CN219092182U - Raw material lifting device for producing barite powder - Google Patents

Abstract

The utility model provides a raw material lifting device for producing barite powder, which comprises a base, a spiral lifting machine, a first connecting frame, an L-shaped second connecting frame, a crushing cylinder, a feed hopper, two crushing rollers, a feeding cylinder and a feeding auxiliary module arranged in the crushing cylinder, wherein the spiral lifting machine is obliquely arranged on the base through a supporting rod, a fixing frame is further arranged on the outer side wall of the crushing cylinder, and two driving motors for driving the crushing rollers are further arranged on the fixing frame. According to the raw material lifting device for producing the barite powder, the feeding auxiliary structure with the filtering and crushing functions and the spiral lifting structure are matched, so that the barite powder is fed and lifted into the screening device for screening processing, and the barite powder is prevented from being blocked in the conveying process.

Description

Raw material lifting device for producing barite powder

Technical Field

The utility model belongs to the technical field of production of barite powder, and particularly relates to a raw material lifting device for production of barite powder.

Background

In the process of producing the heavy-duty rock ore powder, the ore raw material needs to be crushed, ground and sieved. In the process of crushing ore raw materials, a loading device is required to be used for loading the ore raw materials. In the prior art, the raw material limestone is different in size and irregular in shape, so that blockage is easy to occur during feeding.

The utility model discloses a calcium carbonate powder processing raw material feeding device, which comprises a base, wherein a plurality of supporting rods are fixedly arranged at the top of the base, mounting rods are fixedly arranged at the top ends of the supporting rods, mounting grooves are formed in the mounting rods, rotating rods are rotatably arranged in the mounting grooves, a first motor is fixedly arranged at the top of the base, the bottom ends of the rotating rods extend out of the mounting grooves and are fixedly connected with an output shaft of the first motor, spiral blades are fixedly sleeved on the rotating rods, a shell is fixedly arranged on the mounting rods, two rotating shafts are symmetrically arranged in the shell in a rotating mode, and crushing rollers are fixedly arranged on the rotating shafts. However, in the technical scheme of this patent, the in-process of the screw hoist's that sets up to the slope is added to the ore raw materials after will preliminary smashing through the discharge gate, do not set up and be used for carrying out stirring processing to the discharge gate and screw hoist's feed end at stirring structure, be in order to have easy because the quantity of the ore raw materials to the feed end addition of discharge gate and screw hoist is too much, and screw hoist promotes the ore raw materials untimely and lead to the ore raw materials to take place to block up, influence the defect of lifting efficiency at the in-process of feeding.

Disclosure of Invention

In view of the shortcomings in the prior art, the utility model provides a raw material lifting device for producing the barite powder, which can quickly and efficiently lift the barite powder to a screening device for screening processing through the cooperation of a feeding auxiliary structure with filtering and crushing functions and a spiral lifting structure, and avoid blockage of the barite powder in the conveying process.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a heavy crystal powder production is with raw materials hoisting device, which comprises a base, screw hoist through the bracing piece slope setting on the base, set up first link on screw hoist lower extreme lateral wall, the second link of setting L type on the base, the lower extreme inside wall that sets up between first link and second link is conical crushing section of thick bamboo, set up the feeder hopper at crushing section of thick bamboo top, set up at crushing section of thick bamboo inside and with two crushing rollers of feeder hopper looks adaptation, set up in crushing section of thick bamboo's bottom and can overlap establish the feed cylinder in screw hoist's feed end inside and set up the supplementary module of feeding in crushing section of thick bamboo, still be provided with the mount on the lateral wall of crushing section of thick bamboo, still be provided with two driving motor that are used for carrying out driven to crushing roller on the mount. The feeding auxiliary module comprises a transverse plate arranged on the inner side wall of the crushing cylinder, a stirring motor arranged at the bottom of the transverse plate, a stirring shaft arranged at the lower end of an output shaft of the stirring motor and extending to the feeding end of the spiral elevator, a first stirring blade arranged on the stirring shaft and matched with the crushing cylinder, a second stirring blade arranged on the stirring shaft and matched with the feeding cylinder, and a third stirring blade arranged on the stirring shaft and matched with the feeding end of the spiral elevator.

Further, the feeding auxiliary module comprises side ends arranged on the first stirring blade, the second stirring blade and the third stirring blade, and a scraping plate used for scraping and cleaning raw materials adhered to the inner side wall of the lower end of the crushing cylinder, the inner side wall of the feeding cylinder and the inner side wall of the feeding end of the spiral elevator, and the raw materials adhered to the inner side wall of the lower end of the crushing cylinder, the inner side wall of the feeding cylinder and the inner side wall of the feeding end of the spiral elevator can be cleaned through the scraping plate.

Further, still be provided with the guide cone on the diaphragm, through the guide cone, can avoid more ore raw materials after smashing to detain on the diaphragm.

