CN215724643U - Soil processing equipment who possesses drying device - Google Patents

Abstract

The utility model discloses a soil processing device with a drying device, which comprises a sieve plate arranged in a shell, wherein the surface of the sieve plate is provided with a sieve hole penetrating through the sieve plate, the inside of the sieve plate is provided with a moisture-removing air cavity, the right side in the shell is provided with a warm air cavity, the warm air cavity and the cavity in a collecting plate form circulation through a guide pipe, part of warm air generated by the warm air cavity flows into the moisture-removing air cavity through a pressurizing unit, an air port of the moisture-removing air cavity is obliquely and upwards arranged, moist soil is dried through the sieve hole, larger soil particles blocking the sieve hole can be timely removed, meanwhile, the sieve plate also filters other larger soil particle impurities in the soil, the other part of warm air flows into the cavity in the collecting plate, the collected soil is secondarily dried through the collecting plate made of heat conducting materials, and then is collected into the warm air cavity through the guide pipe again, so that the recycling of the warm air is realized, and the utilization rate of the warm air is increased, the resource waste of the device is reduced.

Description

Soil processing equipment who possesses drying device

Technical Field

The utility model relates to the technical field of soil processing equipment, in particular to soil processing equipment with a drying device.

Background

The soil processing equipment comprises soil grinding equipment, drying equipment and the like, and the soil drying box is used for placing the wet soil to be researched in the drying equipment and dehumidifying the soil by utilizing the high-temperature evaporation effect. In the actual drying process, because soil is placed and is collected piling up of box volume and cause soil can not be by even drying, the soil sample of collection itself also has the debris of great soil granule, and conventional drying cabinet can not clear away its impurity and filter, has caused certain influence to later stage research, and the heating energy consumption is higher, the wasting of resources.

To this end we provide a soil processing apparatus with a drying device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides a soil processing device with a drying device, a warm air cavity generates warm air in the drying process, a pressurizing unit injects the warm air into a sieve plate through an air guide hose, a moisture removing air cavity air port in the sieve plate is obliquely and upwards blown to a sieve mesh, soil on the surface layer of the sieve plate is dried under the action of the warm air, the dried soil flows down through the sieve mesh under the action of the sieve plate, when the sieve mesh is blocked by large soil particles, the warm air exhausted from an air outlet can be blown up enough to eliminate the hidden danger of blockage, meanwhile, large soil particle sundries are screened, a warm air circulation system is formed between the warm air cavity and a collecting plate through a guide pipe, the utilization rate of the warm air is increased, and the resource waste is reduced.

In order to achieve the above object, a soil processing apparatus with a drying device according to the present invention includes a housing, and further includes:

the device comprises a moisture removing air cavity, a sieve plate and a plurality of air outlets, wherein the moisture removing air cavity is arranged in the sieve plate, the surface of the sieve plate is provided with sieve pores which penetrate through the sieve plate up and down, the moisture removing air cavity surrounds the outer ring of the sieve pores, and the upper end of the moisture removing air cavity is provided with an air port communicated to the inside of the sieve pores;

the warm air cavity is arranged on one side of the shell, a pressurizing unit for pressurizing the dehumidifying air cavity is arranged in the warm air cavity, and a heating unit for providing heat for the dehumidifying air cavity is further arranged in the warm air cavity.

In the embodiment, when the sieve plate works, the sieve plate swings in parallel to dry and screen soil simultaneously;

and in actual drying and screening process, because there is the possibility of blockking up the sieve mesh in the great soil particulate matter that exists in the soil, consequently, the inside damp wind chamber that removes that is equipped with of sieve, be enough to clear away it to the soil granule that blocks the sieve mesh, guaranteed the normal use of sieve, be provided with the pressure unit in the warm braw intracavity, the pressure unit is carried to removing damp wind chamber to hot-air.

According to the scheme, the collecting plate is arranged below the sieve plate inside the shell, the placing groove is formed in the collecting plate, the collecting boxes are placed in the placing groove, the placing grooves are equidistantly formed in the collecting plate, the top of the placing groove is provided with a pair of inclined planes, and a V-shaped structure is formed between the inclined planes.

In this embodiment, in the collection box that the soil after the screening descends on the collecting board, a pile of inclined plane has been seted up at the standing groove top, and when soil flowed down, in the box was collected in the inclined plane inflow, the accumulational condition had been avoided.

