CN219560692U - Sand washing device - Google Patents

Abstract

The utility model relates to the field of sand cleaning equipment used in sand table game treatment of a psychological treatment method, in particular to a sand cleaning device. The sand washing device of the utility model comprises: a main frame; a stirring vessel mounted within the main frame; at least a first discharge hole is arranged below the stirring container; the sealing piece is in threaded connection with the first discharging hole; a first power output member mounted in the main frame; the power output end of the first power output part is provided with a stirring blade which is fixedly connected or detachably connected, and the stirring blade is positioned in the stirring container; the drying container is arranged in the main frame and is positioned vertically below the first discharge hole; the drying container is provided with at least one water draining part and at least one second discharging hole; and the heating component is arranged in the main frame and is positioned above the drying container vertically.

Description

Sand washing device

Technical Field

The utility model relates to the field of sand cleaning equipment used in sand table game treatment of a psychological treatment method, in particular to a sand cleaning device.

Background

The sand used in the tank therapy is not purchased and can be directly used, but clean fine sand is needed, and in order to prevent injury to hands of a human body in the use process, the sand cannot contain scraps such as stones and broken glass, so that the sand needs to be reused, and in order to keep clean and sanitary, the sand needs to be cleaned and dried in the sun every time.

However, in the aspect of sand washing, the sand washing machine is called a sand washing machine at present, which is mainly used for removing impurities (such as dust) of sand products, and the sand washing machine is formed by using a water washing method. Typically, the artificial machine-made sand is cleaned (by crushing stone). The variety of the products on the market is many, but most of the products have single functions, only a few can wash the rock, dry sand and river sand, and the mixture is washed. The existing sand washing machine is applied to industries such as sand and stone fields, mines, building materials, traffic, chemical industry, water conservancy and hydropower, concrete mixing stations and the like, has huge size, needs large open fields for placement, cannot be used indoors, and has high cost. The existing sand washer is nominally called a sand washer, but dust flies over in the process of essentially washing sand, so that delicate sand washing work cannot be completed, a large amount of sand is wasted in the sand washing process, and the washed sand cannot be dried.

For various reasons, the sand used in the current tank room therapy is manually poured into a water bucket or a water basin for cleaning, the sand is put into a container after cleaning, and then is exposed to the sun to be dried, and the sand can be packaged for the next use after drying. The whole cleaning process mainly has the following problems:

1. the sand is very heavy in the cleaning and rotating process, at least two people are often required to lift the sand together, and the cleaning process is time-consuming and labor-consuming, and the labor cost is extremely high.

2. The sand after washing is dried in the sun, so that sunny weather is also required, and if the weather is overcast and rainy, the sand cannot be dried in the air after being placed indoors for a plurality of days. In addition, even in sunny days, the sand is dried for a long time, and dust, leaves and other garbage enter the outdoor drying.

3. At present, sand is cleaned in a water bucket or a basin, and when the sand is required to be poured out after cleaning is finished, a small amount of sand is adhered to the inner wall of the water bucket or the basin, so that the sand is inconvenient to pour out, and the sand is wasted.

4. At present, the sand is inconvenient to bag after being dried by airing.

Disclosure of Invention

The object of the present utility model is to solve at least part of the above problems of the prior art and to bring about corresponding technical effects.

In order to solve the technical problems, the sand washing device of the utility model comprises:

a main frame;

a stirring vessel mounted within the main frame; at least a first discharge hole is arranged below the stirring container;

the sealing piece is in threaded connection with the first discharging hole;

a first power output member mounted in the main frame; the power output end of the first power output part is provided with a stirring blade which is fixedly connected or detachably connected, and the stirring blade is positioned in the stirring container;

the drying container is arranged in the main frame and is positioned vertically below the first discharge hole; the drying container is provided with at least one water draining part and at least one second discharging hole;

and the heating component is arranged in the main frame and is positioned above the drying container vertically.

As a preferred embodiment of the sand washing device of the present utility model, it comprises a feed chute connected to the main frame; the lower part of the feed chute is provided with a third discharge hole, and the height of the third discharge hole is at least higher than that of the stirring container.

