CN111469381A

CN111469381A - Automatic blowing machine of artificial business turn over material

Info

Publication number: CN111469381A
Application number: CN202010308739.4A
Authority: CN
Inventors: 张周钦
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-18
Filing date: 2020-04-18
Publication date: 2020-07-31

Abstract

The invention discloses an artificial automatic blow molding machine for feeding and discharging materials, which comprises a blow molding machine box, wherein one end of the blow molding machine box is provided with a control switch, the top end of the blow molding machine box is provided with a top plate through a connecting column, the top end of the top plate is fixedly connected with a transmission bin, the position of the top end of the top plate, which corresponds to one end of the transmission bin, is connected with an injection motor, and one end of the transmission bin, which corresponds to one side of the injection motor, is provided with a hot melting bin. The absorption of harmful gas in the air is convenient during raw material blow molding, and the safety guarantee during blow molding production is improved.

Description

Automatic blowing machine of artificial business turn over material

Technical Field

The invention relates to the technical field of automatic blow molding machines, in particular to an artificial feeding and discharging automatic blow molding machine.

Background

The blow molding machine is a plastic processing machine, a tubular plastic parison obtained by extruding or injection molding thermoplastic resin is placed in a split mold while the parison is hot, compressed air is introduced into the parison immediately after the mold is closed, so that the plastic parison is blown to cling to the inner wall of the mold, and various hollow products are obtained after cooling and demolding;

when the existing automatic blow molding machine on the market is used for blow molding tubular plastic parison, the air introduced into the tubular plastic parison is easy to leak due to gaps between the molds of the tubular plastic parison, the time required by blow molding is prolonged, and the efficiency and effect of blow molding production are affected.

Disclosure of Invention

The technical scheme provided by the invention can effectively solve the problems that when the tubular plastic parison is blown in the background technology, air introduced into the tubular plastic parison is easy to leak due to gaps between the tubular plastic parison molds, the time required by blowing is prolonged, and the efficiency and the effect of blowing production are influenced.

In order to achieve the purpose, the invention provides the following technical scheme: an artificial automatic blow molding machine for feeding and discharging materials comprises a blow molding machine box, wherein a control switch is installed at one end of the blow molding machine box, a top plate is installed at the top end of the blow molding machine box through a connecting column, a transmission bin is fixedly connected to the top end of the top plate, an injection molding motor is connected to the position, corresponding to one end of the transmission bin, of the top end of the transmission bin, a hot melting bin is installed at the position, corresponding to one side of the injection molding motor, of the top end of the hot melting bin, a feeding bin is fixedly connected to the top end of the hot melting bin, a conveying pipe is fixedly installed at one end of the hot melting bin, a placing frame is connected to the position, corresponding to the upper part of the conveying pipe, of the top end of the top plate, a first air injection pump is connected to the top end of the placing frame, an injection molding, a flood dragon conveyor belt is rotatably arranged on the inner wall of the conveying pipe, through holes are symmetrically formed in one end of the blow molding machine box, and conveyor belts are symmetrically arranged on the inner wall of the bottom end of the blow molding machine box at positions corresponding to the through holes;

the double-station sealing blow molding mechanism comprises an installation rod, a first hydraulic rod, a first side mold, a second hydraulic rod, a shifting side mold, a third hydraulic rod, a second side mold, a second air injection pump, a third air injection pump, an air injection hydraulic rod, a second air injection pipe, a sealing hexagonal ring and a sealing hexagonal groove;

the inner wall of one end of the blow molding machine case is symmetrically connected with an installation rod, the inner wall of one end of the blow molding machine case is connected with a first hydraulic rod corresponding to the lower position of the installation rod, the outer side of the installation rod is provided with a first side mold in a sliding way corresponding to one end position of the first hydraulic rod, the inner wall of one end of the blow molding machine case is connected with a second hydraulic rod corresponding to the upper position of the first hydraulic rod, the outer side of the installation rod is connected with a shifting side mold corresponding to one end position of the second hydraulic rod, the inner wall of the other end of the blow molding machine case is connected with a third hydraulic rod, the outer side of the installation rod is provided with a second side mold in a sliding way corresponding to one end position of the third hydraulic rod, the top end of the blow molding machine case is fixedly connected with a second air injection pump corresponding to one of the through holes, the top end of the blow molding machine case is fixedly connected with a third, a second gas injection pipe is arranged in the gas injection hydraulic rod, the bottom end of the second gas injection pipe is connected with a sealed hexagonal ring, and sealed hexagonal grooves are formed in the positions, corresponding to the sealed hexagonal ring, of the top ends of the first side mold, the shifting side mold and the second side mold;

the input electric connection of control switch's output of commercial power, control switch's output electric connection motor, the first air injection pump of annotating, the input of hydraulic telescoping rod and transmission band of moulding plastics.

Preferably, the shape of the sealing hexagonal ring is the same as that of the sealing hexagonal groove, and a sealing gasket is connected to the bottom end of the second gas injection pipe at a position corresponding to the outer side of the sealing hexagonal ring.

Preferably, an absorption odor-removing mechanism is installed on the inner wall of one end of the blow molding case, and the absorption odor-removing mechanism comprises a separation bin, an air inlet hole, an air outlet hole, an air inlet bin, an extraction pump, an air inlet pipe, an absorption bin, an odor-removing bin, a transmission pipe, a dispersion plate, a dispersion hole, an activated carbon plate, a ventilation hole and a drying agent plate;

the inner wall of one end of the blow molding machine case is provided with a separation bin, one end of the blow molding machine case is uniformly provided with air inlet holes, air outlet holes are uniformly arranged at the position of one end of the blow molding machine case corresponding to the upper part of the air inlet hole, an air inlet bin is connected at the position of the inner wall of the separation bin corresponding to the outer side of the air inlet hole, an extraction pump is fixedly arranged on the inner wall of the bottom end of the air inlet bin, the top end of the extraction pump is uniformly connected with an air inlet pipe, one end of the air inlet bin is connected with an absorption bin, the top end of the air inlet bin is provided with a smell removing bin, the top end of the absorption bin is uniformly connected with a transmission pipe, the inner wall of the top end of the smell removing bin is connected with a dispersion plate, one end of the dispersion plate is provided with dispersion holes, the positions of one end of the dispersion plate corresponding to the top end and the bottom end of the dispersion hole are evenly connected with an activated carbon plate, the bottom end of the dispersion plate is uniformly provided with air vents, and the inner wall of the bottom end of the smell removing bin is uniformly connected with a drying agent plate;

the output end of the control switch is electrically connected with the input end of the extraction pump.

