CN110064493B - Device is made to raw and other materials of moulding plastics - Google Patents

Device is made to raw and other materials of moulding plastics Download PDF

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Publication number
CN110064493B
CN110064493B CN201910348967.1A CN201910348967A CN110064493B CN 110064493 B CN110064493 B CN 110064493B CN 201910348967 A CN201910348967 A CN 201910348967A CN 110064493 B CN110064493 B CN 110064493B
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China
Prior art keywords
rod
shaft
spring
sliding
wheel
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CN201910348967.1A
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CN110064493A (en
Inventor
李晓娟
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XUZHOU BAOSHENG XINTIAN AGRICULTURAL MACHINERY Co.,Ltd.
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Xuzhou Baosheng Xintian Agricultural Machinery Co ltd
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Priority to CN201910348967.1A priority Critical patent/CN110064493B/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • B02C23/02Feeding devices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • B02C23/18Adding fluid, other than for crushing or disintegrating by fluid energy
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29BPREPARATION OR PRETREATMENT OF THE MATERIAL TO BE SHAPED; MAKING GRANULES OR PREFORMS; RECOVERY OF PLASTICS OR OTHER CONSTITUENTS OF WASTE MATERIAL CONTAINING PLASTICS
    • B29B13/00Conditioning or physical treatment of the material to be shaped
    • B29B13/10Conditioning or physical treatment of the material to be shaped by grinding, e.g. by triturating; by sieving; by filtering

Abstract

The invention relates to a raw material manufacturing device, in particular to an injection molding raw material manufacturing device. The pan feeding mouth is sheltered from by the baffle to the baffle has self-locking function, prevents raw and other materials refluence, and impurity is blown to wind chooseing way one side during the selection by winnowing, is convenient for collect, and wind chooseing way automatic even feeding guarantees the purity of raw and other materials, carries out press forming after raw and other materials are smashed, pushes out the material after the shaping is automatic, conveniently transfers to get the material, does benefit to and stores the transportation, and crushing mechanism smashes the raw and other materials after the shaping once more, and raw and other materials preparation is accomplished. The pan feeding is located the guide upside, and the pan feeding is connected with the guide, and the guide is located crushing upside, and the guide is connected with smashing, and the shaping is located and transfers the upside, transfers to be located the repulverize inboard, and the repulverize is located crushing downside, smashes once more and is connected with smashing.

Description

Device is made to raw and other materials of moulding plastics
Technical Field
The invention relates to a raw material manufacturing device, in particular to an injection molding raw material manufacturing device.
Background
Injection molding is a method for producing and molding industrial products, injection molding is a common way for using plastic raw materials, and products generally use rubber injection molding and plastic injection molding as raw materials, so that an injection molding raw material manufacturing device is designed.
Disclosure of Invention
The invention provides a device for manufacturing injection molding raw materials, which has the beneficial effects that a feeding port is shielded by a baffle, the baffle has a self-locking function, the raw materials are prevented from flowing backwards, impurities are blown to one side of an air channel during air separation, the collection is convenient, the air channel automatically and uniformly feeds the materials, the purity of the raw materials is ensured, the raw materials are crushed and then subjected to compression molding, the materials are automatically pushed out after the molding, the transportation and the taking are convenient, the storage and the transportation are facilitated, the molded raw materials are crushed by a secondary crushing mechanism, and the preparation of the raw materials is finished.
The invention relates to a raw material manufacturing device, in particular to an injection molding raw material manufacturing device, which comprises a feeding mechanism, a material guiding mechanism, a crushing mechanism, a forming mechanism, a transferring mechanism and a re-crushing mechanism, wherein a feeding opening is shielded by a baffle, the baffle has a self-locking function and prevents the raw material from flowing backwards, impurities are blown to one side of an air channel during air separation so as to be convenient to collect, the air channel automatically and uniformly feeds the raw material to ensure the purity of the raw material, the raw material is pressed and formed after being crushed, the material is automatically pushed out after being formed so as to be convenient to transfer, take the material and be beneficial to storage and transportation, the re-crushing mechanism crushes the formed raw material, and the preparation of the.