As a preferred embodiment of the sand washing device, the sealing piece is provided with a sealing piston which is fixedly connected, the sealing piston is connected with the first discharging hole in a sliding manner, and the sealing piston is in interference fit with the first discharging hole.

As a preferred implementation scheme of the sand washing device, a guide pillar which is fixedly connected is arranged in the main frame, and the guide pillar is positioned at a vertical angle;

the connecting arm is characterized by comprising a connecting arm, one end of the connecting arm is detachably connected with the guide pillar, and the other end of the connecting arm is detachably connected with the first power output component.

As a preferred embodiment of the sand washing device, the main frame is internally provided with at least a drying bin, and the drying container is positioned in the drying bin;

and the drying bin is communicated with an exhaust pipe.

As a preferred embodiment of the sand washing device according to the utility model, it comprises at least one air inlet pipe which is at least partially located in the drying container;

the air supply device comprises an air supply component, wherein the air outlet end of the air supply component is communicated with the air inlet pipe.

As a preferred embodiment of the sand washing device, the air outlet end of the air inlet pipe is higher than the bottom surface of the interior of the drying container;

the drying container comprises an air outlet cover, wherein the air outlet cover completely wraps a main body of the air inlet pipe in the drying container; the port of the air outlet cover is positioned adjacent to the bottom surface in the drying container.

As a preferred embodiment of the sand washing device, the sand washing device comprises a rotating shaft, wherein the rotating shaft is provided with an eccentric wheel and a first driving wheel which are fixedly connected, and the eccentric wheel is abutted against the drying container;

the power output end of the second power output part is provided with a second driving wheel which is fixedly connected, and the second driving wheel is connected with the first driving wheel through a driving belt.

As a preferred implementation scheme of the sand washing device, the drying container is provided with a shaft seat and a shaft groove seat which are fixedly connected or detachably connected,

the eccentric wheel is movably arranged in the shaft seat;

the device comprises a bracket, wherein the bracket is movably connected with the shaft groove seat and the rotating shaft.

As a preferred embodiment of the sand washing device of the present utility model, the sand washing device comprises a reinforced framework which surrounds the edge of the drying container;

comprises a reinforcing cover which at least partially wraps the reinforcing framework and the edge of the drying container;

the reinforcing framework and the reinforcing cover are detachably or fixedly connected with the edge of the drying container.

Advantageous effects

The present utility model solves the above existing problems and other existing problems not mentioned one by one above and brings at least the following innovative advantages accordingly:

1. the utility model passes the stirring container and the first power output part which are arranged in the main frame, and the stirring blade which is arranged on the first power output part is arranged in the stirring container; and also comprises a drying container and a heating component; according to the utility model, through the position relation and the connection relation of the components and the related components, the sand cleaning and sand drying are integrally completed through the cooperation of the components, and the problems that the sand is inconvenient to clean and dry and the labor cost is high at present are solved. The sand airing machine also solves the problems that the sand airing is long in time, dust, leaves and other garbage enter the sand airing machine in the outdoor air.

2. According to the utility model, through the sealing piece and the sealing piston fixedly connected with the sealing piece, the sealing piston is positioned in the first discharge hole and is in sliding connection with the first discharge hole, and the sealing piston is in interference fit with the first discharge hole, so that when the sealing piece and the first discharge hole rotate clockwise or anticlockwise through threaded connection, the sealing piece can push the sealing piston to slide upwards or downwards, the sealing piston is switched between a position of completely sealing the first discharge hole and a position of at least partially opening the first discharge hole, the opening or closing of the first discharge hole is realized, sand in a stirring container is conveniently cleaned and discharged, water can be added into the stirring container when sand is discharged, sand in the stirring container can be discharged outwards cleanly, sand residues do not exist on the inner wall of the stirring container including the surface of a stirring blade, and the problem of waste of sand in the current sand cleaning process is solved.