Preferably, the other end of the conveying pipe penetrates through the smell removing bin and is fixedly connected with the dispersion plate, and the top end of the drying agent plate is in contact with the smell removing bin.

Preferably, a cut material collecting mechanism is mounted at a position, corresponding to the second gas injection pipe, of one end of the blow molding machine box, and comprises a collecting bin, a gas extraction hole, a gas extraction pump, a collecting pipe, a separation net, a disassembly cover, a connecting column, a connecting plate, a material pushing hydraulic rod, a connecting rod, a cutter, a telescopic rod, a material pushing spring, a material pushing side plate and a material pushing bottom plate;

the utility model discloses a blow molding machine, including blow molding machine case, collection bin, collecting net, connecting rod, a material pushing spring is installed on the outer side of the telescopic rod, one end of the telescopic rod is connected with a material pushing side plate, and one end of the material pushing side plate is fixedly provided with a material pushing bottom plate;

the output end of the control switch is electrically connected with the air pump and the input end of the material pushing hydraulic rod.

Preferably, one end of the material pushing bottom plate is arc-shaped concave, the width of the collecting pipe is larger than that of the cutter, and the installation angle of the separation net is inclined by 25 degrees.

Preferably, a spraying protection mechanism is arranged at one end of the blow molding machine case corresponding to one side of the control switch, and comprises a spraying hydraulic rod, a spraying bin, a spray head, a liquid storage bin, a conveying pipe, a containing bin, a placing block, an elastic wire, a spraying pump and an adding cover;

a spraying hydraulic rod is installed at a position, corresponding to one side of the control switch, of one end of the blow molding machine box, one end of the spraying hydraulic rod penetrates through the blow molding machine box and is connected with a spraying bin, spray heads are symmetrically installed at two ends of the spraying bin, a liquid storage bin is fixedly installed at the other end of the blow molding machine box, a conveying pipe is embedded into one end of the liquid storage bin, an accommodating bin is fixedly installed on the inner wall of the liquid storage bin, a placing bin is fixedly installed at the top end of the accommodating bin, placing blocks are uniformly connected to the inner wall of the bottom end of the accommodating bin, elastic wires are connected to the bottom end of the placing blocks, a spraying pump is fixedly installed on the inner wall of;

the output end of the control switch is electrically connected with the input ends of the spraying hydraulic rod and the spraying pump.

Preferably, the other end of the conveying pipe penetrates through the blow molding machine case to be fixedly connected with the top end of the spraying bin, the conveying pipe is connected with the blow molding machine case and the liquid storage bin in a sliding mode, and the bottom end of the elastic wire is fixedly connected with the outer side of the conveying pipe.

Preferably, a heat insulation mechanism is arranged at the position, corresponding to the outer side of the conveying pipe, of the top end of the top plate, and comprises a storage bin, a liquid feeding cover, a heat insulation pipe, a mounting ring, a heat insulation outer layer, a heating pipe, a heat insulation base plate, a cavity and a liquid changing pump;

a storage bin is arranged at the position, corresponding to one side of the conveying pipe, of the top end of the top plate, a liquid adding cover is fixedly connected to the top end of the storage bin, heat preservation pipes are symmetrically connected to the positions, corresponding to the two sides of the liquid adding cover, of the top end of the storage bin, mounting rings are symmetrically and fixedly connected to the outer sides of the conveying pipe, a heat preservation outer layer is wrapped on the outer sides of the conveying pipe through the mounting rings, heating pipes are uniformly and fixedly connected to the positions, corresponding to the outer sides of the conveying pipe, of the inner wall of the heat preservation outer layer, heat insulation base plates are uniformly and fixedly connected to the positions, corresponding to the outer sides of the conveying pipe, of the outer side of each;

and the output end of the control switch is electrically connected with the heating pipe and the input end of the liquid change pump.

Preferably, one end of the heat preservation pipe penetrates through the heat preservation outer layer to stay in the cavity, and the outer side of the heat preservation outer layer is coated with heat insulation coating.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. through the first hydraulic stem that sets up, the second hydraulic stem, the third hydraulic stem, first side mould, shift side mould and second side mould, can be when carrying out the blow molding in first side mould and the shift side mould, with the semi-manufactured goods of blowing injection shift side mould and second side mould in, duplex position blow molding operation is carried out, the efficiency of blow molding technology has been increased, combine the sealed hexagonal ring and the sealed hexagonal groove that set up, leakproofness when can improving the blow molding, the revealing of air when reducing the blow molding, required pump gas time when reducing the blow molding, the waste of electric power resource has been reduced.

3. Through the draw-out pump that sets up, absorb the storehouse, the transmission pipe, the dispersion board, the dispersion hole, active carbon board and drier board, can absorb the storehouse with the outside air suction in, harmful gas to containing in the air, peculiar smell and the steam that contains absorb, harmful gas's absorption in the air when the raw materials of being convenient for blow molding, it piles up at the workplace to volatilize harmful gas when reducing hot melt raw materials, avoid harmful gas to harm staff healthy too much, the safety guarantee when having improved the blow molding production.

3. Through the aspiration pump that sets up, push away material hydraulic stem, telescopic link, push away the material spring, push away material curb plate, connecting rod and cutter, can cut the finished product top to absorb the waste material that the cutting produced and separate the filtration, the cutting and the collection of waste material on the finished product top of being convenient for reduce the follow-up required cutting process of staff, the waste material of avoiding cutting out drops at the blowing machine incasement, influences going on of blowing work.

4. Through the storehouse of spraying that sets up, spray the hydraulic stem, the shower nozzle, spray pump and stock solution storehouse, can remove storehouse and shower nozzle to shifting between side form and the second side mould, through spraying the pump operation, take out the protection liquid and spray at shifting side form and second side mould inner wall, combine placing piece and elastic filament that sets up, can withdraw the conveyer pipe of pulling out, can reduce the corrosion damage condition that the inner wall appears in shifting side form and the second side mould, be convenient for shift the protection of side form and second side mould, do not need artifical dismantlement to shift side form and second side mould, the efficiency of spraying protection liquid in shifting side form and the second side mould has been increased, the effect of protecting the inside of shifting side form and second side mould has been improved.