The feeding part consists of a feeding port and a locking part, the locking part is positioned at the upper side of the feeding port, and the locking part is connected with the feeding port;
the feeding port consists of a shell, a first hinged support and a baffle plate, wherein the shell is positioned at the inner side of the first hinged support, the shell is connected with the first hinged support, the first hinged support is positioned at the lower side of the baffle plate, the first hinged support is connected with the baffle plate, and the baffle plate is positioned at the upper side of the shell;
the locking device comprises a main shaft, a hand lever, a connecting shaft, a first slide way, a first slide rod, a first spring, a first stop block and a driven shaft, wherein the hand lever is positioned on the right side of the main shaft and connected with the main shaft;
the guide comprises a second motor, a second main wheel, a second belt, a second driven wheel, a second wind selecting channel, a second hinged support, a second slide way, a support rod, a push plate, a nut, a second spring, a second slide block, a second lower hinged support and a fan, wherein the second main wheel is positioned on the two sides of the motor, the second main wheel is connected with the second motor, the second belt is positioned on the left side of the second main wheel, the second driven wheel is positioned on the left side of the second belt, the second driven wheel is connected with the second belt, the wind selecting channel is positioned on the upper side of the second driven wheel, the wind selecting channel is connected with the second driven wheel, the second hinged support is positioned on the lower side of the wind selecting channel, the second hinged support is connected with the wind selecting channel, the push plate is positioned on the outer side of the support rod, the push plate is connected with the support rod, the nut is positioned on the lower side of the support rod, the nut is connected with the push plate, the second, the sliding block II is connected with the sliding way II, the lower hinged support is positioned on the upper side of the supporting rod and connected with the supporting rod, the lower hinged support is positioned on the lower side of the air separation channel and connected with the air separation channel, and the fan is positioned on the right side of the air separation channel;
the grinding is composed of a motor III, a mincing wheel and a mincing channel, wherein the motor III is positioned on the right side of the mincing wheel and is connected with the mincing wheel which is positioned on the inner side of the mincing channel;
the forming device comprises a lifting device and a forming box, wherein the lifting device is positioned on the upper side of the forming box;
the lifting device comprises a pressing plate, a guide rail IV, a screw rod, a screw nut, a mounting table IV, a motor IV, an inner shaft, a connecting rod I, a spring IV, a connecting rod II, a mounting plate IV, a bearing seat, a left umbrella wheel, an outer shaft, a right umbrella wheel and an umbrella wheel main body, wherein the screw nut is positioned on the upper side of the pressing plate, the screw nut is connected with the pressing plate, the screw nut is positioned on the outer side of the screw rod, the screw nut is connected with the screw rod, the screw nut is positioned on the outer side of the guide rail IV, the mounting table IV is positioned on the upper side of the screw rod, the mounting table IV is connected with the screw rod, the motor IV is positioned on the upper side of the mounting table IV, the inner shaft is positioned on the right side of the motor IV, the spring IV is positioned on, the mounting plate IV is positioned on two side surfaces of the connecting rod and connected with the connecting rod II, the mounting plate IV is positioned on one side surface of the connecting rod and connected with the connecting rod I, the bearing seat is positioned on the upper side of the mounting table IV, the bearing seat is connected with the mounting table IV, the outer shaft is positioned on the left side and the right side of the umbrella wheel, the outer shaft is connected with the left side of the umbrella wheel, the right side of the umbrella wheel is positioned on the right side of the outer shaft, the right side of the umbrella wheel is connected with the outer shaft, the outer shaft is positioned on the left side of the connecting rod I, the outer shaft is positioned on the left side of the;
the nut consists of a nut body, a threaded hole and through holes, the threaded hole is positioned in the center of the nut body, the threaded hole is connected with the nut body, the through holes are positioned on two sides of the nut body, and the through holes are connected with the nut body;
