CN209010858U

CN209010858U - A kind of environmental protection package molding machine with efficient cold moudling

Info

Publication number: CN209010858U
Application number: CN201821733696.9U
Authority: CN
Inventors: 吴佳能; 丁劲松
Original assignee: Quanzhou Da Chuang Machinery Manufacturing Co Ltd
Current assignee: Xiamen Zhongqian Machinery Co ltd
Priority date: 2018-10-25
Filing date: 2018-10-25
Publication date: 2019-06-21
Anticipated expiration: 2028-10-25

Abstract

The utility model provides a kind of environmental protection package molding machine with efficient cold moudling, including pulp feeding system, formation system, vacuum pump, mobile system and body, wherein, formation system includes lower die and permeable membrane, lower die is connected in body bottom end, and permeable membrane is plugged in lower die, and solute concentration is higher than paper pulp solute concentration in permeable membrane, lower die upper end offers draining hole, and draining hole runs through permeable membrane；Mobile system includes modulus hydraulic cylinder, upper mold, aspiration pump and blower pump, modulus hydraulic cylinder is connected in body upper center, upper mold is connected in the extension end of modulus hydraulic cylinder, upper mold is located at the surface of lower die, the stretching of modulus hydraulic cylinder makes in upper mold insertion lower die, aspiration pump and blower pump are respectively fixedly connected on the body of modulus hydraulic cylinder two sides, several stomatas are provided in upper mold, and stomata is communicated with aspiration pump and blower pump respectively.The utility model has the advantages that one-pass molding and molding qualification rate can reach a hundred percent.

Description

Environment-friendly packaging forming machine with efficient cold press forming function

Technical Field

The utility model relates to a paper mould production facility field, specifically speaking relates to an environmental protection package forming machine with high-efficient cold press molding.

Background

The low-carbon environment-friendly paper pulp package (catering utensils) accords with the renewable energy development of the international environment-friendly organization, and the BPI can fertilize a new material, develop the recyclable economy, protect the natural environment, improve the green industry of the healthy water products of people and enable the low-carbon green package to be more humanized.

The existing production of environment-friendly paper pulp packaging is divided into pulping, pulp supplying, forming and shaping, wherein in the forming stage, paper pulp flows into a mold to be formed into a paper mold, then the paper mold is manufactured after the paper pulp is solidified, but the time required for free air drying and solidification of the paper pulp is longer, and the inner layer of the paper mold is still provided with more moisture after the surface of the paper mold is solidified, so that the surface of the paper mold is easily deformed or damaged when the paper mold directly enters the next process, and the qualification rate of the paper mold is greatly influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model aims to provide an environmental protection packaging and forming machine with high-efficient cold-pressing forming to overcome the defects in the prior art.

In order to achieve the purpose, the utility model provides an environment-friendly packaging forming machine with high-efficient cold press molding, which comprises a slurry supply system, a forming system, a vacuum pump, a moving system and a machine body, wherein the slurry supply system is erected on one side of the machine body, the forming system is erected in the middle of the bottom end of the machine body, the vacuum pump is erected at the bottom end of the machine body, and the moving system is erected at the top end of the machine body; the forming system comprises a lower die and an osmotic membrane, the lower die is fixedly connected to the bottom end of the machine body, the osmotic membrane is inserted into the lower die, the solute concentration in the osmotic membrane is higher than that of paper pulp, a drainage port is formed in the upper end of the lower die, and the drainage port penetrates through the osmotic membrane; the mobile system includes the drawing die pneumatic cylinder, go up the mould, aspiration pump and the pump of blowing, and the drawing die pneumatic cylinder links firmly at organism upper end middle part, and the flexible direction of drawing die pneumatic cylinder is vertical direction, goes up the mould and links firmly the end that stretches out at the drawing die pneumatic cylinder, goes up the mould and is located the lower mould directly over, and the drawing die pneumatic cylinder stretches out to make go up the mould and insert in the lower mould, and aspiration pump and the pump of blowing link firmly respectively on the organism of drawing die pneumatic cylinder both sides, go up to open on the mould and have a plurality of gas pocket, and the gas pocket communicates with each other.