5. Through the liquid change pump that sets up, the storage storehouse, heat preservation skin and cavity, can transmit thermal-insulated oil to the intraformational cavity that keeps warm in the skin, keep warm to the hot melt raw materials of conveying intraductal transmission of conveying, combine the operation of heating pipe, can heat the hot melt raw materials in the conveying pipeline, when avoiding emergency shutdown and short time shut down, the condition that the hot melt raw materials appears the cooling solidification in the conveying pipeline, influence going on of raw materials transmission and blowing technology, the heat preservation transmission of hot melt raw materials has been increased, the heat preservation effect of hot melt raw materials in the conveying pipeline has been improved.

To sum up, through the revealing of air during the reduction blow molding, required pump gas time during the reduction blow molding, the waste of electric power resource has been reduced, environmental protection and electronic resource's saving has been realized, the power consumption of enterprise and the load of cable self have been practiced thrift greatly, and retrieve impurity in the gas, thereby the realization is to gaseous recovery, thereby can protect environment and biology around, and with garbage collection, the reuse in later stage has been realized, greatly reduced enterprise's self waste, and shift side form and second side mould inside protect, can lengthen blowing machine self life-span, and keep warm to the hot melt raw materials in the conveying pipeline, normal heat preservation and business turn over material have been convenient for, prevent plasticized phenomenon greatly, and is suitable for being generalized to use.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of the mounting structure of the rack and the first air injection pump of the present invention;

FIG. 3 is a schematic view of the installation structure of the hydraulic telescopic rod and the first gas injection pipe of the present invention;

FIG. 4 is a schematic structural diagram of a double-station sealing blow molding mechanism according to the invention;

FIG. 5 is a schematic view of the mounting structure of the second and third air injection pumps of the present invention;

FIG. 6 is a schematic view of the structure of the odor absorbing and removing mechanism of the present invention;

FIG. 7 is a schematic structural diagram of the area A in FIG. 6 according to the present invention;

FIG. 8 is a schematic view of the construction of the cut-material collection mechanism of the present invention;

FIG. 9 is a schematic view of the mounting structure of the tie post and tie plate of the present invention;

FIG. 10 is a schematic structural diagram of the region B in FIG. 9 according to the present invention;

FIG. 11 is a schematic structural view of the spray guard mechanism of the present invention;

FIG. 12 is a schematic view of the mounting structure of the placement block and the elastic wire of the present invention;

FIG. 13 is a schematic structural view of the heat insulating and preserving mechanism of the present invention;

FIG. 14 is a schematic view of the installation structure of the insulating blanket and cavity of the present invention;

FIG. 15 is a schematic view of the mounting arrangement of the storage bin and the substitution pump of the present invention;

reference numbers in the figures: 1. blow molding the chassis; 2. a control switch; 3. a top plate; 4. a transmission bin; 5. injection molding the motor; 6. a hot melting bin; 7. a feeding bin; 8. a delivery pipe; 9. placing a rack; 10. a first air injection pump; 11. injection molding a tube; 12. a hydraulic telescopic rod; 13. a first gas injection tube; 14. a flood dragon conveyor belt; 15. a through hole; 16. a conveyor belt;

17. a double-station sealing blow molding mechanism; 1701. mounting a rod; 1702. a first hydraulic lever; 1703. a first side mold; 1704. a second hydraulic rod; 1705. a shifting side die; 1706. a third hydraulic lever; 1707. a second side mold; 1708. a second air injection pump; 1709. a third air injection pump; 1710. a gas injection hydraulic rod; 1711. a second gas injection tube; 1712. sealing the hexagonal ring; 1713. sealing the hexagonal groove;

18. an absorption odor-removal mechanism; 1801. separating the bins; 1802. an air inlet; 1803. an air outlet; 1804. an air inlet bin; 1805. a pump; 1806. an air inlet pipe; 1807. an absorption bin; 1808. a smell removing bin; 1809. a conveying pipe; 1810. a dispersion plate; 1811. a dispersion hole; 1812. an activated carbon plate; 1813. a ventilation hole; 1814. a desiccant plate;

19. a cut material collecting mechanism; 1901. a collection bin; 1902. an air exhaust hole; 1903. an air pump; 1904. a collection pipe; 1905. a separation net; 1906. disassembling the cover; 1907. connecting the columns; 1908. connecting plates; 1909. a material pushing hydraulic rod; 1910. a connecting rod; 1911. a cutter; 1912. a telescopic rod; 1913. a pusher spring; 1914. a material pushing side plate; 1915. a material pushing base plate;

20. a spray protection mechanism; 2001. spraying a hydraulic rod; 2002. a spraying bin; 2003. a spray head; 2004. a liquid storage bin; 2005. a delivery pipe; 2006. a storage bin; 2007. placing a bin; 2008. placing the blocks; 2009. an elastic yarn; 2010. a spray pump; 2011. adding a cover;

21. a heat insulation mechanism; 2101. a storage bin; 2102. a liquid feeding cover; 2103. a heat preservation pipe; 2104. a mounting ring; 2105. an outer heat-insulating layer; 2106. heating a tube; 2107. a heat insulating base plate; 2108. a cavity; 2109. and (5) replacing the liquid pump.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in figures 1-15, the invention provides a technical scheme, an artificial feeding and discharging automatic blow molding machine comprises a blow molding machine case 1, a control switch 2 is installed at one end of the blow molding machine case 1, a top plate 3 is installed at the top end of the blow molding machine case 1 through a connecting column, a transmission bin 4 is fixedly connected to the top end of the top plate 3, an injection molding motor 5 is connected to the top end of the top plate 3 corresponding to one end of the transmission bin 4, a hot melting bin 6 is installed at one side of the transmission bin 4 corresponding to the injection molding motor 5, a feeding bin 7 is fixedly connected to the top end of the hot melting bin 6, a feeding pipe 8 is fixedly installed at one end of the hot melting bin 6, a placing frame 9 is connected to the top end of the top plate 3 corresponding to the position above the feeding pipe 8, a first air injection pump 10 is connected to the top end of the placing frame, a first gas injection pipe 13 is connected to the bottom end of the first gas injection pump 10 corresponding to the position inside the hydraulic telescopic rod 12, a dragon conveyor belt 14 is rotatably installed on the inner wall of the material conveying pipe 8, through holes 15 are symmetrically formed in one end of the blow molding machine case 1, and conveyor belts 16 are symmetrically installed on the inner wall of the bottom end of the blow molding machine case 1 corresponding to the positions of the through holes 15;

