CN203740466U - Raw material conveying system - Google Patents

Abstract

The utility model provides a raw material conveying system, in order to solve the problem of waste of resources in the material conveying process. The raw material conveying system comprises a plate filter press, a skip car, a stainless steel elevator and a drying machine, retaining plates are arranged on two sides of a conveying belt of the stainless steel elevator, and transverse partitions are arranged on the conveying belt and can effectively prevent block materials from sliding off. The stainless steel elevator is provided with a guard plate on one side, facing to the ground, of the conveying belt, even if the block materials do not enter a material inlet of the drying machine, the block materials can slide to one side facing to the ground along with the guard plate till returning into the skip car, and the materials can be prevented from falling off. Therefore, raw material utilization rate can be effectively increased when over heavy materials are conveyed by the raw material conveying system, waste of the resources is reduced, and adverse impact on the environment is reduced.

Description

A kind of material delivery systems

Technical field

The utility model relates to raw material tranmission techniques, particularly relates to a kind of material delivery systems.

Background technology

In commercial production, usually need material to be transported to and in drier, to be dried processing, and the material inlet of drier is usually located at higher position, therefore need by conveyer material from ground or lower position and the material inlet of delivering to drier.

But, at conveyors carry material to the situation that usually there will be the wasting of resources in the process of material inlet.The for example circulation of air in factory building may cause material to be blown to four winds, and when and for example material arrives material inlet, possibly cannot enter material inlet completely, and when belt conveyor is rotated further, remaining material will drop.So not only can cause the waste of resource, also can produce certain impact to environment.

Utility model content

The utility model provides a kind of material delivery systems, to solve the problem of material transport process waste resource.

In order to address the above problem, the utility model discloses a kind of material delivery systems, comprising:

For initial material is processed to the plate press filter that obtains lump material;

For transmit the truck of lump material between described plate press filter and corrosion-resistant steel gig;

For lump material being transferred to the corrosion-resistant steel gig of the inlet point of drier;

For described lump material is carried out to dry drier;

Wherein, the material outlet of described plate press filter connects described truck;

Described corrosion-resistant steel gig comprises: load-transfer device;

The feeding end of the load-transfer device of described corrosion-resistant steel gig is positioned at described truck, and the discharge end of the load-transfer device of described corrosion-resistant steel gig is positioned at the material inlet top of described drier;

Described load-transfer device and horizontal surface form angle a, wherein, and 60 ° of <a<90 °;

The both sides of described load-transfer device are provided with baffle plate, and described load-transfer device is provided with lateral partitions;

Described corrosion-resistant steel gig is provided with the backplate for the lump material of material inlet that does not enter drier being fallen again after rise to truck at described load-transfer device towards ground one side.

In an optional embodiment, described system also comprises: funnel; The wide-mouth of described funnel is connected with the discharge end of the load-transfer device of described corrosion-resistant steel gig; The slot of described funnel is connected with the material inlet of described drier.

In an optional embodiment, described load-transfer device adopts stainless steel material to make.

Compared with prior art, the utility model comprises following advantage:

Plate press filter can be processed and obtain lump material and send corrosion-resistant steel gig to by truck, and the load-transfer device of corrosion-resistant steel gig sends lump material to drier again.Wherein the feeding end of the load-transfer device of corrosion-resistant steel gig is positioned at described truck, and the discharge end of the load-transfer device of described corrosion-resistant steel gig is positioned at the material inlet top of described drier, makes load-transfer device and horizontal surface formation be greater than 60 ° and be less than the angle of 90 °.Both sides at load-transfer device are provided with baffle plate, and load-transfer device is provided with lateral partitions, thereby can prevent lump material landing by actv., improve the stability and the safety that transmit.

Corrosion-resistant steel gig is provided with backplate at described load-transfer device towards ground one side, thereby at load-transfer device, lump material is sent to after discharge end, load-transfer device is earthward in the process of a side shifting, even if there is the lump material of the material inlet that does not enter drier, due to blocking of backplate, this material can with backplate earthward a Slideslip until get back in truck, thereby can prevent that material from dropping, reduce the waste of resource, improve the degree of utilization of raw material, and reduce the adverse effect to environment.

Plate press filter can be processed and obtain lump material, and then corrosion-resistant steel gig sends lump material to drier, and while adopting lump material to transmit, therefore material is difficult for being dispelled, and prevents from causing the wasting of resources, and reduces the adverse effect to environment.

