CN112405140A

CN112405140A - Energy-saving building material production equipment for environment-friendly energy-saving building and production method thereof

Info

Publication number: CN112405140A
Application number: CN202011258105.9A
Authority: CN
Inventors: 李效友; 彭宇昂
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-12
Filing date: 2020-11-12
Publication date: 2021-02-26

Abstract

The invention provides energy-saving building material production equipment for an environment-friendly energy-saving building and a production method thereof, and relates to the field of environment-friendly energy-saving building materials.

Description

Energy-saving building material production equipment for environment-friendly energy-saving building and production method thereof

Technical Field

The invention relates to the field of energy-saving building materials, in particular to energy-saving building material production equipment for an environment-friendly energy-saving building and a production method thereof.

Background

Basically has no toxicity and harm. The decorative material is natural, has no or few toxic and harmful substances, and is simply processed without pollution. Such as gypsum, talc, sand, wood, certain natural stones, etc. The low-toxicity and low-emission type is a decorative material which is processed, synthesized and other technical means to control the accumulation and slow release of toxic and harmful substances, and has slight toxicity and no danger to human health. Such as large core board, plywood, fiber board, etc. with low formaldehyde emission and meeting the national standard. Scientific techniques and detection means cannot determine and evaluate materials affected by toxic substances. Such as environment-friendly latex paint, environment-friendly paint and other chemical synthetic materials. These materials are non-toxic and harmless, but with the development of scientific technology, re-identification is possible in the future.

The energy-saving pipe is an indispensable building material in the energy-saving building materials, is a plastic metal composite pipe, is a high-tech product for replacing a metal pipe, has the advantages of high-density polyethylene materials on the inner layer and the outer layer, aluminum in the middle, excellent performances of plastic and metal, no rustiness and no pollution, and can not ensure whether wrinkles or bubbles are generated on the surfaces of an inner pipe body and an outer pipe body of the pipe body in the production process.

In order to solve the problems, an energy-saving building material production device for an environment-friendly energy-saving building and a production method thereof are provided.

Disclosure of Invention

The invention aims to provide energy-saving building material production equipment for an environment-friendly energy-saving building and a production method thereof, so as to solve the technical problems.

In order to solve the technical problems, the invention adopts the following technical scheme: the energy-saving building material production equipment for the environment-friendly and energy-saving building comprises a driving mechanism and a transmission mechanism, wherein the driving mechanism is arranged in an inner cavity of the transmission mechanism and comprises a placing box, built-in plates and a transverse rotating mechanism, the built-in plates are arranged in the inner cavity of the placing box, the transverse rotating mechanism is arranged between the built-in plates, the transmission mechanism is arranged at the upper end of each built-in plate and comprises a first transmission mechanism, a second transmission mechanism and an inner clamping mechanism, and the inner ends of the first transmission mechanism and the second transmission mechanism are provided with the inner clamping mechanism;

horizontal rotary mechanism includes support column, links up ring, driving motor, side joint loose axle, built-in cross axle, installation outer lane and fixed establishment, the ring that links up is installed to the upper end of support column, driving motor is installed to the inner chamber that links up the ring, driving motor's right-hand member is installed the side joint loose axle, the other end and the built-in cross axle swing joint of side joint loose axle, the outer lane of built-in cross axle is arranged and is provided with the installation outer lane, fixed establishment is installed to the right-hand member of built-in cross axle.

The fixed establishment includes end board, bracing piece, collar, extension bar, tandem ring and rotating electrical machines, the bracing piece is installed to the upper end of end board, the collar is installed to the upper end of bracing piece, the extension bar is installed at the both ends of collar, the tandem ring is installed to the other end of extension bar, rotating electrical machines is installed to the inner chamber of collar.