Further, the both ends of first link respectively with screw elevator's lower extreme lateral wall, crushing section of thick bamboo lateral wall welded fastening, the both ends of second link respectively with base, crushing section of thick bamboo lateral wall welded fastening, the bottom side of base still is provided with the extension board, still is provided with the rag bolt that is used for carrying out the fixed with ground on the extension board, through the cooperation of extension board, rag bolt, can avoid the device to take place the skew easily at the in-process of work.

Compared with the prior art, the utility model has the following beneficial effects: through base, bracing piece, spiral lifting machine, first link, second link, crushing section of thick bamboo, feeder hopper, two crushing rollers, feeding section of thick bamboo, diaphragm, agitator motor, (mixing) shaft, first stirring vane, second stirring vane, the cooperation of third stirring vane, can promote the screening processing to screening plant with the heavy crystal stone powder material loading through the cooperation that has the feeding auxiliary structure of filtration and crushing function and spiral lifting structure, high efficiency to avoid heavy crystal stone powder to cause the jam in the in-process of carrying.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic side view of a cross-sectional structure of a cross-plate, a stirring motor, a stirring shaft, and a guide cone of the present utility model;

FIG. 3 is a schematic top view of a mounting bracket and a driving motor of the present utility model;

FIG. 4 is a schematic view of the structure of the extension plate and anchor bolt of the present utility model.

In the figure: 101. a base; 102. a support rod; 103. a spiral elevator; 104. a first connection frame; 105. a second connecting frame; 106. a crushing cylinder; 107. a feed hopper; 108. a pulverizing roller; 109. a charging barrel; 110. a fixing frame; 111. a driving motor; 201. a cross plate; 202. a stirring motor; 203. a stirring shaft; 204. a first stirring blade; 205. a second stirring blade; 206. a third stirring blade; 207. a scraping plate; 208. a guide cone; 209. an extension plate; 210. foundation bolts.

Detailed Description

For a better understanding of the present utility model, the following examples are set forth to further illustrate the utility model, but are not to be construed as limiting the utility model. In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details.

As shown in fig. 1, 2 and 3, a raw material lifting device for producing barite powder comprises a base 101, a screw lifter 103 obliquely arranged on the base 101 through a supporting rod 102, a first connecting frame 104 arranged on the outer side wall of the lower end of the screw lifter 103, a second connecting frame 105 arranged on the base 101, a crushing cylinder 106 arranged between the first connecting frame 104 and the second connecting frame 105 and having a cone-shaped inner side wall at the lower end, a feed hopper 107 arranged at the top of the crushing cylinder 106, two crushing rollers 108 arranged inside the crushing cylinder 106 and matched with the feed hopper 107, a feeding cylinder 109 arranged at the bottom of the crushing cylinder 106 and capable of being sleeved inside the feeding end of the screw lifter 103, and a feeding auxiliary module arranged in the crushing cylinder 106. The feeding auxiliary module comprises a transverse plate 201 arranged on the inner side wall of the crushing barrel 106, a stirring motor 202 arranged at the bottom of the transverse plate 201, a stirring shaft 203 arranged at the lower end of an output shaft of the stirring motor 202 and extending to the feeding end of the spiral lifter 103, a first stirring blade 204 arranged on the stirring shaft 203 and matched with the crushing barrel 106, a second stirring blade 205 arranged on the stirring shaft 203 and matched with the feeding barrel 109, and a third stirring blade 206 arranged on the stirring shaft 203 and matched with the feeding end of the spiral lifter 103, wherein a fixing frame 110 is further arranged on the outer side wall of the crushing barrel 106, and two driving motors 111 used for driving the crushing rollers 108 are further arranged on the fixing frame 110. The feeding auxiliary module comprises side ends of a first stirring blade 204, a second stirring blade 205 and a third stirring blade 206, and a scraping plate 207 for scraping and cleaning raw materials adhered to the inner side wall of the lower end of the crushing cylinder 106, the inner side wall of the feeding cylinder 109 and the inner side wall of the feeding end of the screw lifter 103.

When the ore raw material is required to be fed, the driving motor 111 can be started firstly to enable the two crushing rollers 108 to work, the stirring motor and the spiral elevator 103 are started, then the ore raw material can be added into the crushing cylinder 106 through the feed hopper 107 and then fall onto the two crushing rollers 108 to be subjected to preliminary crushing treatment, the primarily crushed ore raw material cannot be adhered to the transverse plate 201 more due to the guiding action of the guide cone 208, and cannot be adhered to the guide cone 208 more, and then leaves the crushing cylinder 106 through the feeding cylinder 109 and enters the feeding end of the spiral elevator 103, so that the spiral elevator 103 is used for carrying out the lifting treatment of the ore raw material.

