CN212578837U - Deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibration machine - Google Patents

Abstract

The utility model relates to an anti shrink high strength synthetic stone pressure shaking machine of resistance to deformation, this pressure shaking machine comprises four forty ton hydro-cylinders, two entablature, electromagnetic shaker, four group's vibrations spring, vibrations platform, four hundred ton hydro-cylinders installation crossbeams, four guide posts, four hundred ton hydro-cylinders, pressure plate, four group's guide ways of pressure plate, shaping framed, four stands, pressure shaking machine base, pressure shaking machine top cap, electronic controller and oil pump oil tank, break through traditional single suppression and increased the pressure electromagnetic shaker, make the material more closely knit, mechanical properties and synthetic quality have reached the leap of a matter; the beneficial effects of the utility model reside in that: changing waste into valuable, completely replacing natural stone, having high density, better plate surface polishing effect, controllable design and color variety, high hardness, abrasion resistance and no leakage, and greatly improving economic benefit and market competitiveness.

Description

Deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibration machine

Technical Field

The utility model belongs to the technical field of building materials mechanical equipment, specifically speaking is an anti shrink high strength synthetic stone pressure vibrations machine of resistance to deformation.

Background

The natural stone belongs to non-renewable resources, and due to factors such as process, human factors and the like, stone mine resources are seriously wasted, a lot of mines are changed into flat ground by wild mining, and the synthetic stone can be locally used to utilize the natural stone raw materials to the maximum extent, so the synthetic stone is a new trend for future development. With the development of new materials, new processes and new equipment along with the progress of scientific technology, a wedge machine is provided for the accelerated development of the synthetic stone, the synthetic stone not only can make textures and color senses which are very close to those of natural stones, but also can make textures which some natural stones do not have, the colors enable the range of people to choose not to be limited to the limited textures of the natural stones, and the design thought of designers is greatly enriched. In recent years, the attention on environmental protection is increasing, and the glass curtain wall widely used in the past is not advocated to be replaced by a synthetic stone plate without light pollution, so the curtain wall is one of the development directions of the synthetic stone. According to the preparation of the synthetic stone, the following characteristics are mainly provided: 1. the natural marble without color difference is prepared by directly mining the natural marble sold in the mine, cutting and grinding. The grains of the natural stones are determined by the formation of the mine and the composition of the marble, so the grains of a plurality of natural stones are inconsistent, and the synthetic stones are formed by crushing the natural marble, adding materials for enhancing the deformation resistance and the shrinkage resistance and the like and processing the natural marble through scientific compatibility, so the chromatic aberration can be well controlled, the synthetic stones have no obvious chromatic aberration in a certain range, the laying of various fields or the hanging of walls is greatly facilitated, and the overall consistent style is kept; 2. the natural marble has different characteristics according to different components, has dark color containing radioactive substances, and can avoid the substances when the natural marble powder is selected by the synthetic stone, so that the non-radiative environment-friendly standard is achieved; 3. the texture of the synthetic stone is close to that of the natural stone, and the synthetic stone can be very close to the natural texture and color, so that the effect of laying the synthetic stone in a large area can be completely comparable to that of the natural stone in certain colors; 4. excellent performance, good water absorption and more compact structure than natural stone; 5. no fine cracks, dirt resistance and easy cleaning.

