CN214766777U - Square swinging screen body - Google Patents
Square swinging screen body Download PDFInfo
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- CN214766777U CN214766777U CN202120064380.0U CN202120064380U CN214766777U CN 214766777 U CN214766777 U CN 214766777U CN 202120064380 U CN202120064380 U CN 202120064380U CN 214766777 U CN214766777 U CN 214766777U
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Abstract
The utility model provides a square sieve body that sways, including the mount and hang the sieve case on the mount, connect through two universal connection axles between sieve case both sides and the mount respectively, sieve case upper portion is provided with upper screen subassembly, sieve case lower part is provided with lower floor's screening subassembly, sieve case one side is provided with divides the material subassembly, divide the material subassembly to be linked together with upper screen subassembly and lower floor's screening subassembly respectively, upper screen subassembly and lower floor's screening subassembly all include the screen cloth that at least two-layer slope set up, it is corresponding between two liang to lie in the screen cloth on the same layer in upper screen subassembly and the lower floor's screening subassembly, sieve case opposite side is fixedly connected with the play hopper that is linked together with each screen cloth respectively, be provided with the discharge gate on each play hopper respectively, it is linked together through the ripple hose to lie in upper screen subassembly and the lower floor's screening subassembly between the discharge gate that lies in the same layer of screen cloth corresponds. The utility model discloses compact structure, simple operation, screening efficiency are high, defeated material is efficient.
Description
Technical Field
The utility model belongs to the technical field of the sieve that sways, especially, relate to a square sieve body that sways.
Background
The artificial design-simulated principle of the swing screen is a high-efficiency screening machine specially designed for meeting the requirements of screening with large yield and high precision. The swing sieve is widely applied to the industries of chemistry, food and spice, plastics, mining industry, medicine, wood industry, plywood, metallurgy, rubber, feed, chemical fertilizer, sugar salt and regeneration. The square swing screen is common screening equipment and has the advantages of high screening precision and high yield. The existing square swing sieve adopts a single sieve structure, so that the screening efficiency is low, and the existing screening requirement cannot be met.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a solve the weak point among the prior art, provide a compact structure, simple operation, screening efficiency height, defeated efficient square swing screen frame of material.
In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a square sieve body that sways, including the mount and hang the sieve case on the mount, connect through two universal connection axles between sieve case both sides and the mount respectively, sieve case upper portion is provided with upper screen subassembly, sieve case lower part is provided with lower floor's screening subassembly, sieve case one side is provided with divides the material subassembly, divide the material subassembly to be linked together with upper screen subassembly and lower floor's screening subassembly respectively, upper screen subassembly and lower floor's screening subassembly all include the screen cloth that at least two-layer slope set up, it is corresponding between two liang to lie in the screen cloth on the same layer in upper screen subassembly and the lower floor's screening subassembly, sieve case opposite side is fixedly connected with the play hopper that is linked together with each screen cloth respectively, be provided with the discharge gate on each play hopper respectively, it is linked together through the ripple hose to lie in upper screen subassembly and the lower floor's screening subassembly between the discharge gate that lies in the same layer of screen cloth corresponds.
Divide the material subassembly to include the branch workbin of fixed connection at sieve case lateral part, divide workbin top flange joint to have the feeding case, the feed inlet has been seted up at feeding case top, fixedly connected with toper feeder hopper in the feed inlet, the feeding bottom of the case portion has been seted up respectively with upper screen subassembly and the corresponding branch material mouth of lower floor's screening subassembly, divide the material mouth to be linked together through the passage respectively between upper screen subassembly and the lower floor's screening subassembly.
The upper screen assembly and the lower screen assembly each include five screens.
The bottom of the feeding box is uniformly provided with four material distributing ports, wherein two material distributing ports are respectively communicated with the upper-layer sieve sub assembly through a first material guiding pipe and a second material guiding pipe; the other two material distribution openings are respectively communicated with the lower-layer screening assembly through a third material guide pipe and a fourth material guide pipe, the end part of the third material guide pipe is provided with a third material guide opening and is connected with a screen on the top layer in the lower-layer screening assembly, and the end part of the fourth material guide pipe is provided with a fourth material guide opening and is connected with a screen on the middle layer in the lower-layer screening assembly.
The material separating box and the discharge hoppers are respectively connected with the screen box through bolts or rivets.
