CN210943406U - Energy-saving and noise-reducing chute of sand and stone processing system - Google Patents
Energy-saving and noise-reducing chute of sand and stone processing system Download PDFInfo
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- CN210943406U CN210943406U CN201921561998.7U CN201921561998U CN210943406U CN 210943406 U CN210943406 U CN 210943406U CN 201921561998 U CN201921561998 U CN 201921561998U CN 210943406 U CN210943406 U CN 210943406U
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Abstract
The utility model belongs to the technical field of grit production, especially, relate to a grit processing system energy-conserving and noise-reducing chute, including chute meet panel, chute steel curb plate, cylinder, material collecting groove and rubber damping layer, chute meet panel both sides fixed chute steel curb plate, chute meet panel and chute steel curb plate be "pi" form distribution, set up the cylinder between chute steel curb plate one side, chute meet panel bottom one side fixed set up material collecting groove, material collecting groove sets up in cylinder one side, chute meet panel inside wall and chute steel curb plate inside wall all fix the rubber damping layer, form the chute outlet between chute steel curb plate bottom and material collecting groove; the utility model discloses reach and improve production efficiency, reduce chute maintenance duration, reduce running cost's purpose, the chute that adds the chute that gathers materials groove and rubber damping layer after the improvement, add the chute of angle steel, life is whole operation period, and production efficiency obtains better control, has overcome the problem that the noise is big, the vibration is big simultaneously.
Description
Technical Field
The utility model belongs to the technical field of the grit production, especially, relate to a chute of grit system of processing stand wear and tear low noise.
Background
The chute in the technical field of sand and stone production at present is made of raw materials mainly steel plates, and is made of steel plates to resist erosion of sand and stone materials, the sand and stone aggregate impact funnel type chute facing panels can generate large noise and large vibration, and steel plates can be abraded due to long-time friction of aggregates on bottom plates and side plates.
The former material of the traditional common steel plate chute is a common steel plate, aggregate produced by a sand and stone system for a long time rubs with the chute for a long time, the impact is large, the noise is large, the service life is short, and the like, according to the on-site operation condition of sand and stone aggregate, the steel plate with the thickness of 16mm continuously impacts and rubs by sand and stone materials, and the chute needs to be repaired for one time in average 7-10 days, so that the long-term operation of a sand and stone production line is not facilitated, and the chute abrasion caused by friction needs to be continuously replaced and welded.
Disclosure of Invention
For solving the problem that the chute of the prior art is large in abrasion, large in noise and large in vibration, the utility model provides a chute of a sandstone processing system with abrasion resistance and low noise.
In order to achieve the above purpose, the utility model adopts the following technical scheme: an energy-saving and noise-reducing chute of a sand and stone processing system comprises a chute facing panel, chute steel side plates, a roller, a material collecting groove and a rubber damping layer, wherein the chute steel side plates are fixed on two sides of the chute facing panel;
the chute steel side plate comprises a first chute steel side plate and a second chute steel side plate, the first chute steel side plate and the second chute steel side plate are arranged in parallel, the first chute steel side plate and the second chute steel side plate are respectively fixed on two sides of a chute facing plate, a first roller groove is formed in one side of the first chute steel side plate, the first roller groove is in a semicircular arc shape, a second roller groove is formed in one side of the second chute steel side plate, the second roller groove is in a semicircular arc shape, the first roller groove and the second roller groove are correspondingly arranged, and the rollers are arranged between the first roller groove and the second roller groove,
the collecting trough is integrally arranged on one side of the bottom of the inner wall of the chute facing plate, the collecting trough is vertically fixed with the bottom of the inner wall of the chute facing plate, the collecting trough is horizontally arranged, one side of the collecting trough is vertically fixed with the fixing bottom plate, and the fixing bottom plate is vertically arranged downwards.
The rubber damping layer comprises a panel facing rubber damping layer, a side plate rubber damping layer I, a side plate rubber damping layer II and a material collecting tank rubber damping layer.
The chute facing panel is a rectangular metal plate, the side wall of the chute facing panel is fixedly connected with a facing panel rubber damping layer through a facing panel bolt, and a facing panel bolt I penetrates through the chute facing panel.
The head-on plate bolt comprises a head-on plate bolt I, a head-on plate bolt II, a head-on plate bolt III and a head-on plate bolt IV, wherein the head-on plate bolt I, the head-on plate bolt II, the head-on plate bolt III and the head-on plate bolt IV are distributed on the chute head-on plate in a rectangular shape.
A side plate rubber damping layer I is fixed on the side wall of the side plate of the chute steel through a side plate bolt I, and the side plate bolt I penetrates through the side plate I of the chute steel.
