CN114085029A - Foam material foaming machine - Google Patents

Abstract

The utility model provides a foam material foaming machine, including casing and transmission, set up transmission on the casing, set up the casing chamber in the casing, set up the foaming wheel of grinding soon in the casing chamber, transmission is connected with the foaming wheel of grinding soon, grind the foaming wheel simultaneously and set up and grind the foaming and move the quotation soon, the casing chamber corresponds and grinds the foaming and move quotation middle part and set up the import of casing chamber soon, the casing intracavity wall that encircles the import of casing chamber sets up and grinds the quiet quotation of foaming soon, grind the foaming and move the quotation soon and press close to and grind the quiet quotation of foaming soon, it grinds the foaming chamber soon to set up between quotation and the quiet quotation of foaming of grinding soon, casing chamber periphery sets up a discharge gate at least. The foam material foaming machine can produce foam materials of various materials, can replace steel, alloy, wood and the like, can change glass into broad-spectrum materials, can solve the problem of material resource shortage, and brings a new glass civilization era.

Description

Foam material foaming machine

Technical Field

The invention relates to the field of material production equipment, in particular to a foam material foaming machine. The foam material can be used as foam material production equipment, can produce brand new various foam materials, can produce brand new nano foam materials (the particle size of air bubbles is within 100 nanometers), micro foam materials (the particle size of air bubbles is within 1 micrometer), millimeter foam materials (the particle size of air bubbles is within 1 millimeter), ultra-nano foam materials (the particle size of air bubbles is within 1 nanometer) and the like, has uniform foam particle size and uniform arrangement, greatly improves the integral strength of the material, and can replace various materials such as steel, wood, plastics, rubber, ceramics, masonry, concrete and the like.

Background

The prior foam material production equipment has the problems that the foam material with uniform bubbles can not be produced, the size of the bubbles, the distribution uniformity of the bubbles, the number of the bubbles, the volume proportion of the bubbles and the like can not be controlled, and particularly, the production process of foam metal and foam glass is more original and lagged behind, so that the foam material with excellent performance can not be exerted with proper performance, is produced with low cost and is widely applied. The prior art can not produce materials with more excellent performances such as nano foam materials, foam metal glass and the like. The existing nano material damages nano particles in the production process, so that the performance of the material is greatly reduced. The existing material production process generally lacks an important link in the material manufacturing process, namely material foaming, generally only utilizes a simple original crystalline structure of the material, neglects a plurality of advantages of a composite structure combining foaming, nanocrystallization and hardness and softness of the material, and the development of the material to foaming, nanocrystallization and hardness and softness combined compositing is a necessary trend.

Disclosure of Invention

The invention provides a foam material foaming machine, which adopts a brand-new foaming method and structure, fully utilizes the movement of fluid, and fully and uniformly mixes gas and molten liquid by utilizing the separation, stretching and mixing actions formed by mutual rotational grinding of two adjacent planes which are static and dynamic. Adjacent particle axial in the rotary grinding and radial linear velocity all are different to form all-round separation, drawing, mixing to gas and liquation, the rotary grinding makes the liquation stretched, and liquation viscidity is big, is difficult to break, and the rotary grinding makes gas stretched to separate into individual micro bubble granule, and gas viscidity is little, is broken easily and forms more little bubbles, and the rotary grinding makes bubble and liquation mix evenly gradually, forms the foam of bubble granule evenly distributed. Even the melt can be drawn into a plurality of monomolecular or monoatomic fibers or films which are connected with each other to form a foam body with air bubbles, the walls of the air bubbles can be made very thin, and even the walls of the air bubbles can be made into monomolecular or monoatomic films. The foam body is directly formed by rolling, casting or extruding casting, and the required foam material can be formed after cooling and solidification. The foam material with various materials can be produced, a brand-new nano foam material can be produced, bubbles in the material are all nano bubbles with the particle size within 100 nanometers, the bubble walls are thinner, the bubble walls can be regarded as a combination of nano particles, the material is combined together by natural coagulation, the nano particles are not damaged, the material is a real nano material, and the material has a plurality of magical material properties. The material can be used for producing nano foam glass, micron foam glass, millimeter foam glass and the like, has low manufacturing cost, energy-saving and environment-friendly production process, never aging, rust, corrosion, high temperature, strength and toughness, can be processed, can be welded and the like, can be almost universal and broad-spectrum materials, can be used for replacing various materials, can greatly save the material consumption and can furthest save resources. The method can fully utilize a great amount of silicon oxide resources existing in the nature, can obtain a great amount of cheap, energy-saving, environment-friendly and high-quality materials, can ensure that the material resources are insufficient, and can thoroughly solve the problem of the material resources. The material can be used for building houses, building roads, building vehicles, machines, building kilns, making clothes, building inorganic paper, treating deserts, treating rivers, improving environment, increasing crop yield, building facilities and agriculture in large areas, and paving sea to build fields and construct artificial land. The foaming machine for the foam material can also foam various meltable materials, and can produce foamed alumina, foamed zirconia, foamed aluminum, foamed copper, foamed iron, foamed plastic and the like.

In order to achieve the purpose, the invention is realized by the following technical scheme:

foam material foaming machine, including casing and transmission, set up transmission on the casing, set up the casing chamber in the casing, set up the foaming wheel of grinding soon in the casing chamber, transmission is connected with the foaming wheel of grinding soon, grind the foaming wheel soon and set up and grind the foaming and move the quotation soon simultaneously, the casing chamber corresponds and grinds foaming and move the quotation middle part and set up the import of casing chamber soon, the casing intracavity wall that encircles the import of casing chamber sets up and grinds foaming quiet quotation soon, grind the foaming and move the quotation soon and conform to press close to and grind foaming quiet quotation soon, it grinds the foaming chamber soon to set up between quotation and the grinding foaming quiet quotation soon, casing chamber periphery sets up a discharge gate at least.

A plurality of pressurizing pits are arranged on the rotary-grinding foaming movable disk surface.

At least one air inlet is arranged on the surface of the rotary grinding foaming static disc and penetrates through the surface of the rotary grinding foaming static disc to be communicated with a high-pressure air supply device.

An airflow channel is arranged on the surface of the rotary-grinding foaming static disk in the air inlet.

The outer wall of the shell cavity is provided with a heat preservation device.

The shell is provided with an axial clearance adjusting device of a rotary grinding foaming cavity.

At least one air inlet channel is arranged on the rotary grinding foaming static disc surface around the inlet of the cavity of the shell.

And a plurality of foam body poking and pressurizing devices are arranged on the periphery of the rotary grinding foaming wheel.

The rotational grinding foaming wheel is provided with a rotational stabilizing shaft which is connected with a rotational stabilizing device.

