CN205436321U - Shock attenuation formula material screening plant - Google Patents
Shock attenuation formula material screening plant Download PDFInfo
- Publication number
- CN205436321U CN205436321U CN201620179363.0U CN201620179363U CN205436321U CN 205436321 U CN205436321 U CN 205436321U CN 201620179363 U CN201620179363 U CN 201620179363U CN 205436321 U CN205436321 U CN 205436321U
- Authority
- CN
- China
- Prior art keywords
- vibration damper
- plate
- drive shaft
- mainframe
- motor
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Combined Means For Separation Of Solids (AREA)
Abstract
The utility model relates to a shock attenuation formula material screening plant, including the main frame, the main frame is closed structure, makes by the resistance to compression material, the inside screening ball that is provided with of main frame, screening nodule number volume is two, and screening ball surface is netted, two screens bulb separation keeping parallelism, and sieve that the ball is inside wears to be equipped with first drive shaft, first drive shaft side is connected with first motor, screening ball lower extreme is provided with the screening board, the second drive shaft is worn to be equipped with by the screening intralamellar part, second drive shaft side is connected with the second motor, screening board lower extreme still is provided with the fan, the fan side is connected with the third drive shaft, third drive shaft side still is connected with the third motor, the fan lower extreme is provided with the stock guide, the stock guide slope sets up inside the main frame, the main frame upper end is provided with the feed inlet, main frame side lower extreme still is provided with the discharge gate, the main frame side still is provided with dedusting outlet.
Description
Technical field
This utility model relates to machinery production apparatus field, especially a kind of damping type Supplying Sieving Mechanism.
Background technology
In machinery production, need multiple production equipment, damping type Supplying Sieving Mechanism, as one of which, is mainly used in the processing of the screening to material, makes material meet Production requirement, traditional damping type Supplying Sieving Mechanism is due to screening effect difference and the slow-footed reason of screening, production efficiency is low, can not meet the Production requirement of society, therefore, how the damping type Supplying Sieving Mechanism of a kind of novel raising production efficiency is provided, be those skilled in the art need solve problem.
Utility model content
The purpose of this utility model is to provide a kind of damping type Supplying Sieving Mechanism, has been used for the screening of material, improves production efficiency.
This utility model be employed technical scheme comprise that by its technical problem of solution,
nullA kind of damping type Supplying Sieving Mechanism,Including mainframe,Described mainframe is enclosed construction,It is made up of resistance to compression material,Described mainframe is internally provided with screening ball,Described screening ball quantity is two,Screening ball surface is netted,Said two screening ball keeping parallelism,And inside screening ball, it is equipped with the first drive shaft,Described first drive shaft side connects the first motor,Described screening ball lower end is provided with sieving plate,Described sieving plate is made up of the some pieces of parallel superpositions of screen cloth,The second drive shaft it is equipped with inside described sieving plate,Described second drive shaft side connects the second motor,Described sieving plate lower end is additionally provided with fan,Described fan side connects the 3rd drive shaft,Described 3rd drive shaft side is also associated with the 3rd motor,Described fan lower end is provided with stock guide,Described stock guide is obliquely installed inside mainframe,Angle between described stock guide lower end and mainframe lower surface is a,A >=30 ° and a≤60 °,Described mainframe upper end is provided with charging aperture,Lower end, described mainframe side is additionally provided with discharging opening,Described mainframe side is additionally provided with dust removal port,Described mainframe lower end is additionally provided with shock-damping structure,Described shock-damping structure includes vibration damper plate、Lower vibration damper plate and substrate,Described upper vibration damper plate is rectangular-shaped,Upper vibration damper plate upper end is provided with connection member,Described connection member is connected with upper vibration damper plate upper surface by welding,Connection member surface configuration has screw thread,Described upper vibration damper plate lower end is provided with adjusting screw rod,Described adjusting screw rod upper end is embedded at inside vibration damper plate,Described adjusting screw rod both sides are additionally provided with precompression screw,Described precompression screw quantity is two,Precompressed spiral shell lower beam upper end is embedded at inside vibration damper plate,Precompression screw lower end is embedded at inside lower vibration damper plate,Described adjusting screw rod lower end is provided with spring bearer plate,Described adjusting screw rod lower end is embedded at inside spring bearer plate,Described lower vibration damper plate is arranged at vibration damper plate lower end,Described substrate is arranged at lower vibration damper plate lower end,Described substrate upper end is provided with spring bottom plate,It is additionally provided with spring lever between described spring bottom plate and spring bearer plate,It is additionally provided with rubber mat plate inside described substrate;