The first side plate bolt comprises a first side plate bolt, a second side plate bolt, a third side plate bolt and a fourth side plate bolt, the first side plate bolt and the second side plate bolt are fixed on the upper portion of the first chute channel steel side plate side by side, and the third side plate bolt and the fourth side plate bolt are fixed on the lower portion of the first chute channel steel side plate side by side.
And a side plate rubber damping layer II is fixed on the side wall of the second chute steel side plate through a side plate bolt II, and the side plate bolt II penetrates through the second chute steel side plate.
The second side plate bolt comprises a fifth side plate bolt, a sixth side plate bolt, a seventh side plate bolt and an eighth side plate bolt, the fifth side plate bolt and the sixth side plate bolt are fixed on the upper portion of the side wall of the second side plate of the chute steel side plate side by side, and the seventh side plate bolt and the eighth side plate bolt are fixed on the lower portion of the side wall of the side plate of the chute steel side plate side by side.
The material collecting groove and the upper portion of the fixed base plate are fixedly connected with the material collecting groove rubber damping layer through material collecting groove bolts, the material collecting groove bolts penetrate through the material collecting groove and are arranged simultaneously, the material collecting groove bolts penetrate through the fixed base plate and are arranged simultaneously, the material collecting groove bolts comprise material collecting groove bolts I, material collecting groove bolts II, material collecting groove bolts III and material collecting groove bolts IV, the material collecting groove bolts I and the material collecting groove bolts II are arranged side by side, the material collecting groove bolts I and the material collecting groove bolts II are arranged on the material collecting groove, the material collecting groove bolts III and the material collecting groove bolts IV are arranged side by side, and the material collecting groove bolts III and the.
Grit system of processing energy-conserving chute of making an uproar that falls, its characterized in that: the angle steel chute comprises a first angle steel chute and a second angle steel chute, the first angle steel chute and the second angle steel chute are in inverted V-shaped distribution, the upper portion of the first angle steel chute and the upper portion of the second angle steel chute are intersected and fixedly connected, the first angle steel chute comprises a chute bottom plate, a first chute side plate, a second chute side plate and angle steel, the width of the chute bottom plate is gradually reduced from top to bottom, the width of the upper portion of the chute bottom plate is larger than that of the lower portion, the first chute side plate and the second chute side plate are respectively fixed on two sides of the chute bottom plate, the angle steel is uniformly fixed on the upper surface of the chute bottom plate, and the angle steel is uniformly distributed.
Compared with the prior art, the invention has the beneficial effects that: the utility model discloses reach the purpose that reduces running cost, the improvement back add the chute that gathers materials groove and rubber damping layer, add the chute of angle steel, life is whole operation period, because the principle of adoption is: 'material beating and stone beating', so the abrasion replacement and the production efficiency of raw materials are well controlled, the problems of high noise and large vibration are solved, and the one-time investment is less.
Drawings
Other features, objects and advantages of the invention will become more apparent from a reading of the following detailed description of non-limiting embodiments thereof, with reference to the accompanying drawings.
Fig. 1 is a schematic view of the structure of the present invention.
Fig. 2 is a schematic view of the top view structure of the present invention.
Fig. 3 is a schematic side view of the present invention.
Fig. 4 is a schematic diagram of a side view structure according to an embodiment of the present invention.
Fig. 5 is a schematic view of a front view structure according to an embodiment of the present invention.
Fig. 6 is a schematic view of a structure of a usage status of the present invention.
In the figures, the names corresponding to the reference numerals are a chute facing plate 1, a facing plate bolt 11, a facing plate bolt I111, a facing plate bolt II 112, a facing plate bolt III 113, a facing plate bolt IV 114, a chute steel side plate 2, a chute steel side plate I21, a chute steel side plate II 22 and a side plate bolt I212, wherein the side plate bolt I comprises a side plate bolt I2121, a side plate bolt II 2122, a side plate bolt III 2123, a side plate bolt IV 2124, a side plate bolt II 222, a side plate bolt V2221, a side plate bolt VI 2222, a side plate bolt VII 2223, a roller 3, a material collecting groove 4, a fixed bottom plate 40, a material collecting groove bolt 41, a material collecting groove bolt I411, a material collecting groove bolt II 412, a material collecting groove bolt III 413, a material collecting groove bolt IV 414, a rubber damping layer 5, a facing plate rubber damping layer 51, a rubber damping layer I52, a side plate rubber layer II 53, a material collecting groove rubber layer 54, a material collecting groove rubber damping, The steel chute comprises a chute outlet 6, an angle steel chute 7, a first angle steel chute 71, a second angle steel chute 72, a chute bottom plate 711, a first chute side plate 712, a second chute side plate 713 and angle steel 714.
