided with the wing plate 4 being fixed on crossbeam 3, on wing plate 4, be also provided with through hole, through hole on sieve plate 1 is corresponding one by one with the through hole on wing plate 4, and by the bolt group 2 being arranged in through hole, sieve plate 1 is fastened on wing plate 4.
This syndeton is the most conventional syndeton, but while installing for vibration sieve plate, there are three defects: 1, compass screen surface is comprised of dozens or even hundreds of sieve plate conventionally, each sieve plate will be installed four bolt groups, its installation workload is very large, in addition each bolt group needs to tighten, and has more increased working strength; 2, the structure of vibratory sieve and the residing determining positions of compass screen surface compass screen surface top and compass screen surface below isolate, execute man-hour requirement and have up and down workman's (as shown in Figure 3) at compass screen surface, ability construction bolt group, not only increased manpower, and compass screen surface below is generally feed leakage bucket, work the thereon danger of landing of workman; When 3, compass screen surface is changed, due to reasons such as washing away of material, bolt group originally cannot be backed out smoothly and take apart, can only be cut, and the easy-to-dismount advantage of bolt group fails to obtain actual embodiment.
Utility model content
The technical problems to be solved in the utility model is to overcome the deficiencies in the prior art, provide a kind of simple in structure, easy for installation, can save manpower, improve the Vibration Screen board component of working security.
For solving the problems of the technologies described above, the utility model by the following technical solutions:
A Vibration Screen board component, comprises crossbeam, wing plate, some sieve plates and Elastic buckle assembly, and described wing plate is fixed on crossbeam, and described sieve plate is fastenedly connected by Elastic buckle assembly and wing plate.
Described Elastic buckle assembly comprises blunt nosed connector, elastic cushion block and lock device, described elastic cushion block is located at sieve plate top, described lock device is fixedly arranged on wing plate below, on described wing plate and sieve plate, establish the through hole matching, described blunt nosed connector one end is installed with on elastic cushion block, and the other end is through through hole and lock device clamping.
Described lock device comprises circular body, and the lower end of described circular body is provided with the elasticity claw of elastically deformable; Described blunt nosed connector lower end is provided with coniform clamping joint, and the bigger diameter end of described coniform clamping joint is pressed in the elasticity claw end under nature.
Described elasticity claw consists of two above shell fragments, and described two above shell fragments are uniformly distributed circumferentially.
Described elastic cushion block is cylindric, and described blunt nosed connector upper end is provided with round pie pressing plate, and described round pie pressing plate is installed with in elastic cushion block upper end, and the diameter of round pie pressing plate is greater than the external diameter of elastic cushion block.
Described Elastic buckle assembly comprises elastic cushion block and bail connector, described elastic cushion block is located at sieve plate top, on described wing plate and sieve plate, establish the through hole matching, described bail connector one end is installed with on elastic cushion block, and the other end is through through hole and the clamping of wing plate lower surface.
Described bail connector lower end is provided with resilient barb, and described resilient barb upper end compresses wing plate lower surface.
Described resilient barb consists of two above shell fragments, and described two above shell fragments are uniformly distributed circumferentially.
Described elastic cushion block is cylindric, and described bail connector upper end is provided with cake pressing plate, and described cake pressing plate is installed with in elastic cushion block upper end, and the diameter of cake pressing plate is greater than the external diameter of elastic cushion block.
Compared with prior art, the utility model has the advantage of:
Vibration Screen board component of the present utility model, its sieve plate is fastenedly connected by Elastic buckle assembly and wing plate, only need first by the Relative position determination of sieve plate and wing plate, with Elastic buckle assembly, the two is fastened together again, while not needing with bolt and nut fixedly, tighten operation, below compass screen surface, do not need workman to coordinate yet, saved manpower, improved the security that sieve plate assembly is installed simultaneously.
Accompanying drawing explanation
Fig. 1 is the structural representation of existing Vibration Screen board component.
Fig. 2 is the A-A cutaway view Amplified image of Fig. 1.
Fig. 3 is the mounting means schematic diagram of existing Vibration Screen board component.
Fig. 4 is the structural representation of the first Vibration Screen board component embodiment.
Fig. 5 is the B-B cutaway view Amplified image of Fig. 4.
Fig. 6 is the stereo amplification figure of lock device.
Fig. 7 is the cutaway view of the second Vibration Screen board component embodiment.
Fig. 8 is the stereo amplification figure of bail connector.
In figure, each label represents:
1, sieve plate; 2, bolt group; 3, crossbeam; 4, wing plate; 5, Elastic buckle assembly; 51, blunt nosed connector; 52, elastic cushion block; 53, lock device; 54, bail connector; 511, coniform clamping joint; 512, round pie pressing plate; 531, circular body; 532, elasticity claw; 541, resilient barb; 542, cake pressing plate.