By adopting the technical scheme, when the utility model is used, materials to be screened are led in from the feed inlet of the feed box and pass through the material distribution openings under the conical feed hopper, four material distribution openings are arranged, the materials fall into the four material distribution openings and respectively enter the first material guide pipe, the second material guide pipe, the third material guide pipe and the fourth material guide pipe, the materials entering the first material guide pipe and the second material guide pipe respectively enter the upper layer screen assembly through the first material guide opening and the second material guide opening, the materials entering the third material guide pipe and the fourth material guide pipe respectively enter the lower layer screen assembly through the third material guide opening and the fourth material guide opening, the screened materials respectively enter the discharge hopper, the discharge openings corresponding to the same layer of screen cloth in the upper layer screen assembly and the lower layer screen assembly are communicated through corrugated hoses, therefore, materials screened by the upper-layer screening component and the lower-layer screening component on the same layer are collected and discharged together; adopt above-mentioned structure, the utility model discloses an upper screen subassembly and lower floor's screening subassembly form double-deck screening to realized adopting a feed inlet to carry the material simultaneously to upper screen subassembly and lower floor's screening subassembly through dividing the material subassembly in, improved defeated material efficiency greatly.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Detailed Description
As shown in fig. 1, the utility model discloses a square swinging screen body, including mount 1 and screen box 2 of hanging on mount 1, connect through two universal connecting axles 3 respectively between screen box 2 both sides and the mount 1, screen box 2 upper portion is provided with upper screen subassembly 4, screen box 2 lower part is provided with lower floor's screening subassembly 5, screen box 2 one side is provided with divides the material subassembly, divide the material subassembly to be linked together with upper screen subassembly 4 and lower floor's screening subassembly 5 respectively, upper screen subassembly 4 and lower floor's screening subassembly 5 all include five layers of screen cloth that slope set up; the material distributing assembly comprises a material distributing box 6 fixedly connected to the side portion of the screen box 2, the top of the material distributing box 6 is connected with a feeding box 7 in a flange mode, the top of the feeding box 7 is provided with a feeding hole 8, a conical feeding hopper 9 is fixedly connected into the feeding hole 8, the bottom of the feeding box 7 is provided with material distributing ports 10 corresponding to the upper-layer screen sub assembly 4 and the lower-layer screen sub assembly 5 respectively, the bottom of the feeding box 7 is uniformly provided with four material distributing ports 10, two material distributing ports 10 are communicated with the upper-layer screen sub assembly 4 through a first material guide pipe 11 and a second material guide pipe 12 respectively, the end portion of the first material guide pipe 11 is provided with a first material guide port 13 and is connected with a screen mesh positioned at the top layer in the upper-layer screen sub assembly 4, and the end portion of the second material guide pipe 12 is provided with a second material guide port 14 and is connected with a screen mesh positioned at the middle layer in the upper-layer screen sub assembly 4; the other two material distributing openings 10 are respectively communicated with the lower-layer screening assembly 5 through a third material guiding pipe 15 and a fourth material guiding pipe 16, a third material guiding opening 17 is formed in the end portion of the third material guiding pipe 15 and is connected with a screen on the top layer in the lower-layer screening assembly 5, and a fourth material guiding opening 18 is formed in the end portion of the fourth material guiding pipe 16 and is connected with a screen on the middle layer in the lower-layer screening assembly 5; the screen meshes on the same layer in the upper-layer screening subassembly 4 and the lower-layer screening subassembly 5 correspond to each other, the other side of the screen box 2 is fixedly connected with a discharge hopper 19 communicated with each screen mesh, each discharge hopper 19 is provided with a discharge port 20, and the discharge ports 20 corresponding to the screen meshes on the same layer in the upper-layer screening subassembly 4 and the lower-layer screening subassembly 5 are communicated through a corrugated hose 21; the material separating box 6 and each material discharging hopper 19 are respectively connected with the sieve box 2 through bolts or rivets.