The development of the synthetic stones in the world has been in the history of nearly one hundred years, and China is introduced into China from Italy, Spain, portugal and the like for more than half a century and is developed greatly, but at present, a large amount of tailings and tunnel drilling cause a large amount of waste stone residues, which are not beneficial to the requirement of environmental protection, and the novel synthetic stones prepared by recycling the large amount of tailing waste stones and waste sands from waste have wide prospects; at present, the traditional synthetic stone plate is formed by a common press, the plate surface is not smooth, the compactness is not high, the quality of the plate is unqualified, the problems of deformation, shrinkage, insufficient strength and the like of the plate seriously influence the development of the synthetic stone, and the improvement of the synthetic stone is greatly solved or overcome.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an anti shrink high strength synthetic stone pressure vibrations machine of resistance to deformation, its characterized in that: the pressure vibrator comprises four forty-ton oil cylinders 10, two upper cross beams 20, a vibrator 30, four groups of vibrating springs 40, a vibrating platform 50, four hundred-ton oil cylinder mounting cross beams 60, four guide posts 70, four hundred-ton oil cylinders 80, a pressure plate 90, four groups of pressure plate guide sleeves 100, a forming mold frame 110, four upright posts 120, a pressure vibrator base 130, a pressure vibrator top cover 140, an electronic controller 150 and an oil pump oil tank, wherein the pressure vibrator base 130 and the pressure vibrator top cover 140 are connected and fixed into a tetragonal body frame by the four upright posts 120 between the pressure vibrator base 130 and the pressure vibrator top cover 140, the two upper cross beams 20 are arranged at the top ends of the tetragonal body frame, the two upper cross beams 20 are respectively arranged at the front and rear top edges of the tetragonal body frame and are connected and fixed with the pressure vibrator top cover 140 of the tetragonal body frame, the pressure vibrator base 130 is provided with the four guide posts 70, the lower ends of four guide posts 70 are fixedly connected with a pressure vibrator base 130, the upper ends of the four guide posts 70 are provided with four-hundred-ton oil cylinder mounting beams 60, the upper ends of the four guide posts 70 are fixedly connected with the four-hundred-ton oil cylinder mounting beams 60, an electronic controller 150 and an oil pump oil tank are separated from a pressure vibrator body, and a control circuit of the electronic controller 150 and an oil circuit of the oil pump oil tank are communicated with the pressure vibrator.

Further, the forty-ton oil cylinders 10 are four groups, each group of the forty-ton oil cylinders 10 comprises a forty-ton oil cylinder piston rod 11, a forty-ton oil cylinder dust seal 12, a forty-ton oil cylinder body connecting flange 15, a forty-ton oil cylinder body 14, a forty-ton oil cylinder first oil seal sealing ring 13, a forty-ton oil cylinder first oil seal 19 and a forty-ton oil cylinder second oil seal 16, the four-ton oil cylinder body is characterized by comprising a forty-ton oil cylinder second oil seal ring 18 and a forty-ton oil cylinder body handle 17, wherein the forty-ton oil cylinder second oil seal 16, the forty-ton oil cylinder second oil seal ring 18, a forty-ton oil cylinder first oil seal 19, a forty-ton oil cylinder first oil seal ring 13 and a forty-ton oil cylinder piston rod 11 of the forty-ton oil cylinder first oil seal ring 13 are assembled on the forty-ton oil cylinder body 14, and the forty-ton oil cylinder body (14) is provided with a forty-ton oil cylinder body connecting flange 15 and a forty-ton oil cylinder body handle 17 which are assembled, connected and fixed with the upper cross beam 20.

Further, the upper beam 20 is composed of a beam frame 21, upright post assembly holes 22, forty-ton oil cylinder assembly holes 23, reinforcing ribs 24 and reinforcing rib holes 25, the beam frame 21 is a rectangular pentahedron, the upright post assembly holes 22 for assembling upright posts 120 are arranged at two rectangular ends of the beam frame 21, the middle of the beam frame 21 is provided with two forty-ton oil cylinder assembly holes 23, the beam frame 21 is provided with 3-9 reinforcing ribs 24, the reinforcing ribs 24 are fixedly connected with the beam frame 21, and the reinforcing ribs 24 are provided with the reinforcing rib holes 25.

The vibrator 30 is composed of a vibrator case 31, an outer hexagon bolt 32, a phi 14 spring washer 33, a phi 14 flat washer 34, an eccentric coupling 35, an eccentric block 36, a bearing bush 37, a gland 38, a labyrinth ring 39, a vibration-proof bearing 310, a transmission shaft 311, a synchronizing gear 312, a gear bush 313, a seal ring 314, a shaft retainer ring 315, an oil seal 316, a vibrator case cover 317, a hexagon bolt 318, a phi 16 spring washer 319, a phi 16 flat washer 320 and an exhaust valve 321, the vibrator case 31 is a rectangle pentahedron, two groups of transmission shafts 311, the synchronizing gear 312, the gear bush 313, two groups of vibration-proof bearings 310 and the bearing bush 37 which are symmetrically sleeved on the transmission shafts 311 are arranged in the vibrator case 31, the gland 38, the labyrinth ring 39, the shaft retainer ring 315, the oil seal 316 and the eccentric block 36 are sleeved on the two groups of transmission shafts 311 outside the vibrator case 31, The eccentric coupling 35, the gland 38 connects the vibrator box 31 by the outer hexagon bolt 32, the phi 14 spring washer 33, the phi 14 flat washer 34 and fixes together, there is a vibrator box cover 317 on the vibrator box 31, the vibrator box cover 317 connects the vibrator box 31 by the hexagon bolt 318, the phi 16 spring washer 319, the phi 16 flat washer 320 and fixes together, there is a vent valve 321 on the vibrator box cover 317, the vent valve 321 connects the vibrator box cover 317 and fixes together.

