TWM579646U - Mobile screening assembly - Google Patents

Abstract

The new motorized screening assembly mainly includes a moving carrier and a screening device; wherein, a screening device is arranged in the body of the screening device, and a side of the body is provided with a screening device that can drive the screening device to rotate. The driving part, so that the main body is subject to the linkage of the moving unit of the moving carrier, and the stacked sieving objects are rotated by the sieving means to sieving the sieving objects and effectively lifting the sieving objects In addition to quality and mobile operation, combined with consistent screening, it can more reliably eliminate the problems of transportation costs and possible air pollution that must be re-screened when shipping.

Description

Mobile screening assembly

The present invention relates to a screening device, in particular to a mobile screening assembly.

Investigation, after the steelmaking, the slag that can be reused for metal materials has been taken out, and these slags have been used to replace the natural aggregate in the past, and the further use as a material has already played a pivotal role in the construction engineering community. After the slag is made due to steelmaking, it cannot be used directly. It must be used after multiple steps such as stabilization, magnetic separation, and sorting. The slag is stored for use according to the sorted slag. Because it is stored in the open air, the stacked slag will be continuously affected by air and water vapor, which will cause powdery calcium carbonate to form on the surface of these slags with different particle sizes. There is a change, so when it is provided to the user, it is easy to cause troubles in the user's adding ratio during use, which needs to be improved. Because of this, the slag must be screened again in response to the request of the user. The treatment to meet the requirements of the end of use does cause a lot of distress to the provider. After all, the screening plant is at a certain distance from the slag storage, so it must be screened again for such slag. Management, both in the air pollution problems cost the cost of shipping and delivery process that can generate, the re-screening process is both serious test will be a substantial increase in processing costs, view, therefore, the case of research and development.

Therefore, the purpose of the present invention is to provide a mobile screening assembly, which can quickly handle maneuverability and effectively achieve the effects of shortening the screening processing time and reducing the cost and cost.

Therefore, the new mobile screening assembly includes a mobile carrier and a screening device; wherein, the screening device has a body provided on the actuating unit of the carrier body of the mobile vehicle, and a body provided on the mobile unit. A sieve member capable of internal rotation in the body and a driving member provided on the body to drive the sieve member to rotate, and an accommodation space is formed inside the body, and a hollow is formed on the periphery of the body A notch is provided to allow the accommodation space to communicate outwardly through the hollow notch, and at the same time, an opening is formed on one side of the body opposite to the driving member. In addition, the sieving member is located in the accommodating space, and the inside of the sieving member A storage space is formed to accommodate the sifting element, at the same time, one end of the sieving element is connected to the driving element, and the other end of the sieving element is formed with an inlet / outlet opening corresponding to the opening, and the sieving element is formed. The periphery is provided with a plurality of screening holes; so that, through the screening device, the screening member is driven by the driving member, so that the screening objects contained in the screening device are subjected to the screening holes during the rotation process. Screening, borrowing The centrifugal force rotating by the sieving element and the cooperation of the sieving holes cause the powdery calcium carbonate and particulate objects formed on the sieved objects to be separated and collected to accelerate the direct provision of the filtered particulate objects directly The use of building aggregates is used, so through the rotation of the sieving member, the sieved objects can be effectively screened to improve the quality of the sieved objects, and the overall screening process can be used consistently. It can effectively eliminate the cost and manpower of re-screening operation when shipping, and can greatly reduce the air pollution problem caused by re-screening, which can greatly reduce the processing time and efficiency in the operation process. Can surely reduce the production cost of screening operations.

The foregoing and other technical contents, features, and effects of the present invention will be clearly understood in the following detailed description of the preferred embodiments with reference to the drawings.

Referring to FIG. 1, a first preferred embodiment of the present invention. The mobile screening assembly 1 includes a mobile carrier 11 and a screening device 12. The mobile carrier 11 is a movable vehicle such as a bulldozer. Vehicles such as trucks, excavators, etc., wherein the mobile vehicle 11 has a vehicle body 111, a control unit 112 provided on the vehicle body 111, and a vehicle controlled by the control unit 112 and outputting power. A power source 113 and an actuating unit 114 that extends outward from the vehicle body 111 and is actuated by the control unit 112, and the aforementioned control unit 112 can be used by personnel to perform various driving operations thereon so as to pass through the control unit The control operation of 112 is to cause the power source 113 to output power to the screening device 12, the operation unit 114, and the like, and the control unit 112 can control the operation of the operation unit 114 at several angles.