3. According to the utility model, through the arrangement of the air inlet pipe and the air supply component and the communication of the air outlet end of the air supply component with the air inlet pipe, air is blown into the drying container through the air supply component, so that sand is fluidized, the efficiency of accelerating sand drying is achieved, and the problem of long time for airing sand at present is further solved.

4. According to the utility model, the air outlet cover is arranged on the air inlet pipe, so that air (wind) blown by the air supply component through the air inlet pipe passes through the air outlet end and then enters the air outlet cover, and as the end part of the air outlet cover is arranged below, the air output by the air outlet end is discharged through the port below the air outlet cover, so that the output air is discharged through the bottom of the drying container, the fluidization of sand in the drying container is realized, only the outflow of air is realized, and sand cannot enter the air outlet end, and the drying efficiency of the sand is further improved.

5. The utility model also comprises a second driving wheel and a second power output part which are added, wherein the second driving wheel is connected with the first driving wheel through a driving belt, and the connection relation among the parts is also included through the arrangement of the shaft seat and the shaft groove seat, so that when the second power output part is started, the rotation of the rotating shaft and the eccentric wheel can be realized by virtue of the first driving wheel and the second driving wheel, the drying container is driven to swing up and down through the eccentric wheel, and finally the sand in the drying container is in a state of up-down jolt by the up-down swing of the drying container, the gaps among different sand grains are increased, and the sand in the drying container is further improved to be in a fluidization state; the sand drying efficiency is further improved; and after the sand is dried, the up-and-down swing of the drying container realized under the pushing of the eccentric wheel is also more beneficial to the outward outflow of the sand in the drying container through the second discharge port, so that the sand is convenient for bagging and packaging.

6. The utility model finally realizes the reinforcement of the drying container by adding the fixedly connected reinforcing framework and the reinforcing cover at the edge of the drying container so as to reduce the edge deformation of the drying container caused by jolt of the drying container under the pushing of the eccentric wheel.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a hidden part of the present utility model;

FIG. 3 is a schematic top view of the present utility model;

FIG. 4 is a schematic front view of the present utility model;

FIG. 5 is a schematic cross-sectional view of the "A-A" position of FIG. 3;

FIG. 6 is a schematic cross-sectional view of the "B-B" position of FIG. 4;

FIG. 7 is an exploded schematic view of the present utility model;

FIG. 8 is a schematic perspective view of the component "drying vessel" of the present utility model;

FIG. 9 is an enlarged partial view of the area "A" of FIG. 2;

FIG. 10 is an enlarged view of a portion of the area "B" of FIG. 5;

FIG. 11 is an enlarged view of a portion of the area "C" of FIG. 7;

FIG. 12 is a schematic perspective view of a component "connecting arm" of the present utility model;

fig. 13 is a partial enlarged view of the region "D" in fig. 5.

In the figure: 1. the main frame, 2, seal plate, 3, seal door, 4, blending vessel, 5, first discharge port, 6, mount, 7, closure, 8, first power take-off, 9, blending blade, 10, drying vessel, 11, drain, 12, second discharge port, 13, filter screen, 14, heat generating component, 15, feed chute, 16, third discharge port, 17, sealing piston, 18, guide post, 19, connecting arm, 20, drying bin, 21, exhaust pipe, 22, intake pipe, 23, air supply component, 24, air outlet, 25, air outlet cover, 26, spindle, 27, eccentric, 28, first drive wheel, 29, second power take-off, 30, second drive wheel, 31, axle seat, 32, axle slot, 33, bearing, 34, bracket, 35, reinforcing frame, 36, reinforcing cover, 37.

Detailed Description

In order to make the objects, technical solutions and advantages of the technical solutions of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings of the specific embodiments of the present disclosure.

Like reference numerals in the drawings denote like parts. It should be noted that the described embodiments are some, but not all embodiments of the present disclosure.

All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

As shown in fig. 1 to 11, the sand washing device of the present utility model includes a main frame 1; the main frame 1 is a unitary skeleton (frame) for mounting the relevant components of the device; as shown in fig. 2 and 3, sealing plates 2 are respectively fixedly connected around the main frame 1, and fig. 1 shows that a sealing door 3 is arranged in front of the main frame 1.