Further, the four hundred-ton oil cylinders 80 are four groups, each group of the four hundred-ton oil cylinders 80 is composed of a four hundred-ton oil cylinder piston rod 81, a four hundred-ton oil cylinder dust seal 82, a four hundred-ton oil cylinder body connecting flange 83, a four hundred-ton oil cylinder body 84, a four hundred-ton oil cylinder first oil seal sealing ring 85, a four hundred-ton oil cylinder first oil seal 86, a four hundred-ton oil cylinder second oil seal 87 and a four hundred-ton oil cylinder second oil seal 88, the four hundred-ton oil cylinder body 84 is internally provided with the four hundred-ton oil cylinder dust seal 82, the four hundred-ton oil cylinder second oil seal 87, the four hundred-ton oil cylinder second oil seal 88, the four hundred-ton oil cylinder first oil seal 86 and the four hundred-ton oil cylinder first oil seal 85 which are assembled on the four hundred-ton oil cylinder piston rod 81, the four hundred-ton oil cylinder body connecting flange 83 is arranged on the four hundred-ton oil cylinder body 84, and the four hundred-ton oil cylinder body connecting flange 83 is matched with the four.

Furthermore, the pressure plate 90 is provided with four through holes for sleeving the four guide posts 70, and the through holes of the four guide posts 70 are matched with the four guide posts 70; the pressure plate guide sleeve 100 is composed of a guide post lower end cover 101, a guide post upper end cover 102, a bolt 103 and a copper sleeve 104, the lower end cover 101, the pressure plate 90 and the upper end cover 102 are sequentially sleeved on the four guide posts 70, then the copper sleeve 104 is assembled in a bolt 103 through hole arranged on the guide post lower end cover 101, the pressure plate 90 and the upper end cover 102, the bolt 103 is assembled after the copper sleeve 104 is assembled, and the lower end cover 101, the pressure plate 90 and the upper end cover 102 sleeved on the guide posts 70 are connected and fixed together through the bolt 103.

Further, the electronic controller 150 comprises a box 151, a console 152, a switch 153, an indicator light 154, an industrial personal computer 155 and a converter 156, the console 152 is arranged on the box 151, the switch 153 and the indicator light 154 are arranged on the console 152, the industrial personal computer 155 is arranged inside the box 151, the switch 153 and the indicator light 154 are connected with the industrial personal computer 155, and the industrial personal computer 155 is connected and controlled with the four forty-ton cylinders 10, the vibrator 30 and the four-hundred-ton cylinders 80 through the converter 156.

The utility model discloses a pressure vibrations machine's theory of operation receives the inspiration of tying up rice straw or wheat straw, and rice or wheat etc. that reap for centuries are tied up the straw with straw adoption grass waist or rope in the centre to guarantee not suffer the loss at loading, transportation, pile up neatly deposit the in-process. When the rice straws or the wheat straws are bundled, the grass waists or the ropes are tightly held by two hands in the middle, and the rice straws or the wheat straws are firmly bundled by pressing the two knees or the two feet forwards and backwards, if the rice straws or the wheat straws are bundled by the two hands, the rice straws or the wheat straws cannot be guaranteed not to be lost in the processes of loading, transportation and stacking storage, and the rice straws or the wheat straws can meet the requirements and have the effect of twice with half the effort by pressing the two knees or the two feet forwards and backwards. By adopting the principle of binding rice straws or wheat straws, a pressure vibrator is added on a press machine, and the board in the synthetic stone section mould is extruded at a rated rate and then vibrated under pressure, so that the compactness of the board and various indexes of the board are greatly improved.