The rotary grinding foaming wheel rotating direction downstream side close to the discharge port in the shell cavity is provided with a shell cavity annular flow separating body, and the shell cavity annular flow separating body is close to the outer edge of the rotary grinding foaming wheel.

The invention has the advantages that: the novel structure and the novel rotary milling blending foaming method are utilized, the blending and stretching effects of the rotary milling on the fluid are fully utilized, the air mass is separated into small bubbles, the molten liquid and the bubbles are fully and uniformly blended to form foam, and the foam can be cooled and solidified to form the foam material with uniform bubble size and uniform arrangement. The foam material foaming machine can be used as material production equipment to produce brand-new foam materials with higher strength, and the foam materials can be widely used in the industries such as material industry, mechanical industry, building industry and the like. The foam material foaming machine can produce brand-new nano foam materials which are nano materials in the true sense, and the materials have the double advantages of the nano materials and the foam materials and have a plurality of magical material properties. Can obtain a large amount of various materials with low price, energy conservation, environmental protection and high quality, can ensure that the material resources are insufficient, and can thoroughly solve the problem of the material resources. The nano-material improves the material performance to the maximum extent, and the foaming of the material reduces the resource consumption to the maximum extent. The foam material becomes a soft and hard combined composite material, and the application range and the application space of the material can be expanded to the maximum extent. Different foaming times and sizes of the same foaming raw material can generate different physical properties of materials such as hardness, strength, specific gravity and the like, so that a plurality of materials with different properties can be produced by using one raw material, and the application space of the materials can be greatly expanded.

Drawings

FIG. 1 is a schematic sectional view of a main structure of a foam material foaming machine of the present invention;

FIG. 2 is a schematic sectional view of a front view of one embodiment of a foam foaming machine of the present invention;

FIG. 3 is a schematic sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic sectional view of a second embodiment of a foam foaming machine according to the present invention;

FIG. 5 is a schematic sectional view of a third embodiment of a foam foaming machine according to the present invention;

FIG. 6 is a schematic cross-sectional view B-B of FIG. 5;

FIG. 7 is a schematic sectional view of a front view of a fourth embodiment of a foam foaming machine according to the present invention;

FIG. 8 is a schematic sectional view of a fifth embodiment of a foam foaming machine according to the present invention;

FIG. 9 is a schematic sectional view of a sixth embodiment of a foam foaming machine according to the present invention;

FIG. 10 is a schematic cross-sectional view C-C of FIG. 9;

FIG. 11 is a schematic sectional view of a seventh embodiment of a foam foaming machine according to the present invention;

FIG. 12 is a schematic cross-sectional view taken along line D-D of FIG. 11;

FIG. 13 is a schematic sectional view of a schematic front view of an eighth embodiment of a foam foaming machine according to the present invention;

FIG. 14 is a schematic sectional view of a ninth embodiment of a foam forming machine of the present invention;

fig. 15 is a schematic cross-sectional view E-E of fig. 14.

Detailed Description

The main structure of the foam material foaming machine comprises a shell 1 and a transmission device 2, wherein the transmission device 2 is arranged on the shell 1, a shell cavity 3 is arranged in the shell 1, a rotary grinding foaming wheel 4 is arranged in the shell cavity 3, the transmission device 2 is connected with the rotary grinding foaming wheel 4, a rotary grinding foaming movable disk surface 5 is arranged on one surface of the rotary grinding foaming wheel 4, a shell cavity inlet 6 is arranged in the middle of the shell cavity 3 corresponding to the rotary grinding foaming movable disk surface 5, a rotary grinding foaming static disk surface 7 is arranged on the inner wall of the shell cavity 3 surrounding the shell cavity inlet 6, the rotary grinding foaming movable disk surface 5 is conformed to be close to the rotary grinding foaming static disk surface 7, a rotary grinding foaming cavity 8 is arranged between the rotary grinding foaming movable disk surface 5 and the rotary grinding foaming static disk surface 7, and at least one discharge port 9 is arranged on the periphery of the shell cavity 3.

The shell 1 comprises a base, a shell, a protective cover and the like.

The transmission device 2 comprises a transmission shaft, a bearing or a bearing bush, a shaft seat, a bracket, a power device and the like, the transmission device 2 can adopt a conventional bearing or a bearing bush, and a cooling device can be arranged to cool the transmission device 2 so as to ensure that the bearing or the bearing bush works normally. The transmission shaft of the transmission device 2 can also be provided with a cooling device, and the transmission shaft can be cooled by water spraying, so that the normal work of the transmission device 2 can be better ensured. A cooling disc can be arranged on the transmission shaft, water can be prevented from flowing into the bearing, and a water receiving device can be arranged on the periphery of the cooling disc, so that water circulation cooling can be realized. The transmission shaft can also be provided with a heat insulating material or a heat insulating device, so that the bearing or the bearing bush can work normally better, and the end of the transmission shaft can be conveniently connected with a power device to realize power input. The transmission shaft can be specifically determined to be transversely arranged, vertically arranged and obliquely arranged according to the requirement, and when the transmission shaft is vertically arranged, the foaming effect can be better improved. The transmission device 2 realizes power input to drive the foam material foaming machine to work, the power device can use a motor, an engine and the like, and the power input can be realized through connecting a coupling or a speed reducer, a belt, a chain and other devices.

The housing 1 is provided with a transmission 2. The transmission 2 and the housing 1 can be directly integrated or connected into a whole by various connection methods. The transmission device can use speed regulating equipment to regulate the rotating speed, so that the flow and the pressure of the foam body emitted by the foam material foaming machine can be regulated at will.

A housing chamber 3 is provided in the housing 1. The cross section of the shell cavity 3 can be made into a circular or volute cavity, the shell cavity 3 can provide space for foam collection and pressurization, the shell cavity 3 can play a role in safety protection, a heat preservation device can be more conveniently arranged, and equipment can be operated more reliably. The inner wall of the housing cavity 3 can be made of wear-resistant and high-temperature-resistant materials, high-temperature-resistant heat-insulating materials, high-temperature-resistant foam materials and the like. The outer wall of the shell cavity 3 can be wrapped with a heat insulation material layer, the heat insulation material layer can be made of high-temperature-resistant heat insulation materials, heat insulation cotton and the like, and the heat insulation material layer can be used for improving the sealing between the transmission shaft of the transmission device 2 and the shell. The heat insulation material layer can avoid the loss of heat and can better ensure the normal work of the foam material foaming machine. When the shell cavity 3 is made of high-temperature-resistant foam material, the heat-insulating effect can be achieved at the same time. The heating device can be arranged in the heat-insulating material layer, so that heat preservation and heating can be better realized, the normal work of the foam material foaming machine can be better ensured, the heating device can adopt an electric heating device, and an automatic temperature control device can be adopted, so that the temperature can be better controlled. And devices such as a flame path or a combustion chamber can also be arranged to adopt fuel for heating, so the device is too original and is not used generally.