Through adopting above-mentioned technical scheme, when paper pulp flows in the lower mould from the drainage mouth, solute concentration because of the osmosis membrane is greater than the solute concentration of paper pulp, then produce the osmotic pressure between paper pulp and the osmosis membrane, water in the paper pulp begins to flow in to the osmosis membrane this moment, the paper pulp water content descends, be convenient for the shaping, get the mould pneumatic cylinder afterwards and stretch out, make and go up the mould and insert in the lower mould, butt through last mould and lower mould is with paper pulp press forming, blow pump work afterwards, utilize atmospheric pressure to make the complete butt of paper pulp on osmosis membrane and lower mould, and then make the faster shaping of paper mould, simultaneously under the effect of atmospheric pressure, make the water in the paper pulp break away from more fast, and then make the paper pulp water content descend, reach the purpose of more solidification, the paper mould that makes paper pulp.

As right the environmental protection packaging and forming machine further explain, preferably, supply the thick liquid system including bubble thick liquid jar, garrulous thick liquid jar, join in marriage thick liquid jar and stuff pump, bubble thick liquid jar passes through the pipeline and links to each other with garrulous thick liquid jar, garrulous thick liquid jar passes through the pipeline and joins in marriage thick liquid jar and links to each other, joins in marriage thick liquid jar and links to each other with the stuff pump through the pipeline, the stuff pump communicates with each other with the drainage mouth through the pipeline.

By adopting the technical scheme, the paper board can be blended into the required paper pulp raw material, and the paper pulp raw material is automatically guided into the paper mould, so that the structure is simple, and the maintenance is convenient.

As a further explanation of the environment-friendly packaging and forming machine of the present invention, preferably, the two vacuum pumps are respectively and fixedly connected to two sides of the bottom end of the machine body, and the vacuum pumps are communicated with the permeable membrane.

Through adopting above-mentioned technical scheme, set up vacuum pump cooperation air blower and make the paper pulp water content reduce in the short time, reach quick fashioned purpose.

As right the environmental protection make-up machine further explain, preferably, the organism both sides frame is equipped with the heating solidification equipment, the heating solidification equipment includes two ejector die pneumatic cylinders, two heating mold, two moulding-dies and two design pneumatic cylinders, two ejector die pneumatic cylinders are solid respectively and are even in the organism both sides, the flexible direction of ejector die pneumatic cylinder is the horizontal direction, two heating mold link firmly the end that stretches out at two ejector die pneumatic cylinders respectively, the ejector die pneumatic cylinder stretches out and makes heating mold stretch into under the upper mould, two design pneumatic cylinders link firmly respectively in the organism both sides, the flexible direction of design pneumatic cylinder is vertical direction, two moulding-dies link firmly and stretch out the end at the design pneumatic cylinder, the design pneumatic cylinder stretches out and makes the moulding-die insert in the heating mold.

Through adopting above-mentioned technical scheme, set up the heating solidification device, can repair semi-manufactured goods's paper mould appearance, make it reach required size and specification, utilize the mode of heating simultaneously to evaporate surplus moisture, make the paper mould solidify the difficult deformation completely, kill two birds with one stone, save man-hour.

As right the environmental protection packaging and forming machine further explain, preferably, go up and all link firmly a plurality of guide posts on mould and the moulding-die, guide post length direction is vertical direction, guide post and organism sliding connection.

Through adopting above-mentioned technical scheme, set up the removal that mould and moulding-die are stabilized to the guide post, avoid going up mould and moulding-die and appearing the skew and can not insert the plastic and the transportation of influence in lower mould and the heating die to the paper mould.

As a further explanation of the environment-friendly packaging and forming machine of the present invention, preferably, the side surface of the pressing mold is provided with a plurality of suction holes, and the suction holes on the pressing mold are communicated with the air pump.

Through adopting above-mentioned technical scheme, make the moulding-die have the function of transportation paper mould, avoid additionally increasing the mechanism and transport, reduction in production cost is convenient for maintain simultaneously.