When the utility model is used, the material to be screened is led in from the feed inlet 8 of the feed box 7, and passes through the material distribution openings 10 after falling through the conical feed hopper 9, the number of the material distribution openings 10 is four, the material falls into the four material distribution openings 10 and respectively enters the first material guide 11, the second material guide 12, the third material guide 15 and the fourth material guide 16, the material entering the first material guide 11 and the second material guide 12 respectively enters the upper layer screening assembly 4 through the first material guide 13 and the second material guide 14, the material entering the third material guide 15 and the fourth material guide 16 respectively enters the lower layer screening assembly 5 through the third material guide 17 and the fourth material guide 18, the screened material respectively enters the material discharge hopper 19, the discharge outlets 20 corresponding to the same layer of screen cloth in the upper layer screening assembly 4 and the lower layer screening assembly 5 are communicated through the corrugated hose 21, therefore, materials screened by the upper-layer screening component 4 and the lower-layer screening component 5 on the same layer are collected and discharged together; adopt above-mentioned structure, the utility model discloses an upper screen subassembly 4 and lower floor's screening subassembly 5 form double-deck screening to realized adopting a feed inlet 8 to carry the material simultaneously to upper screen subassembly 4 and lower floor's screening subassembly 5 in through dividing the material subassembly, improved defeated material efficiency greatly.
The present embodiment is not intended to limit the shape, material, structure, etc. of the present invention in any form, and all of the technical matters of the present invention belong to the protection scope of the present invention to any simple modification, equivalent change and modification made by the above embodiments.
Claims (5)
1. The utility model provides a square sieve body that sways, includes the mount and hangs the sieve case on the mount, its characterized in that: the sieve case both sides are connected through two universal connection axles respectively with the mount between, sieve case upper portion is provided with upper screen subassembly, sieve case lower part is provided with lower floor's screening subassembly, sieve case one side is provided with divides the material subassembly, divide the material subassembly to be linked together with upper screen subassembly and lower floor's screening subassembly respectively, upper screen subassembly and lower floor's screening subassembly all include the screen cloth that two-layer at least slope set up, it is corresponding between two liang to be located the screen cloth on the same layer in upper screen subassembly and the lower floor's screening subassembly, sieve case opposite side fixedly connected with respectively and each screen cloth is linked together go out the hopper, be provided with the discharge gate on each discharge hopper respectively, be linked together through the ripple hose between the discharge gate that is located the same layer screen cloth and corresponds in upper screen subassembly and the lower floor's screening subassembly.
2. The square shaker screen body of claim 1, wherein: divide the material subassembly to include the branch workbin of fixed connection at sieve case lateral part, divide workbin top flange joint to have the feeding case, the feed inlet has been seted up at feeding case top, fixedly connected with toper feeder hopper in the feed inlet, the feeding bottom of the case portion has been seted up respectively with upper screen subassembly and the corresponding branch material mouth of lower floor's screening subassembly, divide the material mouth to be linked together through the passage respectively between upper screen subassembly and the lower floor's screening subassembly.
3. The square shaker screen body of claim 2, wherein: the upper screen assembly and the lower screen assembly each include five screens.
4. The square shaker screen body of claim 3, wherein: the bottom of the feeding box is uniformly provided with four material distributing ports, wherein two material distributing ports are respectively communicated with the upper-layer sieve sub assembly through a first material guiding pipe and a second material guiding pipe; the other two material distribution openings are respectively communicated with the lower-layer screening assembly through a third material guide pipe and a fourth material guide pipe, the end part of the third material guide pipe is provided with a third material guide opening and is connected with a screen on the top layer in the lower-layer screening assembly, and the end part of the fourth material guide pipe is provided with a fourth material guide opening and is connected with a screen on the middle layer in the lower-layer screening assembly.
5. The square shaker screen body of claim 4, wherein: the material separating box and the discharge hoppers are respectively connected with the screen box through bolts or rivets.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120064380.0U CN214766777U (en) | 2021-01-12 | 2021-01-12 | Square swinging screen body |
Applications Claiming Priority (1)
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CN202120064380.0U CN214766777U (en) | 2021-01-12 | 2021-01-12 | Square swinging screen body |
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CN214766777U true CN214766777U (en) | 2021-11-19 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116967125A (en) * | 2023-09-22 | 2023-10-31 | 新乡市先锋振动机械有限公司 | Square swinging screen with uniform cloth |
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2021
- 2021-01-12 CN CN202120064380.0U patent/CN214766777U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116967125A (en) * | 2023-09-22 | 2023-10-31 | 新乡市先锋振动机械有限公司 | Square swinging screen with uniform cloth |
CN116967125B (en) * | 2023-09-22 | 2023-12-19 | 新乡市先锋振动机械有限公司 | Square swinging screen with uniform cloth |
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