A rotary grinding foaming wheel 4 is arranged in the shell cavity 3. The rotary grinding foaming wheel 4 is arranged on the central axis of the shell cavity 3, so that a certain reasonable gap is reserved between the outer edge of the rotary grinding foaming wheel and the inner wall of the shell cavity 3. Generally, the rotary grinding foaming wheel 4 is arranged into a whole, the rotary grinding foaming wheel 4 can be arranged into a hollow structure or a solid structure, the rotary grinding foaming wheel 4 adopts the solid structure, the structure can be simplified, and the rotary grinding foaming wheel 4 can also adopt the hollow structure, so that the manufacturing cost can be reduced. The rotary grinding foaming wheel 4 can be made of different materials according to the requirements: the requirement on the rotating speed is high, and the material can be made of high-strength material; the temperature of the solution to be foamed is high, and a high-temperature resistant high-strength material is selected; the corrosive melt adopts a corrosion-resistant material; the rotary grinding foaming wheel 4 can be made of metal, ceramic, glass, silicon carbide, silicon nitride, high-temperature-resistant stainless steel, high-temperature-resistant alloy, tungsten-molybdenum alloy, graphite, foam material, nano material and the like, and can be made by casting, powder metallurgy casting, sintering, welding, die casting, stamping rivet welding and other methods.

The transmission device 2 is connected with a rotary grinding foaming wheel 4. The transmission shaft of the transmission device 2 is connected and fixed at the center of the rotary grinding foaming wheel 4, so that the rotary grinding foaming wheel 4 is ensured to be stable in rotating balance. The transmission shaft and the rotary grinding foaming wheel 4 can be manufactured into a whole, the transmission shaft and the rotary grinding foaming wheel 4 can be manufactured into a whole by adopting the same material, the structure can be simplified, and the rotary grinding foaming wheel 4 is more applicable when being manufactured by adopting powder metallurgy or sintering process. Also can all set up transmission 2 at 4 both ends of grinding the foaming wheel soon and make the foaming wheel rotation of grinding soon more stable, pass the transmission shaft grind the foaming wheel 4 soon can, also all set up power device on the transmission 2 at 4 both ends of grinding the foaming wheel soon, can realize that power from grinding 4 both ends of foaming wheel soon and inputing in step, can improve power, reduce the transmission shaft atress. The power device can be arranged on the transmission device 2 at one end, the transmission device 2 at the other end can be provided with no power device, and only a bearing or a bearing bush is arranged, so that the transmission shaft is stable in rotation, the rotation stability of the rotary grinding foaming wheel 4 can be improved, and the length of the transmission shaft connected with the power device end can be reduced. The transmission device axial position adjusting device can be arranged between the shell 1 and the transmission device 2, the transmission device axial position adjusting device can be provided with a screw rod, a nut and the like, the transmission device axial position adjusting device can be arranged on an installation table of the shell 1, the axial position of the transmission device 2 can be adjusted by adjusting the screw rod and the nut, and the nut can be fixed on the installation table of the shell 1. Can set up two sets of adjusting screw, nut and realize axial bidirectional control, but the axial is made a round trip to adjust 2 axial positions of transmission, and adjustable rotary grinding foaming wheel 4's axial position can be better regulation foaming effect, improvement foaming effect.

One side of the rotary grinding foaming wheel 4 is provided with a rotary grinding foaming movable disk surface 5. The one side of the rotary grinding foaming wheel 4 can be set into a plane or a curved surface as a rotary grinding foaming movable disk surface 5, the surface of the rotary grinding foaming movable disk surface 5 is generally set into a plane with better effect, and the more the surface is, the better the effect is. When the rotary grinding foaming movable plate surface 5 faces upwards, the weight can be balanced better to realize uniform foaming.

The middle part of the shell cavity 3 corresponding to the rotary grinding foaming movable disc surface 5 is provided with a shell cavity inlet 6. One end of the shell cavity 3 corresponding to the middle part of the rotary grinding foaming movable disc surface 5 is provided with one or more shell cavity inlets 6, and the melt and the gas can enter the shell cavity inlets 6 by utilizing centrifugal force. The shell cavity inlet 6 can be provided with a melt flow guide port, and the melt flow guide port can be arranged near the shell cavity inlet 6, so that the melt can automatically flow into the shell cavity inlet 6 more conveniently. When high-temperature gas is used, a fuel nozzle can be arranged near the inlet 6 of the shell cavity, fuel sprayed by the fuel nozzle and combustion-supporting gas are ignited to form high-temperature gas, and the high-temperature gas is sucked into the inlet 6 of the shell cavity and finally mixed with the molten liquid. An electrical heating device may also be provided near the housing chamber inlet 6 to heat the gas drawn into the housing chamber inlet 6.

The inner wall of the shell cavity 3 surrounding the shell cavity inlet 6 is provided with a rotary grinding foaming static disk surface 7. The inner wall of the shell cavity 3 surrounding the shell cavity inlet 6 can be set to be a plane or a curved surface as a rotary grinding foaming static disk surface 7, the surface of the rotary grinding foaming static disk surface 7 is generally set to be a plane with better effect, and the more flat the surface is, the better the effect is.

The rotary grinding foaming movable disk surface 5 is conformed to be close to the rotary grinding foaming static disk surface 7. The rotary grinding foaming movable disk surface 5 and the rotary grinding foaming static disk surface 7 are arranged in a mutually conforming way, and the rotary grinding foaming movable disk surface 5 is close to the rotary grinding foaming static disk surface 7.