The specific embodiment
Fig. 4 to Fig. 6 shows the first Vibration Screen board component embodiment of the present utility model, this sieve plate assembly comprises crossbeam 3, wing plate 4, some sieve plates 1 and Elastic buckle assembly 5, wing plate 4 is fixed on crossbeam 3, each sieve plate 1 is fastenedly connected by Elastic buckle assembly 5 and wing plate 4, only need the first Relative position determination with wing plate 4 by sieve plate 1, with Elastic buckle assembly 5, the two is fastened together again, while not needing with bolt and nut fixedly, tighten operation, below compass screen surface, do not need workman to coordinate simultaneously yet, saved manpower, improved the security that sieve plate assembly is installed.
In the present embodiment, Elastic buckle assembly 5 comprises blunt nosed connector 51, elastic cushion block 52 and lock device 53, elastic cushion block 52 is located at sieve plate 1 top, lock device 53 is fixedly arranged on wing plate 4 belows, on wing plate 4 and sieve plate 1, establish the through hole matching, blunt nosed connector 51 one end are installed with on elastic cushion block 52, and the other end is through through hole and lock device 53 clampings.Lock device 53 comprises circular body 531, and the lower end of circular body 531 is provided with the elasticity claw 532 of elastically deformable, and elasticity claw 532 consists of two above shell fragments, and two above shell fragments are uniformly distributed circumferentially, and the present embodiment is three shell fragments; Blunt nosed connector 51 lower ends are provided with coniform clamping joint 511, and the bigger diameter end of coniform clamping joint 511 is pressed in elasticity claw 532 ends under nature; Elastic cushion block 52 is cylindric, and blunt nosed connector 51 upper ends are provided with round pie pressing plate 512, and round pie pressing plate 512 is installed with in elastic cushion block 52 upper ends, and the diameter of round pie pressing plate 512 is greater than the external diameter of elastic cushion block 52.Install before wing plate 4, first lock device 53 be weldingly fixed on to wing plate 4 belows, and make with lock device 53 and wing plate 4 on through-hole alignment, after wing plate 4 is fixed on crossbeam 3, then mounted sieve 1, during mounted sieve 1, first the through hole on sieve plate 1 is alignd with the through hole on wing plate 4, and above sieve plate 1, lay elastic cushion block 52, make the through hole of elastic cushion block 52 and the through-hole alignment on sieve plate 1, again the coniform clamping joint 511 of blunt nosed connector 51 is passed to the through hole of elastic cushion block 52 successively, the through hole of sieve plate 1, the circular body 531 of the through hole of wing plate 4 and lock device 53 and elasticity claw 532, when by elasticity claw 532, elasticity claw 532 is strutted by coniform clamping joint 511, coniform clamping joint 511 reclaims by rear elasticity claw 532 completely, the bigger diameter end of coniform clamping joint 511 is spacing by elasticity claw 532 lower ends, make it can not rollback, the coniform clamping joint 511 of blunt nosed connector 51 is by elasticity claw 532 time, the round pie pressing plate 512 of blunt nosed connector 51 upper ends compresses the upper end of elastic cushion block 52 gradually, make elastic cushion block 52 produce strain, when coniform clamping joint 511 is completely by after elasticity claw 532, elastic cushion block 52 tensioners are between round pie pressing plate 512 and sieve plate 1 upper surface, make sieve plate 1 form firm being connected with wing plate 4.
Fig. 7 and Fig. 8 show the second Vibration Screen board component embodiment of the present utility model, the present embodiment and a upper embodiment are basic identical, difference is only: this sieve plate assembly comprises that Elastic buckle assembly 5 comprises elastic cushion block 52 and bail connector 54, elastic cushion block 52 is located at sieve plate 1 top, on wing plate 4 and sieve plate 1, establish the through hole matching, bail connector 54 one end are installed with on elastic cushion block 52, and the other end is through through hole and wing plate 4 lower surface clampings.Bail connector 54 lower ends are provided with resilient barb 541, and resilient barb 541 consists of two above shell fragments, and two above shell fragments are uniformly distributed circumferentially, and the present embodiment is three shell fragments, and resilient barb 541 upper ends compress wing plate 4 lower surfaces; Elastic cushion block 52 is cylindric, and bail connector 54 upper ends are provided with cake pressing plate 542, and cake pressing plate 542 is installed with in elastic cushion block 52 upper ends, and the diameter of cake pressing plate 542 is greater than the external diameter of elastic cushion block 52.During mounted sieve 1, first the through hole on sieve plate 1 is alignd with the through hole on wing plate 4, and above sieve plate 1, lay elastic cushion block 52, make the through hole of elastic cushion block 52 and the through-hole alignment on sieve plate 1, again the resilient barb of bail connector 54 541 is passed to the through hole of elastic cushion block 52 successively, the through hole of the through hole of sieve plate 1 and wing plate 4, when the through hole by wing plate 4, resilient barb 541 is by the through hole compression of wing plate 4, resilient barb 541 pass through completely after in self elastic force effect original state again next time, resilient barb 541 upper ends are spacing by wing plate 4 lower surfaces, make it can not rollback, when the resilient barb 541 of bail connector 54 is passed through wing plate 4 through hole, the cake pressing plate 542 of bail connector 54 compresses the upper end of elastic cushion block 52 gradually, make elastic cushion block 52 produce strain, when resilient barb 541 is completely by after the through hole of wing plate 4, elastic cushion block 52 tensioners are between cake pressing plate 542 and sieve plate 1 upper surface, make sieve plate 1 form firm being connected with wing plate 4.