According to the scheme, the collecting plate is further optimized, the round-section heat conducting cavity is formed in the collecting plate, the heat conducting cavity is of a bent channel structure, one end of the heat conducting cavity is communicated with the upper end of the warm air cavity through a first pipeline fixed on the collecting plate, and the other end of the heat conducting cavity is communicated with the lower end of the warm air cavity through a second pipeline fixed on the collecting plate.

It should be noted that, even crooked access structure has guaranteed the even transmission of heat conduction chamber heat, makes the secondary drying of soil more abundant, and first pipe and second pipe all let in the warm braw chamber, form heating circulation system.

As a further optimization of the above scheme, a second rubber sealing ring sealed between the collecting plate and the inner wall of the casing is fixedly arranged around the collecting plate, and the bottom of the collecting plate is fixed on the inner wall of the casing through a bracket.

It should be noted that the collecting plate is fixedly connected with the inner wall of the shell, and the second sealing ring is added to prevent falling soil from flowing into the bottom of the shell, which causes certain trouble to cleaning.

As a further optimization of the scheme, the air port at the upper end of the moisture removing air cavity is inclined upwards, the moisture removing air cavity is communicated with the pressurizing unit through the air guide hose, and the pressurizing unit is arranged on one side of the heating element.

Further, the sieve is at the working process, and when the circumstances that great soil particle blockked up appeared, the air port that sets up in the slant blows off the heating installation that the warm braw chamber provided soil particles thing, plays the effect of cleaing away.

As a further optimization of the scheme, a leakage groove is formed in the bottom of the moisture removing air cavity and penetrates through the lower surface of the sieve plate, a piston is movably clamped in the leakage groove, a fixed rod is fixedly arranged on the lower surface of the sieve plate, and a spring supported at the bottom of the piston is fixedly arranged at one end of the fixed rod.

Further, when part of soil flows into the leakage groove from the air opening, the accumulated soil presses the piston to move downwards under the action of gravity, and the accumulated soil flows to the collecting plate from the leakage groove.

As a further optimization of the scheme, the upper surface of the piston is designed to be inclined, the fixing rod is in an L-shaped structure, and the fixing rod is connected with the spring to form an inclined section.

Specifically, the design of piston upper surface slope, the faster heap of the soil that flows in is in the slope department, flows down to the dead lever from the left end of piston under the action of gravity, and dead lever slope design has accelerated flowing down of soil.

As a further optimization of the above scheme, a plurality of groups of sieve pores are arranged on the surface of the sieve plate, a group of moisture removing cavities are correspondingly arranged on the outer rings of the sieve pores, and a transmission element for driving the sieve plate to swing in parallel is arranged on the inner wall of the shell.

Concretely, remove the even outer lane that sets up at the sieve mesh in damp wind chamber, guarantee that every sieve mesh can both have sufficient warm braw to carry out the drying to soil.

As a further optimization of the scheme, the two ends of the sieve plate are fixedly provided with baffle plates for blocking materials on the surface of the sieve plate from falling, the baffle plates are of arc-shaped plate structures which are turned inwards on the upper surface of the sieve plate, and the inner wall of the shell is fixedly provided with a first sealing rubber ring corresponding to one side of the baffle plate at the end part of the sieve plate.

It should be noted that, because the sieve reaches tip scram and has produced certain impact in the course of the work, and soil is aroused, for preventing that soil from flowing down to the collecting board, the both ends of sieve all are provided with the arc platelike mechanism to the internal surface turn-up of sieve, have blockked dropping of soil, reduce the possibility of sieve striking damage simultaneously.

As a further optimization of the scheme, an air inlet for external natural air to enter is formed in one side of the warm air cavity, and filter cotton for filtering the external natural air is arranged at the position of the air inlet.

Furthermore, two groups of filter cotton are arranged at the air inlet, so that the natural air flowing into the shell is enabled to be purer and drier;

it should be noted that the screening of soil selects the thicker sieve plate, therefore, the whole service strength of the sieve plate is guaranteed under the condition that the normal work of the arranged moisture removing air cavity is guaranteed.

The soil processing equipment with the drying device has the following beneficial effects:

the utility model relates to soil processing equipment with a drying device, which comprises a sieve plate arranged in a shell, wherein the surface of the sieve plate is provided with a sieve mesh which penetrates up and down, the inside of the sieve plate is provided with a moisture removing air cavity, the right side in the shell is provided with a warm air cavity, the warm air cavity and a collecting plate are communicated by a first conduit and a second conduit to form circulation, part of warm air generated by the warm air cavity flows into the moisture removing air cavity, the wet soil is dried by the sieve mesh, an air port is arranged obliquely upwards, larger soil particles blocking the sieve mesh can be removed in time, meanwhile, the sieve plate also filters other impurities in the soil, the other part of warm air flows into the cavity in the collecting plate, the collected soil is secondarily dried by the heat-conducting collecting plate and then is collected into the warm air cavity again by the conduit, the recycling of the warm air is realized, the resource waste of the device is greatly reduced, and after the moisture removal is finished, a collecting box is taken out of a collecting tank, and (5) finishing drying.