the forming box consists of a guide bracket and an inner box, the guide bracket is positioned at the lower side of the inner box, and the guide bracket is connected with the inner box;
the inner box consists of a box body, an inner spring, a fourth sliding block, a fourth sliding way, a pin and an outer spring, wherein the inner spring is positioned on the inner side of the fourth sliding way, the inner spring is connected with the fourth sliding way, the fourth sliding block is positioned on the inner side of the fourth sliding way, the fourth sliding block is connected with the fourth sliding way, the fourth sliding block is positioned on the upper side of the inner spring, the fourth sliding block is connected with the inner spring, the fourth sliding way is positioned on two sides of the box body, the fourth sliding way is connected with the box body, the pin is positioned on the upper side of the box body, the pin is connected with the box body;
the sliding block IV is composed of edge sliding blocks, a one-way base, a small spring, a one-way plug and a reducing hole, the edge sliding blocks are positioned on two sides of the one-way base and connected with the one-way base, the reducing hole is positioned on the inner side of the one-way base and connected with the one-way base, the small spring is positioned on the upper side of the one-way plug and connected with the one-way plug, the small spring is positioned on the inner side of the reducing hole and connected with the reducing hole, the one-way plug is positioned on the inner side of the reducing hole and connected with the reducing;
the transfer device comprises a motor five, a rod I, a rod II, a rod III, a rotating shaft five and a pushing rod, wherein the rod I is positioned on the side surface of the motor five, the rod I is connected with the motor five, the rod II is positioned on the upper side of the rod I, the rod II is connected with the rod I, the rod III is positioned on the right side of the rod II, the rod III is connected with the rod II, the rotating shaft five is positioned on the right side of the rod III, the rotating shaft five is connected with the rod III, the pushing rod is positioned on the upper side of the rod II;
the secondary crushing is composed of a main frame, a sliding seat, a sliding block shaft, a bottom rod six, a spring six, a hinged support six, a crushing cavity, a crushing ball, a motor six, a counterweight rotating block, a large sliding block six, a large sliding way six, a sliding way six and a spring six, wherein the main frame is positioned at the lower side of the sliding seat, the main frame is connected with the sliding seat, the bottom rod six is positioned at the upper side of the sliding seat, the bottom rod six is connected with the sliding seat, the bottom rod six is positioned at the upper side of the sliding block shaft, the bottom rod six is connected with the sliding block shaft, the spring six is positioned at the upper side of the sliding seat, the spring six is connected with the sliding seat, the spring six is positioned at the lower side of the hinged support, the spring six is connected with the hinged support six, the crushing cavity is positioned at the upper side of the hinged support six, the crushing ball is positioned at the inner side of the crushing cavity, the crushing ball is positioned at the side of the crushing cavity, the motor six is positioned, the counterweight rotating block is connected with a large sliding block six, a large sliding way six is positioned on the outer side of the large sliding block six, the large sliding way six is connected with the large sliding block six, the sliding way six is positioned on the inner side of the large sliding way six, the sliding way six is connected with the large sliding way six, a spring six is positioned on the inner side of the sliding way six, the spring six is connected with the sliding way six, the spring six is positioned on two sides of the large sliding block six, and the spring six is connected with the large sliding block six;
the pan feeding is located the guide upside, and the pan feeding is connected with the guide, and the guide is located crushing upside, and the guide is connected with smashing, and the shaping is located and transfers the upside, transfers to be located the repulverize inboard, and the repulverize is located crushing downside, smashes once more and is connected with smashing.
As a further optimization of the technical scheme, the main frame of the injection molding raw material manufacturing device is connected with the mincing channel.
As a further optimization of the technical scheme, the main frame material of the injection molding raw material manufacturing device is carbon steel.
