CN207105351U - Particle magnetic plant - Google Patents

Abstract

The utility model discloses particle magnetic plant, including：Raw material feed bin, is arranged in frame, for storing particulate material；Concentration equipment, it is arranged in frame, for particulate material to be screened, screens into the first particulate material with abrasive grit and the second particulate material without abrasive grit；Transmitting device, the lower section of the discharging opening of raw material feed bin is arranged at, including：Transmission storehouse and the transmission belt being arranged in transmission storehouse, are provided with charging aperture, charging aperture and the discharging opening position correspondence on raw material feed bin on transmission storehouse, and transmitting device is used to transport particulate material to concentration equipment；First particle feed bin, the first particulate material discharging opening of concentration equipment is arranged at, for storing the first particulate material；Second particle feed bin, the second particulate material discharging opening of concentration equipment is arranged at, for storing the second particulate material.Transmission belt is arranged in transmission storehouse by the utility model, and particle will not be directly exposed in workshop, ensure that the environment in workshop is clean and tidy, reduces dust pollution.

Description

Particle magnetic plant

Technical field

It the utility model is related to a kind of particle magnetic plant.

Background technology

, it is necessary to be screened to various particles before being mixed to castable, needed for some particles by inside it Abrasive grit screened out, and particle is directly exposed in workshop by existing device, produces substantial amounts of dust so that in workshop Air quality is poor, and the health of the staff in workshop is produced serious influence.

Utility model content

In order to solve the above-mentioned technical problem, the utility model proposes particle magnetic plant.

In order to achieve the above object, the technical solution of the utility model is as follows：

Particle magnetic plant includes：Raw material feed bin, is arranged in frame, for storing particulate material；Concentration equipment, set In in frame, for particulate material to be screened, the first particulate material with abrasive grit and second without abrasive grit are screened into Pellet；Transmitting device, the lower section of the discharging opening of raw material feed bin is arranged at, including：Transmission storehouse and the biography being arranged in transmission storehouse Defeated band, is provided with charging aperture on transmission storehouse, and charging aperture and the discharging opening position correspondence on raw material feed bin, transmitting device are used for general Grain raw material is transported to concentration equipment；First particle feed bin, the first particulate material discharging opening of concentration equipment is arranged at, for storing First particulate material；Second particle feed bin, the second particulate material discharging opening of concentration equipment is arranged at, for storing the second particulate material.

A kind of each device of particle magnetic plant of the utility model is used cooperatively, and is arranged at using transmission belt in transmission storehouse, Particle will not be directly exposed in workshop, ensure that the environment in workshop is clean and tidy, and the health of shop personnel will not be impacted.

On the basis of above-mentioned technical proposal, following improvement can be also done：

As preferable scheme, particle magnetic plant includes one or more raw material feed bins being spacedly distributed.

Using above-mentioned preferable scheme, multiple raw material feed bin storings are more cost-effective, according to specific situation, select phase The raw material feed bin answered is fed.

As preferable scheme, outlet valve is provided with the discharge outlet of raw material feed bin, outlet valve is used to control load.

Using above-mentioned preferable scheme, load can be preferably controlled.

As preferable scheme, transmission belt is connected with jittering device, and jittering device driving transmission belt is shaken.

Using above-mentioned preferable scheme, ensure that the particulate material in transmission belt can be uniformly distributed, be easy to later stage magnetic separation to fill Put into the screening for being about to particulate material.

As preferable scheme, jittering device is shaken to the transmission belt of raw material feed bin discharge hole opening position.

Using above-mentioned preferable scheme, the discharging of raw material feed bin when in transmission belt is in stacked state, and jittering device can be with Effectively particulate material is uniformly distributed in transmission belt.

As preferable scheme, multiple equally distributed weight sensors, multiple weight sensors are provided with transmission belt Electrically connected by control device with jittering device.