As right the environmental protection packaging and forming machine of the utility model further explain, preferably, heating mould one side frame is equipped with the conveyer belt, when the push mold pneumatic cylinder stretches out, the conveyer belt is located under the moulding-die.

By adopting the technical scheme, the finished paper mold can be directly placed on the conveying belt and then conveyed out of the equipment by the conveying belt, so that the subsequent packaging work is facilitated.

The utility model discloses following beneficial effect has:

1. the lower die with the permeable membrane is arranged, so that the water content of the paper pulp is reduced when the paper pulp flows in, and the paper pulp is molded more quickly;

2. the moving system is arranged to assist the paper mold forming and facilitate the paper mold transportation;

3. the paper mold is further molded by arranging the heating and curing device, and the qualification rate of the paper mold after curing is ensured.

Drawings

FIG. 1 is a diagram illustrating the assembly effect of the present invention;

fig. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of A in FIG. 2;

fig. 4 is an enlarged view of B in fig. 3.

Description of reference numerals:

1. a slurry supply system; 11. a slurry soaking tank; 12. a pulping tank; 13. a slurry preparation tank; 14. a slurry pump; 2. a molding system; 21. a lower die; 22. a permeable membrane; 23. a drainage opening; 3. a vacuum pump; 4. A mobile system; 41. a mould taking hydraulic cylinder; 42. an upper die; 421. air holes; 43. an air pump; 44. An air blower; 5. a heating and curing device; 50. a mould pushing hydraulic cylinder; 51. heating the mold; 52. Pressing the die; 53. a shaping hydraulic cylinder; 54. a guide post; 6. a conveyor belt; 7. a body.

Detailed Description

In order to further understand the structure, characteristics and other objects of the present invention, the following detailed description is provided in conjunction with the accompanying preferred embodiments, which are only used to illustrate the technical solution of the present invention and are not intended to limit the present invention.

An environment-friendly packaging and forming machine with efficient cold press forming is shown in figure 1 and comprises a slurry supply system 1, a forming system 2, a vacuum pump 3, a moving system 4 and a machine body 7, wherein the slurry supply system 1 is erected on one side of the machine body 7, the forming system 2 is erected in the middle of the bottom end of the machine body 7, the vacuum pump 3 is erected at the bottom end of the machine body, and the moving system 4 is erected at the top end of the machine body 7.

As shown in fig. 1, the pulp supply system 1 comprises a pulp soaking tank 11, a pulping tank 12, a pulp distribution tank 13 and a pulp pump 14, wherein the pulp soaking tank 11 is connected with the pulping tank 12 through a pipeline, the pulping tank 12 is connected with the pulp distribution tank 13 through a pipeline, the pulp distribution tank 13 is connected with the pulp pump 14 through a pipeline, and the pulp pump 14 is communicated with the forming system 2 through a pipeline; in order to facilitate raw material transportation, plant fiber, reed, sugarcane and rice and wheat straw pulp growing in one year is made into a plate shape initially, when production is needed, the raw material of the paper plate is placed into a pulp soaking tank 11, the paper plate is softened after ten minutes, then the paper plate is placed into a pulp crushing tank 12, the pulp crushing tank 12 is used for stirring to make the paper plate into pulp, then the pulp is led into a pulp distribution tank 13, waterproof and oil-proof materials are added into the pulp distribution tank 13, and finally the mixed pulp is quantitatively sent into a forming system 2 by a pulp pump 14, so that the pulp is made into a paper pulp with excellent waterproof and oil-proof performances, and is safe and environment-friendly, simple in system structure and convenient to maintain.

With reference to fig. 2 and 3, the forming system 2 includes a lower die 21 and an osmotic membrane 22, the lower die 21 is fixedly connected to the bottom end of the machine body 7, the osmotic membrane 22 is inserted into the lower die 21, the solute concentration in the osmotic membrane 22 is higher than the solute concentration of the paper pulp, an annular drainage port 23 is formed in the upper end of the lower die 21, the drainage port 23 penetrates through the osmotic membrane 22, the drainage port 23 is located at the upper end of the osmotic membrane 22, and the drainage port 23 is communicated with the pulp pump 14; when the pulp flows into the lower die 21 from the drainage port 23, the osmotic pressure is generated between the pulp and the osmotic membrane 22 because the solute concentration of the osmotic membrane 22 is greater than that of the pulp, and at the moment, water in the pulp starts to flow into the osmotic membrane 22, so that the water content of the pulp is reduced, and the forming is facilitated.