The beneficial effects of the utility model reside in that: by adopting the technical scheme, the preparation method of the synthetic stone breaks through the single pressing process of the traditional press, the pressure vibrating machine is added on the preparation device, after the rated pressure is reached, the high-frequency vibration force is applied to apply impact pressure to the material again, so that the material is more compact and reaches the density of 2.71-2.82 cm/g, the mechanical property and the synthetic quality reach a qualitative leap, and the preparation method cannot be completed by the conventional technology; the invention solves the problem that a large amount of solid wastes pollute the environment, changes waste into valuable, completely replaces natural stone, has high density, better plate polishing effect, controllable color and variety, high hardness, wear resistance and no leakage, and greatly improves the economic benefit and the market competitiveness.

Drawings

Fig. 1 is a schematic structural view of a deformation-resistant and shrinkage-resistant high-strength synthetic stone pressure vibrator of the present invention;

fig. 2 is a schematic structural view of a 40-ton oil cylinder of a deformation-resistant and shrinkage-resistant high-strength synthetic stone pressure vibrator of the present invention;

fig. 3 is a schematic structural view (a-a view in fig. 5) of an upper cross beam of the deformation-resistant and shrinkage-resistant high-strength synthetic stone pressure vibrator of the present invention;

FIG. 4 is a right side view of FIG. 3;

FIG. 5 is a top view of FIG. 3;

fig. 6 is a schematic structural view (front view) of a vibrator of an anti-deformation and anti-contraction high-strength synthetic stone pressure vibrator according to the present invention;

FIG. 7 is an enlarged view of the B-B direction of FIG. 6;

FIG. 8 is a top view of FIG. 6;

fig. 9 is a schematic structural view of a 400 ton oil cylinder of a deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibrator of the present invention;

fig. 10 is a schematic structural view of a pressure plate guide sleeve of a deformation-resistant and shrinkage-resistant high-strength synthetic stone pressure vibrator of the present invention;

fig. 11 is a logic block diagram of an electronic controller of the deformation-resistant and shrinkage-resistant high-strength synthetic stone pressure vibrator of the present invention.

Reference numbers in the drawings illustrate: 10. forty-ton oil cylinders, 11, forty-ton oil cylinder piston rods, 12, forty-ton oil cylinder dust seals, 13, forty-ton oil cylinder first oil seals, 14, forty-ton oil cylinder bodies, 15, forty-ton oil cylinder body connecting flanges, 16, forty-ton oil cylinder second oil seals, 17, forty-ton oil cylinder handles, 18, forty-ton oil cylinder sealing rings, 20, forty-ton oil cylinder cross beams, 21 cross beam frames, 22, stand column assembly holes, 23, forty-ton oil cylinder assembly holes, 24 reinforcing ribs and 25 reinforcing rib holes; 30. a vibrator; 31. the vibrator comprises a vibrator box body, 32 outer hexagon bolts, 33 phi 14 spring washers, 34 phi 14 flat washers, 35 eccentric couplings, 36 eccentric blocks, 37 bearing shaft sleeves, 38 gland covers, 39 labyrinth rings, 310 anti-vibration bearings, 311 transmission shafts, 312 synchronizing gears, 313 gear shaft sleeves, 314 sealing rings, 315 shaft retaining rings, 316 oil seals, 317 vibrator box covers, 318 hexagon bolts, 319 phi 16 spring washers, 320 phi 16 flat washers and 321 exhaust valves; 40. vibrating the spring; 50. vibrating the platform; 60. a beam is installed on the four-hundred-ton oil cylinder; 70. a pressure plate guide post; 80. four-hundred-ton oil cylinder, 81, four-hundred-ton oil cylinder piston rod, 82, four-hundred-ton oil cylinder dust seal, 83, four-hundred-ton oil cylinder body connecting flange, 84, four-hundred-ton oil cylinder body, 85, four-hundred-ton oil cylinder first oil seal ring, 86, four-hundred-ton oil cylinder first oil seal, 87, four-hundred-ton oil cylinder second oil seal, 88, four-hundred-ton oil cylinder second oil seal ring; 90. pressure plate, 100, pressure plate guide sleeve, 101, guide post lower end cover, 102, guide post upper end cover, 103, bolt, 104 and copper sleeve; 110. forming a mold frame; 120. a column; 130. a pressure shaker base; 140. a pressure shaker top cover; 150. the electronic control unit comprises an electronic controller 151, a box 152, a console 153, a switch 154, an indicator light 155, an industrial personal computer 156 and a converter.

