CN220919542U - Impeller sand washer - Google Patents

Abstract

The utility model discloses an impeller sand washer, and relates to the technical field of sand and stone processing. The sand washing device comprises a sand washing box and a motor, wherein the motor is fixedly connected with the sand washing device, the sand washing device comprises a main shaft, one side surface of the main shaft is connected with a supporting rod through threads, one end of the supporting rod is connected with a sliding block in a clamping mode, one side of the sliding block is fixedly connected with a baffle plate, a sand washing bucket is fixedly connected with one side upper part of the baffle plate, and the sliding block is connected with a ring frame in a sliding mode.

Description

Impeller sand washer

Technical Field

The utility model relates to the technical field of sand and stone processing, in particular to an impeller sand washer.

Background

The impeller sand washer is a device for cleaning and separating granular materials such as sand materials, stones and the like, and the working principle of the impeller sand washer is based on rotation of an impeller and impact of water flow, and impurities, slurry and the like can be effectively removed from raw materials, so that clean sand stone is obtained, and the impeller sand washer is generally applied to the fields of construction, mining, cement engineering, hydraulic engineering and the like and is used for purifying and providing high-quality sand materials.

The existing impeller sand washer is generally manufactured by adopting a welding method, a steel plate is firstly cut to a specified shape before manufacturing, then the steel plate is spliced one by one according to drawings, the machine is required to be disassembled into a plurality of blocks to be transported to a truck when in transportation, the steel plate is reassembled to a destination, time and labor are wasted, and long-time shutdown and replacement are required when abrasion occurs, so that the production efficiency is affected.

Disclosure of utility model

Based on the above, the utility model aims to provide an impeller sand washer so as to solve the technical problems that when abrasion occurs, the impeller sand washer needs to be stopped and replaced for a long time, and the production efficiency is affected.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the impeller sand washer comprises a sand washing box and a motor, wherein the motor is fixedly connected with a sand washing device, and the sand washing device comprises a main shaft. One side surface of main shaft is connected with the bracing piece through the threaded connection, the one end block of bracing piece is connected with the sliding block, one side fixedly connected with baffle of sliding block, one side top fixedly connected with sand washing bucket of baffle, sliding block sliding connection has the link, four sliding grooves have been seted up on the surface of link, four sliding groove and bracing piece sliding connection.

Through adopting above-mentioned technical scheme, the motor is with power transmission to the sand washing device on, realizes the normal operating of sand washing device, and the main shaft can control the position of bracing piece through the screw thread, realizes the block to the sliding block or to the relaxation of sliding block, and the sliding block passes through baffle and sand washing fill fixed connection for the sand washing fill can utilize the sliding block inside the link, realizes fixing, and four sliding grooves provide the space for four bracing pieces, also can improve the installation rate when installing the sand washing fill simultaneously.

Further, the support rod is provided with four, four the thread groove has all been seted up to the other end of support rod, thread groove and screw thread looks adaptation.

Through adopting above-mentioned technical scheme, thread groove and screw thread looks adaptation can make the main shaft promote the bracing piece outward movement and offset with the sliding block through the thread groove when rotating to on will rotating the transmission sand washing bucket, realize holistic effective motion.

Further, a first clamping hole is formed in one side of the bottom of the sliding block, and a second clamping hole is formed in the other side of the bottom of the sliding block.

Through adopting above-mentioned technical scheme, first block hole and second block hole provide mounting position for subsequent installation to can realize effectual transmission with the block of bracing piece with first block hole and second block hole with the power of motor, accomplish the conversion of power.

Further, one end of the supporting rod is fixed with a first clamping column, one side of the first clamping column is fixed with a second clamping column, the first clamping column is matched with the second clamping hole, and the second clamping column is matched with the first clamping hole.

Through adopting above-mentioned technical scheme, first draw-in column and second block hole looks adaptation make half entering the link inside, can't outwards slide any more, second draw-in column and first block hole looks adaptation can make half entering the link of another sliding block inside, and it is fixed with two sliding blocks and bracing piece, can realize passing force on the one hand, on the other hand can realize the block of sliding block and link, avoid taking place to drop between sliding block and the sand washing bucket.

Further, two ring frames are arranged, the two ring frames are arranged in a mirror image mode along the neutral surface of the sand washing hopper, and a jacking column is arranged between the two ring frames.

Through adopting above-mentioned technical scheme, two ring frames can be with sand washing hopper block in the middle, and the jack-up post can restrict the position of both sides bracing piece simultaneously, prevents that the bracing piece of both sides from sliding to the centre, breaks away from the block.

Furthermore, one end of the main shaft is sleeved with a secondary shaft, and the secondary shaft is in an annular structure.

Through adopting above-mentioned technical scheme, the auxiliary shaft can restrict the position of bracing piece, prevents that it from the landing, can outwards promote the bracing piece simultaneously and make it can be fixed with the sliding block realize driven effect.

Further, a fixed table is arranged between the sand washing box and the motor, and the motor is fixedly connected with one end of the main shaft.