Please refer to FIG. 2. Continuing from the foregoing, the screening device 12 is controlled by the control unit 112, and the screening device 12 has a main body 121 provided on the actuating unit 114, and a rotating portion on the main body 121. The sifting member 122 and a driving member 123 provided on the body 121 and driving the sieving member 122 to rotate, and the driving member 123 is connected to the power source 113 so that the power source 113 supplies the driving member 123. Power of rotation; wherein, a receiving space 1211 is formed inside the body 121, and a hollow 1212 is formed on the periphery of the body 121, so that the receiving space 1211 communicates outwardly through the hollow 1212, and the body 121 Conversely, an opening 1213 is formed on one side of the driving member 123. At the same time, in this embodiment, an excavator 1214 is protruded on the body 121 at the opening 1213. The piled sifting object A is used for digging and shovel, so that the sieved sieving object A enters the sieving element 122; in addition, the sieving element 122 is located in the accommodation space 1211, and the sieving The inside of the piece 122 forms a sievable object. The storage space 1221 of the piece A, and one end of the sieving object A is connected to the driving member 123, and the other end of the sieving member 122 is opposite to the driving member 123. An inlet / outlet opening 1222 is formed at the opening 1213. In addition, a plurality of screening holes 1223 are provided on the periphery of the sieving member 122, and the sieving objects A accommodated in the storage space 1221 described above will be formed in the driving member 123 during the rotation process. The powdered calcium carbonate on the sieved object A is sieved by the sieving holes 1223 and released outward. Of course, in the rotation design of the sieving element 122, it can be designed to generate a plurality of rotations. Rotating centrifugal force is generated, or the sifting element 122 is designed to swing left and right continuously to form a semi-rotating spin-off operation.

In particular, in this embodiment, the sieved object A is slag that has been taken out of metal materials after steelmaking. In the following description, the sieved object A is based on slag. In addition, at least the main body 121 is provided with There is a brushing unit 1215 on one side of the sifting element 122. Of course, the brushing unit 1215 can also be provided on the two sides of the sieving element 122 in two corresponding ways (not shown in the figure). The unit 1215 has a plurality of bristles arranged, and the bristles are arranged adjacent to the periphery of the sifting element 122, and are correspondingly removed from the sieving holes 1223. The following is only provided with a brushing unit 1215 As an example.

Referring to Figure 3, in view of the fact that the slags A to be processed are slag piles that have been stored for a long time after the steel has been taken out, and the slags A are stored in the open air during the storage process, so when Long-term storage in the open air will cause the slag A to be continuously affected by air and water vapor, and cause the slag A on the different particle sizes to generate powder on the surface that will cause the particle size of the slag A to change. The powdery calcium carbonate needs to be removed from the slag before it is provided to the user for use. Before the processing in this embodiment, the operator can use the movement of the mobile carrier 11 Function, first move to the place where a large number of slag A is stored for processing. Of course, the mobile carrier 11 can be more visualized with the number and progress time of processing, so as to add multiple sets of the mobile screening assembly 1 in a timely manner. It is beneficial to perform the sieving operation of the slag A at the same time, and at the same time, it can be more suitable for the transportation needs of the slag A after screening. The mobile carrier parked at 11, for receiving the real time such sieved slag A, i.e. as shown in FIG.