Further, described first motor and the 3rd motor are reducing motor, and described second motor is vibrating motor, and described fan and dust removal port are on same level line;
Further, the holding internal with mainframe of described charging aperture communicates, and charging aperture upper end is funnel-form, and described discharging opening keeps communicating with stock guide upper surface;
The utility model has the advantage of, this kind of damping type Supplying Sieving Mechanism uses the design of mainframe, by being provided with the design of screening ball and sieving plate at mainframe, screening ball is driven by the first motor, second motor driving shaft sieving plate, improve material screening effect, be conducive to improving production efficiency;This kind of damping type Supplying Sieving Mechanism simple in construction, it is simple to Operation and Maintenance, floor space is little, and practicality is the highest.
Accompanying drawing explanation
Fig. 1 is the structural representation of the damping type Supplying Sieving Mechanism that the utility model proposes;
Fig. 2 is the structural representation of the shock-damping structure that the utility model proposes;
Wherein: 1-mainframe;2-shock-damping structure;The upper vibration damper plate of 201-;Vibration damper plate under 202-;203-substrate;204-connection member;205-adjusting screw rod;206-precompression screw;207-spring bearer plate;208-spring bottom plate;209-spring lever;2010-rubber mat plate;3-the first drive shaft;4-the first motor;5-sieving plate;6-the second drive shaft;7-the second motor;8-fan;9-the 3rd drive shaft;10-the 3rd motor;11-stock guide;12-charging aperture;13-discharging opening;14-dust removal port;15-sieves ball.
Detailed description of the invention
For the technological means making this utility model realize, creation characteristic, reach purpose and be easy to understand with effect, below in conjunction with diagram and specific embodiment, this utility model is expanded on further.
nullAs shown in Figures 1 and 2,The damping type Supplying Sieving Mechanism that the utility model proposes includes mainframe 1,Described mainframe 1 is enclosed construction,It is made up of resistance to compression material,Described mainframe 1 is internally provided with screening ball 2,Described screening ball 2 quantity is two,Screening ball 2 surface is netted,Said two screening ball 2 keeping parallelism,And screening ball 2 inside is equipped with the first drive shaft 3,Described first drive shaft 3 side connects the first motor 4,Described screening ball 2 lower end is provided with sieving plate 5,Described sieving plate 5 is made up of the some pieces of parallel superpositions of screen cloth,Described sieving plate 5 is internal is equipped with the second drive shaft 6,Described second drive shaft 6 side connects the second motor 7,Described sieving plate 5 lower end is additionally provided with fan 8,Described fan 8 side connects the 3rd drive shaft 9,Described 3rd drive shaft 9 side is also associated with the 3rd motor 10,Described fan 8 lower end is provided with stock guide 11,Described stock guide 11 is obliquely installed in mainframe 1 internal,Angle between described stock guide 11 lower end and mainframe 1 lower surface is a,A >=30 ° and a≤60 °,Described mainframe 1 upper end is provided with charging aperture 12,Lower end, described mainframe 1 side is additionally provided with discharging opening 13,Described mainframe 1 side is additionally provided with dust removal port 14,Described mainframe 1 lower end is additionally provided with shock-damping structure 2,Described shock-damping structure 2 includes vibration damper plate 201、Lower vibration damper plate 202 and substrate 203,Described upper vibration damper plate 201 is rectangular-shaped,Upper vibration damper plate 201 upper end is provided with connection member 204,Described connection member 204 is connected with upper vibration damper plate 201 upper surface by welding,Connection member 204 surface configuration has screw thread,Described upper vibration damper plate 201 lower end is provided with adjusting screw rod 205,It is internal that described adjusting screw rod 205 upper end is embedded at vibration damper plate 201,Described adjusting screw rod 205 both sides are additionally provided with precompression screw 206,Described precompression screw 206 quantity is two,It is internal that precompressed spiral shell lower beam upper end is embedded at vibration damper plate 201,It is internal that precompression screw 206 lower end is embedded at lower vibration damper plate 202,Described adjusting screw rod 205 lower end is provided with spring bearer plate 207,It is internal that described adjusting screw rod 205 lower end is embedded at spring bearer plate 207,Described lower vibration damper plate 202 is arranged at vibration damper plate 201 lower end,Described substrate 203 is arranged at lower vibration damper plate 202 lower end,Described substrate 203 upper end is provided with spring bottom plate 208,It is additionally provided with spring lever 209 between described spring bottom plate 208 and spring bearer plate 207,Described substrate 203 is internal is additionally provided with rubber mat plate 2010;