Detailed Description

The utility model discloses a resistance to deformation anti shrink high strength synthetic stone pressure vibrations machine embodiment combines the specification attached drawing right the technical scheme of the utility model make further explanation, and the embodiment in the specification attached drawing is the utility model discloses a resistance to deformation anti shrink high strength synthetic stone pressure vibrations machine.

As shown in fig. 1: the utility model relates to a deformation-resistant and shrinkage-resistant high-strength synthetic stone pressure vibrator, which comprises four forty-ton oil cylinders 10, two upper cross beams 20, a vibrator 30, four groups of vibration springs 40, a vibration platform 50, four hundred-ton oil cylinder installation cross beams 60, four guide posts 70, four hundred-ton oil cylinders 80, a pressure plate 90, four groups of pressure plate guide sleeves 100, a forming mold frame 110, four upright posts 120, a pressure vibrator base 130, a pressure vibrator top cover 140, an electronic controller 150 and an oil pump oil tank, wherein the pressure vibrator base 130 and the pressure vibrator top cover 140 are connected and fixed into a tetragonal body frame by the four upright posts 120 between the pressure vibrator base 130 and the pressure vibrator top cover 140, the two upper cross beams 20 are arranged at the front and back top edges of the tetragonal body frame respectively and are connected and fixed with the pressure vibrator top cover 140 of the tetragonal body frame, four guide posts 70 are arranged on a base 130 of the pressure vibrator, the lower ends of the four guide posts 70 are fixedly connected with the base 130 of the pressure vibrator, four-hundred-ton oil cylinder mounting beams 60 are arranged at the upper ends of the four guide posts 70, the upper ends of the four guide posts 70 are fixedly connected with the four-hundred-ton oil cylinder mounting beams 60, an electronic controller 150 and an oil pump oil tank are separated from a machine body of the pressure vibrator, and a control circuit of the electronic controller 150 is communicated with an oil circuit of the oil pump oil tank through connection with the pressure vibrator.

As shown in fig. 2: the forty-ton oil cylinders 10 are four groups, each group of the forty-ton oil cylinders 10 comprises a forty-ton oil cylinder piston rod 11, a forty-ton oil cylinder dust seal 12, a forty-ton oil cylinder body connecting flange 15, a forty-ton oil cylinder body 14, a forty-ton oil cylinder first oil seal sealing ring 13, a forty-ton oil cylinder first oil seal 19 and a forty-ton oil cylinder second oil seal 16, the four-ton oil cylinder body is characterized by comprising a forty-ton oil cylinder second oil seal ring 18 and a forty-ton oil cylinder body handle 17, wherein a forty-ton oil cylinder second oil seal 16, a forty-ton oil cylinder second oil seal ring 18, a forty-ton oil cylinder first oil seal 19, a forty-ton oil cylinder first oil seal ring 13 and a forty-ton oil cylinder piston rod 11 of the forty-ton oil cylinder first oil seal ring 13 are arranged in the forty-ton oil cylinder body 14, and the forty-ton oil cylinder body connecting flange 15 and the forty-ton oil cylinder body handle 17 are fixedly assembled with the upper cross beam 20.

As shown in fig. 3-5: the upper crossbeam 20 comprises a crossbeam frame 21, upright post assembly holes 22, forty-ton oil cylinder assembly holes 23, reinforcing ribs 24 and reinforcing rib holes 25, wherein the crossbeam frame 21 is a rectangular pentahedron, the upright post assembly holes 22 for assembling upright posts 120 are arranged at the two rectangular ends of the crossbeam frame 21, the middle part of the crossbeam frame 21 is provided with two forty-ton oil cylinder assembly holes 23, the crossbeam frame 21 is provided with 6 reinforcing ribs 24, the reinforcing ribs 24 are fixedly connected with the crossbeam frame 21, and the reinforcing ribs 24 are provided with the reinforcing rib holes 25.