Grind the foaming and move the quotation 5 soon and grind the quiet quotation 7 of foaming between set up and grind the foaming chamber 8 soon, grind the foaming and move quotation 5 soon and leave certain clearance between the quiet quotation 7 of foaming and grind soon and form and grind the foaming chamber 8 soon, grind the foaming chamber 8 axial space soon and be less, the bubble of foaming is more tiny, the foaming effect is better, grind the foaming wheel 4 diameter soon more, grind the foaming wheel 4 peripheral linear velocity soon more high, the foaming effect is better. The rotary grinding foaming static disc surface 7 is static, the rotary grinding foaming dynamic disc surface 5 and the static rotary grinding foaming static disc surface 7 generate interaction force on fluid, and the fluid in the rotary grinding foaming cavity 8 forms rotary grinding, so that the melt liquid and the gas are fully mixed, the rotary grinding foaming can be realized, and the foam is more uniform and fine. The smaller the axial space size of the rotary grinding foaming cavity 8 is, the smaller the foaming bubbles are, and the nano foam material can be prepared when the axial space size of the rotary grinding foaming cavity 8 is less than 1 mm. The rotary grinding foaming wheel 4 rotates to generate centrifugal force, so that the foam body moves towards the periphery of the rotary grinding foaming wheel 4 and is thrown out from the periphery of the rotary grinding foaming cavity 8. Also can set up on casing 1 and grind foaming chamber axial clearance adjusting device soon, grind foaming chamber axial clearance adjusting device soon and can set up screw rod, nut etc. can set up two sets of adjusting screw, nut and realize two-way regulation, can make a round trip to adjust and grind the foaming and move the axial position of quotation 5 or grind the quiet quotation 7 of foaming soon, 8 axial spaces in the foaming chamber are ground soon in regulation that can be better, regulation foaming effect that can be better, improvement foaming effect. When the device is used, the axial position of the rotary-grinding foaming movable disk surface 5 or the rotary-grinding foaming static disk surface 7 can be finely adjusted by adjusting the adjusting screw rod on the rotary-grinding foaming cavity axial gap adjusting device in a starting state. Usually, the rotational grinding foaming static disc surface 7 can be axially adjusted and moved, and the axial position of the rotational grinding foaming static disc surface 7 can be adjusted, so that the structure can be simplified.

At least one discharge hole 9 is arranged at the periphery of the shell cavity 3. One or more discharge ports 9 can be arranged at the periphery of the shell cavity 3, and usually only one discharge port 9 is arranged, so that the fixed foam flow and pressure can be realized; when a plurality of discharge ports 9 are arranged, a plurality of discharge ports 9 with different flow areas can be arranged, one discharge port 9 can be selected to work as required, other discharge ports 9 are closed, and different selections of foam flow and pressure can be realized. The discharge port 9 can also be provided with a flow control adjusting device, and the flow adjusting device can adopt a high-temperature-resistant valve or detachable devices with different calibers, such as a spout, a spout and the like, so that the flow of the foam can be better adjusted, and the foaming effect can be better adjusted. A heating device can also be arranged at the discharge port 9, the heating device can adopt a burner heating or electric heating device, and the heating device can better avoid coking at the discharge port 9.

The foam material foaming machine with the main body structure has a simplified structure and can be used as basic foam material foaming equipment. When the foaming machine is installed, the transmission shaft of the transmission device 2 can be vertically arranged, and better foaming can be realized. During the use, can heat casing chamber 3, make and keep the uniform temperature in the casing chamber 3, improvement foaming effect that can be better can make the more stable operation of equipment. The higher the rotating speed of the rotary grinding foaming wheel 4 is, the better the mixing and foaming effects can be improved, and the material with smaller foam particles and larger volume expansion multiple can be produced. The foam body that sends also can send into pressure boost conveyor output, can adopt high temperature resistant screw conveyer output, can realize crowded casting, and the screw conveyer outside can set up heating apparatus heat preservation and heat, assurance equipment normal operating that can be better. The foam material foaming machine can be made of high-temperature-resistant ceramic foam materials, so that the manufacturing cost of equipment can be reduced, and the strength and the wear resistance of the equipment can be improved. When in manufacturing, the high-temperature-resistant tungsten-molybdenum alloy can be firstly adopted to be made into a foam material foaming machine, the equipment is used for foaming and casting the silicate solution to be made into equipment parts, and the foam material foaming machine made of the silicate foam material can be manufactured; the foaming machine can be used for foaming and casting the molten material with higher temperature resistance such as alumina, zirconia and the like into equipment parts, and can be used for manufacturing the foaming material foaming machine which can resist higher temperature and has higher strength and is made of the foaming material.

The structure of one embodiment of the invention is as follows: on the basis of the main structure, a plurality of pressurizing pits 10 are arranged on the rotary grinding foaming movable disc surface 5. The rotary grinding foaming movable plate surface 5 can be optionally provided with a plurality of pressurizing pits 10 with any structures, usually, a plurality of strip-shaped or arc-shaped pressurizing pits 10 can be uniformly arranged in a staggered manner, the depths of the pressurizing pits 10 can be equal or unequal or the depths of the two ends are shallow and the middle are deep, the pressurizing pits 10 have a certain depth, so that foam can enter the pressurizing pits 10 and be thrown out to the periphery of the rotary grinding foaming static plate surface 7 under the action of centrifugal force, the foam can be prevented from short circuit by uniformly arranging the plurality of pressurizing pits 10 in a staggered manner, and the foam can be continuously pressurized, rotatably ground, pressurized and rotatably ground … …. Foam mobility is relatively poor, and pressure boost pit 10 can make the foam throw away from grinding foaming chamber 8 soon more smoothly, can avoid the foam to throw away in grinding foaming chamber 8 soon and can not come out and cause foaming work to go on, also can reduce and grind foaming chamber 8's axial space soon, can improve and grind the effect soon, improves the foaming effect.

This embodiment can guarantee that foaming work is smooth and easy to be gone on, can improve the foaming effect.

The second structure of the embodiment of the invention is as follows: on the basis of the main structure, at least one air inlet 11 is arranged on the rotary grinding foaming static disc surface 7, and the air inlet 11 penetrates through the rotary grinding foaming static disc surface 7 to be communicated with a high-pressure air supply device 12. Can set up one or more air inlet 11 on grinding foaming quiet quotation 7 soon, the air inlet 11 leave 6 certain distances of casing chamber import can, also can leave 6 different distances of casing chamber import and set up a plurality of air inlets 11, can realize foaming step by step, can improve the foaming multiple. The air inlet 11 penetrates through the rotary grinding foaming static disc surface 7 to be communicated with the high-pressure air supply device 12 to realize air inlet, and the high-pressure air supply device 12 sends high-pressure air into the rotary grinding foaming cavity 8 through the air inlet 11, so that the foaming effect can be better improved. The high-pressure gas supply device 12 is provided with a gas supercharging device and a flow pressure adjusting device, and a gas heating temperature control device can be additionally arranged to adjust the inlet pressure, the inlet air quantity and the inlet air temperature so as to better improve the foaming effect.

The embodiment can better adjust and control the air inflow, the air inlet pressure and the air inlet temperature, and can better improve the foaming effect. And gradual foaming can be realized, and the foaming multiple can be improved.

The third structure of the embodiment of the invention is as follows: on the basis of the second embodiment, the airflow channel 13 is arranged on the rotational-grinding foaming static disk surface 7 in the air inlet 11. One or more air flow channels 13 can be arranged on the rotary grinding foaming static disc surface 7 in the air inlet 11, the air flow channels 13 can be arranged into a ring shape surrounding the axis, and a plurality of radial channels can be arranged on the ring shape to improve the foaming effect.