Combine fig. 2, fig. 4, when paper pulp flows into the lower mould from the drainage mouth, be greater than the solute concentration of paper pulp because of the solute concentration of osmotic membrane, then produce osmotic pressure between paper pulp and the osmotic membrane, water in the paper pulp begins to flow into in the osmotic membrane this moment, the paper pulp water content descends, be convenient for the shaping, get out the mould pneumatic cylinder afterwards, make and go up the mould and insert in the lower mould, the butt through last mould and lower mould is with paper pulp press forming, blow pump work afterwards, utilize atmospheric pressure to make paper pulp complete butt on osmotic membrane and lower mould, and then make the paper mould shaping more fast, simultaneously under the effect of atmospheric pressure, make the water in the paper pulp break away from more fast, and then make the paper pulp water content descend, reach the mesh of solidifying more fast, the paper mould that makes paper pulp form is difficult.

With reference to fig. 3 and 4, two vacuum pumps 3 are respectively fixedly connected to two sides of the bottom end of the machine body 7, and suction ports of the vacuum pumps 3 are communicated with the permeable membrane 22; after the paper pulp is shaped, the vacuum pump 3 is started, excess moisture in the semi-finished product is sucked out by utilizing the air pressure difference, and the moisture penetrates through the permeable membrane 22 and the vacuum pump 3 and flows out of the lower die 21, so that the water content of the paper pulp is reduced.

Referring to fig. 3 and 4, the moving system 4 includes a mold-taking hydraulic cylinder 41, an upper mold 42, an air pump 43 and an air-blowing pump 44, the mold-taking hydraulic cylinder 41 is fixedly connected to the middle of the upper end of the machine body 7, the stretching direction of the mold-taking hydraulic cylinder 41 is vertical, the upper mold 42 is fixedly connected to the extending end of the mold-taking hydraulic cylinder 41, referring to fig. 4, the upper mold 42 is located right above the lower mold 21, the mold-taking hydraulic cylinder 41 extends to enable the upper mold 42 to be inserted into the lower mold 21, the air pump 43 and the air-blowing pump 44 are respectively fixedly connected to the machine body 7 on both sides of the mold-taking hydraulic cylinder 41, the upper mold 42 is provided with a plurality of air holes 421.

Combine fig. 2 and fig. 4, after the water content in the semi-manufactured goods reaches about 25%, close vacuum pump 3, and start mould hydraulic cylinder 45, mould hydraulic cylinder 45 stretches out afterwards, make and go up mould 42 and insert in the lower mould 21, the butt through last mould 42 and lower mould 21 is with paper pulp press forming, blow air pump 44 work afterwards, utilize atmospheric pressure to make the complete butt of paper pulp on osmotic membrane 22 and lower mould 21, and then make the paper mould shaping more fast, simultaneously under the effect of atmospheric pressure, make the water in the paper pulp break away from more fast, and then make the paper pulp water content descend, reach the purpose of faster solidification, the paper mould that makes paper pulp form is difficult for breaking when absorbing.