Fig. 2 to 7 each show the stirring vessel 4 from different angles, the stirring vessel 4 preferably having a lower diameter than an upper diameter, although a circular configuration may be employed in addition thereto; the stirring container 4 is arranged in the main frame 1; at least a first discharge hole 5 is arranged below the stirring container 4; the drawings show that the stirring vessel 4 is fixed in the main frame 1 through the fixing frame 6, and can be directly fixed with the main frame 1, and the fixing mode can be realized through bolt and nut connection or welding the stirring vessel in the main frame 1.

Including closure 7, wherein closure 7 may have various embodiments such as: can be a sealing cover in threaded connection with the first discharge port 5; the first outlet 5 can be sealed when the closure 7 is screwed to the first outlet 5, and the first outlet 5 is opened when the closure 7 is removed by screwing. The sealing member 7 may also be a sealing plug in interference fit with the first discharge port 5, and may be made of rubber, wood or similar materials with certain soft characteristics, so that the sealing member 7 can seal the first discharge port 5 when being plugged into the first discharge port 5, and the sealing member 7 can open the first discharge port 5 when being detached from the first discharge port 5.

Wherein fig. 4 to 10 show the preferred sealing member 7 in this embodiment from different angles, the sealing member 7 is a tubular structure, and the periphery of the sealing member 7 is further provided with an adjusting handle, the sealing member 7 is in threaded connection with the first discharging port 5, and the sealing member 7 is provided with a sealing piston 17 fixedly connected, the sealing piston 17 is positioned in the first discharging port 5 and is in sliding connection with the first discharging port 5, the sealing piston 17 is in interference fit with the first discharging port 5, the sealing piston 17 is preferably rubber or silica gel, and meanwhile fig. 10 shows that the upper end and the lower end of the sealing piston 17 are in conical structures, when the sealing member 7 and the first discharging port 5 are in clockwise rotation or anticlockwise rotation through the threaded connection, the sealing member 7 can push the sealing piston 17 to slide upwards or downwards, so that the sealing piston is switched between a position for completely sealing the first discharging port 5 and a position for at least partially opening the first discharging port 5. That is, the sealing piston 17 can be positioned in the stirring container 4 when being pushed upwards by the sealing piece 7 under the threaded connection of the sealing piece 7 and the first discharging hole 5, so that the port of the first discharging hole 5 is exposed, and sand and water in the stirring container 4 can flow downwards; when the sealing piston 17 is pulled downwards by the sealing piece 7 under the threaded connection of the sealing piece 7 and the first discharging hole 5, the sealing piston returns to the first discharging hole 5 again, and finally the first discharging hole 5 is sealed. Meanwhile, in order to increase the tightness between the sealing piston 17 and the first discharging hole 5, a rubber sealing ring with a ring shape and a circle of the surface of the sealing piston 17 can be arranged on the surface of the sealing piston 17 in implementation so as to increase the sealing effect.

As shown in fig. 2 to 7, the stirring device further comprises a first power output part 8, wherein the first power output part 8 is installed in the main frame 1 and is positioned vertically above the stirring container 4; the power output end of the first power output part 8 is provided with a stirring blade 9 which is fixedly connected or detachably connected, the stirring blade 9 is positioned in the stirring container 4, wherein fig. 5 to 7 show that the stirring blade 9 is a spiral blade, and the structure shape of the stirring blade is not limited in practical application, and the main purpose of the stirring blade is to realize rotation in the stirring container 4 under the driving of the first power output part 8.