Through adopting above-mentioned technical scheme, the sand washing box can be connected to the fixed station and motor, for the motor provides the mounted position, and the one end fixed connection of motor and main shaft makes the power of motor can transmit on the main shaft, accomplishes the input of power.

In summary, the utility model has the following advantages:

1. When the sand washing box, the motor and the sand washing device are arranged, firstly, a sand washing box is prepared, then a sliding block on the sand washing box is put into a ring frame through a sliding groove, then the position of the sliding block is adjusted to enable the sliding block to enter the ring frame, after the last sand washing box enters the installation position, the ring frame is adjusted to enable a first clamping hole of one sliding block to be clamped into the ring frame, a second clamping hole is exposed on the sliding groove, a first clamping hole of the other sliding block is exposed on the sliding groove, the second clamping hole is clamped into the ring frame, then four supporting rods are mounted on the main shaft and clamped by threads, then a top column is sleeved on the main shaft at the other side of the four supporting rods, then the four supporting rods at the other side are mounted on a subsidiary shaft and sleeved on the main shaft, so that the combination of shafts is realized, then the main shaft and the subsidiary shaft are rotated, the supporting rods move outwards along the threads and are mutually clamped in the sliding blocks, and then power is transmitted to the sand washing box and the ring frame to rotate, and the sand washing box can be quickly maintained or the sand washing box can be quickly replaced when the sand washing box and the sand washing box are worn or the sand washing box is singly maintained;

2. According to the utility model, the first clamping columns, the second clamping holes, the second clamping columns and the first clamping holes are arranged, so that the clamping and force transmission are arranged in one mechanism through staggered installation, and meanwhile, the power can be transmitted to the ring frame, and the power transmission is completed.

Drawings

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

FIG. 2 is a schematic elevational view of the sand washer of the present utility model;

FIG. 3 is a schematic view of the bottom construction of the sand washer of the present utility model;

fig. 4 is a schematic structural view of the support bar of the present utility model.

In the figure: 1. washing a sand box; 2. a motor; 3. a sand washing device; 4. a fixed table; 301. a main shaft; 302. a thread; 303. a support rod; 304. a sliding block; 305. a baffle; 306. sand washing hopper; 307. a ring frame; 308. a sliding groove; 309. a thread groove; 310. a first engagement hole; 311. a second engagement hole; 313. a first clamping column; 314. a second clamping column; 315. a top column; 316. and (3) a secondary shaft.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

Hereinafter, an embodiment of the present utility model will be described in accordance with its entire structure.

An impeller sand washer, as shown in fig. 1-4, comprises a sand washing box 1 and a motor 2, wherein the motor 2 is fixedly connected with a sand washing device 3, and the sand washing device 3 comprises a main shaft 301. One side surface of main shaft 301 is connected with bracing piece 303 through screw 302, and the one end block of bracing piece 303 is connected with slider 304, and one side fixedly connected with baffle 305 of slider 304, one side top fixedly connected with sand washing bucket 306 of baffle 305, slider 304 sliding connection has link 307, has seted up four sliding grooves 308 on the surface of link 307, four sliding grooves 308 and bracing piece 303 sliding connection, and motor 2 is with power transmission to sand washing device 3, realizes sand washing device 3's normal operation, and main shaft 301 can control the position of bracing piece 303 through screw 302, realizes the block to slider 304 or loosens to slider 304, and slider 304 passes through baffle 305 and sand washing bucket 306 fixed connection for sand washing bucket 306 can utilize slider 304 block inside link 307, realizes fixing, and four sliding grooves 308 provide the space for four bracing pieces 303, also can improve the installation rate when installing sand washing bucket 306 simultaneously.

Referring to fig. 1 and 4, the support rods 303 are provided with four, the other ends of the four support rods 303 are provided with threaded grooves 309, the threaded grooves 309 are matched with the threads 302, and the threaded grooves 309 and the threads 302 are matched with each other so that when the main shaft 301 rotates, the support rods 303 are pushed to move outwards through the threaded grooves 309 to abut against the sliding blocks 304, and the rotation is transmitted to the sand washing hopper 306, so that the integral effective movement is realized.

Referring to fig. 3, a first clamping hole 310 is formed on one side of the bottom of the sliding block 304, a second clamping hole 311 is formed on the other side of the bottom of the sliding block 304, the first clamping hole 310 and the second clamping hole 311 provide mounting positions for subsequent mounting, and the power of the motor 2 can be effectively transmitted through the clamping of the supporting rod 303 and the first clamping hole 310 and the second clamping hole 311, so that the conversion of the power is completed.

Referring to fig. 1 and 4, a first clamping column 313 is fixed at one end of the supporting rod 303, a second clamping column 314 is fixed at one side of the first clamping column 313, the first clamping column 313 and the second clamping hole 311 are matched with each other, the second clamping column 314 and the first clamping hole 310 are matched with each other, the first clamping column 313 and the second clamping hole 311 are matched with each other, one half of the sliding block 304 enters the ring frame 307 and cannot slide outwards, the other half of the sliding block 304 can enter the ring frame 307 due to the matching of the second clamping column 314 and the first clamping hole 310, force transmission can be realized by fixing the two sliding blocks 304 and the supporting rod 303, and the sliding block 304 and the ring frame 307 can be clamped with each other, so that falling off between the sliding block 304 and the sand washing hopper 306 is avoided.