With reference to fig. 1 and 2, a heating and curing device 5 is erected on two sides of a machine body 7, the heating and curing device 5 includes two mold pushing hydraulic cylinders 50, two heating molds 51, two pressing molds 52 and two shaping hydraulic cylinders 53, the two mold pushing hydraulic cylinders 50 are respectively fixedly connected to two sides of the machine body 7, the stretching direction of the mold pushing hydraulic cylinders 50 is the horizontal direction, the two heating molds 51 are respectively fixedly connected to the extending ends of the two mold pushing hydraulic cylinders 50, the mold pushing hydraulic cylinders 50 extend to enable the heating molds 51 to extend to the right below an upper mold 42, the two shaping hydraulic cylinders 53 are respectively fixedly connected to two sides of the machine body 7, the stretching direction of the shaping hydraulic cylinders 53 is the vertical direction, the two pressing molds 52 are fixedly connected to the extending ends of the shaping hydraulic cylinders 53, and the shaping hydraulic cylinders; the upper die 42 and the pressing die 52 are fixedly connected with a plurality of guide columns 53, the length direction of each guide column 53 is vertical, and the guide columns 53 are connected with the machine body 7 in a sliding manner; the side surface of the pressing die 52 is also provided with a plurality of air holes 421, and the air holes 421 on the pressing die 52 are also communicated with the air suction pump 43, so that the pressing die 52 also has the function of conveying paper dies, the additional increase of mechanisms for conveying is avoided, the production cost is reduced, and the maintenance is convenient.

With reference to fig. 1 and 3, after the mold-removing hydraulic cylinder 45 is completely contracted, the mold-pushing hydraulic cylinder 50 on one side of the machine body 7 extends to send the heating mold 51 to the position right below the upper mold 42, then the mold-removing hydraulic cylinder 45 extends to place the semi-finished product into the heating mold 51, at this time, the air-extracting pump 43 is turned off, the mold-removing hydraulic cylinder 45 is contracted again, and finally the mold-pushing hydraulic cylinder 50 is contracted to reset the heating mold 51; after the heated mold 51 is reset, the shaping hydraulic cylinder 53 extends out to enable the press mold 52 to be inserted into the heated mold 51, then the heated mold 51 is started, the temperature is raised to about 102 ℃, the temperature is stopped rising, the temperature is kept for about five minutes, the water content of the semi-finished product reaches about 1%, and the semi-finished product is completely shaped by matching the press mold 52 with the heated mold 51 and becomes a finished product.

With reference to fig. 1, 3 and 4, a heating and curing device 5 is provided to trim the shape of the semi-finished paper mold to reach the required dimension specification, and simultaneously, the residual water is evaporated by heating to completely solidify the paper mold without deformation, so that two purposes are achieved, and the working hours are saved; the guide posts 54 are provided to stabilize the movement of the upper mold 42 and the pressing mold 52, and prevent the upper mold 42 and the pressing mold 52 from being shifted and being inserted into the lower mold 21 and the heating mold 51 to affect the shaping and transportation of the paper mold.

With reference to fig. 1 and 3, a conveyor belt 6 is erected on one side of the heating mold 51, the conveyor belt 6 is connected with the machine body 7 in a sliding manner, the bottom end of the conveyor belt 6 is hollow, and when the mold pushing hydraulic cylinder 50 extends out, the conveyor belt 6 is located right below the pressing mold 52; and finally, the air suction pump 43 works again to adsorb the finished product on the pressing die 52, the shaping hydraulic cylinder 53 contracts, the die pushing hydraulic cylinder 50 extends to enable the conveying belt 6 to be positioned under the pressing die 52, the shaping hydraulic cylinder 53 extends to place the finished product on the conveying belt 6, the air suction pump 43 is closed, the shaping hydraulic cylinder 53 and the die pushing hydraulic cylinder 50 contract respectively, finally, the conveying belt 6 is started to convey the finished product to a packaging position for collecting and packaging, the conveying belt 6 is arranged to move along with the movement of the heating die 51, the finished product paper mold can be directly placed on the conveying belt 6, and then the finished product paper mold is conveyed out of the equipment by the conveying belt 6, so that subsequent packaging work is facilitated.

It should be noted that the above mentioned contents and embodiments are intended to demonstrate the practical application of the technical solution provided by the present utility model, and should not be interpreted as the limitation of the protection scope of the present utility model. Various modifications, equivalent substitutions and improvements will occur to those skilled in the art and are intended to be within the spirit and scope of the present invention. The protection scope of the present invention is subject to the appended claims.