As shown in fig. 2 to 11, the drying device further comprises a drying container 10, wherein the drying container 10 is arranged in the main frame 1 and is positioned vertically below the first discharging hole 5; so that sand and water flowing out of the first discharge port 5 can flow into the drying container 10; the drying container 10 has at least one drain 11 and at least one second outlet 12, wherein fig. 2 to 8 show that the drain 11 is preferably a circular recess, below which is a drain connection, and fig. 2 to 8 show that the second outlet 12 is a discharge connection; and fig. 5 to 7 show that the port of the drain 11 is provided with a filter screen 13, while fig. 8 shows studs provided at the edge of the drain 11, so that the filter screen 13 is mounted to the port of the drain 11 through the studs; and the filter material is arranged in the groove of the drainage part 11, the filter material is arranged below the filter screen 13, and the filter material 11 can be preferably made of high-temperature-resistant permeable materials, such as permeable concrete, metal gauze, polyurethane high-temperature-resistant sponge or polyethylene high-temperature-resistant sponge. In addition, the second discharge opening 12 is also provided with a sealing cover which is detachably connected.

As shown in fig. 2 to 10, the drying apparatus further includes a heat generating part 14 provided in the main frame 1 vertically above the drying container 10. As shown in fig. 7 and 10, two heating parts 14 are drawn, one is a heating wire, and the other is a heating lamp, and in practical application, at least one of the two heating parts is selected; meanwhile, the heating component 14 can be replaced by other heating components besides heating lamps and heating lamps, such as: a heating lamp tube, an infrared heating component, a hot air blower and the like.

The working principle of the utility model is as follows: the sand to be cleaned is poured into the stirring container 4, clean water is poured into the stirring container 4, and the first power output part 8 is started at the moment, so that the first power output part 8 drives the stirring blades 9 to rotate, and the sand and the water in the stirring container 4 are turned over by means of the stirring blades 9, so that the sand is cleaned. When the cleaning operation is completed, the first outlet 5, that is, the sealing member 7 is opened, so that sand and water in the stirring vessel 4 just flow into the drying vessel 10 downward through the first outlet 5. Meanwhile, in order to enable sand to flow out more efficiently, when the first discharge hole 5 is opened, the first power output part 8 is kept in a starting state, so that the stirring blade 9 can be in a rotating state, and finally the sand and water in the stirring container 4 flow out through the first discharge hole 5 in the rotating state, thereby being more beneficial to more smoothly discharging the sand in the stirring container 4; and can also add water in this in-process to stirring container 4 to make the sand in the stirring container 4 can outwards discharge cleanly, make stirring container 4's inner wall including stirring vane's surface all not have sand to remain, solved the present sand after wasing when pouring out, the inner wall of cask or basin can be stained with sand and cause extravagant problem. When the sand in the agitation vessel 4 is entirely discharged into the drying vessel 10, water in which the sand is mixed first flows out from the water discharge portion 11, leaving only the sand in the drying vessel 10; at this time, the heating part 14 is started, and the sand in the drying container 10 is dried by heat until the sand in the drying container 10 is thoroughly dried. After the drying work is finished, the second discharging hole 12 can be opened, so that sand flows outwards through the second discharging hole 12, and sand bagging and storage are finished.

The utility model passes the stirring container 4 and the first power output part 8 which are arranged in the main frame 1, and the stirring blade 9 which is arranged on the first power output part 8 is arranged in the stirring container 4; and further includes a drying container 10 and a heat generating part 14 provided; according to the utility model, through the position relation and the connection relation of the components and the related components, and through the cooperation of the components, the sand cleaning and the sand drying are integrally completed, and the problems that the sand is inconvenient to clean and dry and the labor cost is high at present are solved.

The drying container 10 described above may have a further preferred embodiment, i.e. when the bottom surface of the drying container 10 is set at an inclined angle, as shown in fig. 4 and 5, which is provided with a second outlet 12 at a lower level on one side than the other side, i.e. the left side of the drying container 10 is lower than the right side in the drawing, so that after the sand in the drying container is dried, the sand in the interior is caused to flow out through the second outlet 12.

As shown in fig. 1 to 6, the bottom of the main frame 1 is provided with screw-coupled legs 37, and by the provision of the legs 37, the height around the main frame 1 can be adjusted by the legs 37 when the floor is uneven in use. In addition, the support legs 37 can also prevent the main frame 1 from touching water when the ground has water.