As shown in fig. 6-8: the vibrator 30 comprises a vibrator box 31, an outer hexagon bolt 32, a phi 14 spring washer 33, a phi 14 flat washer 34, an eccentric coupling 35, an eccentric block 36, a bearing shaft sleeve 37, a gland 38, a labyrinth ring 39, a shock-proof bearing 310, a transmission shaft 311, a synchronous gear 312, a gear shaft sleeve 313, a sealing ring 314, a baffle ring 315 for a shaft, an oil seal 316, a vibrator box cover 317, a hexagon bolt 318, a phi 16 spring washer 319, a phi 16 flat washer 320 and an exhaust valve 321, the vibrator box 31 is a rectangular pentahedron, two groups of transmission shafts 311, the synchronous gear 312 sleeved on the transmission shafts 311, the gear shaft sleeve 313, two groups of shock-proof bearings 310 and bearing shaft sleeves 37 symmetrically sleeved on the transmission shafts 311 are arranged in the vibrator box 31, the gland 38, the labyrinth ring 39, the baffle ring 315 for a shaft, the oil seal 316, the eccentric block 36 and the eccentric coupling 35 are sleeved on the two groups of transmission, the gland 38 is fixedly connected with the vibrator box body 31 through an outer hexagon bolt 32, a phi 14 spring washer 33 and a phi 14 flat washer 34, a vibrator box cover 317 is arranged on the vibrator box body 31, the vibrator box cover 317 is fixedly connected with the vibrator box body 31 through a hexagon bolt 318, a phi 16 spring washer 319 and a phi 16 flat washer 320, an exhaust valve 321 is arranged on the vibrator box cover 317, and the exhaust valve 321 is fixedly connected with the vibrator box cover 317.

As shown in fig. 9: the four-hundred-ton oil cylinders 80 are four groups, each group of four-hundred-ton oil cylinders 80 comprises four-hundred-ton oil cylinder piston rods 81, four-hundred-ton oil cylinder dust seals 82, four-hundred-ton oil cylinder body connecting flanges 83, four-hundred-ton oil cylinder bodies 84, four-hundred-ton oil cylinder first oil seal sealing rings 85, four-hundred-ton oil cylinder first oil seals 86, four-hundred-ton oil cylinder second oil seals 87 and four-hundred-ton oil cylinder second oil seal sealing rings 88, four-hundred-ton oil cylinder first oil seals 86 and four-hundred-ton oil cylinder first oil seal sealing rings 85, the four-hundred-ton oil cylinder body connecting flanges 83 are arranged on the four-hundred-ton oil cylinder bodies 84, and the four-hundred-ton oil cylinder body connecting flanges 83 are matched with the four-hundred-ton oil cylinder mounting cross beams 60.

As shown in fig. 10: the pressure plate 90 is provided with four through holes for sleeving the four guide posts 70, and the through holes of the four guide posts 70 are matched with the four guide posts 70; the pressure plate guide sleeve 100 is composed of a guide post lower end cover 101, a guide post upper end cover 102, a bolt 103 and a copper sleeve 104, the lower end cover 101, the pressure plate 90 and the upper end cover 102 are sequentially sleeved on the four guide posts 70, then the copper sleeve 104 is assembled in a bolt 103 through hole arranged on the guide post lower end cover 101, the pressure plate 90 and the upper end cover 102, the bolt 103 is assembled after the copper sleeve 104 is assembled, and the lower end cover 101, the pressure plate 90 and the upper end cover 102 sleeved on the guide posts 70 are connected and fixed together through the bolt 103.

As shown in fig. 11: the electronic controller 150 comprises a box body 151, a console 152, a switch 153, an indicator light 154, an industrial personal computer 155 and a converter 156, wherein the console 152 is arranged on the box body 151, the switch 153 and the indicator light 154 are arranged on the console 152, the industrial personal computer 155 is arranged in the box body 151, the switch 153 and the indicator light 154 are connected with the industrial personal computer 155, and the industrial personal computer 155 is connected and controlled with the four forty-ton oil cylinders 10, the vibrator 30 and the four-hundred-ton oil cylinders 80 through the converter 156.