Claims

1. The environment-friendly packaging forming machine with the efficient cold press forming function is characterized by comprising a slurry supply system (1), a forming system (2), a vacuum pump (3), a moving system (4) and a machine body (7), wherein the slurry supply system (1) is erected on one side of the machine body (7), the forming system (2) is erected in the middle of the bottom end of the machine body (7), the vacuum pump (3) is erected at the bottom end of the machine body (7), and the moving system (4) is erected at the top end of the machine body (7); wherein,

the forming system (2) comprises a lower die (21) and an osmotic membrane (22), the lower die (21) is fixedly connected to the bottom end of the machine body (7), the osmotic membrane (22) is inserted into the lower die (21), the solute concentration in the osmotic membrane (22) is higher than that of paper pulp, a drainage port (23) is formed in the upper end of the lower die (21), and the drainage port (23) penetrates through the osmotic membrane (22);

the moving system (4) comprises a mold taking hydraulic cylinder (41), an upper mold (42), an air suction pump (43) and an air blowing pump (44), the mold taking hydraulic cylinder (41) is fixedly connected to the middle of the upper end of the machine body (7), the stretching direction of the mold taking hydraulic cylinder (41) is vertical, the upper mold (42) is fixedly connected to the extending end of the mold taking hydraulic cylinder (41), the upper mold (42) is located right above the lower mold (21), the mold taking hydraulic cylinder (41) extends out to enable the upper mold (42) to be inserted into the lower mold (21), the air suction pump (43) and the air blowing pump (44) are fixedly connected to the machine body (7) on two sides of the mold taking hydraulic cylinder (41) respectively, a plurality of air holes (421) are formed in the upper mold (42), and the air holes (421) are communicated with the air suction pump (.

2. The environment-friendly packaging and forming machine according to claim 1, wherein the pulp supply system (1) comprises a pulp soaking tank (11), a pulp crushing tank (12), a pulp distribution tank (13) and a pulp pump (14), the pulp soaking tank (11) is connected with the pulp crushing tank (12) through a pipeline, the pulp crushing tank (12) is connected with the pulp distribution tank (13) through a pipeline, the pulp distribution tank (13) is connected with the pulp pump (14) through a pipeline, and the pulp pump (14) is communicated with the drainage port (23) through a pipeline.

3. The environment-friendly packaging and forming machine as claimed in claim 2, wherein two vacuum pumps (3) are respectively fixedly connected to two sides of the bottom end of the machine body (7), and the vacuum pumps (3) are communicated with the permeable membrane (22).

4. The environment-friendly packaging and forming machine as claimed in claim 3, wherein the heating and curing device (5) is erected on both sides of the machine body (7), the heating and curing device (5) comprises two mold pushing hydraulic cylinders (50), two heating molds (51), two pressing molds (52) and two shaping hydraulic cylinders (53), the two mold pushing hydraulic cylinders (50) are respectively fixedly connected to both sides of the machine body (7), the stretching direction of the mold pushing hydraulic cylinders (50) is horizontal, the two heating molds (51) are respectively fixedly connected to the extending ends of the two mold pushing hydraulic cylinders (50), the mold pushing hydraulic cylinders (50) extend to enable the heating molds (51) to extend to be under the upper molds (42), the two shaping hydraulic cylinders (53) are respectively fixedly connected to both sides of the machine body (7), the stretching direction of the shaping hydraulic cylinders (53) is vertical, the two pressing molds (52) are fixedly connected to the extending ends of the shaping hydraulic cylinders (53), the shaping hydraulic cylinder (53) is extended to insert the press die (52) into the heating die (51).

5. The machine of claim 4, wherein the upper mold (42) and the pressing mold (52) are fixedly connected with a plurality of guide posts (54), the length direction of the guide posts (54) is vertical, and the guide posts (54) are slidably connected with the machine body (7).

6. The machine of claim 5, wherein the die (52) has a plurality of suction holes on its side, and the suction holes on the die (52) are connected to the air pump (43).

7. The machine of claim 6, wherein the conveyor belt (6) is installed on one side of the heating mold (51), and when the mold-pushing hydraulic cylinder (50) is extended, the conveyor belt (6) is located right under the pressing mold (52).