During the process, the operator can start the screening operation in the planned site in advance. At this time, the control unit 112 first controls the vehicle body 111 to move to an appropriate position to stay in position, and then uses the control The unit 112 controls the operation unit 114 to generate an operation, so that the operation unit 114 receives the power output of the power source 113 and then causes the body 121 to accumulate the slag A with the operation unit 114 under the controlled operation. After the movement unit 114 can be controlled by the control unit 112 to control different elongation angles, so that the opening 1213 of the body 121 corresponds to the slag A, and then a downward linkage to the movement unit 114 causes the movement The body 121 moves toward the accumulated slag A, and at the same time, the slag A is driven by the excavator 1214, and then the operating unit 114 is actuated to make the opening 1213 of the body 121 tilt. Zhongshuo guided the slag A that was shoveled into the storage space 1221 of the sieving element 122, as shown in FIG. 4, at this time, the control unit 112 further controls the driving element 123 to generate a drive. So that the sieving member 122 is rotated by the driving of the driving member 123, so that the slags A placed in the storage space 1221 can pass through the rotation of the sieving member 122 to generate on the slags A The powdery calcium carbonate is separated and removed from the slag A, and is released outward through the screening holes 1223. Of course, in the process of removing the powdery calcium carbonate, in view of the fact that the slag A is accumulated for a long time, The open-air will cause the powdered calcium carbonate to be dampened, so that the screening holes 1223 will inevitably be blocked by the released powdered calcium carbonate with moisture when they are separated, causing the screening holes 1223 to be blocked. In this way, the subsequent screening operation will be affected. At this time, the setting of the brushing unit 1215 can be used, and the bristle top of the brushing unit 1215 is used to design the periphery of the sieving element 122, so that the sieving element 122 During the rotation process, the brushing unit 1215 can continuously clear the screening holes 1223, so that the screening holes 1223 will not be blocked, so that the powder generated on the slag A can be ensured. Calcium carbonate is removed, The sieving operation can be carried out smoothly, and only the sieved particles of the slag A remain in the sieving piece 123 in the end. At this time, the control unit 112 can output a control instruction to actuate the actuating unit 114. The actuating unit 114 is used to drive the screening device 12 to the carrying vehicle 2 on the parking side. When the screening device 12 is moved above the carrying bucket 21 of the carrying vehicle 2, another output is then output. A control instruction for controlling the actuating unit 114 causes the screening device 12 to be moved to a position adjacent to the loading hopper 21, and through the actuation of the actuating unit 114, the inlet / outlet opening 1222 comes into contact with the loading hopper 21. At the corresponding moment, the granular objects of the slag A that have been sieved in the sieving element 122 are completely dumped onto the loading bucket 21 from the storage space 1221, as shown in FIG. 5, and then continuously linked The operating unit 114 activates the screening device 12 to perform another screening operation of the slag A until the loading bucket 21 is filled up, and then it can be directly transported to a demand location for use.

Continuing from the foregoing, after the overall screening process is carried out in a consistent manner, the quality of the screened objects can be effectively improved, and at the same time, there is no need to collect a large amount in advance, carry it and carry it to another place for screening. Processing, and there are problems that cause too long processing time, and there will be no sieving processing and other problems. Just by setting the mobile screening assembly 1 in this creation, you can immediately and anywhere After the screening operation is processed at any of the original sites, and the processing is continued in an uninterrupted manner at the original site, the requirements of the user can be met, and the adding operation directly used by the user can be provided immediately, so regardless of the cost of shipping Both the cost and the air pollution problems that may occur during the transportation process are different from the conventional traditional treatment methods, which can greatly reduce the processing time and reduce the cost of processing.

Referring to FIG. 6, in the second preferred embodiment of the present invention, the mobile screening assembly 1 can be used for screening sand and gravel in rivers. In this embodiment, it still includes a mobile carrier 11 and a screen. The sub-device 12 and other components described in the previous embodiment, and at the same time, in view of the viscous sludge in the river bed, a water sprayer 13 is provided on one side of the screening device 12 (Shown), and the water sprayer 13 is controlled by the control unit 112 to generate an action. At the same time, the water sprayer 13 has a nozzle 131 provided on the main body 121 and corresponding to the periphery of the sieving member 122, and The carrier body 111 is connected to the nozzle 131 and can output water to a water outlet unit 132 (shown in the figure). At the same time, the water source in the water outlet unit 132 can be prepared separately, and the river bed can be extracted locally. Use of water.

Referring to FIG. 6, in use, first move the mobile screening assembly 1 to a river bed to be operated for positioning, and control the operating unit 114 through the control unit 112 so that the screening device 12 is in the operating unit. Driven by 114, the digging piece 1214 protruding on the body 121 is directly shoveled into the riverbed after being linked by the operating unit 114, and the acting piece 114 is given a power to promote the sieving piece. The inlet / outlet port 1222 of 122 is inclined upward, so that the earth, stones, mud, etc. in the river bed shoveled by these digging members 1214 can enter the storage space 1221 of the sieving member 122. The sieving element 122 is rotated by the driving of the driving element 123, so that the soil coated on the soil and stones is separated during the rotation, so that the soil with a particle size smaller than the screening hole 1223 passes through the screening holes 1223 to It is released outside, and the earth and stones with a particle size larger than the screening hole 1223 are left in the storage space 1221. Of course, in order to avoid blocking the screening hole 1223 with soil and moisture with strong viscosity, etc., and effective So that the earth and stone are separated from each other, this Then, the water outlet unit 132 can be connected to spray the water through the nozzle 131 toward the periphery of the sieving member 122 at the same time. At the same time, the water can also enter the sieving member 122 through the screening holes, so that the screening of gravel and soil is performed. During the sub-action process, a large amount of water is flushed to ensure separation, and the multiple removal effects such as the resistance of the bristles of the brushing unit 1215 are used to greatly prevent the screening holes 1223 from being blocked. At the same time, it is more possible to use the water spray effect. The soil on the separated earth and stone can be effectively reduced under the hydraulic cleaning effect, and then the screened earth and stones are dumped on the carrying vehicle 2 (not shown in the figure), which continues to reciprocate. The screening of earth and stones in the river bed is carried out until the loading vehicle 2 is fully loaded, and then it can be directly transported for subsequent operation. Based on the setting of the mobile screening assembly 1 created by this creation, it can be immediately used in Uninterrupted continuous processing at any original site, which effectively improves the quality of the sieved objects, and is carried out through a consistent operation process, which makes it possible to obtain Greatly shorten the aging process, while more effectively reducing processing costs.