the double-station sealing blow molding mechanism 17 is installed on the inner wall of the blow molding machine case 1, and the double-station sealing blow molding mechanism 17 comprises an installation rod 1701, a first hydraulic rod 1702, a first side mold 1703, a second hydraulic rod 1704, a shifting side mold 1705, a third hydraulic rod 1706, a second side mold 1707, a second gas injection pump 1708, a third gas injection pump 1709, a gas injection hydraulic rod 1710, a second gas injection pipe 1711, a sealing hexagonal ring 1712 and a sealing hexagonal groove 1713;

the inner wall of one end of the blow molding machine case 1 is symmetrically connected with a mounting rod 1701, the inner wall of one end of the blow molding machine case 1 is connected with a first hydraulic rod 1702 corresponding to the lower position of the mounting rod 1701, the outer side of the mounting rod 1701 is provided with a first side die 1703 corresponding to the position of one end of the first hydraulic rod 1702 in a sliding manner, the inner wall of one end of the blow molding machine case 1 is connected with a second hydraulic rod 1704 corresponding to the upper position of the first hydraulic rod 1702, the outer side of the mounting rod 1701 is connected with a shifting side die 1705 corresponding to the position of one end of the second hydraulic rod 1704, the inner wall of the other end of the blow molding machine case 1 is connected with a third hydraulic rod 1706 corresponding to the position of one end of the third hydraulic rod 1706, the outer side die 1707 corresponding to the position of one of the through holes 15 is fixedly connected with a gas injection pump 1708 at the top end of the blow molding machine case 1, the bottom ends of the second gas injection pump 1708 and the third gas injection pump 1709 are fixedly provided with a gas injection hydraulic rod 1710, a second gas injection pipe 1711 is arranged inside the gas injection hydraulic rod 1710, the bottom end of the second gas injection pipe 1711 is connected with a sealed hexagonal ring 1712, and the top ends of the first side die 1703, the displacement side die 1705 and the second side die 1707 are provided with sealed hexagonal grooves 1713 corresponding to the sealed hexagonal ring 1712;

control switch 2's input electric connection commercial power's output, control switch 2's output electric connection motor 5 of moulding plastics, first notes air pump 10, hydraulic telescoping rod 12 and transmission band 16's input, the shape of sealed hexagonal ring 1712 is the same with the shape of sealed hexagonal groove 1713, the bottom of second gas injection pipe 1711 corresponds sealed hexagonal ring 1712 outside position department and is connected with seal ring, be convenient for through sealed hexagonal ring 1712 and sealed hexagonal groove 1713 to second gas injection pipe 1711 and first side mould 1703, sealed between side mould 1705 and the second side mould 1707 of shifting.

An absorption odor-removing mechanism 18 is installed on the inner wall of one end of the blow molding case 1, and the absorption odor-removing mechanism 18 comprises a separation bin 1801, an air inlet hole 1802, an air outlet hole 1803, an air inlet bin 1804, an extraction pump 1805, an air inlet pipe 1806, an absorption bin 1807, an odor-removing bin 1808, a transmission pipe 1809, a dispersion plate 1810, dispersion holes 1811, an activated carbon plate 1812, a ventilation hole 1813 and a drying agent plate 1814;

a partition bin 1801 is installed on the inner wall of one end of the blow molding machine case 1, air inlet holes 1802 are evenly formed in one end of the blow molding machine case 1, air outlet holes 1803 are evenly formed in a position, corresponding to the upper portions of the air inlet holes 1802, of one end of the blow molding machine case 1, an air inlet bin 1804 is connected to the position, corresponding to the outer side of the air inlet holes 1802, of the inner wall of the bottom end of the air inlet bin 1804, an extraction pump 1805 is fixedly installed on the inner wall of the bottom end of the air inlet bin 1804, an air inlet pipe 1806 is evenly connected to the top end of the extraction pump 1805, an absorption bin 1807 is connected to one end of the air inlet bin 1804, a smell removing bin 1808 is installed at the top end of the absorption bin 1807, a transmission pipe 1809 is evenly connected to the inner wall of the top end of the smell removing bin 1808, a dispersion plate 1811 is formed in one end of the dispersion plate 1810, activated carbon plates 1812 are evenly connected to positions;

the output end of the control switch 2 is electrically connected with the input end of the extraction pump 1805, the other end of the transmission pipe 1809 passes through the smell removing bin 1808 and is fixedly connected with the dispersion plate 1810, and the top end of the drying agent plate 1814 is in contact with the smell removing bin 1808, so that the transmitted air is dried conveniently through the drying agent plate 1814.

A cut material collecting mechanism 19 is arranged at a position, corresponding to the second gas injection pipe 1711, of one end of the blow molding case 1, and the cut material collecting mechanism 19 comprises a collecting bin 1901, a pumping hole 1902, a pumping pump 1903, a collecting pipe 1904, a separating net 1905, a disassembling cover 1906, a connecting column 1907, a connecting plate 1908, a material pushing hydraulic rod 1909, a connecting rod 1910, a cutter 1911, an expansion rod 1912, a material pushing spring 1913, a material pushing side plate 1914 and a material pushing bottom plate 1915;