Referring to fig. 1, two ring frames 307 are provided, the two ring frames 307 are arranged in a mirror image along the neutral surface of the sand washing hopper 306, a top column 315 is arranged between the two ring frames 307, the two ring frames 307 can clamp the sand washing hopper 306 in the middle, and meanwhile, the top columns 315 can limit the positions of the support rods 303 at two sides, so that the support rods 303 at two sides are prevented from sliding towards the middle and are separated from clamping.

Referring to fig. 1, one end of the main shaft 301 is sleeved with a secondary shaft 316, the secondary shaft 316 is in an annular structure, the secondary shaft 316 can limit the position of the support rod 303 to prevent the support rod 303 from sliding down, and meanwhile, the support rod 303 can be pushed outwards to be fixed with the sliding block 304 to realize the transmission function.

Referring to fig. 1, a fixed table 4 is arranged between a sand washing box 1 and a motor 2, the motor 2 is fixedly connected with one end of a main shaft 301, the fixed table 4 can be connected with the sand washing box 1 and the motor 2 to provide a mounting position for the motor 2, and the motor 2 is fixedly connected with one end of the main shaft 301 to enable power of the motor 2 to be transmitted to the main shaft 301, so that power input is completed.

The implementation principle of the embodiment is as follows: firstly, when installation is needed, firstly, a sand washing hopper 306 is prepared, then a sliding block 304 on the sand washing hopper 306 is placed into a ring frame 307 through a sliding groove 308, then the position of the sliding block 304 is adjusted to enter the ring frame 307, after the last sand washing hopper 306 enters the installation position, the ring frame 307 is adjusted to enable a first clamping hole 310 of one sliding block 304 to be clamped into the ring frame 307, a second clamping hole 311 is exposed on the sliding groove 308, a first clamping hole 310 of the other sliding block 304 is exposed on the sliding groove 308, a second clamping hole 311 is clamped into the ring frame 307, then four supporting rods 303 are installed on the main shaft 301 and clamped with threads 302, then a top column 315 is sleeved on the main shaft 301 on the other side of the four supporting rods 303, then the other side of the supporting rods 303 are installed on a minor shaft 316, and sleeved on the main shaft 301, so that shaft combination is achieved, then the main shaft 301 and the minor shaft 316 are rotated, the supporting rods 303 move outwards along the threads 302, and when the sliding blocks 304 are clamped with each other, then the supporting rods 303 are clamped with each other, and the sand washing hopper and the ring frame 307 are rotated.

The parts not involved in the present utility model are the same as or can be implemented by the prior art, and are not described in detail herein.

Although embodiments of the utility model have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the utility model as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the utility model, provided that such modifications are within the scope of the appended claims.

Claims (7)

1. The utility model provides an impeller sand washer, includes sand washing box (1), motor (2), its characterized in that: the motor (2) is fixedly connected with sand washing device (3), sand washing device (3) include main shaft (301), one side surface of main shaft (301) is connected with bracing piece (303) through screw thread (302), one end block of bracing piece (303) is connected with sliding block (304), one side fixedly connected with baffle (305) of sliding block (304), one side top fixedly connected with sand washing bucket (306) of baffle (305), sliding block (304) sliding connection has link (307), four sliding groove (308) have been seted up on the surface of link (307), four sliding groove (308) and bracing piece (303) sliding connection.

2. The impeller sand washer of claim 1 wherein: the support rods (303) are provided with four, the other ends of the four support rods (303) are provided with threaded grooves (309), and the threaded grooves (309) are matched with the threads (302).

3. The impeller sand washer of claim 1 wherein: a first clamping hole (310) is formed in one side of the bottom of the sliding block (304), and a second clamping hole (311) is formed in the other side of the bottom of the sliding block (304).

4. The impeller sand washer of claim 1 wherein: one end of the supporting rod (303) is fixed with a first clamping column (313), one side of the first clamping column (313) is fixed with a second clamping column (314), the first clamping column (313) is matched with the second clamping hole (311), and the second clamping column (314) is matched with the first clamping hole (310).

5. The impeller sand washer of claim 1 wherein: two ring frames (307) are arranged, the two ring frames (307) are arranged in a mirror image along the neutral surface of the sand washing hopper (306), and a jacking column (315) is arranged between the two ring frames (307).

6. The impeller sand washer of claim 1 wherein: one end of the main shaft (301) is sleeved with a secondary shaft (316), and the secondary shaft (316) is arranged in an annular structure.

7. The impeller sand washer of claim 1 wherein: a fixed table (4) is arranged between the sand washing box (1) and the motor (2), and the motor (2) is fixedly connected with one end of the main shaft (301).