The embodiment can better feed air into the rotary grinding foaming cavity 8, and can better improve the foaming effect.

The fourth structure of the embodiment of the invention is as follows: on the basis of the structure, the outer wall of the shell cavity 3 is provided with a heat preservation device 14. Can be at 3 outer walls parcel heat preservation device 14 in casing chamber, heat preservation device 14 can adopt high temperature resistant insulation material, can set up the protective housing at heat preservation device 14 outmost, can adopt heat preservation rock wool etc. pack in the protective housing can, can utilize the insulation material layer to improve the sealed between transmission shaft and the casing simultaneously. The heat preservation device 14 can avoid heat loss and can better ensure the normal work of the foam material foaming machine. The heating device can be arranged in the heat preservation device 14, so that heat preservation and heating can be better realized, the normal work of the foam material foaming machine can be better guaranteed, the heating device can adopt an electric heating device and an automatic temperature control device, and the temperature can be better controlled.

The foam material foaming machine of this embodiment can guarantee the foam material foaming machine normal work better, can improve the foaming effect.

The fifth structure of the embodiment of the invention is as follows: on the basis of the structure, the shell 1 is provided with a rotary grinding foaming cavity axial gap adjusting device 15. Can set up on casing 1 and grind foaming chamber axial clearance adjusting device 15 soon, grind foaming chamber axial clearance adjusting device 15 soon and can set up screw rod, nut etc. can set up two sets of adjusting screw, nut and realize two-way regulation, can make a round trip to adjust and grind the foaming and move the axial position of quotation 5 or grind the quiet quotation 7 of foaming soon, 8 axial spaces in the foaming chamber are ground soon in regulation that can be better, regulation foaming effect that can be better, improvement foaming effect. When the device is used, the axial position of the rotary-grinding foaming movable disk surface 5 or the rotary-grinding foaming static disk surface 7 can be finely adjusted by adjusting the adjusting screw rod on the rotary-grinding foaming cavity axial clearance adjusting device 15 in a starting state. Usually, the rotational grinding foaming static disc surface 7 can be axially adjusted and moved, and the axial position of the rotational grinding foaming static disc surface 7 can be adjusted, so that the structure can be simplified. Because the foam material foaming machine works at high temperature, the rotary grinding foaming movable disk surface 5 and the rotary grinding foaming static disk surface 7 can generate thermal expansion, so that the axial space of the rotary grinding foaming cavity 8 is changed, and the problem can be solved more conveniently by the rotary grinding foaming cavity axial clearance adjusting device 15. After the foam material foaming machine is used for a long time, abrasion between the rotary grinding foaming movable disc surface 5 and the rotary grinding foaming static disc surface 7 can be caused, the axial space of the rotary grinding foaming cavity 8 is increased, the axial gap adjusting device 15 of the rotary grinding foaming cavity is timely adjusted, the ideal gap can be always kept in the axial space of the rotary grinding foaming cavity 8, and the service life of equipment can be greatly prolonged.

The foam material foaming machine of this embodiment can improve the foaming effect better, adjust foaming effect and improve equipment life.

The structure of the sixth embodiment of the invention is as follows: on the basis of the structure, at least one air inlet channel 16 is arranged on the rotary grinding foaming static disc surface 7 and surrounds the shell cavity inlet 6. One or more air inlet channels 16 which are along the radial direction or form a certain inclination angle with the radial direction can be arranged on the rotary grinding foaming static disc surface 7 around the shell cavity inlet 6, and each air inlet channel 16 can also be provided with a plurality of transverse channels to improve the air inlet effect. The air inlet flow channel 16 has a certain depth, so that air can smoothly enter the rotary grinding foaming cavity 8 along the air inlet flow channel 16, and the foaming effect can be improved.

The embodiment can better feed air into the rotary grinding foaming cavity 8, and can better improve the foaming effect.

The seventh structure of the embodiment of the invention is as follows: on the basis of the structure, a plurality of foam body poking and pressurizing devices 17 are arranged on the periphery of the rotary grinding foaming wheel 4. Can stir supercharging device 17 as the foam at 4 peripheries of the foam of rotational grinding foaming wheel set up a plurality of blades or tooth, the foam stirs supercharging device 17 and can stir the foam, can improve the foam linear velocity, can improve the foam pressure in 4 outlying casing chambeies 3 of rotational grinding foaming wheel, can make the foam extrude in casing chamber 3 better.

This embodiment may increase the foam pressure and may better force the foam out of the housing cavity 3.

The eighth structure of the embodiment of the invention is as follows: on the basis of the structure, the rotational grinding foaming wheel 4 is provided with a rotational stabilizing shaft 18, and the rotational stabilizing shaft 18 is connected with a rotational stabilizing device 19. The rotational stabilizing shaft 18 can be arranged on the rotational grinding foaming wheel 4, the rotational stabilizing shaft 18 can also be integrally manufactured with the rotational grinding foaming wheel 4, the rotational stabilizing shaft 18 is connected with the rotational stabilizing device 19, the rotational stabilizing device 19 can be provided with a bearing, a shaft seat, a bracket and the like, the rotational stabilizing device 19 can be arranged on a shell at the other end of the rotational grinding foaming wheel 4, and the rotational stabilizing shaft 18 can be arranged on the rotational stabilizing device 19. The rotating stabilizer 19 can make the rotating grinding foaming wheel 4 rotate more stably and can reduce the length of a transmission shaft connected with the power device end.

The foam material foaming machine of the embodiment can make the rotation of the rotary grinding foaming wheel 4 more stable. The transmission device 2 can be far away from the shell cavity 3, a larger space can be reserved for heat preservation, and heat preservation can be well performed.

The ninth structure of the embodiment of the invention is as follows: on the basis of the structure, a shell cavity annular flow partition body 20 is arranged on one side of the lower stream of the rotary grinding foaming wheel 4 close to the discharge hole 9 in the shell cavity 3 in the rotating direction, and the shell cavity annular flow partition body 20 is close to the outer edge of the rotary grinding foaming wheel 4. A shell cavity annular flow separating body 20 can be arranged on one side of the lower reaches of the rotating direction of the rotary grinding foaming wheel 4 close to the discharge port 9 in the shell cavity 3, the shell cavity annular flow separating body 20 separates and separates the shell cavity 3 surrounding the periphery of the rotary grinding foaming wheel 4, and the shell cavity annular flow separating body 20 is close to the outer edge of the rotary grinding foaming wheel 4 to better separate. The shell cavity annular flow partition body 20 can enable the foam to be extruded out from the shell cavity 3 along the discharge hole 9 more smoothly, and the foam pressure can be greatly improved.

The foam material foaming machine of the embodiment can enable the foam to be extruded out from the shell cavity 3 along the discharge port 9 more smoothly, and can greatly improve the pressure of the foam.