a collecting bin 1901 is arranged on the inner wall of one end of the blow molding machine case 1 corresponding to the second gas injection pipe 1711, extraction holes 1902 are uniformly arranged on one end of the blow molding machine case 1 corresponding to the collecting bin 1901, an extraction pump 1903 is fixedly arranged on the inner wall of the bottom end of the collecting bin 1901, a collecting pipe 1904 is connected to one end of the collecting bin 1901, a separating net 1905 is connected to the upper position of the extraction pump 1903 corresponding to the inner wall of one end of the collecting bin 1901, a detachable cover 1906 is embedded into the position of one end of the blow molding machine case 1 corresponding to the collecting bin 1901, a connecting column 1907 is fixedly arranged on the other end of the blow molding machine case 1 corresponding to the upper position of the collecting bin 1901, a connecting plate 1908 is fixedly connected to one end of the connecting column 1907, a material pushing hydraulic rod 1909 is connected to the lower position of the connecting column 1907, a connecting rod 1910 is symmetrically arranged at one end of the connecting rod 1910, the top end of the cutter 1911 is symmetrically connected with an expansion link 1912, the outer side of the expansion link 1912 is provided with a pushing spring 1913, one end of the expansion link 1912 is connected with a pushing side plate 1914, and one end of the pushing side plate 1914 is fixedly provided with a pushing bottom plate 1915;

the output end of the control switch 2 is electrically connected with the air suction pump 1903 and the input end of the material pushing hydraulic rod 1909, one end of the material pushing base plate 1915 is arc-shaped and concave, the width of the collecting pipe 1904 is larger than that of the cutter 1911, and the installation angle of the separating net 1905 is inclined by 25 degrees, so that the cut waste materials are conveniently pushed through the material pushing base plate 1915.

A spraying protection mechanism 20 is installed at a position, corresponding to one side of the control switch 2, of one end of the blow molding case 1, and the spraying protection mechanism 20 comprises a spraying hydraulic rod 2001, a spraying bin 2002, a spray head 2003, a liquid storage bin 2004, a conveying pipe 2005, a containing bin 2006, a placing bin 2007, a placing block 2008, an elastic wire 2009, a spraying pump 2010 and an adding cover 2011;

a spraying hydraulic rod 2001 is installed at one end of the blow molding case 1 corresponding to one side of the control switch 2, one end of the spraying hydraulic rod 2001 penetrates through the blow molding case 1 to be connected with a spraying bin 2002, spray heads 2003 are symmetrically installed at two ends of the spraying bin 2002, a liquid storage bin 2004 is fixedly installed at the other end of the blow molding case 1, a conveying pipe 2005 is installed at one end of the liquid storage bin 2004 in an embedded mode, a storage bin 2006 is fixedly installed on the inner wall of the liquid storage bin 2004, a placing bin 2007 is fixedly installed at the top end of the storage bin 2006, a placing block 2008 is uniformly connected to the inner wall at the bottom end of the storage bin 2006, an elastic wire 2009 is connected to the bottom end of the placing block 2008, a spraying pump 2010 is fixedly installed;

the output end of the control switch 2 is electrically connected with the spraying hydraulic rod 2001 and the input end of the spraying pump 2010, the other end of the conveying pipe 2005 penetrates through the blow molding machine case 1 and is fixedly connected with the top end of the spraying bin 2002, the conveying pipe 2005 is in sliding connection with the blow molding machine case 1 and the liquid storage bin 2004, and the bottom end of the elastic wire 2009 is fixedly connected with the outer side of the conveying pipe 2005, so that the conveying pipe 2005 can be conveniently pulled back and reset through the elastic wire 2009.

A heat insulation mechanism 21 is arranged at the position, corresponding to the outer side of the material conveying pipe 8, of the top end of the top plate 3, and the heat insulation mechanism 21 comprises a storage bin 2101, a liquid feeding cover 2102, a heat insulation pipe 2103, an installation ring 2104, a heat insulation outer layer 2105, a heating pipe 2106, a heat insulation cushion 2107, a cavity 2108 and a liquid changing pump 2109;

a storage bin 2101 is installed at the position, corresponding to one side of the material conveying pipe 8, of the top end of the top plate 3, a liquid feeding cover 2102 is fixedly connected to the top end of the storage bin 2101, heat preservation pipes 2103 are symmetrically connected to the positions, corresponding to the two sides of the liquid feeding cover 2102, of the top end of the storage bin 2101, a mounting ring 2104 is symmetrically and fixedly connected to the outer side of the material conveying pipe 8, a heat preservation outer layer 2105 is wrapped on the outer side of the material conveying pipe 8 through the mounting ring 2104, heating pipes 2106 are uniformly and fixedly connected to the positions, corresponding to the outer sides of the material conveying pipe 8, of the inner wall of the heat preservation outer layer 2105, a cavity 2108 is formed in the heat preservation outer layer 2105, and a liquid changing pump 2109 is connected to;

control switch 2's output electric connection heating pipe 2106 and the input of trading liquid pump 2109, the one end of insulating tube 2103 is passed the outer 2105 of heat preservation and is stopped inside cavity 2108, and the outside coating of the outer 2105 of heat preservation has thermal-insulated coating, has increased the heat-proof quality of the outer 2105 of heat preservation.

The working principle and the using process of the invention are as follows: when the manual feeding and discharging automatic blow molding machine is used, blow molding raw materials are added into a feeding bin 7, the blow molding raw materials can fall into a hot melting bin 6 to be hot-melted, a first hydraulic rod 1702, a second hydraulic rod 1704 and a third hydraulic rod 1706 are controlled to operate through a control switch 2, a first side mold 1703, a shifting side mold 1705 and a second side mold 1707 are driven to move, the first side mold 1703 and the shifting side mold 1705 are moved to the bottom end of a hydraulic telescopic rod 12, an injection molding motor 5 is controlled to operate through the control switch 2, a flood dragon conveying belt 14 can be driven to rotate through a transmission gear and a transmission gear in a transmission bin 4, the hot-melted raw materials are conveyed into an injection molding pipe 11 in a conveying pipe 8, then the hot-melted raw materials are extruded through the operation of the hydraulic telescopic rod 12, the air is injected through the operation of a first injection pump 10, and air is injected through a first injection pipe 13;