Summarizing the foregoing, the new mobile screening assembly is mainly used for mobile screening of steel slag after steelmaking and metal materials have been taken out. It uses the overall design with mobile carriers and screening devices. Mobile operation, while sieving with the consistent application method, is conducive to rotating a large number of stacked objects through the screening device of the screening device in place to screen the screened objects, which is effective In addition to improving the quality of the sieved objects, and the mobility of mobile operations, combined with consistent screening, it can more reliably eliminate the problems of shipping costs and possible air pollution that must be re-screened during shipment. The operating procedure can greatly reduce the processing time and effectively reduce the processing cost, so it can indeed achieve the purpose of this new model.

However, the above are only for explaining the preferred embodiments of the present invention. When the scope of the implementation of the present invention cannot be limited by this, that is, the simple equivalent changes and modifications made according to the scope of the patent application of the new application and the content of the new specification , All should still fall within the scope of this new patent.

(This model)
1‧‧‧ Mobile Screening Assembly
11‧‧‧ Mobile Vehicle

12‧‧‧Screening device
13‧‧‧Water spray device
111‧‧‧vehicle body

112‧‧‧Control Department
113‧‧‧Power source

114‧‧‧action unit
121‧‧‧ Ontology

122‧‧‧Screening
123‧‧‧Driver
1211‧‧‧accommodation space

1212‧‧‧ Hollow Notch
1213‧‧‧ opening

1214‧‧‧ Excavation
1215‧‧‧Swipe unit
1221‧‧‧Storage space

1222‧‧‧Inlet / Outlet
1223‧‧‧Screening hole
131‧‧‧ Nozzle

132‧‧‧Water outlet device
2‧‧‧ transport vehicle
21‧‧‧bearing bucket
A‧‧‧ Screened objects (slag)

FIG. 1 is a schematic diagram of a first preferred embodiment of the present invention.
FIG. 2 is a schematic cross-sectional view of a part of the first preferred embodiment.
FIG. 3 is a schematic diagram of the operation of the first preferred embodiment.
FIG. 4 is a schematic diagram of the operation of a part of the first preferred embodiment.
FIG. 5 is another schematic diagram of the partial operation of the first preferred embodiment.
FIG. 6 is a schematic diagram of a second preferred embodiment of the present invention.

Claims (5)

A motorized screening assembly comprising:
A mobile vehicle having a vehicle body, a control portion provided on the vehicle body, a power source controlled by the control portion and outputting power, and a vehicle body extending outwardly and receiving power from the vehicle body. An actuating unit actuated by the control unit; and a screening device having a body provided on the actuating unit, a sieving member rotatable on the body, and a sieving device provided on the body and driving the sieving A rotating driving member; wherein an accommodating space is formed inside the body, and a hollow notch is formed at the periphery of the body, so that the accommodating space communicates outward through the hollow notch, and the body is opposite to one of the driving members An opening is formed on the side; the sieving member is located in the accommodating space and an accommodating space capable of accommodating sieving objects is formed inside; at the same time, one end of the sieving member is connected to the driving member, and the sieving member is another An inlet / outlet opening is formed at one end corresponding to the opening, and a plurality of screening holes are provided at the periphery of the sieving member. The sieving object accommodated in the storage space is driven by the driving member using the sieving member. ,and The sieved objects are subjected to sieving for screening. According to the motorized screening assembly described in item 1 of the scope of the patent application, the body is further provided with a brushing unit, and the brushing unit is pressed against the periphery of the sieving member. According to the mobile screening assembly described in item 1 or 2 of the scope of the patent application, a water sprayer is provided on one side of the screening device, and the water sprayer can spray water into the storage space. The motorized screening assembly according to item 1 of the scope of the patent application, wherein the body is provided with a digging member to facilitate excavation. According to the motorized screening assembly described in item 1 of the scope of the patent application, wherein the driving member can be connected to the power source to supply power for the driving member to rotate.