The working principle and the using method and the using effect are as follows: when the foam material foaming machine is used, the transmission device drives the rotary grinding foaming wheel 4 to rotate, and the conventional rotating speed is adopted in general. Melting the material to be foamed into melt by various methods, heating and raising the temperature of the foam material foaming machine, then starting to supply the melt, and synchronously supplying the melt and high-temperature gas. The rotary grinding foaming wheel 4 rotates to enable high-temperature gas and material melt to be foamed to be automatically sucked into the rotary grinding foaming cavity 8 from the shell cavity inlet 6, the rotary grinding foaming wheel 4 rotating at a high speed enables the melt and the gas to be stretched, separated and mixed with the melt in the rotary grinding foaming cavity 8 to form foam, the foam moves towards the periphery of the rotary grinding foaming cavity 8 under the action of centrifugal force generated by rotation of the rotary grinding foaming wheel 4, the foam is further homogenized in the moving process to form the foam with fine bubbles, uniform sizes and uniform arrangement, and the foam is finally thrown out of the periphery of the rotary grinding foaming cavity 8 to enter the shell cavity 3 of the periphery of the rotary grinding foaming wheel 4 and is finally extruded from the discharge port 9. The foam body can be cooled and solidified to form the required foam material, and the required foam material can be directly formed by rolling, casting or blow casting, or can be made into foam material ingots, and then the foam material ingots are heated twice and rolled into section bars by a rolling mill. The foaming machine for the foam material can greatly improve the foaming efficiency, the foaming effect and the foaming multiple of the foam material, can realize various foaming multiples, and can adjust the foaming multiple only by adjusting the proportion of the supply amount of the gas and the melt. When the foam material is produced, high-temperature gas needs to be input, if normal-temperature gas is input, too much influence is caused on the foaming process, the viscosity of high-temperature melt liquid is quickly increased in the foam material foaming machine, the foaming effect is influenced, even equipment failure is caused, and a parking accident is caused. And after the operation of the foam material foaming machine is finished, continuously introducing high-temperature gas until all the residual foam is discharged out of the foam material foaming machine, stopping introducing the high-temperature gas, continuously rotating the foam material foaming machine until the foam material foaming machine is completely cooled, and stopping rotating. The foaming machine can produce various foam materials, and can produce foam materials of various materials such as glass, ceramics, steel, alloy, plastics, rubber and the like. The foam material has a uniform foam structure, the size of foam particles, the number of foams, the volume ratio of the foams and the like can be easily controlled, and the volume of the material can be foamed by multiple times.

When the foam material foaming machine is used, various foam materials with different requirements can be produced by adjusting the rotating speed and the gas supply quantity of the foam material foaming machine. The high-temperature gas and various material melts are sent into the foam material foaming machine together, the high-temperature material melts can be sent into the foam material foaming machine by utilizing gravity, the high-temperature gas is sucked or sent into the foam material foaming machine together, and the material melts and the high-temperature gas are quickly mixed in the foam material foaming machine to complete foaming. When the supply amount of the high-temperature gas is constant, the flowability and the supply amount of the molten liquid are constant, and the rotating speed of the foam material foaming machine is higher, and the diameter of the rotary grinding foaming wheel 4 is larger, the bubbles can be beaten more uniformly and finely, and the material quality of the finally formed foam material is better. The foam material foaming machine can also be combined with a three-dimensional printing technology, and can directly print various objects. The foam material made of the glass material can be used for manufacturing various furniture, can be directly made into various furniture, doors and windows and the like by using a mould, can also be used as various decorative materials, is more environment-friendly and has longer service life. The glass is used as the main raw material, so that a large amount of silicon oxide resources in the nature can be fully utilized, the problem of resource shortage is never caused, and the problem of environmental pollution is not caused.

When the foam material foaming machine is used, any glass material can be used for producing foam glass, and the purity of the glass material is not required. After being melted into melt by a gas furnace or an electric furnace, the glass material is input into a foam material foaming machine for foaming, and can be co-produced with a glass melting furnace. The foam glass can reduce the weight of the building by ten times, even hundreds of times and more than thousand times, can improve the heat insulation performance, the air permeability, the structural strength, the shock resistance and the like of the building, and can realize the rapid building by drilling, driving expansion screws, sticking decorative materials and the like on the wall body. The lighting glass for the window can adopt clean foam glass, lighting is not affected, the heat insulation performance can be improved, the heat insulation performance can exceed the existing heat insulation glass, and the cost of the window can be reduced. The window can be divided into a lighting area and a viewing area, and the viewing area can be formed by adopting the existing flat glass, vacuum glass and the like. The glass volume can be foamed to more than ten times, hundred times and thousand times, an ultra-light wall body can be made, the foam glass section bar is used as a frame, the house parts can be produced by factory operation, the rapid on-site bonding, welding and assembling of the house can be realized, the house becomes an integrated house which can be rapidly installed, and the building construction modularization can be realized. The house has the advantages of ultrahigh strength, ultralight weight, ultrahigh heat insulation effect, overlong service life, ultrahigh shock resistance and the like. The house can also be directly made into an integral house by foam glass, and the house can be directly transported to the site for hoisting, placing, burying, pressing and fixing, and the house can realize industrialized production operation in the construction industry. The building with the foam glass can make the floor higher and expand the living space of people.