First drive mechanism includes driving motor, driving shaft, first driving wheel, first belt, first idler, second driving wheel, second belt, second idler and series connection axle, driving shaft is installed to driving motor's lower extreme, first driving wheel is installed to driving shaft's outer lane, first belt is installed to first driving wheel's outer lane, first idler is installed to first belt's the other end, first idler is installed to the other end of first belt, second driving wheel is installed to driving shaft's bottom outer lane, the second belt is installed to the outer lane of second driving wheel, the second idler is installed to the other end of second belt, through series connection axle swing joint between second idler and the first idler.

Interior clamp mechanism includes interior clamp splice, side opening, interior contact piece, fixed base section of thick bamboo, adjustment axle and an adjustment section of thick bamboo, the side opening is installed to the inner of interior clamp splice, the inner chamber of side opening is arranged and is provided with interior contact piece, the upper and lower both sides of interior clamp splice are run through and are provided with fixed base section of thick bamboo, install the adjustment axle between the fixed base section of thick bamboo, an adjustment section of thick bamboo is installed to the other end of adjustment axle.

The outer rings of the fixed base cylinder and the adjusting cylinder are respectively provided with an inner clamping block.

The inner clamping block comprises a block body, inner grooves, penetrating columns and mounting side rods, the inner grooves are formed in the upper side and the lower side of the rear end of the block body, the penetrating columns are mounted in inner cavities of the inner grooves, the mounting side rods are mounted at side ends of the penetrating columns, and the other ends of the mounting side rods are movably connected with the first belt and the second belt.

The diameter of the installation outer ring is smaller than that of the side opening.

The serial ring is sleeved on the outer ring of the serial shaft.

The invention provides another technical scheme that: the production method of the energy-saving building material production equipment for the environment-friendly and energy-saving building is provided, and comprises the following steps:

s1: the support column can go up and down, adjusts the support column downwards, makes the outer end that the compound intraductal chamber of plastics metal can run through built-in cross axle, makes the laminating of body inner chamber wall and installation outer lane one end, and the other end leaves 5 mm's space.

S2: the right end of the plastic metal composite pipe is attached to the left end of the mounting ring, the diameter of the mounting ring is 5mm larger than the diameter of the inner cavity of the pipe body, the mounting ring is made of rubber, the mounting ring has certain elasticity and can temporarily limit the pipe body, the supporting columns are lifted, one end of the driving motor is movably connected with the built-in transverse shaft through the side-connected movable shaft, the driving motor rotates anticlockwise at the moment, the built-in transverse shaft is driven to rotate in the same direction, the supporting columns are adjusted leftwards and rightwards, the mounting outer ring can perform full-coverage processing on the inner cavity of the pipe body, the mounting outer ring performs spiral rotation on the inner wall of the pipe body, and wrinkles on the inner wall of the pipe;

s3: in the process of polishing the inner wall of the pipe body, the outer wall of the pipe body can be polished in a contact manner through the transmission mechanism, the inner end of the side opening is attached to the outer wall of the pipe body, the side end of the pipe body is attached to the left end of the mounting ring, clockwise rotation is carried out through the rotating motor, the friction speed between the device and the pipe body is increased by utilizing the reverse rotation of the driving motor, and at the moment, the pipe body rotates clockwise;

s4: clockwise rotation's body and interior contact piece friction, first transport mechanism carries out the syntropy operation with second transport mechanism under drive motor's opposite rotation is driven this moment, interior clamp mechanism is installed to one side of only first belt and second belt, after first belt and second belt rotatory transmission 180 degrees, interior clamp mechanism is in the both ends of device this moment, the plastic metal composite pipe that all polishes the contact with interior outer wall takes out, when interior clamp mechanism does not remove to the device inner, put into the plastic metal composite pipe for processing again.