As shown in fig. 1 to 7, includes a feed chute 15, the feed chute 15 being connected to the main frame 1; fig. 7 shows that the feeding tank 15 is provided with an inner cavity with a large upper part and a small lower part, a third discharging hole 16 is arranged below the feeding tank 15, and the height of the third discharging hole 16 is at least higher than that of the stirring container 4; wherein fig. 4 and 5 show that the third discharge port 16 is a pipe, and a transmission pipe can be further added, one end of the transmission pipe is connected with the third discharge port 16, and the other end of the transmission pipe is positioned in the stirring container 4. The present utility model provides a feed chute 15 to facilitate pouring of sand and water into the mixing vessel 4 during use.

As shown in fig. 2 to 7, the main frame 1 is provided with a guide post 18 fixedly connected, and fig. 4 and 6 show in detail that the guide post 18 is at a vertical angle; and further comprises a connecting arm 19, wherein one end of the connecting arm 19 is detachably connected with the guide pillar 18, and the other end of the connecting arm is detachably connected with the first power output part 8; fig. 12 shows that the two ends of the connecting arm 19 are respectively provided with annular connecting sleeves and are provided with notches, screw holes are formed on two sides of the notches, and when the two ends of the connecting arm 19 are connected with the guide post 18 and the first power output part 8, the notches can be tightened in the screw holes through screw members so as to realize the positioning of the two ends of the connecting arm 19 with the guide post 18 and the first power output part 8; fig. 6 shows that the connecting arm 19 can be adjusted up and down by taking the guide post 18 as a sliding rail by adjusting the tightness of the screw, and the bottom of the guide post 18 is fixed on the main frame 1 through a connecting seat.

At least the drying chamber 20 is provided in the main frame 1, and fig. 1 to 6 show that the drying chamber 20 is an independent space formed by the sealing plates 20, wherein the drying container 10 is positioned in the drying chamber 20. Fig. 4 and 5 also show that the drying chamber 20 is connected with an exhaust pipe 21 so that water vapor generated during sand drying in the drying container 10 is discharged to the outside through the exhaust pipe 21. And fig. 4, 5 and 7 show that an exhaust fan may be further provided at the upper end of the exhaust duct 21, so that the efficiency of exhausting the water vapor generated from the drying container 10 to the outside may be further improved.

Comprising at least one air inlet duct 22, which air inlet duct 22 is at least partially located within said drying container 10; wherein fig. 2 to 10 show that the air inlet pipe 22 is connected to the drying container 10 from different angles, respectively, and one end of the air inlet pipe 22 is located inside the drying container 10 and the other end is located outside the drying container 10. And fig. 2 to 7 show that the device further comprises an air supply component 23, wherein an air outlet end of the air supply component 23 is communicated with the air inlet pipe 22 through an air pipe when the device is produced and implemented, so that a large amount of air is blown into the drying container 10, and the sand in the drying container 10 is fluidized, which is the prior art, namely: the phenomenon that solid particles exhibit a fluid-like state under the influence of a fluid is called fluidization, i.e. fluidization, and will not be described in detail herein. The utility model uses the air inlet pipe 22 and the air supply component 23, and connects the air outlet end of the air supply component 23 with the air inlet pipe 22, so that the air is blown into the drying container 10 by the air supply component 23, thereby achieving the efficiency of accelerating sand drying.

The air inlet pipe 22 can be further optimized based on the foregoing, that is, the air outlet end 24 of the air inlet pipe 22 is higher than the bottom surface of the interior of the drying container 10; and includes the hood 25, fig. 5 and 9 show the positional relationship of the connection relationship between the hood 25 and the intake pipe 22, and only one hood 25 is drawn in the drawings because the intake pipe 22 is in two different states in which the hood 25 is installed and in which the hood 25 is not installed for convenience of viewing; but it should be correctly understood that: in practical application, each air inlet pipe 22 is correspondingly provided with an air outlet cover 25. Fig. 5 and 9 show the main body of the air inlet duct 22 in the drying container 10 completely wrapped by the air outlet cover 25; the port of the air outlet cover 25 is located adjacent to the bottom surface inside the drying container 10. Further wherein fig. 8 shows that the end above the air inlet pipe 22 is provided with threads for threaded connection with the air outlet cover 25; and with respect to the understanding of the outlet end 24, it should be understood that the end above the inlet tube 22 and the side apertures adjacent to the end are all the outlet ends, respectively. According to the utility model, through the air outlet cover 25 arranged on the air inlet pipe 22, air (wind) blown by the air supply component 23 through the air inlet pipe 22 passes through the air outlet end 24 and then enters the air outlet cover 25, and as the end part of the air outlet cover 25 is arranged below (see fig. 5 and 13), air output by the air outlet end 24 is discharged through a port below the air outlet cover 25, so that the output air is discharged through the bottom of the drying container 10, the fluidization of sand in the drying container 10 is realized, only the outflow of air is allowed, and sand cannot enter the air outlet end 24.