Detailed Description
The present invention will be described in further detail with reference to the following examples, which are provided only for illustrating the present invention and do not limit the scope of the present invention.
Please refer to the chute that makes an uproar that falls that 1-6 shows, meet panel 1 including the chute, chute steel curb plate 2, cylinder 3, collecting chute 4 and rubber damping layer 5, the chute meets panel 1 both sides fixed chute steel curb plate 2, set up cylinder 3 between chute steel curb plate 2 one side, the chute meets panel 1 bottom one side fixed and sets up collecting chute 4, collecting chute 4 sets up in cylinder 3 one side, the chute meets panel 1 inside wall and chute steel curb plate 2 inside wall and all fixes rubber damping layer 5, form chute export 6 between chute steel curb plate 2 bottom and the collecting chute 4.
The rubber damping layer 5 comprises a head-on plate rubber damping layer 51, a side plate rubber damping layer I52, a side plate rubber damping layer II 53 and a collecting tank rubber damping layer 54. The rubber damping layer 5 is a structural component which adopts bolts to fix a rubber screen or a polyurethane material plate on the inner side wall of the chute facing panel 1 and the inner side wall of the chute steel side plate 2 so as to achieve the effects of less abrasion and noise reduction.
The chute facing panel 1 is a rectangular metal plate, the side wall of the chute facing panel 1 is fixedly connected with a facing panel rubber damping layer 51 through a facing panel bolt 11, and a facing panel bolt 111 penetrates through the chute facing panel 1.
The head-on plate bolt 11 comprises a head-on plate bolt I111, a head-on plate bolt II 112, a head-on plate bolt III 113 and a head-on plate bolt IV 114, wherein the head-on plate bolt I111, the head-on plate bolt II 112, the head-on plate bolt III 113 and the head-on plate bolt IV 114 are distributed on the chute head-on plate 1 in a rectangular shape.
The chute facing panel 1 and the chute steel side plate 2 are distributed in a n-shaped manner, the chute steel side plate 2 comprises a first chute steel side plate 21 and a second chute steel side plate 22, the first chute steel side plate 21 and the second chute steel side plate 22 are arranged in parallel, the first chute steel side plate 21 and the second chute steel side plate 22 are respectively fixed on two sides of the chute facing panel 1, a first drum groove 211 is formed in one side of the first chute steel side plate 21, the first drum groove 211 is in a semicircular arc shape, a second drum groove 221 is formed in one side of the second chute steel side plate 22, the second drum groove 221 is in a semicircular arc shape, the first drum groove 211 and the second drum groove 221 are correspondingly arranged, and the drum 3 is arranged between the first drum groove 211 and the second drum groove 221,
the side wall of the first chute steel side plate 21 is fixedly provided with a first side plate rubber damping layer 52 through a first side plate bolt 212, and the first side plate bolt 212 penetrates through the first chute steel side plate 21.
The first side plate bolt 212 comprises a first side plate bolt 2121, a second side plate bolt 2122, a third side plate bolt 2123 and a fourth side plate bolt 2124, the first side plate bolt 2121 and the second side plate bolt 2122 are fixed to the upper portion of the first chute steel side plate 21 in parallel, and the third side plate bolt 2123 and the fourth side plate bolt 2124 are fixed to the lower portion of the first chute steel side plate 21 in parallel.
A second side plate rubber damping layer 53 is fixed on the side wall of the second chute steel side plate 22 through a second side plate bolt 222, and the second side plate bolt 222 penetrates through the second chute steel side plate 22.
The side plate bolt II 222 comprises a side plate bolt five 2221, a side plate bolt six 2222, a side plate bolt seven 2223 and a side plate bolt eight 2224, the side plate bolt five 2221 and the side plate bolt six 2222 are fixed to the upper portion of the side wall of the side plate II 22 of the chute steel side plate in parallel, and the side plate bolt seven 2223 and the side plate bolt eight 2224 are fixed to the lower portion of the side wall of the side plate II 22 of the chute steel side plate in parallel.