The foaming machine for the foam material can enable the material to form a combination of bubbles and nano particles, the material not only has the characteristics of a plurality of nano materials, but also has the characteristics which are not possessed by a plurality of nano materials, and the foaming machine for the foam material can create an unprecedented miraculous material, namely the nano foam material. The smaller the bubbles, the better the material performance, the smaller the bubble particle size to micron, so that the material forms a combination of micron bubbles and finer nano particles, and the strength performance of the material can be greatly improved. The size of the bubble particles is reduced to be in the range of 1-100 nanometers, so that the material forms a combination of nano bubbles and nano particles, the material not only has a plurality of nano material characteristics, but also has a plurality of characteristics which are not possessed by nano materials, the material can also be called as a gas nano foam material, the material is a combination of gas material nano particles and solid material nano particles, and the material enables various gases to become material components, so that the material resource space can be expanded. The same solid material component in the material selects different gas content proportions and different gas material components, and different material performance characteristics are generated; the same gas material component in the material selects different solid material content proportions and different solid components, and different material performance characteristics are generated; the nano foam material can lead the variety of the material to be infinitely increased, and the performance of the material can be infinitely expanded to the maximum extent. The glass made of the material has good light transmission, can be used as plate glass, has the strength of bulletproof glass and good heat insulation performance, and is really named as nano bulletproof heat insulation glass. Foams made with alumina or zirconia or the like as raw materials may have higher structural strength and higher temperature resistance than glass materials. The combination of the gas component and the solid component can create countless materials with the same material and different performance characteristics. The nanometer, light and foam materials are the inevitable trend of material development, the nanometer foam material is the combination of the nanometer material and the gas material, the resource consumption is saved to the maximum extent, the material performance is exerted to the maximum extent, the material light weight is realized to the maximum extent, the surface area of the nanometer particles is improved to the maximum extent, and the surface physical effect of the particles is improved to the maximum extent. The material can create brand new application in a plurality of technical fields such as computers, electronics, information, superconducting materials, lasers, optics, catalysis, atoms, energy sources, photoelectricity, electric power storage, engineering machinery materials, aerospace, detection, exploration, biology, medicine and the like, and the nano foam material is bound to become a leading material in the world. The foam material or nano foam material made of the conductive material and the luminous gas after electrification can be used for manufacturing brand new lamps and the like. The superconducting material can be manufactured by forming a foam or a nano-foam of a conductive material and a conductive gas (metal vapor, ionized gas, etc.). The use of insulating materials with insulating gases to make foams or nanofoam can produce superinsulation. The foam material or nano foam material prepared by the shielding material and gas can be used for manufacturing super shielding materials which can be used for shielding magnetic fields, electric fields, electromagnetic radiation, nuclear radiation and the like. During foaming, graphite powder is doped to prepare self-lubricating material, copper water is doped to prepare material with copper ion sterilizing effect, and fluorescent powder is doped to prepare luminescent material. The nano foam material can be used for preparing brand new luminescent materials, laser materials, strong magnetic materials, magnetic conductive materials, heat insulating materials, wear-resistant materials, self-lubricating materials, grinding tool materials, catalytic materials and the like. The material has the advantages of high hardness, high toughness, high elasticity, high strength, wear resistance, temperature resistance, heat preservation, radiation shielding, insulation, sound insulation, corrosion resistance, ageing resistance and the like.

When the foam material foaming machine is used for producing the foam material, the volume of the material is expanded to more than ten thousand times, the structure of the material is kept uniform and consistent as usual, a linear connected latticed structure is formed in the material, the fineness of connecting lines can reach or exceed the nanometer level, the gaps in the material are mutually communicated latticed structures instead of foam structures, the material has various material characteristics which the foam material does not have, and the material is a brand new material and is defined as a latticed material and a nanometer latticed material. The material has better elasticity, toughness, heat preservation performance and moisture preservation performance, has various special and unknown material performances, can save the material consumption to the maximum extent, expands the material performance to the maximum extent, and can be made into heat preservation materials, water seepage materials, filtering materials, elastic materials, light transmission materials, protective materials, permeation materials, active materials, microorganism culture base materials, storage battery electrode plate materials and the like with excellent performances. The material made of the glass material has good water permeability, can adsorb air and water vapor, can well avoid water evaporation, and can well preserve heat and moisture when used for covering the ground. The soil-free cultivation material can be used for covering the ground for cultivating crops, can preserve heat, preserve moisture, weed, improve soil microbial activity, improve soil nutrient conversion and realize soil no-tillage crop cultivation, and organic matters, organic fertilizers, chemical fertilizers and the like of rotten crop straws, branches and leaves can permeate into the soil below the material along with rainfall, so that soil fertilizer shortage can be avoided. The soil can reduce irrigation amount, water-saving irrigation methods such as spray irrigation, drip irrigation and the like can be adopted, puncture fertilization can be adopted for fertilization, and a sharp fertilizer applicator can be used for penetrating into the soil to finish fertilization. The greenhouse can be built by the device instead of a plastic film, so that the greenhouse can better keep heat, collect light and leak rain, can utilize natural rainfall, can build a permanent greenhouse with lower manufacturing cost, can realize the ultra-large span of the greenhouse, and can greatly improve the mechanization of greenhouse cultivation. The method can realize protected field cultivation of a large area of land, can utilize natural light sources to the maximum extent, realize large-area greenhouse of the land, realize large-area protected field cultivation and facility cultivation of crops, greatly improve the yield of the crops and greatly improve the agricultural benefits. Meanwhile, the greenhouse can be used as a house to realize a thorough rural residence, so that the human beings can thoroughly return to the nature. The material can be used for covering deserts, the heat preservation and moisture preservation effects can be achieved by only covering the material with the thickness of about 1-10 mm, and a mulching film covering mode can be adopted. The cost of the covering is quite low. The method can realize the rapid and comprehensive coverage of the desert by using few materials, can thoroughly fix the moving sand dune, can realize the thorough sand fixation, and can thoroughly eliminate the sand storm. Digging holes on the covering material to plant trees, plant desert plants and the like, can create vegetation in desert, and can change desert into oasis and forests. The water and soil loss can be thoroughly treated by covering the ground with the water and soil loss treatment agent, and the water and soil loss can be avoided by covering a steep slope with serious water and soil loss, so that the vegetation recovery is promoted. The material is made into a spherical block shape and can be used as a microorganism culture medium, a microorganism culture hotbed can be formed on the inner surface of foam, microorganism flora can be better cultured, and the material can be used in various fields needing to culture a large number of flora, such as biological fermentation, sewage treatment and the like; the material is made into particles, and the particles can be used as a water-retaining agent when being mixed into soil, can well absorb water, store water, adjust the water content of the soil, adjust the granular structure of the soil, improve the microbial activity of the soil, improve the fertility of the soil, improve the soil, greatly improve the crop yield, and improve the conservative estimation of the crop yield by more than 30 percent; the light soil can be prepared by the method, and can be widely applied to various fields of soil covering greening, crop cultivation, soilless culture, gardening cultivation and the like; the soil conditioner can also be used for covering the surface of a pasture or doping the pasture into soil for soil improvement, so that the water and fertilizer can be preserved, and the yield of the pasture can be improved; it can also be used for improving desert soil, and can be mixed into sand soil to form water-retaining layer in sand soil, and can also play the role of water-reporting and heat-insulating, and the growth of plants and trees can be better promoted by using said material. When the movable sand dune is fixed, the foam glass can be used to make a grid-like isolation ring, and the material can be mixed into the sand soil in the isolation ring to plant the sand dune, so that the desert can be treated into oasis.