In the process that the ore raw materials after preliminary crushing fall into the lower end of the crushing cylinder 106, are discharged through the charging cylinder 109 and enter the feeding end of the spiral lifter 103 so as to add materials into the spiral lifter 103, stirring treatment can be carried out by matching of the stirring shaft 203, the first stirring blade 204, the second stirring blade 205 and the third stirring blade 206, so that the ore raw materials are prevented from being blocked at the lower end of the crushing cylinder 106, the charging cylinder 109 and the feeding end of the spiral lifter 103, and are better fed and crushed; simultaneously, the scraping plate 207 can synchronously rotate along with the matching of the first stirring blade 204, the second stirring blade 205, the third stirring blade 206 and the scraping plate 207, so that ore raw materials adhered to the inner side wall of the lower end of the crushing cylinder 106, the inner side wall of the feeding cylinder 109 and the inner side wall of the feeding end of the spiral lifter 103 are scraped and cleaned, and accordingly the ore raw materials are fed and lifted together, and further waste of the ore raw materials is avoided.

According to another embodiment of the present utility model, as shown in fig. 1 and 2, a guide cone 208 is further disposed on the transverse plate 201, and by using the guide cone 208, it is possible to avoid more crushed ore raw material from being retained on the transverse plate 201.

According to another embodiment of the present utility model, as shown in fig. 4, two ends of the first connecting frame are welded and fixed to the outer side walls of the lower end of the spiral lifter 103 and the outer side wall of the crushing cylinder 106, two ends of the second connecting frame are welded and fixed to the outer side walls of the base 101 and the crushing cylinder 106, two ends of the supporting rod 102 are welded and fixed to the base 101 and the spiral lifter 103, an extension plate 209 is further disposed at the bottom side end of the base 101, and an anchor bolt 210 for fixing to the ground is further disposed on the extension plate 209, so that the anchor bolt 210 can be prevented from easily shifting in the working process by only passing through the extension plate 209 and connecting with the ground.

Finally, it is noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present utility model, and that other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (6)

1. The utility model provides a heavy crystal powder production is with raw materials hoisting device which characterized in that: the feeding auxiliary module comprises a base (101), a spiral lifting machine (103) obliquely arranged on the base (101) through a supporting rod (102), a first connecting frame (104) arranged on the outer side wall of the lower end of the spiral lifting machine (103), an L-shaped second connecting frame (105) arranged on the base (101), a crushing cylinder (106) arranged between the first connecting frame (104) and the second connecting frame (105) and having a cone-shaped inner side wall at the lower end, a feeding hopper (107) arranged at the top of the crushing cylinder (106), two crushing rollers (108) arranged inside the crushing cylinder (106) and matched with the feeding hopper (107), a feeding cylinder (109) arranged at the bottom of the crushing cylinder (106) and capable of being sleeved inside the feeding end of the spiral lifting machine (103), and a feeding auxiliary module arranged in the crushing cylinder (106);

the feeding auxiliary module comprises a transverse plate (201) arranged on the inner side wall of the crushing cylinder (106), a stirring motor (202) arranged at the bottom of the transverse plate (201), a stirring shaft (203) arranged at the lower end of an output shaft of the stirring motor (202) and extending to the feeding end of the spiral lifter (103), a first stirring blade (204) arranged on the stirring shaft (203) and matched with the crushing cylinder (106), a second stirring blade (205) arranged on the stirring shaft (203) and matched with the feeding cylinder (109) and a third stirring blade (206) arranged on the stirring shaft (203) and matched with the feeding end of the spiral lifter (103).

2. The raw material lifting device for producing barite powder according to claim 1, wherein: the feeding auxiliary module comprises side ends arranged on the first stirring blade (204), the second stirring blade (205) and the third stirring blade (206), and a scraping plate (207) for scraping and cleaning raw materials adhered to the inner side wall of the lower end of the crushing cylinder (106), the inner side wall of the feeding cylinder (109) and the inner side wall of the feeding end of the spiral lifting machine (103).

3. The raw material lifting device for producing barite powder according to claim 2, wherein: and a guide cone (208) is further arranged on the transverse plate (201).

4. The raw material lifting device for producing barite powder according to claim 3, wherein: and two ends of the first connecting frame are respectively welded and fixed with the outer side wall of the lower end of the spiral lifting machine (103) and the outer side wall of the crushing cylinder (106).

5. The raw material lifting device for producing barite powder according to claim 4, wherein: and two ends of the second connecting frame are respectively welded and fixed with the outer side walls of the base (101) and the crushing cylinder (106).

6. The raw material lifting device for producing barite powder according to claim 4 or 5, wherein: the outer side wall of the crushing cylinder (106) is also provided with a fixing frame (110), and the fixing frame (110) is also provided with two driving motors (111) for driving the crushing roller (108).

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