As shown in fig. 2 to 11, the drying container 10 comprises a rotating shaft 26, wherein fig. 11 shows in detail that the rotating shaft 26 is provided with an eccentric 27 and a first driving wheel 28 which are fixedly connected, and the eccentric 27 is abutted against the drying container 10; the power output device comprises a second power output part 29, wherein a second driving wheel 30 fixedly connected with the power output end of the second power output part 29 is arranged, and the second driving wheel 30 is connected with the first driving wheel 28 through a driving belt.

Further, the drying container 10 is provided with a shaft seat 31 and a shaft groove seat 32 which are fixedly connected or detachably connected, and fig. 9 shows that the eccentric wheel 27 is movably installed in the shaft seat 31; the shaft seat 31 is also provided with a bearing 33, and the eccentric 27 is preferably arranged in the bearing 33. And the bracket 34 is movably connected with the shaft groove seat 32 and the rotating shaft 26. As shown in fig. 2 to 6 and 9, the drying container 10 is suspended as a whole, one side of the drying container is movably connected to the shaft groove seat 32, and the other side of the drying container is supported by the eccentric wheel 27 on the rotating shaft 26. The utility model also comprises a second driving wheel 30 and a second power output part 29 which are added by the utility model, wherein the second driving wheel 30 is connected with the first driving wheel 28 through a driving belt, and the connection relation among the parts is also included by the arrangement of the shaft seat 31 and the shaft groove seat 32, so that when the second power output part 29 is started, the rotation of the rotating shaft 26 and the eccentric wheel 27 can be realized by the first driving wheel 28 and the second driving wheel 30, thereby pushing the drying container 10 to swing up and down through the eccentric wheel 27, finally the up and down swinging of the drying container 10 realizes that sand in the drying container 10 is in a up and down bumpy state, and sand in the drying container 10 is further improved to be in a fluidization state; the sand drying efficiency is further improved; and after the sand is dried, the up-and-down swinging of the drying container 10 under the pushing of the eccentric wheel 27 is more beneficial to the sand in the drying container 10 to flow out through the second discharging hole 12 more smoothly.

The present utility model includes a reinforcing cage 35, and fig. 2 to 11 respectively show that the reinforcing cage 35 surrounds the rim of the drying container 10 from different angles; and comprises a reinforcing cage 36, the cross section of the reinforcing cage 36 being shaped like a "door", so as to at least partially wrap the reinforcing skeleton 35 and the edges of the drying container 10; and further comprises the reinforcing frame 35, the reinforcing cover 36 and the edge of the drying container 10 which are detachably or fixedly connected. The utility model finally realizes the reinforcement of the drying container 10 by the fixedly connected reinforcing framework 35 and reinforcing cover 36 which are added on the edge of the drying container 10, so as to reduce the edge deformation of the drying container 10 caused by the jolt of the drying container 10 under the pushing of the eccentric wheel 27.