Brief description of the drawings

Fig. 1 is the constructional drawing of the material delivery systems that provides of the utility model embodiment;

Fig. 2 is the optional constructional drawing of the material delivery systems that provides of the utility model embodiment;

Fig. 3 is the material delivery systems schematic diagram that the utility model embodiment provides.

Detailed description of the invention

For above-mentioned purpose of the present utility model, feature and advantage can be become apparent more, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

With reference to Fig. 1, provide the constructional drawing of the material delivery systems that the utility model embodiment provides.

This material delivery systems comprises: plate press filter 101, truck 102, corrosion-resistant steel gig 103 and drier 104.

Corrosion-resistant steel gig 103 comprises load-transfer device 1031, and load-transfer device 1031 is provided with lateral partitions 10311, and the both sides of load-transfer device 1031 are provided with baffle plate 1032.And corrosion-resistant steel gig 103 is provided with backplate 1033 at described load-transfer device 1031 towards ground one side.

Consider the situation that in material transport process, material may be scattered or be dispelled, the utility model, in the time that material transmits, is first put into initial material plate press filter 101 and is processed, and to obtain lump material, is convenient to the transmission of follow-up material.

Plate press filter 101 is for processing and obtain lump material initial material, for example, when initial material is solidliquid mixture, after the operation such as compacting, filtration by plate press filter, the liquid that processing obtains can return by liquid back pipe, be recycled, can be placed in truck 102 and process the lump material obtaining.

Wherein, the load-transfer device 1031 of corrosion-resistant steel gig 103 can adopt stainless steel material to make, and prevents that material from causing harmful effect to load-transfer device.

In the present embodiment, one end of the load-transfer device 1031 of corrosion-resistant steel gig 103 is positioned at truck 102, from truck 102, obtains lump material, and the one end that is positioned at truck 102 can be called feeding end.The other end of load-transfer device 1031 is positioned at the material inlet top of drier 104, be dried processing thereby the lump material transporting on it is transported in the material inlet of drier 104, and the one end being positioned at above the material inlet of drier 104 is called discharge end.

Because the material inlet of drier 104 is in higher position, the therefore load-transfer device 1031 and horizontal surface shape a at a certain angle of corrosion-resistant steel gig 103, wherein, 60 ° of <a<90 °.

The load-transfer device 1031 of this corrosion-resistant steel gig 103 is provided with lateral partitions 10311, the length (being the width of load-transfer device 1031) of lateral partitions 1031 can be set according to actual demand, as the height of the material inlet according to drier 104 and load-transfer device 1031 calculate, the present embodiment is not construed as limiting this.

Lateral partitions 10311 has certain radian, and its a kind of schematic diagram, as shown in Fig. 2 broken circle, can also adopt waveform etc., and the present embodiment is not to limiting.Thereby by lateral partitions 10311 can make lump material upwards transmit process in can landing.

In an optional embodiment, this baffle plate 1032 can be positioned on the support of corrosion-resistant steel gig 103 load-transfer devices 1031, is not directly connected with load-transfer device 1031, and baffle plate 1032 is inactive structure.This baffle plate 1032 can directly be connected with load-transfer device 1031, and baffle plate 1032 rotates with load-transfer device 1031.

Therefore, in an optional embodiment, the lateral partitions 10311 of load-transfer device 1031 and the baffle plate 1032 of its both sides can form hopper, thereby load-transfer device 1031 is in the time of truck 102 interior feeding, and lump material can enter this hopper, further ensures the safety that material transmits and stablize.

At load-transfer device 1031, lump material is sent to after discharge end, shifts to feeding end thereby load-transfer device 1031 can be rotated further, now load-transfer device 1031 is met earthward, and load-transfer device exists the side towards ground moving.As wherein do not entered in addition the lump material of the material inlet of drier, this lump material can drop, and causes the waste of resource and affects environment.

Therefore, the present embodiment is provided with backplate 1033 at described load-transfer device 1031 towards ground one side at corrosion-resistant steel gig 103, be that load-transfer device 1031 is provided with backplate 1033 towards a side of ground moving, even if therefore there is the lump material of the material inlet that does not enter drier, due to blocking of backplate 1033, this material 1031 can with backplate 1033 earthward a Slideslip until get back in truck.

Therefore, this backplate 1033 can extend to feeding end left and right from the discharge end below of load-transfer device 1031, as the load-transfer device between corrosion-resistant steel gig 103 belt conveyor 1031 two ends rollers all arranges this backplate 1033 towards ground one side.