then, a cutter 1911 is used for cutting off the blow molding semi-finished product, and then a control switch 2 is used for controlling a first hydraulic rod 1702 and a second hydraulic rod 1704 to operate, the first hydraulic rod 1702 operates to drive a first side mold 1703 to move to the bottom end of an air injection hydraulic rod 1710, the second hydraulic rod 1704 operates to drive a shifting side mold 1705 to move to the bottom end of the air injection hydraulic rod 1710, and the air injection hydraulic rod 1710 operates through a second air injection pump 1708 and the air injection hydraulic rod 1710, so that the air injection hydraulic rod 1710 moves down, a sealing hexagonal ring 1712 at the bottom end of the air injection hydraulic rod 1710 enters a sealing hexagonal groove 1713 to blow the blow molding semi-finished product in the first side mold 1703 and the shifting side mold 1705, and a blow molding finished product is prepared;

when the first side mold 1703 and the shifting side mold 1705 are blown, the second hydraulic rod 1704 and the third hydraulic rod 1706 are controlled to operate through the control switch 2, the second hydraulic rod 1704 operates to drive the shifting side mold 1705 to move to the bottom end of the hydraulic telescopic rod 12, the third hydraulic rod 1706 operates to drive the second side mold 1707 to move to the bottom end of the hydraulic telescopic rod 12, and a blow molding semi-finished product is injected into the shifting side mold 1705 and the second side mold 1707, so that double-station blow molding can be performed, the efficiency of a blow molding process is increased, the sealing performance during blow molding is improved, air leakage during blow molding is reduced, the required pumping time during blow molding is reduced, and the waste of electric power resources is reduced;

when hot-melt raw materials are conveyed in the conveying pipe 8, the liquid exchange pump 2109 can be controlled to operate through the control switch 2, heat insulation oil stored in the storage bin 2101 can be conveyed into the cavity 2108 in the heat insulation outer layer 2105 through the heat insulation pipe 2103, the hot-melt raw materials conveyed in the conveying pipe 8 can be insulated through the heat insulation oil in the heat insulation outer layer 2105 and the cavity 2108, the heating pipe 2106 can be controlled to operate through the control switch 2, the space between the heat insulation outer layer 2105 and the conveying pipe 8 can be heated, the hot-melt raw materials in the conveying pipe 8 can be heated after emergency shutdown and short shutdown, the hot-melt raw materials are prevented from being cooled and solidified in the conveying pipe 8, the raw material conveying and blow molding processes are influenced, the heat insulation conveying of the hot-melt raw materials is increased, and the heat insulation effect of the hot-melt raw materials in the;

when the blow molding work is carried out, the operation of the extraction pump 1805 is controlled by the control switch 2, the external air can be sucked into the absorption bin 1807 from the air inlet hole 1802 by combining the transmission of the transmission pipe 1809, the harmful gas contained in the air can be absorbed by the absorption liquid in the absorption bin 1807, the absorbed air can be transmitted into the dispersion plate 1810 through the transmission pipe 1809 and is dispersed and discharged through the dispersion holes 1811, the peculiar smell contained in the transmitted air can be absorbed by combining the activated carbon plate 1812 uniformly connected with one end of the dispersion plate 1810, the air after the peculiar smell absorption can pass through the ventilation hole 1813 and enters the peculiar smell removal bin 1808, the moisture contained in the air after the peculiar smell is absorbed by the drying agent plate 1814 in the peculiar smell removal bin 1808, the absorption of the harmful gas in the air during the blow molding of raw materials is facilitated, and the harm of the harmful gas to the health of workers is avoided;

after blow molding of a semi-finished product, the operation of the air suction pump 1903 and the material pushing hydraulic rod 1909 is controlled by the control switch 2, when the material pushing hydraulic rod 1909 operates, the connecting rod 1910 and the cutter 1911 can be driven to move, the cutter 1911 is used for cutting the top end of the finished product, when the cutter 1911 contacts the finished product, the material pushing side plate 1914 contacts the finished product, the telescopic rod 1912 and the material pushing spring 1913 contract along with the movement of the cutter 1911, after the cutting of the top end of the finished product by the cutter 1911 is finished, the telescopic rod 1912 and the material pushing spring 1913 rebound to push waste materials generated by cutting, meanwhile, the air in the collection bin 1901 is pumped out through the air suction hole 1902 by operating the air suction pump 1903, the pushed waste materials are pumped out by using the collection tube 1904, the waste materials are pumped into the collection bin 1901 through the collection tube 1904, the pumped-out waste materials can be separated and filtered through the separation net 1905, and, the separated waste materials are cleaned, so that the cutting and the waste material collection at the top end of the finished product are facilitated, the cutting processing required by the staff in the follow-up process is reduced, and the situation that the cut waste materials fall into the blow molding machine case 1 to influence the blow molding work is avoided;

when the shifting side die 1705 and the second side die 1707 are used, the second hydraulic rod 1704 and the second hydraulic rod 1704 can be controlled to operate through the control switch 2, the shifting side die 1705 and the second side die 1707 are moved to the position of the spraying bin 2002, the spraying hydraulic rod 2001 can operate, the spraying bin 2002 and the spraying head 2003 are moved to a position between the shifting side die 1705 and the second side die 1707, then the spraying pump 2010 is controlled to operate through the control switch 2, the protective liquid stored in the liquid storage bin 2004 can be pumped out, the protective liquid is conveyed into the spraying bin 2002 through the delivery pipe 2005 and is sprayed out by the spraying head 2003, the protective liquid is sprayed on the inner walls of the shifting side die 1705 and the second side die 1707, the pulled delivery pipe 2005 can be retracted by combining the arranged placing block 2008 and the elastic wire 2009, automatic retraction of the delivery pipe 2005 is facilitated, the interiors of the shifting side die 1705 and the second side die 1707 can be protected when the shifting side die 1705 and the second side die 1707 are not used for, the corrosion damage condition of the inner walls of the shifting side die 1705 and the second side die 1707 is reduced, the shifting side die 1705 and the second side die 1707 are protected conveniently, the shifting side die 1705 and the second side die 1707 do not need to be disassembled manually, the efficiency of spraying the protective liquid into the shifting side die 1705 and the second side die 1707 is improved, and the effect of spraying the protective liquid into the shifting side die 1705 and the second side die 1707 is improved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an automatic blowing machine of artificial business turn over material, includes blowing quick-witted case (1), its characterized in that: the blow molding machine is characterized in that a control switch (2) is installed at one end of a blow molding machine case (1), a top plate (3) is installed at the top end of the blow molding machine case (1) through a connecting column, a transmission bin (4) is fixedly connected to the top end of the top plate (3), an injection molding motor (5) is connected to the position, corresponding to the transmission bin (4), of the top end of the top plate (3), a hot melting bin (6) is installed at the position, corresponding to one side of the injection molding motor (5), of one end of the transmission bin (4), a feeding bin (7) is fixedly connected to the top end of the hot melting bin (6), a conveying pipe (8) is fixedly installed at one end of the hot melting bin (6), a placing frame (9) is connected to the position, corresponding to the upper portion of the conveying pipe (8), of the top end of the top plate (3), a, the bottom fixed mounting of pipe (11) of moulding plastics has hydraulic telescoping rod (12), the bottom of first air injection pump (10) corresponds hydraulic telescoping rod (12) internal position department and is connected with first air injection pipe (13), the inner wall of conveying pipeline (8) rotates and installs flood dragon conveyer belt (14), through-hole (15) have been seted up to the one end symmetry of blow molding machine case (1), the bottom inner wall of blow molding machine case (1) corresponds through-hole (15) position department symmetry and installs transmission band (16).