In a specific implementation, regarding the air-blowing component 23 mentioned in the foregoing in this embodiment, the air-blowing component 23 may be implemented by using different air-blowing components, for example: fan, fan heater, air blower, air compressor, air storage tank, air pump …, etc. In addition, the first power output member 8 and the second power output member 29 may be implemented using different power components, such as: motors, electric drills, motors …, etc.; if the first power output part 8 and the second power output part 29 adopt electric drills, the stirring blade 9 can be arranged on a drill bit holder of the electric drills, and the second driving wheel 30 can be arranged on the drill bit holder of the electric drills through a shaft rod; when the first power output part 8 and the second power output part 29 adopt motors, the stirring blade 9 and the second driving wheel 30 can be arranged on the motor shaft of the motors or the output shaft of a reduction gearbox connected with the motors.

The terms first, second and the like in the description and in the claims, are not used for any order, quantity or importance, but are used for distinguishing between different elements. Likewise, the terms "a," "an," or "the" and similar terms do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, is intended to mean that elements or items that are present in front of "comprising" or "comprising" are included in the word "comprising" or "comprising", and equivalents thereof, without excluding other elements or items. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

The preferred embodiments of the present utility model described above are not intended to limit the present utility model, and the scope of the present utility model is defined by the appended claims, and other embodiments can be obtained from the drawings without inventive faculty to those skilled in the art, and any modifications based on the claims of the present utility model are also the scope of the present utility model.

Claims (10)

1. The sand washing device is characterized by comprising:

a main frame;

a stirring vessel mounted within the main frame; at least a first discharge hole is arranged below the stirring container;

the sealing piece is in threaded connection with the first discharging hole;

a first power output member mounted in the main frame; the power output end of the first power output part is provided with a stirring blade which is fixedly connected or detachably connected, and the stirring blade is positioned in the stirring container;

the drying container is arranged in the main frame and is positioned vertically below the first discharge hole; the drying container is provided with at least one water draining part and at least one second discharging hole;

and the heating component is arranged in the main frame and is positioned above the drying container vertically.

2. The sand washing apparatus of claim 1 including a feed chute connected to the main frame; the lower part of the feed chute is provided with a third discharge hole, and the height of the third discharge hole is at least higher than that of the stirring container.

3. The sand washer of claim 1, wherein the closure member has a fixedly attached sealing piston slidably coupled to the first outlet and the sealing piston is in an interference fit with the first outlet.

4. The sand washing device according to claim 1, wherein a guide post which is fixedly connected is arranged in the main frame, and the guide post is positioned at a vertical angle;

the connecting arm is characterized by comprising a connecting arm, one end of the connecting arm is detachably connected with the guide pillar, and the other end of the connecting arm is detachably connected with the first power output component.

5. The sand washing device according to claim 1, wherein at least a drying bin is arranged in the main frame, and the drying container is arranged in the drying bin;

and the drying bin is communicated with an exhaust pipe.

6. The sand washing device of claim 1, comprising at least one air inlet pipe at least partially within the drying vessel;

the air supply device comprises an air supply component, wherein the air outlet end of the air supply component is communicated with the air inlet pipe.

7. The sand washing device according to claim 6, wherein the air outlet end of the air inlet pipe is higher than the bottom surface of the interior of the drying container;

the drying container comprises an air outlet cover, wherein the air outlet cover completely wraps a main body of the air inlet pipe in the drying container; the port of the air outlet cover is positioned adjacent to the bottom surface in the drying container.

8. The sand washing device according to claim 1 or 6, comprising a rotating shaft provided with an eccentric wheel and a first driving wheel which are fixedly connected, wherein the eccentric wheel is abutted against the drying container;

the power output end of the second power output part is provided with a second driving wheel which is fixedly connected, and the second driving wheel is connected with the first driving wheel through a driving belt.

9. The sand washing device of claim 8, wherein the drying container is provided with a shaft seat and a shaft groove seat which are fixedly connected or detachably connected,

the eccentric wheel is movably arranged in the shaft seat;

the device comprises a bracket, wherein the bracket is movably connected with the shaft groove seat and the rotating shaft.

10. The sand washing device of claim 8, comprising a reinforcing cage surrounding a rim of the drying vessel;

comprises a reinforcing cover which at least partially wraps the reinforcing framework and the edge of the drying container;

the reinforcing framework and the reinforcing cover are detachably or fixedly connected with the edge of the drying container.