When the foam material foaming machine is used for producing foam materials, the produced foam glass section has good toughness, elasticity and mechanical strength, good thermal expansion stability and good thermal shock resistance, and can be rolled, cut, processed, riveted, drilled, polished, sprayed with paint, bonded and welded. The welding can be performed by various methods such as laser welding, high-temperature gas baking welding and the like, and the existing various glass welding technologies can also be adopted. It can be used to make house, furniture, door and window, floor, decorative material, mechanical parts, pipeline, aerospace material, wire insulating skin (never aged), etc. The foam glass section can thoroughly eliminate steel structure sections, the foam glass is used for manufacturing the wallboard to realize the construction of the foam glass structure of the house, and the wallboard and the section can be welded together, so that the integral structure strength can be greatly improved. The foam glass is a good paving material for the ground and the wall after the surface of the foam glass is polished and polished, and can be used as a floor, a floor tile, a wall tile and the like; glazing the surface of the foam glass to prepare a novel ceramic product; the foam glass is used as the door and window, so that the door and window has better heat insulation performance, and the service life of the foam glass is far longer than that of an aluminum alloy door and window; the foam glass fiber produced by the foam material foaming machine has better toughness and elasticity, can be used for manufacturing various fabrics, can be used as decorative materials, clothing fabrics, industrial fabrics, inorganic paper and the like, is more environment-friendly, can greatly save the consumption of biological natural resources such as wood and the like, and can better protect the environment. The inorganic paper can permanently store painting and calligraphy and record civilization, and has more excellent performance when being used as decorative materials, wallpaper and the like.

When the foam material foaming machine is used for producing foam glass materials and foam glass fiber materials, raw materials of other components are added into raw materials for manufacturing the foam glass, and the performance of the foam glass can be further changed. The garment fabric and the thermal garment made of the foam fibers made of various materials and produced by the foam material foaming machine have better air permeability and thermal insulation performance and lighter garment. The foamed ceramic, the foamed refractory material and the like made of high-temperature resistant materials such as ceramic materials, tungsten alloys and the like have higher temperature resistance and heat preservation characteristics and higher structural strength, and can be used in the fields of machinery manufacturing, engines, refractory materials and the like. The cost of the car made of the foam glass material can be greatly reduced, the car body, the window glass and the like are made of the nano foam glass material with the volume 10-100 times of that of the foam glass material, the car body interior material, the tire, the seat and the like are made of the foam glass material with the volume 1000-10000 times of that of the foam glass material, the weight of the car can be greatly reduced, and the weight of the car can be further reduced by using hydrogen, helium or water vapor as the foaming gas. The strength of the vehicle body can have a bulletproof vehicle effect, a better silencing effect can be achieved, the energy consumption of driving can be greatly reduced, tires can be greatly widened, a flow guide device is added, and the control performance and the safety performance of the vehicle can be greatly improved. The tyre can be made into a solid elastic foam glass material, and the accident of tyre burst can be thoroughly avoided. The insulating leather of the interior line, the interior trim, the seat and the like of the vehicle are all made of foam glass materials, so that the vehicle can never age, and the service life of the vehicle can be greatly prolonged. The outer skin of the vehicle body is free from paint, and the brightness of the vehicle can be kept as new as the inner decoration and the outer skin of the vehicle body only need to be waxed. Small scratch and small rub can not damage the hair of the vehicle. Because the vehicle body is extremely light and has extremely high strength and elasticity, the capabilities of collision resistance, rolling resistance, speed acceleration, braking and the like of the vehicle are greatly improved, and the safety performance is greatly improved. The motor-driven car can be moved and placed manually like parking a bicycle, and the parking is more convenient and faster. The material can be used for building meteorological stations, television launching platforms, signal platforms, radar platforms, navigation platforms, astronomical platforms, sightseeing platforms, space launching platforms and the like which float in the air.

The foam material can greatly save the raw material consumption, save resources, fully utilize a great amount of silicon oxide resources existing in the nature, obtain a great amount of cheap, environment-friendly and high-quality materials, and enable the material resources to become more than sufficient. The silicon oxide can become the leading basic material with the most extensive use amount, the foam glass can become the leading material, and the problem of material resources can be thoroughly solved.

The technical solution of the present invention is not limited to the scope of the embodiments of the present invention. The technical contents not described in detail in the present invention are all known techniques.

Claims (10)

1. Foam material foaming machine, including casing (1) and transmission (2), its characterized in that: the rotary grinding foaming machine is characterized in that a transmission device (2) is arranged on a shell (1), a shell cavity (3) is arranged in the shell (1), a rotary grinding foaming wheel (4) is arranged in the shell cavity (3), the transmission device (2) is connected with the rotary grinding foaming wheel (4), one side of the rotary grinding foaming wheel (4) is provided with a rotary grinding foaming movable disk surface (5), the middle of the shell cavity (3) corresponding to the rotary grinding foaming movable disk surface (5) is provided with a shell cavity inlet (6), the inner wall of the shell cavity (3) surrounding the shell cavity inlet (6) is provided with a rotary grinding foaming static disk surface (7), the rotary grinding foaming movable disk surface (5) is conformed to and close to the rotary grinding foaming static disk surface (7), a rotary grinding foaming cavity (8) is arranged between the rotary grinding foaming movable disk surface (5) and the rotary grinding foaming static disk surface (7), and at least one discharge hole (9) is formed in the periphery of the shell cavity (3).

2. The foam material foaming machine of claim 1, wherein: a plurality of pressurizing pits (10) are arranged on the rotary grinding foaming movable disk surface (5).

3. The foam material foaming machine of claim 1, wherein: at least one air inlet (11) is arranged on the rotary-grinding foaming static disc surface (7), and the air inlet (11) penetrates through the rotary-grinding foaming static disc surface (7) and is communicated with a high-pressure air supply device (12).

4. The foam material foaming machine of claim 3, wherein: an airflow channel (13) is arranged on the rotary grinding foaming static disc surface (7) in the air inlet (11).

5. The foam material foaming machine of claim 1, wherein; the outer wall of the shell cavity (3) is provided with a heat preservation device (14).

6. The foam material foaming machine of claim 1, wherein: the shell (1) is provided with a rotary grinding foaming cavity axial clearance adjusting device (15).

7. The foam material foaming machine of claim 1, wherein; at least one air inlet channel (16) is arranged on the rotary grinding foaming static disc surface (7) and surrounds the shell cavity inlet (6).

8. The foam material foaming machine of claim 1, wherein: the periphery of the rotary grinding foaming wheel (4) is provided with a plurality of foam body poking and pressurizing devices (17).

9. The foam material foaming machine of claim 1, wherein: the rotational grinding foaming wheel (4) is provided with a rotational stabilizing shaft (18), and the rotational stabilizing shaft (18) is connected with a rotational stabilizing device (19).

10. The foam foaming machine of any one of claims 1, 2, 3, 4, 5, 6, 7, 8 or 9, wherein: a shell cavity annular flow partition body (20) is arranged on one side of the lower stream of the rotation direction of the rotary grinding foaming wheel (4) close to the discharge hole (9) in the shell cavity (3), and the shell cavity annular flow partition body (20) is close to the outer edge of the rotary grinding foaming wheel (4).

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