The invention has the beneficial effects that:

compared with the prior art, the invention has the following beneficial effects:

1. the invention provides energy-saving building material production equipment for an environment-friendly energy-saving building, which is characterized in that a support column can be lifted, the support column is adjusted downwards, the inner cavity of a plastic metal composite pipe can penetrate through the outer end of a built-in transverse shaft, the wall of the inner cavity of the pipe body is attached to one end of an installation outer ring, a gap of 5mm is reserved at the other end, the right end of the plastic metal composite pipe is attached to the left end of an installation ring, the diameter of the installation ring is 5mm larger than the diameter of the inner cavity of the pipe body, the installation ring is made of rubber materials and has certain elasticity, the pipe body can be temporarily limited, the support column is lifted, one end of a driving motor is movably connected with the built-in transverse shaft through a side-connected movable shaft, the driving motor rotates anticlockwise to drive the built-in transverse shaft to rotate in the same direction, the support column is adjusted, the inner wall wrinkles of the pipe body are polished by utilizing the contact friction of the installation outer ring to the inner wall of the pipe body.

2. According to the energy-saving building material production equipment for the environment-friendly and energy-saving building, a clockwise rotating pipe body rubs with an inner contact piece, at the moment, a first conveying mechanism and a second conveying mechanism are driven to run in the same direction under the opposite rotation direction of a transmission motor, only one side of a first belt and one side of a second belt are provided with an inner clamping mechanism, after the first belt and the second belt rotate and transmit 180 degrees, the inner clamping mechanisms are positioned at two ends of the device, a plastic metal composite pipe with polished and contacted inner and outer walls is taken out, and the plastic metal composite pipe is put into the processed plastic metal composite pipe again when the inner clamping mechanisms do not move to the inner end of the device.

3. According to the energy-saving building material production equipment for the environment-friendly and energy-saving building, in the process of polishing the inner wall of the pipe body, the outer wall of the pipe body can be polished in a contact manner through the transmission mechanism, the inner end of the side opening is attached to the outer wall of the pipe body, the side end of the pipe body is attached to the left end of the mounting ring, clockwise rotation is performed through the rotating motor, and the friction speed between the device and the pipe body is increased by means of the reverse rotation of the driving motor, so that the pipe body rotates clockwise.

Drawings

FIG. 1 is a schematic structural view of an energy-saving building material production facility for an environmentally friendly and energy-saving building according to the present invention;

FIG. 2 is a schematic perspective view of a first conveying mechanism according to the present invention;

FIG. 3 is a schematic perspective view of the lateral rotation mechanism of the present invention;

FIG. 4 is a schematic perspective view of the internal clamping mechanism of the present invention;

fig. 5 is a schematic perspective view of the block of the present invention.

Reference numerals: 1. a drive mechanism; 11. placing the box; 12. a built-in plate; 13. a transverse rotating mechanism; 131. a support pillar; 132. an adaptor ring; 133. a drive motor; 134. a movable shaft is connected laterally; 135. a transverse shaft is arranged inside; 136. installing an outer ring; 137. a fixing mechanism; 1371. a bottom plate; 1372. a support bar; 1373. a mounting ring; 1374. an extension rod; 1375. a series ring; 1376. a rotating electric machine; 2. a transmission mechanism; 21. a first conveying mechanism; 211. a drive motor; 212. driving a shaft; 213. a first driving wheel; 214. a first belt; 215. a first idler pulley; 216. a second driving wheel; 217. a second belt; 218. a second idler pulley; 219. a tandem axle; 22. a second transport mechanism; 23. an inner clamping mechanism; 231. an inner clamping block; 2311. a block body; 2312. an inner tank; 2313. penetrating the column; 2314. installing a side rod; 232. side opening; 233. an inner contact piece; 234. fixing the base cylinder; 235. an adjustment shaft; 236. and adjusting the cylinder.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easily understood, the invention is further described below with reference to the specific embodiments and the attached drawings, but the following embodiments are only the preferred embodiments of the invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative efforts belong to the protection scope of the present invention.