As a further optimization of the technical scheme, the number of the bearing seats is two.
The injection molding raw material manufacturing device has the beneficial effects that:
the pan feeding mouth is sheltered from by the baffle to the baffle has self-locking function, prevents raw and other materials refluence, and impurity is blown to wind chooseing way one side during the selection by winnowing, is convenient for collect, and wind chooseing way automatic even feeding guarantees the purity of raw and other materials, carries out press forming after raw and other materials are smashed, pushes out the material after the shaping is automatic, conveniently transfers to get the material, does benefit to and stores the transportation, and crushing mechanism smashes the raw and other materials after the shaping once more, and raw and other materials preparation is accomplished.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic structural diagram of an apparatus for manufacturing injection molding raw material according to the present invention.
FIG. 2 is a schematic structural diagram of a feeding material 1 of an apparatus for manufacturing injection molding raw materials according to the present invention.
FIG. 3 is a schematic structural view of a material inlet 1-1 of an apparatus for manufacturing injection molding raw material according to the present invention.
FIG. 4 is a schematic view of a lock 1-2 of an apparatus for manufacturing injection molding raw material according to the present invention.
Fig. 5 is a schematic structural view of a material guide 2 of the device for manufacturing injection molding raw materials according to the present invention.
FIG. 6 is a schematic view of a pulverization 3 of an apparatus for manufacturing injection molding raw materials according to the present invention.
FIG. 7 is a schematic view of the structure of the molding 4 of the apparatus for manufacturing injection molding raw material according to the present invention.
FIG. 8 is a schematic structural view of a lifting device 4-1 of the device for manufacturing injection molding raw materials of the present invention.
FIG. 9 is a partial schematic structural view of a lifting device 4-1 of an apparatus for manufacturing injection molding raw material according to the present invention.
FIG. 10 is a schematic structural view of a nut 4-1-4 of the apparatus for manufacturing injection molding raw material according to the present invention.
FIG. 11 is a schematic view of a molding box 4-2 of an apparatus for manufacturing injection molding raw material according to the present invention.
FIG. 12 is a schematic view of the inner case 4-2-2 of the apparatus for manufacturing injection molding raw material according to the present invention.
FIG. 13 is a schematic structural view of a slider IV 4-2-2-3 of the injection molding raw material manufacturing device of the present invention.
FIG. 14 is a partial structural view of a slider block IV 4-2-2-3 of the device for manufacturing injection molding raw materials according to the present invention.
Fig. 15 is a schematic structural view of a transfer unit 5 of an apparatus for manufacturing injection molding raw materials according to the present invention.
FIG. 16 is a schematic view showing the structure of the regrinding unit 6 of the apparatus for manufacturing injection molding raw material according to the present invention.
FIG. 17 is a partial schematic view showing the regrinding 6 of the apparatus for manufacturing injection molding raw material according to the present invention.