The double-station sealing blow molding mechanism (17) is installed on the inner wall of the blow molding machine box (1), and the double-station sealing blow molding mechanism (17) comprises an installation rod (1701), a first hydraulic rod (1702), a first side mold (1703), a second hydraulic rod (1704), a shifting side mold (1705), a third hydraulic rod (1706), a second side mold (1707), a second air injection pump (1708), a third air injection pump (1709), an air injection hydraulic rod (1710), a second air injection pipe (1711), a sealing six-edge ring (1712) and a sealing six-edge groove (1713);

the inner wall of one end of the blow molding machine box (1) is symmetrically connected with mounting rods (1701), a first hydraulic rod (1702) is connected to the position, corresponding to the lower position of the mounting rod (1701), of the inner wall of one end of the blow molding machine box (1), a first side mold (1703) is slidably mounted at the position, corresponding to one end of the first hydraulic rod (1702), of the outer side of the mounting rod (1701), a second hydraulic rod (1704) is connected to the position, corresponding to the upper position of the first hydraulic rod (1702), of the inner wall of one end of the blow molding machine box (1), a shifting side mold (1705) is connected to the position, corresponding to one end of the second hydraulic rod (1704), of the outer side of the mounting rod (1701), a third hydraulic rod (1706 is connected to the inner wall of the other end of the blow molding machine box (1), a second side mold (1707) is slidably mounted at the position, corresponding to one end of the third hydraulic rod (1706), of the top end of the blow molding machine box (1), and a, the top end of the blow molding machine box (1) is fixedly connected with a third air injection pump (1709) corresponding to the position of another through hole (15), the bottom ends of the second air injection pump (1708) and the third air injection pump (1709) are fixedly provided with an air injection hydraulic rod (1710), a second air injection pipe (1711) is arranged inside the air injection hydraulic rod (1710), the bottom end of the second air injection pipe (1711) is connected with a sealed hexagonal ring (1712), and sealed hexagonal grooves (1713) are formed in the positions, corresponding to the sealed hexagonal ring (1712), of the top ends of the first side mold (1703), the displacement side mold (1705) and the second side mold (1707);

the input electric connection of control switch (2) the output of commercial power, the output electric connection of control switch (2) moulds plastics the input of motor (5), first gas injection pump (10), hydraulic telescoping rod (12) and transmission band (16).

2. An automated manual feed and discharge blow molding machine according to claim 1, wherein the shape of the sealing hexagonal ring (1712) is the same as the shape of the sealing hexagonal groove (1713), and a sealing gasket is attached to the bottom end of the second gas injection tube (1711) at a position corresponding to the outside of the sealing hexagonal ring (1712).

3. The automatic blowing machine of the manual feeding and discharging of claim 1, characterized in that an absorption odor removing mechanism (18) is installed on the inner wall of one end of the blowing machine case (1), and the absorption odor removing mechanism (18) comprises a separation bin (1801), an air inlet hole (1802), an air outlet hole (1803), an air inlet bin (1804), an extraction pump (1805), an air inlet pipe (1806), an absorption bin (1807), an odor removing bin (1808), a transmission pipe (1809), a dispersion plate (1810), dispersion holes (1811), an activated carbon plate (1812), a ventilation hole (1813) and a desiccant plate (1814);

the one end inner wall of blow molding machine case (1) is installed and is divided storehouse (1801), inlet port (1802) have evenly been seted up to the one end of blow molding machine case (1), inlet port (1802) top position department is evenly seted up venthole (1803) to the one end of blow molding machine case (1), the inner wall of division storehouse (1801) corresponds inlet port (1802) outside position department and is connected with air inlet storehouse (1804), the bottom inner wall fixed mounting who advances air storehouse (1804) has extraction pump (1805), the top of extraction pump (1805) evenly is connected with intake pipe (1806), the one end that advances air storehouse (1804) is connected with absorbs storehouse (1807), the top of advancing air storehouse (1804) is installed and is dispelled flavor storehouse (1808), the top evenly is connected with transmission pipe (1809) of absorbing storehouse (1807), the top inner wall that dispels flavor storehouse (1808) is connected with dispersion plate (1810), dispersion hole (1811) has been seted up to the one end of dispersion plate (1810), the positions of one end of the dispersion plate (1810) corresponding to the top end and the bottom end of the dispersion hole (1811) are uniformly connected with an activated carbon plate (1812), the bottom end of the dispersion plate (1810) is uniformly provided with ventilation holes (1813), and the inner wall of the bottom end of the smell removing bin (1808) is uniformly connected with a drying agent plate (1814);

the output end of the control switch (2) is electrically connected with the input end of the extraction pump (1805).

4. An automated material feeding and discharging blow molding machine according to claim 3, wherein the other end of the conveying pipe (1809) passes through the odor removing bin (1808) and is fixedly connected with the dispersion plate (1810), and the top end of the desiccant plate (1814) is in contact with the odor removing bin (1808).