Collect silo 4 an organic whole and set up in the chute and meet 1 inner wall bottom one side of panel, collect silo 4 and chute and meet 1 inner wall bottom of panel vertical fixation mutually, collect silo 4 and be the level setting, collect silo 4 one side and the 40 looks vertical fixations of PMKD, the vertical downward setting of PMKD 40, collect silo 4 and 40 upper portions of PMKD all through collecting silo bolt 41 and collecting silo rubber damping layer 54 fixed connection, collect silo bolt 41 and link up the setting of collecting silo 4 and collecting silo bolt 41 simultaneously and link up PMKD 40. The method is characterized in that a blanking point is determined according to a material curve, a material collecting groove 4 is arranged at a head-on plate 1, and the material collecting groove 4 is a structural part formed by accumulating partial aggregates at the aggregate blanking point, so that the noise and the damage generated when the aggregates impact the head-on plate are reduced.
The trough collecting bolt 41 comprises a first trough collecting bolt 411, a second trough collecting bolt 412, a third trough collecting bolt 413 and a fourth trough collecting bolt 414, the first trough collecting bolt 411 and the second trough collecting bolt 412 are arranged side by side, the first trough collecting bolt 411 and the second trough collecting bolt 412 are arranged on the trough collecting 4, the third trough collecting bolt 413 and the fourth trough collecting bolt 414 are arranged side by side, and the third trough collecting bolt 413 and the fourth trough collecting bolt 414 are arranged on the fixed bottom plate 40.
The energy-saving and noise-reducing chute of the sandstone processing system further comprises an angle steel chute 7, an inlet at the upper part of the angle steel chute 7 is arranged corresponding to a chute outlet 6, the angle steel chute 7 comprises a first angle steel chute 71 and a second angle steel chute 72, the first angle steel chute 71 and the second angle steel chute 72 are distributed in an inverted V shape, the upper part of the first angle steel chute 71 is intersected and fixedly connected with the upper part of the second angle steel chute 72, included angles α between the first angle steel chute 71 and the second angle steel chute 72 and a horizontal line are 35-40 degrees, preferably 38 degrees, the first angle steel chute 71 comprises a chute bottom plate 711, a first chute side plate 712, a second chute side plate 713 and angle steel 714, the width of the chute bottom plate 711 is gradually reduced from top to bottom, the width of the chute bottom plate 711 is larger than the width of the lower part, the first chute side plate 712 and the second chute side plate 713 are respectively fixed on two sides of the chute bottom plate 711, angle steel angles 714 are uniformly fixed on the upper surface of the chute bottom plate 711, the first chute 71 and the chute 72 are uniformly distributed on the chute bottom plate 711 from top to the chute bottom plate, the chute 71, the angle steel chute 71 and the angle steel chute 72 are not repeated, parts arranged on the bottom plate in the direction perpendicular to the aggregate bottom plate in order to reduce the aggregate flowing direction of aggregate, aggregate slurry conveying equipment is capable of aggregate, aggregate is capable of aggregate, the aggregate chute is capable of reducing the aggregate, the aggregate chute is capable of aggregate, the aggregate chute is capable of reducing the aggregate, the aggregate chute is capable of reducing the aggregate flowing, the aggregate chute is capable of reducing the aggregate.
While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.
Claims (10)
1. The utility model provides a chute of making an uproar falls in grit system of processing which characterized in that: the chute comprises a chute facing panel, chute steel side plates, a roller, a material collecting groove and a rubber damping layer, wherein the chute steel side plates are fixed on two sides of the chute facing panel;
the chute steel side plate comprises a first chute steel side plate and a second chute steel side plate, the first chute steel side plate and the second chute steel side plate are arranged in parallel, the first chute steel side plate and the second chute steel side plate are respectively fixed on two sides of a chute facing plate, a first roller groove is formed in one side of the first chute steel side plate, the first roller groove is in a semicircular arc shape, a second roller groove is formed in one side of the second chute steel side plate, the second roller groove is in a semicircular arc shape, the first roller groove and the second roller groove are correspondingly arranged, and the rollers are arranged between the first roller groove and the second roller groove;
the collecting trough is integrally arranged on one side of the bottom of the inner wall of the chute facing plate, the collecting trough is vertically fixed with the bottom of the inner wall of the chute facing plate, the collecting trough is horizontally arranged, one side of the collecting trough is vertically fixed with the fixing bottom plate, and the fixing bottom plate is vertically arranged downwards.
2. The energy-saving and noise-reducing chute of a sand processing system as claimed in claim 1, wherein: the rubber damping layer comprises a panel facing rubber damping layer, a side plate rubber damping layer I, a side plate rubber damping layer II and a material collecting tank rubber damping layer.
3. The energy-saving and noise-reducing chute of a sand processing system as claimed in claim 2, wherein: the chute facing panel is a rectangular metal plate, the side wall of the chute facing panel is fixedly connected with a facing panel rubber damping layer through a facing panel bolt, and a facing panel bolt I penetrates through the chute facing panel.