There have been disclosed in detail certain embodiments of the utility model with reference to the following description and drawings, and it is to be understood that the embodiments of the utility model are not limited thereby, but are intended to cover within the spirit and scope of the appended claims, many changes, modifications, and equivalents.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the internal structure of the screen deck at a in fig. 2 according to the present invention;

FIG. 3 is a schematic diagram of a collecting plate structure according to the present invention;

fig. 4 is a schematic view of the structure of the baffle plate of the present invention.

In the figure: the device comprises a shell 1, a transmission element 2, a sieve plate 3, a sieve hole 4, a moisture removing air cavity 5, an air port 6, a leakage groove 7, a piston 8, a spring 9, a fixing rod 10, a collecting plate 11, a heat conducting cavity 12, a warm air cavity 13, an air inlet 14, filter cotton 15, a heating element 16, a pressurizing unit 17, an air guide hose 18, a first sealing rubber ring 19, a baffle plate 20, a placing groove 21 and a second sealing rubber ring 22.

Detailed Description

In order to make the technical solution and advantages of the present invention more apparent, the present invention is further described in detail by the accompanying drawings and examples. It should be understood, however, that the description herein of specific embodiments is only intended to illustrate the utility model and not to limit the scope of the utility model.

It should be noted that when an element is referred to as being "disposed on," or provided with "another element, it can be directly on the other element or intervening elements may also be present, when an element is referred to as being" connected, "or coupled to another element, it can be directly on the other element or intervening elements may be present, and" fixedly coupled "means that the element is fixedly coupled in many ways, which are not intended to be within the scope of the present disclosure, the terms" vertical, "" horizontal, "" left, "" right, "and the like are used herein for illustrative purposes only and are not intended to be a single embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification are for the purpose of describing particular embodiments only and are not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items;

referring to the attached drawings 1-4 of the specification, the utility model provides a technical scheme: the utility model provides a soil processing equipment who possesses drying device, is including setting up in the inside sieve 3 of casing 1, still includes:

the device comprises a moisture removing air cavity 5 arranged inside a sieve plate 3, sieve holes 4 penetrating up and down are formed in the surface of the sieve plate 3, the moisture removing air cavity 5 surrounds the outer rings of the sieve holes 4, and an air port 6 communicated with the inside of the sieve holes 4 is formed in the upper end of the moisture removing air cavity 5;

the warm air cavity 13 is arranged on one side of the shell 1, a pressurizing unit 17 for pressurizing the dehumidifying air cavity 5 is arranged in the warm air cavity 13, and a heating unit 16 for providing heat for the dehumidifying air cavity 5 is further arranged in the warm air cavity 13.

In the embodiment, when the sieve plate 3 works, the sieve plate 3 swings in parallel to dry and screen soil simultaneously;

and in actual drying and screening process, because there is the possibility that great soil particles exist in the soil and block up sieve mesh 4, consequently, sieve 3 is inside to be equipped with except that damp wind chamber 5, is enough to clear away it to the soil particle that blocks up sieve mesh 4, has guaranteed sieve 3's normal use, is provided with pressure unit 17 in the warm braw chamber 13, and pressure unit 17 carries to except that damp wind chamber 4 to hot-air.

Specifically, the heating unit 17 conveys the hot air to the dehumidifying air cavity 5 and then blows out the hot air from the air port 6, the air port 6 inclines upwards, therefore, the hot air flows upwards through the sieve holes 4, soil particles blocked on the upper portions of the sieve holes 4 are blown off, the blockage clearing effect is achieved, and the hot air can dry the soil particles in the circulating process.

The inside of casing 1 is provided with the collecting plate 11 that is located sieve 3 below, is provided with standing groove 21 on the collecting plate 11, has placed the collection box in the standing groove 21, and standing groove 21 is the equidistance on collecting plate 11 and is provided with the multiunit, and a pair of inclined plane has been seted up at the standing groove 21 top, constitutes V style of calligraphy structure between a pair of inclined plane.

In this embodiment, the soil after the screening descends to the collection box on collection plate 11, and a pair of inclined plane has been seted up at standing groove 21 top, and when the soil flows down, in flowing into the collection box along the inclined plane, the accumulational condition has been avoided.