Further, described first motor 4 and the 3rd motor 10 are reducing motor, and described second motor 7 is vibrating motor, and described fan 8 is on same level line with dust removal port 14;
Further, the holding internal with mainframe 1 of described charging aperture 12 communicates, and charging aperture 12 upper end is funnel-form, and described discharging opening 13 keeps communicating with stock guide 11 upper surface;
This kind of damping type Supplying Sieving Mechanism uses the design of mainframe 1, by being provided with the design of screening ball 2 and sieving plate 5 at mainframe 1, drive screening ball 2, the second motor 7 drive shaft sieving plate 5 by the first motor 4, improve material screening effect, be conducive to improving production efficiency;This kind of damping type Supplying Sieving Mechanism simple in construction, it is simple to Operation and Maintenance, floor space is little, and practicality is the highest.
Of the present utility model ultimate principle, principal character and of the present utility model advantage have more than been shown and described.Skilled person will appreciate that of the industry; this utility model is not restricted to the described embodiments; described in above-described embodiment and description, principle of the present utility model is simply described; on the premise of without departing from this utility model spirit and scope, this utility model also has various changes and modifications, in the range of these changes and improvements both fall within claimed this utility model.This utility model claims scope and is defined by appending claims and equivalent thereof.
Claims (3)
- null1. a damping type Supplying Sieving Mechanism,Including mainframe,It is characterized in that: described mainframe is enclosed construction,It is made up of resistance to compression material,Described mainframe is internally provided with screening ball,Described screening ball quantity is two,Screening ball surface is netted,Said two screening ball keeping parallelism,And inside screening ball, it is equipped with the first drive shaft,Described first drive shaft side connects the first motor,Described screening ball lower end is provided with sieving plate,Described sieving plate is made up of the some pieces of parallel superpositions of screen cloth,The second drive shaft it is equipped with inside described sieving plate,Described second drive shaft side connects the second motor,Described sieving plate lower end is additionally provided with fan,Described fan side connects the 3rd drive shaft,Described 3rd drive shaft side is also associated with the 3rd motor,Described fan lower end is provided with stock guide,Described stock guide is obliquely installed inside mainframe,Angle between described stock guide lower end and mainframe lower surface is a,A >=30 ° and a≤60 °,Described mainframe upper end is provided with charging aperture,Lower end, described mainframe side is additionally provided with discharging opening,Described mainframe side is additionally provided with dust removal port,Described mainframe lower end is additionally provided with shock-damping structure,Described shock-damping structure includes vibration damper plate、Lower vibration damper plate and substrate,Described upper vibration damper plate is rectangular-shaped,Upper vibration damper plate upper end is provided with connection member,Described connection member is connected with upper vibration damper plate upper surface by welding,Connection member surface configuration has screw thread,Described upper vibration damper plate lower end is provided with adjusting screw rod,Described adjusting screw rod upper end is embedded at inside vibration damper plate,Described adjusting screw rod both sides are additionally provided with precompression screw,Described precompression screw quantity is two,Precompressed spiral shell lower beam upper end is embedded at inside vibration damper plate,Precompression screw lower end is embedded at inside lower vibration damper plate,Described adjusting screw rod lower end is provided with spring bearer plate,Described adjusting screw rod lower end is embedded at inside spring bearer plate,Described lower vibration damper plate is arranged at vibration damper plate lower end,Described substrate is arranged at lower vibration damper plate lower end,Described substrate upper end is provided with spring bottom plate,It is additionally provided with spring lever between described spring bottom plate and spring bearer plate,It is additionally provided with rubber mat plate inside described substrate.