Specific embodiments of the present invention are described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1 and 3, the energy-saving building material production equipment for environment-friendly and energy-saving buildings comprises a driving mechanism 1 and a transmission mechanism 2, wherein the driving mechanism 1 is installed in the inner cavity of the transmission mechanism 2, the driving mechanism 1 comprises a placing box 11, an internal plate 12 and a transverse rotating mechanism 13, the internal plate 12 is installed in the inner cavity of the placing box 11, the transverse rotating mechanism 13 is installed between the internal plates 12, the transverse rotating mechanism 13 comprises a supporting column 131, a connecting ring 132, a driving motor 133, a side connecting movable shaft 134, an internal transverse shaft 135, an installation outer ring 136 and a fixing mechanism 137, the upper end of the supporting column 131 is provided with the connecting ring 132, the driving motor 133 is installed in the inner cavity of the connecting ring 132, the right end of the driving motor 133 is provided with the side connecting movable shaft 134, the other end of the side connecting movable shaft 134 is movably connected with the internal transverse shaft, the fixing mechanism 137 comprises an underlying plate 1371, a support rod 1372, a mounting ring 1373, an external rod 1374, a serial ring 1375 and a rotating motor 1376, the support rod 1372 is installed at the upper end of the underlying plate 1371, the mounting ring 1373 is installed at the upper end of the support rod 1372, the external rod 1374 is installed at two ends of the mounting ring 1373, the serial ring 1375 is installed at the other end of the external rod 1374, the rotating motor 1376 is installed in the inner cavity of the mounting ring 1373, the support column 131 can be lifted and lowered, the support column 131 is adjusted downwards, so that the inner cavity of the plastic-metal composite tube can penetrate through the outer end of the built-in transverse shaft 135, the inner cavity wall of the tube body is attached to one end of the mounting outer ring 136, a gap of 5mm is reserved at the other end, the right end of the plastic-metal composite tube is attached to the left end of the mounting ring 1373, the diameter of the plastic-metal composite tube, the lifting support column 131 enables one end of the driving motor 133 to be movably connected with the built-in transverse shaft 135 through the side-connected movable shaft 134, the driving motor 133 rotates anticlockwise at the moment, the built-in transverse shaft 135 is driven to rotate in the same direction, the support column 131 is adjusted left and right, the mounting outer ring 136 can be used for fully covering and processing the inner cavity of the tube body, the mounting outer ring 136 rotates spirally on the inner wall of the tube body, and the inner wall wrinkles of the tube body are polished by contact friction of the mounting outer ring 136 on the inner wall of the tube body.