4. The energy-saving and noise-reducing chute of a sand processing system as claimed in claim 3, wherein: the head-on plate bolt comprises a head-on plate bolt I, a head-on plate bolt II, a head-on plate bolt III and a head-on plate bolt IV, wherein the head-on plate bolt I, the head-on plate bolt II, the head-on plate bolt III and the head-on plate bolt IV are distributed on the chute head-on plate in a rectangular shape.
5. The energy-saving and noise-reducing chute of a sand processing system as claimed in claim 2, wherein: a side plate rubber damping layer I is fixed on the side wall of the side plate of the chute steel through a side plate bolt I, and the side plate bolt I penetrates through the side plate I of the chute steel.
6. The energy-saving and noise-reducing chute of a sand processing system as claimed in claim 5, wherein: the first side plate bolt comprises a first side plate bolt, a second side plate bolt, a third side plate bolt and a fourth side plate bolt, the first side plate bolt and the second side plate bolt are fixed on the upper portion of the first chute channel steel side plate side by side, and the third side plate bolt and the fourth side plate bolt are fixed on the lower portion of the first chute channel steel side plate side by side.
7. The energy-saving and noise-reducing chute of a sand processing system as claimed in claim 6, wherein: and a side plate rubber damping layer II is fixed on the side wall of the second chute steel side plate through a side plate bolt II, and the side plate bolt II penetrates through the second chute steel side plate.
8. The energy-saving and noise-reducing chute of a sand processing system as claimed in claim 7, wherein: the second side plate bolt comprises a fifth side plate bolt, a sixth side plate bolt, a seventh side plate bolt and an eighth side plate bolt, the fifth side plate bolt and the sixth side plate bolt are fixed on the upper portion of the side wall of the second side plate of the chute steel side plate side by side, and the seventh side plate bolt and the eighth side plate bolt are fixed on the lower portion of the side wall of the side plate of the chute steel side plate side by side.
9. The energy-saving and noise-reducing chute of a sand processing system as claimed in claim 2, wherein: the material collecting groove and the upper portion of the fixed base plate are fixedly connected with the material collecting groove rubber damping layer through material collecting groove bolts, the material collecting groove bolts penetrate through the material collecting groove and are arranged simultaneously, the material collecting groove bolts penetrate through the fixed base plate and are arranged simultaneously, the material collecting groove bolts comprise material collecting groove bolts I, material collecting groove bolts II, material collecting groove bolts III and material collecting groove bolts IV, the material collecting groove bolts I and the material collecting groove bolts II are arranged side by side, the material collecting groove bolts I and the material collecting groove bolts II are arranged on the material collecting groove, the material collecting groove bolts III and the material collecting groove bolts IV are arranged side by side, and the material collecting groove bolts III and the.
10. The energy-saving and noise-reducing chute of a sand processing system as recited in any one of claims 1 to 9, wherein: the angle steel chute comprises a first angle steel chute and a second angle steel chute, the first angle steel chute and the second angle steel chute are in inverted V-shaped distribution, the upper portion of the first angle steel chute and the upper portion of the second angle steel chute are intersected and fixedly connected, the first angle steel chute comprises a chute bottom plate, a first chute side plate, a second chute side plate and angle steel, the width of the chute bottom plate is gradually reduced from top to bottom, the width of the upper portion of the chute bottom plate is larger than that of the lower portion, the first chute side plate and the second chute side plate are respectively fixed on two sides of the chute bottom plate, the angle steel is uniformly fixed on the upper surface of the chute bottom plate, and the angle steel is uniformly distributed.
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CN201921561998.7U CN210943406U (en) | 2019-09-19 | 2019-09-19 | Energy-saving and noise-reducing chute of sand and stone processing system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110510326A (en) * | 2019-09-19 | 2019-11-29 | 中电建十一局工程有限公司 | A kind of Preservation for Aggregate Production System energy-saving and noise-reducing chuting system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110510326A (en) * | 2019-09-19 | 2019-11-29 | 中电建十一局工程有限公司 | A kind of Preservation for Aggregate Production System energy-saving and noise-reducing chuting system |
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Effective date of registration: 20211209 Address after: 471000 No. 109, Shangdu East Road, Huaixin sub district office, Yanshi City, Luoyang City, Henan Province Patentee after: China Power Construction Henan Wanshan green building materials Co.,Ltd. Address before: No. 59, Lianhua street, Zhengzhou high tech Zone, Henan Province Patentee before: China Power Construction Eleventh Bureau Engineering Co.,Ltd. Patentee before: Sinohydro Bureau 11 Co., Ltd |