- A kind of damping type Supplying Sieving Mechanism the most according to claim 1, it is characterised in that: described first motor and the 3rd motor are reducing motor, and described second motor is vibrating motor, and described fan and dust removal port are on same level line.
- A kind of damping type Supplying Sieving Mechanism the most according to claim 1, it is characterised in that: the holding internal with mainframe of described charging aperture communicates, and charging aperture upper end is funnel-form, and described discharging opening keeps communicating with stock guide upper surface.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620179363.0U CN205436321U (en) | 2016-03-09 | 2016-03-09 | Shock attenuation formula material screening plant |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620179363.0U CN205436321U (en) | 2016-03-09 | 2016-03-09 | Shock attenuation formula material screening plant |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205436321U true CN205436321U (en) | 2016-08-10 |
Family
ID=56605462
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620179363.0U Expired - Fee Related CN205436321U (en) | 2016-03-09 | 2016-03-09 | Shock attenuation formula material screening plant |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205436321U (en) |
-
2016
- 2016-03-09 CN CN201620179363.0U patent/CN205436321U/en not_active Expired - Fee Related
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106076823A (en) | A kind of screening plant producing refractory material | |
CN107350144A (en) | Vibratory sieve for the mixer of insulating brick production | |
CN206435464U (en) | A kind of ternary spin vibration sieve | |
CN201940369U (en) | Suction type proportional corn embryo selector | |
CN207107466U (en) | A kind of oscillatory type feed surge bunker | |
CN203437318U (en) | Novel spin vibrating screen | |
CN208991265U (en) | A kind of environment-friendly type grain vibrating cleaning sieve | |
CN205436321U (en) | Shock attenuation formula material screening plant | |
CN211678738U (en) | Novel linear vibrating screen | |
CN202155097U (en) | Dewatering screen | |
CN205462572U (en) | Shock attenuation formula material crushing device | |
CN205436320U (en) | Material sieving device | |
CN211937786U (en) | Refractory material strikes screening structure | |
CN216679004U (en) | Aggregate grading vibrating screen | |
CN213887126U (en) | Grit screening plant | |
CN111330674A (en) | Environment-friendly dust-free cone stone crusher | |
CN109046982A (en) | A kind of environment-friendly type grain vibrating cleaning sieve | |
CN209597632U (en) | A kind of quick lime vibrosieve and crushing-proof device | |
CN205110082U (en) | Production of ginger powder is with shale shaker of adjustable sieve gradient | |
CN208758030U (en) | Vibration material-screening mechanism | |
CN205462609U (en) | Shock attenuation formula extrusion reducing mechanism | |
CN207981632U (en) | A kind of silicon carbide micro-powder waterpower screening machine | |
CN206810361U (en) | A kind of synchronous jaw crusher of broken sieve | |
CN208116150U (en) | A kind of multilayer rubble vibrating screen material device | |
CN207103119U (en) | Flour sieving device is used in a kind of wafer production |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160810 Termination date: 20170309 |