5. The automatic manual feeding and discharging blow molding machine according to claim 1, wherein a material cutting and collecting mechanism (19) is installed at a position, corresponding to the second gas injection pipe (1711), of one end of the blow molding machine case (1), and the material cutting and collecting mechanism (19) comprises a collecting bin (1901), a suction hole (1902), a suction pump (1903), a collecting pipe (1904), a separating net (1905), a disassembling cover (1906), a connecting column (1907), a connecting plate (1908), a material pushing hydraulic rod (1909), a connecting rod (1910), a cutter (1911), an expansion rod (1912), a material pushing spring (1913), a material pushing side plate (1914) and a material pushing bottom plate (1915);

the device is characterized in that a collection bin (1901) is installed at a position, corresponding to a second gas injection pipe (1711), of an inner wall of one end of the blow molding case (1), an extraction hole (1902) is uniformly formed at a position, corresponding to the collection bin (1901), of one end of the blow molding case (1), an extraction pump (1903) is fixedly installed at the inner wall of the bottom end of the collection bin (1901), a collection pipe (1904) is connected to one end of the collection bin (1901), a separation net (1905) is connected to a position, corresponding to the upper side of the extraction pump (1903), of the inner wall of one end of the collection bin (1901), a disassembly cover (1906) is embedded and installed at a position, corresponding to the collection bin (1901), of one end of the connection column (1907), a connection plate (1908) is fixedly connected to one end of the connection column (1907), a material pushing hydraulic rod (1909) is connected to a position, corresponding to the lower position of the connection column (1907), connecting rods (1910) are symmetrically installed at one end of the material pushing hydraulic rod (1909), a cutter (1911) is connected to one end of each connecting rod (1910) and located in the blow molding machine box (1), telescopic rods (1912) are symmetrically connected to the top ends of the cutters (1911), a material pushing spring (1913) is installed on the outer side of each telescopic rod (1912), a material pushing side plate (1914) is connected to one end of each telescopic rod (1912), and a material pushing bottom plate (1915) is fixedly installed at one end of each material pushing side plate (1914);

the output end of the control switch (2) is electrically connected with the input ends of the air suction pump (1903) and the material pushing hydraulic rod (1909).

6. An automated manual feed and discharge blow molding machine according to claim 5 wherein one end of said pusher shoe (1915) is an arc-shaped depression, said header tube (1904) has a width greater than the width of the cutter (1911), and said separation screen (1905) is mounted at an angle of 25 degrees.

7. The automatic manual feeding and discharging blow molding machine according to claim 1, wherein a spraying protection mechanism (20) is installed at a position, corresponding to one side of the control switch (2), of one end of the blow molding machine case (1), and the spraying protection mechanism (20) comprises a spraying hydraulic rod (2001), a spraying bin (2002), a spraying head (2003), a liquid storage bin (2004), a conveying pipe (2005), a containing bin (2006), a placing bin (2007), a placing block (2008), an elastic wire (2009), a spraying pump (2010) and an adding cover (2011);

a spraying hydraulic rod (2001) is arranged at one side of one end of the blow molding machine case (1) corresponding to the control switch (2), one end of the spraying hydraulic rod (2001) penetrates through the blow molding machine case (1) to be connected with a spraying bin (2002), both ends of the spraying bin (2002) are symmetrically provided with spray heads (2003), the other end of the blow molding machine case (1) is fixedly provided with a liquid storage bin (2004), one end of the liquid storage bin (2004) is embedded with a delivery pipe (2005), the inner wall of the liquid storage bin (2004) is fixedly provided with a storage bin (2006), a placing bin (2007) is fixedly installed at the top end of the containing bin (2006), placing blocks (2008) are uniformly connected to the inner wall of the bottom end of the containing bin (2006), the bottom end of the placing block (2008) is connected with an elastic wire (2009), the inner wall of the liquid storage bin (2004) is fixedly provided with a spraying pump (2010), and the top end of the liquid storage bin (2004) is connected with an adding cover (2011);

the output end of the control switch (2) is electrically connected with the input ends of the spraying hydraulic rod (2001) and the spraying pump (2010).

8. The manual feeding and discharging automatic blow molding machine according to claim 7, wherein the other end of the conveying pipe (2005) penetrates through the blow molding machine case (1) to be fixedly connected with the top end of the spraying bin (2002), the conveying pipe (2005) is slidably connected with the blow molding machine case (1) and the liquid storage bin (2004), and the bottom end of the elastic wire (2009) is fixedly connected with the outer side of the conveying pipe (2005).

9. The automatic blowing machine of a kind of artificial feeding and discharging material of claim 1, characterized by, the top of the said roof (3) is fitted with the heat insulation and heat preservation organization (21) corresponding to outside position of the conveying pipeline (8), the said heat insulation and heat preservation organization (21) includes the storage bin (2101), adds the liquid cover (2102), the insulating tube (2103), the collar (2104), the outer layer of heat preservation (2105), the heating pipe (2106), the heat insulating backing plate (2107), cavity (2108) and liquid change pump (2109);

a storage bin (2101) is arranged at one side of the top end of the top plate (3) corresponding to the material conveying pipe (8), the top end of the storage bin (2101) is fixedly connected with a liquid feeding cover (2102), the top end of the storage bin (2101) is symmetrically connected with heat preservation pipes (2103) corresponding to the positions at the two sides of the liquid feeding cover (2102), the outer side of the material conveying pipe (8) is symmetrically and fixedly connected with an installation ring (2104), the outer side of the material conveying pipe (8) is coated with a heat-insulating outer layer (2105) through the installation ring (2104), the inner wall of the heat-insulating outer layer (2105) is evenly and fixedly connected with heating pipes (2106) at the position corresponding to the outer side of the material conveying pipe (8), the outer side of the heating pipe (2106) corresponding to the outer side of the material conveying pipe (8) is evenly and fixedly connected with a heat insulation backing plate (2107), a cavity (2108) is formed in the heat-insulating outer layer (2105), and the inner wall of the storage bin (2101) is connected with a liquid-changing pump (2109);

the output end of the control switch (2) is electrically connected with the input ends of the heating pipe (2106) and the liquid-changing pump (2109).

10. An automated manual feed and discharge blow molding machine according to claim 9, characterized in that one end of the heat preservation pipe (2103) passes through the heat preservation outer layer (2105) and stays inside the cavity (2108), and the outer side of the heat preservation outer layer (2105) is coated with heat insulation paint.