Example 2

As shown in fig. 2, 4 and 5, in the energy-saving building material production equipment for an environment-friendly and energy-saving building, a transmission mechanism 2 is placed at the upper end of an internal plate 12, the transmission mechanism 2 includes a first transmission mechanism 21, a second transmission mechanism 22 and an internal clamping mechanism 23, the internal clamping mechanism 23 is installed at the inner ends of the first transmission mechanism 21 and the second transmission mechanism 22, the first transmission mechanism 21 includes a transmission motor 211, a driving shaft 212, a first driving wheel 213, a first belt 214, a first idle wheel 215, a second driving wheel 216, a second belt 217, a second idle wheel 218 and a serial shaft 219, the lower end of the transmission motor 211 is installed with the driving shaft 212, the outer ring of the driving shaft 212 is installed with the first driving wheel 213, the outer ring of the first driving wheel 213 is installed with the first belt 214, the other end of the first belt 214 is installed with the first idle wheel 215, the bottom end of the driving shaft 212 is installed with the second driving wheel 216, the outer ring of the second driving wheel 216, the other end of the second belt 217 is provided with a second idle pulley 218, the second idle pulley 218 is movably connected with the first idle pulley 215 through a serial shaft 219, the inner clamping mechanism 23 comprises an inner clamping block 231, a side opening 232, inner contact pieces 233, a fixed base barrel 234, an adjusting shaft 235 and an adjusting barrel 236, the inner end of the inner clamping block 231 is provided with the side opening 232, the inner contact pieces 233 are arranged in the inner cavity of the side opening 232, the upper side and the lower side of the inner clamping block 231 are provided with the fixed base barrel 234 in a penetrating way, the adjusting shaft 235 is arranged between the fixed base barrels 234, the other end of the adjusting shaft 235 is provided with the adjusting barrel 236, the outer rings of the fixed base barrel 234 and the adjusting barrel 236 are respectively provided with one inner clamping block 231, the inner clamping block 231 comprises inner grooves 2311 and 2312, a penetrating column 2313 and an installation side rod 2314, the upper side and the lower side of the rear end of the block 2311 are provided with the inner grooves 2312, the penetrating column 2313 is, the other end of the installation side rod 2314 is movably connected with the first belt 214 and the second belt 217, the diameter of the installation outer ring 136 is smaller than the diameter of the side hole 232, the tandem ring 1375 is sleeved on the outer ring of the tandem shaft 219, the clockwise rotating pipe body rubs with the inner contact piece 233, at the moment, the first conveying mechanism 21 and the second conveying mechanism 22 are driven to run in the same direction under the opposite rotation direction of the transmission motor 211, only one side of the first belt 214 and one side of the second belt 217 are provided with the inner clamping mechanism 23, after the first belt 214 and the second belt 217 rotate and transmit 180 degrees, the inner clamping mechanism 23 is located at two ends of the device, the plastic metal composite pipe with polished and contacted inner and outer walls is taken out, and when the inner clamping mechanism 23 does not move to the inner end of the device, the plastic metal composite pipe is put into the processed plastic metal composite pipe again.

Example 3

As shown in fig. 3, the energy-saving building material production equipment for the environment-friendly and energy-saving building can contact and polish the outer wall of the pipe body through the transmission mechanism 2 in the polishing process of the inner wall of the pipe body, the inner end of the side opening 232 is attached to the outer wall of the pipe body, and the clockwise rotation is carried out through the rotating motor 1376 due to the attachment of the side end of the pipe body to the left end of the mounting ring 1373, the reverse rotation of the driving motor 133 is utilized, the friction speed of the lifting device and the pipe body is increased, and the pipe body rotates clockwise at.

In order to better show the production method of the energy-saving building material production equipment for the environment-friendly and energy-saving building, the embodiment now provides the production method of the energy-saving building material production equipment for the environment-friendly and energy-saving building, which comprises the following steps:

s1: the supporting column 131 can be lifted, and the supporting column 131 is adjusted downwards, so that the inner cavity of the plastic-metal composite pipe can penetrate through the outer end of the built-in transverse shaft 135, the wall of the inner cavity of the pipe body is attached to one end of the installation outer ring 136, and a gap of 5mm is reserved at the other end of the pipe body.

S2: the right end of the plastic metal composite pipe is attached to the left end of the mounting ring 1373, the diameter of the mounting ring 1373 is 5mm larger than the diameter of the inner cavity of the pipe body, the mounting ring 1373 is made of rubber and has certain elasticity, and the pipe body can be temporarily limited, the supporting columns 131 are lifted, so that one end of the driving motor 133 is movably connected with the built-in transverse shaft 135 through the side-connected movable shaft 134, at the moment, the driving motor 133 rotates anticlockwise to drive the built-in transverse shaft 135 to rotate in the same direction, the supporting columns 131 are adjusted leftwards and rightwards, the mounting outer ring 136 can perform full-coverage processing on the inner cavity of the pipe body, the mounting outer ring 136 performs spiral rotation on the inner wall of the pipe body, and wrinkles of the inner wall of;

s3: in the process of polishing the inner wall of the tube body, the outer wall of the tube body can be polished in a contact manner through the transmission mechanism 2, the inner end of the side opening 232 is attached to the outer wall of the tube body, the side end of the tube body is attached to the left end of the mounting ring 1373, clockwise rotation is carried out through the rotating motor 1376, the friction speed between the device and the tube body is increased by utilizing the reverse rotation of the driving motor 133, and at the moment, the tube body rotates clockwise;