The utility model discloses a pressure vibrations machine's theory of operation receives the inspiration of tying up rice straw or wheat straw, and rice or wheat etc. that reap for centuries are tied up the straw with straw adoption grass waist or rope in the centre to guarantee not suffer the loss at loading, transportation, pile up neatly deposit the in-process. When the rice straws or the wheat straws are bundled, the grass waists or the ropes are tightly held by two hands in the middle, and the rice straws or the wheat straws are firmly bundled by pressing the two knees or the two feet forwards and backwards, if the rice straws or the wheat straws are bundled by the two hands, the rice straws or the wheat straws cannot be guaranteed not to be lost in the processes of loading, transportation and stacking storage, and the rice straws or the wheat straws can meet the requirements and have the effect of twice with half the effort by pressing the two knees or the two feet forwards and backwards. By adopting the principle of binding rice straws or wheat straws, a pressure vibrator is added on a press machine, and the board in the synthetic stone section mould is extruded at a rated rate and then vibrated under pressure, so that the compactness of the board and various indexes of the board are greatly improved.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (8)

1. The utility model provides an anti deformation anti shrink high strength synthetic stone pressure vibrations machine which characterized in that: the pressure vibration machine is composed of four forty-ton oil cylinders (10), two upper cross beams (20), a vibrator (30), four groups of vibration springs (40), a vibration platform (50), four hundred-ton oil cylinder installation cross beams (60), four guide columns (70), four hundred-ton oil cylinders (80), a pressure plate (90), four groups of pressure plate guide sleeves (100), a forming mold frame (110), four upright posts (120), a pressure vibration machine base (130), a pressure vibration machine top cover (140), an electronic controller (150) and an oil pump oil tank, wherein the pressure vibration machine base (130) and the pressure vibration machine top cover (140) are connected and fixed into a square frame through the four upright posts (120) between the pressure vibration machine base (130) and the pressure vibration machine top cover (140), the two upper cross beams (20) are arranged at the top edges of the front and the back of the square frame respectively and are connected with the pressure vibration machine top cover (20) of the square frame 140) The four guide columns (70) are fixedly connected with the pressure vibrator base (130), the lower ends of the four guide columns (70) are fixedly connected with the pressure vibrator base (130), four-hundred-ton oil cylinder mounting beams (60) are arranged at the upper ends of the four guide columns (70), the upper ends of the four guide columns (70) are fixedly connected with the four-hundred-ton oil cylinder mounting beams (60), the electronic controller (150) and the oil pump oil tank are separated from the body of the pressure vibrator, and a control circuit of the electronic controller (150) is communicated with an oil circuit of the oil pump oil tank and the pressure vibrator.

2. The deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibrator as claimed in claim 1, wherein: the four forty-ton oil cylinders (10) are four groups, each forty-ton oil cylinder (10) group comprises a forty-ton oil cylinder piston rod (11), a forty-ton oil cylinder dust seal (12), a forty-ton oil cylinder body connecting flange (15), a forty-ton oil cylinder body (14), a forty-ton oil cylinder first oil seal sealing ring (13), a forty-ton oil cylinder first oil seal (19), a forty-ton oil cylinder second oil seal (16), a forty-ton oil cylinder second oil seal sealing ring (18) and a forty-ton oil cylinder body handle (17), the forty-ton oil cylinder second oil seal (16), the forty-ton oil cylinder second oil seal sealing ring (18), the forty-ton oil cylinder first oil seal sealing ring (19), the forty-ton oil cylinder first oil seal sealing ring (13) and the forty-ton oil cylinder first oil seal sealing ring (13) which are assembled on the forty-ton oil cylinder piston rod (11) are arranged in the forty-ton, the forty-ton oil cylinder body (14) is provided with a forty-ton oil cylinder body connecting flange (15) and a forty-ton oil cylinder body handle (17) which are assembled, connected and fixed with the upper cross beam (20).

3. The deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibrator as claimed in claim 1, wherein: entablature (20) by crossbeam frame (21), stand pilot hole (22), forty-ton hydro-cylinder pilot hole (23), strengthening rib (24), strengthening rib hole (25) constitute, crossbeam frame (21) are the rectangle pentahedron, be equipped with stand pilot hole (22) of assembly stand (120) at the rectangle both ends of crossbeam frame (21), be equipped with two assembly forty-ton hydro-cylinder pilot holes (23) at the middle part of crossbeam frame (21), be equipped with 3-9 strengthening ribs (24) in crossbeam frame (21), strengthening rib (24) are in the same place with crossbeam frame (21) hookup is fixed, strengthening rib (24) are equipped with strengthening rib hole (25).