In an optional embodiment, this material delivery systems also comprises funnel 105, and the wide-mouth of this funnel 105 is connected with the discharge end of the load-transfer device 1031 of corrosion-resistant steel gig 103, is positioned at the discharge end below of load-transfer device 1031; The slot of funnel 105 is connected with the material inlet of drier 104, is positioned at the material inlet top of drier 104, or is placed in the material inlet of drier 104.

The wide-mouth edge of funnel 105 has certain gradient, and wide-mouth scope is larger, thereby can prevent better that turning soon material drops.

Wherein Fig. 1 and Fig. 2 are only the structures for describing material delivery systems, and in actual enforcement, the load-transfer device of corrosion-resistant steel gig can adopt different structures, and embodiment is not construed as limiting this.As adopt as shown in Fig. 3, feeding end and the discharge end of load-transfer device are all horizontal, thus can be more stable lump material is taken on load-transfer device from truck, and can be safer, stable lump material is sent in funnel.

In sum, plate press filter can be processed and obtain lump material and send corrosion-resistant steel gig to by truck, and the load-transfer device of corrosion-resistant steel gig sends lump material to drier again.Wherein the feeding end of the load-transfer device of corrosion-resistant steel gig is positioned at described truck, and the discharge end of the load-transfer device of described corrosion-resistant steel gig is positioned at the material inlet top of described drier, makes load-transfer device and horizontal surface formation be greater than 60 ° and be less than the angle of 90 °.Both sides at load-transfer device are provided with baffle plate, and load-transfer device is provided with lateral partitions, thereby can prevent lump material landing by actv., improve the stability and the safety that transmit.

Corrosion-resistant steel gig is provided with backplate at described load-transfer device towards ground one side, thereby at load-transfer device 1031, lump material is sent to after discharge end, load-transfer device 1031 is earthward in the process of a side shifting, even if there is the lump material of the material inlet that does not enter drier, due to blocking of backplate 1033, this material 1031 can with backplate 1033 earthward a Slideslip until get back in truck, thereby can prevent that material from dropping, reduce the waste of resource, improve the degree of utilization of raw material, and reduce the adverse effect to environment.

Plate press filter can be processed and obtain lump material, and then corrosion-resistant steel gig sends lump material to drier, and while adopting lump material to transmit, therefore material is difficult for being dispelled, and prevents from causing the wasting of resources, and reduces the adverse effect to environment.

Each embodiment in this specification sheets all adopts the mode of going forward one by one to describe, and what each embodiment stressed is and the difference of other embodiment, between each embodiment identical similar part mutually referring to.

Finally, also it should be noted that, in this article, relational terms such as the first and second grades is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply and between these entities or operation, have the relation of any this reality or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thereby the process, method, commodity or the equipment that make to comprise a series of key elements not only comprise those key elements, but also comprise other key elements of clearly not listing, or be also included as the intrinsic key element of this process, method, commodity or equipment.The in the situation that of more restrictions not, the key element being limited by statement " comprising ... ", and be not precluded within process, method, commodity or the equipment that comprises described key element and also have other identical element.

Above to a kind of material delivery systems provided by the utility model, be described in detail, applied specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment is just for helping to understand method of the present utility model and core concept thereof; , for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model meanwhile.

Claims (3)

1. a material delivery systems, is characterized in that, comprising:

For initial material is processed to the plate press filter that obtains lump material;

For transmit the truck of lump material between described plate press filter and corrosion-resistant steel gig;

For lump material being transferred to the corrosion-resistant steel gig of the inlet point of drier;

For described lump material is carried out to dry drier;

Wherein, the material outlet of described plate press filter connects described truck;

Described corrosion-resistant steel gig comprises: load-transfer device;

The feeding end of the load-transfer device of described corrosion-resistant steel gig is positioned at described truck, and the discharge end of the load-transfer device of described corrosion-resistant steel gig is positioned at the material inlet top of described drier;

Described load-transfer device and horizontal surface form angle a, wherein, and 60 ° of <a<90 °;

The both sides of described load-transfer device are provided with baffle plate, and described load-transfer device is provided with lateral partitions;

Described corrosion-resistant steel gig is provided with the backplate for the lump material of material inlet that does not enter drier being fallen again after rise to truck at described load-transfer device towards ground one side.

2. system according to claim 1, is characterized in that, also comprises: funnel;

The wide-mouth of described funnel is connected with the discharge end of the load-transfer device of described corrosion-resistant steel gig;

The slot of described funnel is connected with the material inlet of described drier.

3. system according to claim 1, is characterized in that, described load-transfer device adopts stainless steel material to make.