s4: the pipe body rotating clockwise rubs with inner contact piece 233, and at this moment first transport mechanism 21 and second transport mechanism 22 are driven in the opposite direction of rotation of driving motor 211 and are carried out the syntropy operation, interior clamp mechanism 23 is installed to only one side of first belt 214 and second belt 217, after first belt 214 and second belt 217 rotatory transmission 180 degrees, interior clamp mechanism 23 was in the both ends of device this moment, take out the plastic metal composite pipe that the contact was all polished to interior outer wall, when interior clamp mechanism 23 did not remove to the device inner end, put into the plastic metal composite pipe for processing again.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A energy-conserving building materials production facility for environmental protection and energy saving building, including actuating mechanism (1) and drive mechanism (2), actuating mechanism (1), its characterized in that are installed to the inner chamber of drive mechanism (2): the driving mechanism (1) comprises a placing box (11), built-in plates (12) and a transverse rotating mechanism (13), the built-in plates (12) are installed in an inner cavity of the placing box (11), the transverse rotating mechanism (13) is installed between the built-in plates (12), a transmission mechanism (2) is placed at the upper end of each built-in plate (12), each transmission mechanism (2) comprises a first transmission mechanism (21), a second transmission mechanism (22) and an inner clamping mechanism (23), and the inner clamping mechanisms (23) are installed at the inner ends of the first transmission mechanism (21) and the second transmission mechanism (22);

horizontal rotary mechanism (13) are including support column (131), link up ring (132), driving motor (133), side joint loose axle (134), built-in cross axle (135), installation outer lane (136) and fixed establishment (137), the upper end of support column (131) is installed and is linked up ring (132), driving motor (133) are installed to the inner chamber of linking up ring (132), side joint loose axle (134) are installed to the right-hand member of driving motor (133), the other end and built-in cross axle (135) swing joint of side joint loose axle (134), the outer lane of built-in cross axle (135) is arranged and is provided with installation outer lane (136), fixed establishment (137) are installed to the right-hand member of built-in cross axle (135).

2. An energy saving building material production facility for an environmentally friendly energy saving building as claimed in claim 1 wherein: fixed establishment (137) are including underlying board (1371), bracing piece (1372), collar (1373), external pole (1374), cascade ring (1375) and rotating electrical machines (1376), bracing piece (1372) is installed to the upper end of underlying board (1371), collar (1373) is installed to the upper end of bracing piece (1372), extension pole (1374) is installed at the both ends of collar (1373), cascade ring (1375) is installed to the other end of extension pole (1374), rotating electrical machines (1376) are installed to the inner chamber of collar (1373).

3. An energy saving building material production facility for an environmentally friendly energy saving building as claimed in claim 1 wherein: the first transmission mechanism (21) comprises a transmission motor (211), a driving shaft (212), a first driving wheel (213), a first belt (214), a first idle wheel (215), a second driving wheel (216), a second belt (217), a second idle wheel (218) and a serial shaft (219), the lower end of the transmission motor (211) is provided with a driving shaft (212), the outer ring of the driving shaft (212) is provided with a first driving wheel (213), a first belt (214) is installed on the outer ring of the first driving wheel (213), a first idle wheel (215) is installed at the other end of the first belt (214), a second driving wheel (216) is arranged on the outer ring of the bottom end of the driving shaft (212), a second belt (217) is arranged on the outer ring of the second driving wheel (216), a second idle wheel (218) is arranged at the other end of the second belt (217), the second idle gear (218) is movably connected with the first idle gear (215) through a serial shaft (219).