Using above-mentioned preferable scheme, when some weight sensor senses that the weight at this exceedes control in transmission belt During the preset value of device, then the jittering device nearest from the weight sensor is started working, and particulate material is shaken.

As preferable scheme, multiple equally distributed magnet assemblies are provided with the bottom of the first particle feed bin.

Using above-mentioned preferable scheme, the collection being more convenient for the first particulate material.

As preferable scheme, the first particle feed bin and/or the second particle feed bin are arranged on transfer dolly.

Using above-mentioned preferable scheme, it is easy to the transfer to the first particle feed bin and/or the second particle feed bin.

Brief description of the drawings

Fig. 1 is the structural representation for the particle magnetic plant that the utility model embodiment provides.

Wherein：1 frame, 2 raw material feed bins, 21 outlet valves, 3 concentration equipments, 31 first particulate material discharging openings, 32 second particles Expect discharging opening, 4 transmitting devices, 41 transmission storehouses, 411 charging apertures, 42 transmission belts, 5 first particle feed bins, 6 second particle feed bins, 7 Shift dolly.

Embodiment

Describe preferred embodiment of the present utility model in detail below in conjunction with the accompanying drawings.

In order to reach the purpose of this utility model, in some of embodiments of particle magnetic plant,

As shown in figure 1, particle magnetic plant includes：

Three raw material feed bins 2, are arranged in frame 1, for storing particulate material；

One concentration equipment 3, is arranged in frame 1, for particulate material to be screened, screens into abrasive grit One particulate material and the second particulate material without abrasive grit；

One transmitting device 4, the lower section of the discharging opening of raw material feed bin 2 is arranged at, including：Transmit storehouse 41 and be arranged at biography Transmission belt 42 in defeated storehouse 41, charging aperture 411, charging aperture and the discharging opening position on raw material feed bin 2 are provided with transmission storehouse 41 Corresponding, transmitting device 4 is used to transport particulate material to concentration equipment 3；

One the first particle feed bin 5（Not shown in figure）, the first particulate material discharging opening 31 of concentration equipment 3 is arranged at, is used In storing the first particulate material；

One the second particle feed bin 6, the second particulate material discharging opening 32 of concentration equipment 3 is arranged at, for storing second Pellet.

A kind of workflow of particle magnetic plant of the utility model is as follows：

Particulate material is distributed from three 2 respective discharge hole for discharge of raw material feed bin, then by transmitting the charging aperture on storehouse 41 In the surface of transmission belt 42, transmission belt 42 delivers to particulate material in concentration equipment 3, and ceramic tile device 3 is sieved particulate material Choosing, screens into the first particulate material with abrasive grit and the second particulate material without abrasive grit, the first particulate material from concentration equipment 3 the The discharging of one particulate material discharging opening 31 enters the first particle feed bin 5, second particulate material discharging opening of second particulate material from concentration equipment 3 32 dischargings enter the second particle feed bin 6.

The each device of the utility model is used cooperatively, and transmission belt 42 is arranged in transmission storehouse 41, and particle will not directly expose It is clean and tidy in the environment in workshop, ensureing workshop, the health of shop personnel will not be impacted.

In order to further optimize implementation result of the present utility model, in other embodiment, remaining feature skill Art is identical, and difference is, is provided with outlet valve 21 in the discharge outlet of raw material feed bin 2, outlet valve 21 is used to control load.

Using above-mentioned preferable scheme, load can be preferably controlled.

In order to further optimize implementation result of the present utility model, in other embodiment, remaining feature skill Art is identical, and difference is, transmission belt 42 and jittering device（Not shown in figure）Drive connection, jittering device driving transmission belt 42 shake.

Using above-mentioned preferable scheme, ensure that the particulate material in transmission belt 42 can be uniformly distributed, be easy to later stage magnetic separation Device 3 enters to be about to the screening of particulate material.

Further, jittering device is shaken to the transmission belt 42 of the discharging opening opening position of raw material feed bin 2.