4. The deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibrator as claimed in claim 1, wherein: the vibrator (30) is composed of a vibrator box body (31), outer hexagon bolts (32), a phi 14 spring washer (33), a phi 14 flat washer (34), an eccentric coupling (35), an eccentric block (36), a bearing shaft sleeve (37), a gland (38), a labyrinth ring (39), an anti-vibration bearing (310), a transmission shaft (311), a synchronous gear (312), a gear shaft sleeve (313), a sealing ring (314), a shaft retainer ring (315), an oil seal (316), a vibrator box cover (317), a hexagon bolt (318), a phi 16 spring washer (319), a phi 16 flat washer (320) and an exhaust valve (321), wherein the vibrator box body (31) is a rectangular pentahedron, two groups of transmission shafts (311) and synchronous gears (312) sleeved on the transmission shafts (311), the gear shaft sleeve (313) and two groups of anti-vibration bearings (310) symmetrically sleeved on the transmission shafts (311) are arranged in the vibrator box body (31), The vibrator comprises a bearing shaft sleeve (37), two groups of transmission shafts (311) on the outer side of a vibrator box body (31) are sleeved with a gland (38), a labyrinth ring (39), a shaft retainer ring (315), an oil seal (316), an eccentric block (36) and an eccentric coupling (35), the gland (38) is fixedly connected with the vibrator box body (31) through an outer hexagon bolt (32), a phi 14 spring washer (33) and a phi 14 flat washer (34), a vibrator box cover (317) is arranged on the vibrator box body (31), the vibrator box cover (317) is fixedly connected with the vibrator box body (31) through a hexagon bolt (318), a phi 16 spring washer (319) and a phi 16 flat washer (320), an exhaust valve (321) is arranged on the vibrator box cover (317), and the exhaust valve (321) is fixedly connected with the vibrator box cover (317).

5. The deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibrator as claimed in claim 1, wherein: the four-hundred-ton oil cylinders (80) are four groups, each group of four-hundred-ton oil cylinders (80) consists of a four-hundred-ton oil cylinder piston rod (81), a four-hundred-ton oil cylinder dust seal (82), a four-hundred-ton oil cylinder body connecting flange (83), a four-hundred-ton oil cylinder body (84), a four-hundred-ton oil cylinder first oil seal sealing ring (85), a four-hundred-ton oil cylinder first oil seal (86), a four-hundred-ton oil cylinder second oil seal (87) and a four-hundred-ton oil cylinder second oil seal sealing ring (88), a four-hundred-ton oil cylinder first oil seal (86) and a four-hundred-ton oil cylinder first oil seal (85), the four-hundred-ton oil cylinder body connecting flange (83) is arranged on the four-hundred-ton oil cylinder body (84), and the four-ton oil cylinder first oil seal (85) is sleeved on the four-ton oil cylinder piston rod (81), a four-hundred-ton cylinder body connecting flange (83) is matched with a four-hundred-ton cylinder mounting cross beam (60).

6. The deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibrator as claimed in claim 1, wherein: the pressure plate (90) is provided with four through holes for sleeving the four guide posts (70), and the through holes of the four guide posts (70) are matched with the four guide posts (70).

7. The deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibrator as claimed in claim 1, wherein: the pressure plate guide sleeve (100) is composed of a guide post lower end cover (101), a guide post upper end cover (102), a bolt (103) and a copper sleeve (104), the lower end cover (101), the pressure plate (90) and the upper end cover (102) are sequentially sleeved on four guide posts (70), then the copper sleeve (104) is assembled in a through hole of the bolt (103) arranged on the guide post lower end cover (101), the pressure plate (90) and the upper end cover (102), the bolt (103) is assembled after the copper sleeve (104) is assembled, and the lower end cover (101), the pressure plate (90) and the upper end cover (102) sleeved on the guide posts (70) are fixedly connected together through the bolt (103).

8. The deformation-resistant shrinkage-resistant high-strength synthetic stone pressure vibrator as claimed in claim 1, wherein: electronic controller (150) constitute by box (151), control cabinet (152), switch (153), pilot lamp (154), industrial computer (155) and converter (156), be equipped with control cabinet (152) on box (151), be equipped with switch (153) and pilot lamp (154) on control cabinet (152), industrial computer (155) set up in the inside of box (151), switch (153) and pilot lamp (154) are connected with industrial computer (155), industrial computer (155) pass through converter (156) with four forty tons hydro-cylinders (10), electromagnetic shaker (30), four hundred tons hydro-cylinders (80) connection control.

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