In the figure: feeding 1; a feeding port 1-1; a shell 1-1-1; a hinged support I1-1-2; 1-1-3 of a baffle plate; locking 1-2; a main shaft 1-2-1; 1-2-2 of a handle bar; 1-2-3 of a connecting shaft; 1-2-4 of a first slideway; 1-2-5 sliding rods; 1-2-6 parts of a first spring; 1-2-7 of a first stop block; from axis 1-2-8; guiding the materials 2; a second motor 2-1; a second main wheel 2-2; 2-3 of a belt II; from 2 to 4 wheels; 2-5 of wind selection channel; 2-6 parts of a hinged support II; 2-7 of a second slideway; 2-8 parts of a support rod; 2-9 parts of a push plate; 2-10 parts of nut; 2-11 parts of a second spring; 2-12 parts of a second sliding block; 2-13 parts of a lower hinged support; 2-14 parts of a fan; crushing 3; 3-1 of a motor III; 3-2 of mincing wheel; 3-3 of mincing channel; molding 4; a lifting device 4-1; 4-1-1 of a pressing plate; a fourth guide rail 4-1-2; 4-1-3 of a screw rod; 4-1-4 of a nut; 4-1-4-1 of silk matrix; a threaded hole 4-1-4-2; through holes 4-1-4-3; mounting a table IV 4-1-5; motor four 4-1-6; inner shafts 4-1-7; 4-1-8 of a first connecting rod; spring four 4-1-9; 4-1-10 parts of a second connecting rod; mounting plate four 4-1-11; bearing seats 4-1-12; 4-1-13 of the left side of the umbrella wheel; outer shafts 4-1-14; 4-1-15 of the right side of the umbrella wheel; 4-1-16 parts of umbrella wheel main body; a forming box 4-2; a guide bracket 4-2-1; an inner box 4-2-2; a box body 4-2-2-1; an inner spring 4-2-2-2; a fourth sliding block 4-2-2-3; 4-2-2-3-1 of a side sliding block; a unidirectional base 4-2-2-3-2; 4-2-2-3-3 parts of a small spring; 4-2-2-3-4 of a one-way plug; the diameter-variable hole is 4-2-2-3-5; a slide way is four 4-2-2-4; pin 4-2-2-5; an outer spring 4-2-2-6; transferring 5; 5-1 of a motor; 5-2 of a first rod; 5-3 of a second rod; 5-4 parts of a third rod; 5-5 parts of a rotating shaft; 5-6 parts of a push rod; crushing again 6; 6-1 of a main frame; a slide 6-2; a slider shaft 6-3; 6-4 parts of bottom rod; the six small springs are 6-5; 6-6 parts of a hinged support; 6-7 parts of a crushing cavity; 6-8 parts of crushing balls; 6-9 parts of a motor; 6-10 of a counterweight rotating block; 6-11 parts of a large sliding block; 6-12 parts of a large slideway; six slideways 6-13; the spring is six in size and 6-14 in size.
Detailed Description
The first embodiment is as follows:
the present invention relates to a raw material manufacturing apparatus, and more particularly, to an injection raw material manufacturing apparatus, which includes a feeding unit 1, a guiding unit 2, a crushing unit 3, a forming unit 4, a transferring unit 5, and a regrinding unit 6, wherein a feeding port is shielded by a baffle having a self-locking function to prevent a raw material from flowing backward, impurities are blown to one side of an air passage during air separation to facilitate collection, the air passage automatically and uniformly feeds the raw material to ensure purity of the raw material, the raw material is crushed and then is subjected to compression forming, the material is automatically pushed out after forming to facilitate transfer, material taking, storage and transportation, and the regrinding unit crushes the formed raw material to complete preparation of the raw material.
The feeding material 1 consists of a feeding port 1-1 and a lock 1-2, the lock 1-2 is positioned at the upper side of the feeding port 1-1, and the lock 1-2 is connected with the feeding port 1-1;
the feeding port 1-1 consists of a shell 1-1-1, a hinged support I1-1-2 and a baffle 1-1-3, the shell 1-1-1 is positioned at the inner side of the hinged support I1-1-2, the shell 1-1-1 is connected with the hinged support I1-1-2, the hinged support I1-1-2 is positioned at the lower side of the baffle 1-1-3, the hinged support I1-1-2 is connected with the baffle 1-1-3, the baffle 1-1-3 is positioned at the upper side of the shell 1-1-1, the baffle 1-1-3 at the right side is driven by a shaft 1-2-8 to rotate anticlockwise, the baffle 1-1-3 rotates by taking the hinged support I1-1-2 as the center, the baffle 1-1-1-3 seals the shell 1-1-1, the first spring 1-2-6 tightly presses the baffle 1-1-3 and the shell 1-1-1, the feeding port is shielded by the baffle, and the baffle has a self-locking function and prevents raw materials from flowing backwards;