The inside circular cross section heat conduction chamber 12 of having seted up of collecting plate 11, heat conduction chamber 12 is crooked channel structure, and the one end in heat conduction chamber 12 communicates in warm braw chamber 13 upper end through fixing the first pipeline on collecting plate 11, and the other end communicates at warm braw chamber 13 lower extreme through fixing the second pipeline on collecting plate 11.

It should be noted that, the uniform curved passage structure ensures the uniform transfer of heat in the heat conducting cavity 12, so that the secondary drying of the soil is more sufficient, and the first conduit and the second conduit are both led into the warm air cavity to form a warm air circulating system.

A second rubber sealing ring 22 sealed between the collecting plate 11 and the inner wall of the shell 1 is fixedly arranged around the collecting plate 11, and the bottom of the collecting plate 11 is fixed on the inner wall of the shell 1 through a bracket.

It should be noted that the collecting plate 11 is fixedly connected to the inner wall of the casing, and the second sealing ring 22 is added to prevent the falling soil from flowing into the bottom of the casing 1, which causes a certain trouble to the cleaning.

The air opening 6 at the upper end of the moisture removing air cavity 5 is inclined upwards, the moisture removing air cavity 5 is communicated with a pressurizing unit 17 through an air guide hose 18, and the pressurizing unit 17 is arranged at one side of the heating element 16.

In the apparatus, the pressurizing unit 17 may be a blower or the like, and the heating element 16 may be an electric heating plate or the like.

Further, sieve 3 is in the course of the work, and when the circumstances that great soil particle blockked up appeared, the wind gap 6 that sets up in the slant blows the warm air that warm braw chamber 13 provided to soil particle thing, plays the effect of cleaing away.

The bottom of the moisture removing air cavity 5 is provided with a leakage groove 7, the leakage groove 7 penetrates through the lower surface of the sieve plate 3, a piston 8 is movably clamped in the leakage groove 7, a fixing rod 10 is fixedly arranged on the lower surface of the sieve plate 3, and a spring 9 supported at the bottom of the piston 8 is fixedly arranged at one end of the fixing rod 10.

Further, when some soil flows into the leakage groove 7 from the tuyere, the accumulated soil presses the piston 8 to move down under the action of gravity, and the accumulated soil flows to the collecting plate 11 from the leakage groove 7.

The upper surface of the piston 8 is designed to be inclined, the fixing rod 10 is of an L-shaped structure, and the fixing rod 10 is connected with the spring 9 to form an inclined section.

Specifically, the design of piston 8 upper surface slope, the faster heap of soil that flows in is in the slope department, flows down to dead lever 10 from piston 8's left end under the action of gravity, and dead lever 10 slope design has accelerated flowing down of soil

The sieve mesh 4 on 3 surfaces of sieve is provided with the multiunit, and the outer lane of sieve mesh 4 all corresponds and is provided with a set of damp wind chamber 5 that removes, is provided with on the inner wall of casing 1 to be used for driving 3 parallel swing's of sieve transmission element 2.

Specifically, remove the moisture wind chamber 5 and evenly set up in the outer lane of sieve mesh 4, guarantee that every sieve mesh 4 can both have sufficient warm braw to carry out the drying to soil, transmission element 2 can use devices such as electric putter, cylinder, hydro-cylinder.

The both ends of sieve 3 are all fixed and are provided with baffle 20 that blocks 3 surface materials of sieve and drop, and baffle 20 is to the arc platelike structure of the inside turn-ups of 3 upper surfaces of sieve, and the fixed first sealing rubber circle 19 that is provided with the correspondence on 3 end baffle 20 one sides of sieve on the casing 1 inner wall.

It should be noted that, because the sieve 3 reaches the tip scram and has produced certain impact in the course of the work, and soil is stirred, for preventing that soil from flowing down to collecting plate 11, the both ends of sieve 3 all are provided with the arc platelike mechanism to 3 internal surfaces turn-ups of sieve, have blockked dropping of soil, reduce the possibility that sieve 3 struck the damage simultaneously.

An air inlet 14 for external natural air to enter is arranged on one side of the warm air cavity 13, and filter cotton 15 for filtering the external natural air is arranged at the position of the air inlet 14.

Furthermore, two groups of filter cotton 15 are arranged at the air inlet, so that the natural air flowing into the shell 1 is enabled to be purer and drier;

it should be noted that the sieve plate 3 with a relatively thick thickness is selected for screening the soil, and therefore, the arranged moisture removing air cavity 5 ensures the overall use strength of the sieve plate 3 under the condition of ensuring the normal work of the sieve plate.