4. An energy saving building material production facility for an environmentally friendly energy saving building as claimed in claim 1 wherein: the inner clamping mechanism (23) comprises an inner clamping block (231), a side opening (232), an inner contact piece (233), a fixed base cylinder (234), an adjusting shaft (235) and an adjusting cylinder (236), the side opening (232) is installed at the inner end of the inner clamping block (231), the inner contact piece (233) is arranged in an inner cavity of the side opening (232), the fixed base cylinder (234) is arranged on the upper side and the lower side of the inner clamping block (231) in a penetrating mode, the adjusting shaft (235) is installed between the fixed base cylinders (234), and the adjusting cylinder (236) is installed at the other end of the adjusting shaft (235).

5. An energy saving building material production facility for environment friendly energy saving building according to claim 4, characterized in that: the outer rings of the fixed base cylinder (234) and the adjusting cylinder (236) are respectively provided with an inner clamping block (231).

6. An energy saving building material production facility for environment friendly energy saving building according to claim 4, characterized in that: the inner clamping block (231) comprises a block body (2311), inner grooves (2312), penetrating columns (2313) and mounting side rods (2314), the inner grooves (2312) are formed in the upper side and the lower side of the rear end of the block body (2311), the penetrating columns (2313) are mounted in the inner cavities of the inner grooves (2312), the mounting side rods (2314) are mounted at the side ends of the penetrating columns (2313), and the other ends of the mounting side rods (2314) are movably connected with the first belt (214) and the second belt (217).

7. An energy saving building material production facility for an environmentally friendly energy saving building as claimed in claim 1 wherein: the diameter of the installation outer ring (136) is smaller than that of the side opening (232).

8. An energy saving building material production facility for an environmentally friendly energy saving building as claimed in claim 2 wherein: the serial ring (1375) is sleeved on the outer ring of the serial shaft (219).

9. The production method of an energy-saving building material production facility for an environment-friendly energy-saving building as set forth in any one of claims 1 to 8, characterized in that: the method comprises the following steps:

s1: the supporting column (131) can be lifted, the supporting column (131) is adjusted downwards, the inner cavity of the plastic metal composite pipe can penetrate through the outer end of the built-in transverse shaft (135), the inner cavity wall of the pipe body is attached to one end of the mounting outer ring (136), and a gap of 5mm is reserved at the other end of the pipe body.

S2: the left end of plastic metal composite pipe right-hand member laminating collar (1373), the diameter size that it set up is greater than body inner chamber diameter 5mm, collar (1373) is made for the rubber material, it has certain elasticity, can carry out interim spacing effect to the body, promote support column (131) and make driving motor (133) one end pass through side loose axle (134) and built-in cross axle (135) swing joint, driving motor (133) carry out anticlockwise rotation at this moment, drive built-in cross axle (135) and carry out the syntropy and rotate, adjust support column (131) about controlling, make installation outer lane (136) can carry out the full coverage processing to the body inner chamber, installation outer lane (136) carry out the spiral rotation at the body inner wall, utilize installation outer lane (136) to the contact friction of body inner wall, polish its inner wall fold;

s3: in the process of polishing the inner wall of the tube body, the outer wall of the tube body can be polished in a contact manner through the transmission mechanism (2), the inner end of the side opening (232) is attached to the outer wall of the tube body, the side end of the tube body is attached to the left end of the mounting ring (1373), clockwise rotation is carried out through the rotating motor (1376), the friction speed between the device and the tube body is increased by utilizing the reverse rotation of the driving motor (133), and at the moment, the tube body rotates clockwise;

s4: the pipe body rotating clockwise rubs with inner contact piece (233), first transport mechanism (21) and second transport mechanism (22) carry out syntropy operation under the opposite rotation of driving motor (211) is driven to this moment, only first belt (214) and one side of second belt (217) are installed and are pressed from both sides mechanism (23) in, after first belt (214) and second belt (217) rotatory transmission 180 degrees, interior clamp mechanism (23) are in the both ends of device this moment, take out the plastic metal composite pipe that the interior outer wall all polished the contact, when interior clamp mechanism (23) do not remove to the device inner, put into the plastic metal composite pipe for processing again.