Although the utility model discloses as above with preferred embodiment, yet not in order to limit the utility model.Any those of ordinary skill in the art, in the situation that not departing from technical solutions of the utility model scope, all can utilize the technology contents of above-mentioned announcement to make many possible changes and modification to technical solutions of the utility model, or be revised as the equivalent embodiment of equivalent variations.Therefore, every content that does not depart from technical solutions of the utility model,, all should drop in the scope of technical solutions of the utility model protection any simple modification made for any of the above embodiments, equivalent variations and modification according to the utility model technical spirit.
Claims (9)
1. a Vibration Screen board component, comprise crossbeam (3), wing plate (4) and some sieve plates (1), described wing plate (4) is fixed on crossbeam (3), it is characterized in that: also comprise Elastic buckle assembly (5), described sieve plate (1) is fastenedly connected by Elastic buckle assembly (5) and wing plate (4).
2. Vibration Screen board component according to claim 1, it is characterized in that: described Elastic buckle assembly (5) comprises blunt nosed connector (51), elastic cushion block (52) and lock device (53), described elastic cushion block (52) is located at sieve plate (1) top, described lock device (53) is fixedly arranged on wing plate (4) below, on described wing plate (4) and sieve plate (1), establish the through hole matching, described blunt nosed connector (51) one end is installed with in elastic cushion block (52) upper, and the other end is through through hole and lock device (53) clamping.
3. Vibration Screen board component according to claim 2, is characterized in that: described lock device (53) comprises circular body (531), and the lower end of described circular body (531) is provided with the elasticity claw (532) of elastically deformable; Described blunt nosed connector (51) lower end is provided with coniform clamping joint (511), and the bigger diameter end of described coniform clamping joint (511) is pressed in elasticity claw (532) end under nature.
4. Vibration Screen board component according to claim 3, is characterized in that: described elasticity claw (532) consists of two above shell fragments, and described two above shell fragments are uniformly distributed circumferentially.
5. according to the Vibration Screen board component described in claim 2 or 3 or 4, it is characterized in that: described elastic cushion block (52) is cylindric, described blunt nosed connector (51) upper end is provided with round pie pressing plate (512), described round pie pressing plate (512) is installed with in elastic cushion block (52) upper end, and the diameter of round pie pressing plate (512) is greater than the external diameter of elastic cushion block (52).
6. Vibration Screen board component according to claim 1, it is characterized in that: described Elastic buckle assembly (5) comprises elastic cushion block (52) and bail connector (54), described elastic cushion block (52) is located at sieve plate (1) top, on described wing plate (4) and sieve plate (1), establish the through hole matching, described bail connector (54) one end is installed with in elastic cushion block (52) upper, and the other end is through through hole and wing plate (4) lower surface clamping.
7. Vibration Screen board component according to claim 6, is characterized in that: described bail connector (54) lower end is provided with resilient barb (541), and described resilient barb (541) upper end compresses wing plate (4) lower surface.
8. Vibration Screen board component according to claim 7, is characterized in that: described resilient barb (541) consists of two above shell fragments, and described two above shell fragments are uniformly distributed circumferentially.
9. according to the Vibration Screen board component described in claim 6 or 7 or 8, it is characterized in that: described elastic cushion block (52) is cylindric, described bail connector (54) upper end is provided with cake pressing plate (542), described cake pressing plate (542) is installed with in elastic cushion block (52) upper end, and the diameter of cake pressing plate (542) is greater than the external diameter of elastic cushion block (52).
Priority Applications (1)
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CN201320515150.7U CN203470326U (en) | 2013-08-22 | 2013-08-22 | Screen plate assembly of vibrating screen |
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CN201320515150.7U CN203470326U (en) | 2013-08-22 | 2013-08-22 | Screen plate assembly of vibrating screen |
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CN203470326U true CN203470326U (en) | 2014-03-12 |
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CN201320515150.7U Expired - Lifetime CN203470326U (en) | 2013-08-22 | 2013-08-22 | Screen plate assembly of vibrating screen |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108348961A (en) * | 2015-06-30 | 2018-07-31 | 欧盛腾集团公司 | Rotary screen screen holding device |
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2013
- 2013-08-22 CN CN201320515150.7U patent/CN203470326U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108348961A (en) * | 2015-06-30 | 2018-07-31 | 欧盛腾集团公司 | Rotary screen screen holding device |
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Granted publication date: 20140312 |