The soil processing equipment with the drying device provided by the embodiment has the following working process:

remove the wind gap 6 in damp wind chamber 5 and blow off the warm braw in 3 course of the work of sieve, the back and forth movement of sieve 3, moist soil particle flows to collecting plate 11 through sieve mesh 4 after the warm braw is dry, wind gap 6 can blow off it to the soil particle of jam, and screen out great soil particles impurity, soil after the screening flows in the collection box of standing groove 21, the warm braw that produces in 13 in the warm braw chamber flows in sieve 3 through 17 part gas in the pressurization unit, another part gas flows in the inside cavity of collecting plate 11 through the pipe, soil in collecting the box carries out the secondary drying, the gas that flows out after the drying flows in warm braw chamber 13 once more, the reutilization to the warm braw has realized the waste that has reduced the resource again when dry soil.

It should be understood that the present invention is not limited to the particular embodiments described herein, but is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. The utility model provides a soil processing equipment that possesses drying device, is including setting up in the inside sieve of casing, its characterized in that still includes:

the device comprises a moisture removing air cavity, a sieve plate and a plurality of air outlets, wherein the moisture removing air cavity is arranged in the sieve plate, the surface of the sieve plate is provided with sieve pores which penetrate through the sieve plate up and down, the moisture removing air cavity surrounds the outer ring of the sieve pores, and the upper end of the moisture removing air cavity is provided with an air port communicated to the inside of the sieve pores;

the warm air cavity is arranged on one side of the shell, a pressurizing unit (17) for pressurizing the dehumidifying air cavity is arranged in the warm air cavity, and a heating unit for providing heat for the dehumidifying air cavity is further arranged in the warm air cavity.

2. The soil processing apparatus with a drying device according to claim 1, wherein: the inside of casing is provided with the collecting board that is located the sieve below, is provided with the standing groove on the collecting board, has placed the collection box in the standing groove, and the standing groove is the equidistance on the collecting board and is provided with the multiunit, and a pair of inclined plane has been seted up at the standing groove top, constitutes V style of calligraphy structure between a pair of inclined plane.

3. The soil processing apparatus with a drying device according to claim 2, wherein: the collecting plate is internally provided with a heat conducting cavity with a circular cross section, the heat conducting cavity is of a bent channel structure, one end of the heat conducting cavity is communicated with the upper end of the warm air cavity through a first pipeline fixed on the collecting plate, and the other end of the heat conducting cavity is communicated with the lower end of the warm air cavity through a second pipeline fixed on the collecting plate.

4. The soil processing apparatus with a drying device according to claim 3, wherein: and a second rubber sealing ring sealed between the collecting plate and the inner wall of the shell is fixedly arranged around the collecting plate, and the bottom of the collecting plate is fixed on the inner wall of the shell through a support.

5. The soil processing apparatus with a drying device according to claim 4, wherein: the air port at the upper end of the moisture removing air cavity is inclined towards the upper part, the moisture removing air cavity is communicated with the pressurizing unit through the air guide hose, and the pressurizing unit is arranged on one side of the heating element.

6. The soil processing apparatus with a drying device according to claim 5, wherein: the utility model discloses a dehumidification wind cavity, including dehumidification wind cavity, lower surface, movable block has the piston, the lower fixed dead lever that is provided with of sieve, the fixed spring that supports in the piston bottom that is provided with of one end of dead lever.

7. The soil processing apparatus with a drying device according to claim 6, wherein: the upper surface of the piston is designed to be inclined, the fixed rod is in an L-shaped structure, and the section of the fixed rod connected with the spring is designed to be inclined.

8. The soil processing apparatus with a drying device according to claim 7, wherein: the sieve mesh on sieve surface is provided with the multiunit, the outer lane of sieve mesh all corresponds and is provided with a set of damp wind chamber that removes, be provided with the transmission element who is used for driving sieve parallel swing on the inner wall of casing.

9. The soil processing apparatus with a drying device according to claim 8, wherein: the baffle that stops sieve surface material and drop is all fixed being provided with in the both ends of sieve, the baffle is to the arc platelike structure of sieve upper surface inside turn-up, the fixed first sealing rubber circle that is provided with corresponding in sieve tip baffle one side on the shells inner wall.

10. The soil processing apparatus with a drying device according to claim 9, wherein: one side of warm braw chamber is provided with the air inlet that supplies outside natural wind to get into, and the position of air inlet is provided with the filter pulp that is used for filtering outside natural wind.

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