Using above-mentioned preferable scheme, it is in stacked state that raw material feed bin 2, which discharges when in transmission belt 42, and jittering device can So that effectively particulate material is uniformly distributed in transmission belt 42.

Further, multiple equally distributed weight sensors are provided with transmission belt 42（Not shown in figure）, multiple weight Sensor is electrically connected by control device with jittering device.

Using above-mentioned preferable scheme, when some weight sensor senses that the weight at this exceedes control in transmission belt During the preset value of device, then the jittering device nearest from the weight sensor is started working, and particulate material is shaken.

In order to further optimize implementation result of the present utility model, in other embodiment, remaining feature skill Art is identical, and difference is, multiple equally distributed magnet assemblies are provided with the bottom of the first particle feed bin 5（Do not show in figure Go out）.

Using above-mentioned preferable scheme, the collection being more convenient for the first particulate material.Magnet assembly is permanent magnet or electromagnet. And the diameter of permanent magnet is not more than 5cm.

In order to further optimize implementation result of the present utility model, in other embodiment, remaining feature skill Art is identical, and difference is, the first particle feed bin 5 and/or the second particle feed bin 6 are arranged on transfer dolly 7.

Using above-mentioned preferable scheme, it is easy to the transfer to the first particle feed bin 5 and/or the second particle feed bin 6.

In order to further optimize implementation result of the present utility model, in other embodiment, remaining feature skill Art is identical, and difference is, vibrating disk is provided with the bottom of the first particle feed bin 5 and/or the second particle feed bin 6, to first Material in the particle feed bin 6 of particle feed bin 5 and/or second is vibrated, and improves the first particle feed bin 5 and/or the second particle feed bin 6 Storing effect.

The above is only preferred embodiment of the present utility model, it is noted that for one of ordinary skill in the art For, on the premise of not departing from the utility model and creating design, various modifications and improvements can be made, these belong to this The protection domain of utility model.

Claims (8)

1. particle magnetic plant, it is characterised in that including：

Raw material feed bin, is arranged in frame, for storing particulate material；

Concentration equipment, be arranged in frame, for particulate material to be screened, screen into the first particulate material with abrasive grit and There is no the second particulate material of abrasive grit；

Transmitting device, the lower section of the discharging opening of the raw material feed bin is arranged at, including：Transmit storehouse and be arranged at the transmission storehouse Interior transmission belt, charging aperture, the charging aperture and the discharging opening position pair on the raw material feed bin are provided with the transmission storehouse Should, the transmitting device is used to transport particulate material to the concentration equipment；

First particle feed bin, the first particulate material discharging opening of the concentration equipment is arranged at, for storing the first particulate material；

Second particle feed bin, the second particulate material discharging opening of the concentration equipment is arranged at, for storing the second particulate material.

2. particle magnetic plant according to claim 1, it is characterised in that the particle magnetic plant includes one or more The individual raw material feed bin being spacedly distributed.

3. particle magnetic plant according to claim 2, it is characterised in that be provided with the discharge outlet of the raw material feed bin Outlet valve, the outlet valve are used to control load.

4. particle magnetic plant according to claim 3, it is characterised in that the transmission belt connects with jittering device transmission Connect, the jittering device drives the transmission belt to shake.

5. particle magnetic plant according to claim 4, it is characterised in that the jittering device goes out to the raw material feed bin The transmission belt of material mouth opening position is shaken.

6. particle magnetic plant according to claim 5, it is characterised in that multiple uniform points are provided with the transmission belt The weight sensor of cloth, multiple weight sensors are electrically connected by control device with the jittering device.

7. according to the particle magnetic plant described in claim any one of 1-6, it is characterised in that in the first particle feed bin Bottom is provided with multiple equally distributed magnet assemblies.

8. particle magnetic plant according to claim 7, it is characterised in that the first particle feed bin and/or described Two particle feed bins are arranged on transfer dolly.