the locking 1-2 consists of a main shaft 1-2-1, a hand lever 1-2-2, a connecting shaft 1-2-3, a slideway 1-2-4, a sliding rod 1-2-5, a spring 1-2-6, a stop block 1-2-7 and a driven shaft 1-2-8, wherein the hand lever 1-2-2 is positioned at the right side of the main shaft 1-2-1, the hand lever 1-2-2 is connected with the main shaft 1-2-1, the connecting shaft 1-2-3 is positioned at the inner side of the hand lever 1-2-2, the connecting shaft 1-2-3 is connected with the hand lever 1-2-2, the slideway 1-2-4 is positioned at the right side of the connecting shaft 1-2-3, the slideway 1-2-4 is connected with the connecting shaft 1-2-3, the first sliding rod 1-2-5 is located on the right side of the first slideway 1-2-4, the first sliding rod 1-2-5 is connected with the first slideway 1-2-4, the first spring 1-2-6 is located on the right side of the first slideway 1-2-4, the first spring 1-2-6 is connected with the first slideway 1-2-4, the first stopper 1-2-7 is located on the right side of the first spring 1-2-6, the first stopper 1-2-7 is connected with the first spring 1-2-6, the second shaft 1-2-8 is located on the right side of the first stopper 1-2-7, the second shaft 1-2-8 is connected with the first stopper 1-2-7, raw materials are put into the shell 1-1-1, the hand lever 1-2-2 is rotated clockwise, the hand lever 1-2-2 drives the main shaft 1-2-1 to rotate clockwise. The main shaft 1-2-1 drives the baffle plate 1-1-3 on the left side to rotate clockwise, the hand lever 1-2-2 drives the connecting shaft 1-2-3 to rotate clockwise, the connecting shaft 1-2-3 drives the slideway 1-2-4 to rotate anticlockwise, the slideway 1-2-4 drives the sliding rod 1-2-5 to rotate anticlockwise, the sliding rod 1-2-5 drives the stopper I1-2-7 to rotate anticlockwise, in the rotating process of the hand lever 1-2-2, the distance between the connecting shaft 1-2-3 and the driven shaft 1-2-8 is reduced, the sliding rod 1-2-5 moves inwards along the slideway 1-2-4, the spring I1-2-6 is compressed, when the distance between the connecting shaft 1-2-3 and the driven shaft 1-2-8 exceeds the minimum value, the elastic potential energy of the first spring 1-2-6 is converted into kinetic energy to push the first sliding rod 1-2-5 to extend out, and the distance between the connecting shaft 1-2-3 and the driven shaft 1-2-8 is increased;
the material guide 2 consists of a motor II 2-1, a main wheel II 2-2, a belt II 2-3, a driven wheel II 2-4, an air separation channel 2-5, a hinged support II 2-6, a slideway II 2-7, a support rod 2-8, a push plate 2-9, a nut 2-10, a spring II 2-11, a slide block II 2-12, a lower hinged support 2-13 and a fan 2-14, wherein the main wheel II 2-2 is positioned on the side surface of the motor II 2-1, the main wheel II 2-2 is connected with the motor II 2-1, the belt II 2-3 is positioned on the left side of the main wheel II 2-2, the belt II 2-3 is connected with the main wheel II 2-2, the belt II 2-4 is positioned on the left side of the belt II 2-3, the driven wheel II 2-4 is connected with the belt II 2-3, the air separation channel 2-5 is positioned on the upper side, the wind separation channel 2-5 is connected with the driven wheel 2-4, the hinged support 2-6 is positioned at the lower side of the wind separation channel 2-5, the hinged support 2-6 is connected with the wind separation channel 2-5, the push plate 2-9 is positioned at the outer side of the support rod 2-8, the push plate 2-9 is connected with the support rod 2-8, the nut 2-10 is positioned at the lower side of the push plate 2-9, the nut 2-10 is connected with the push plate 2-9, the spring 2-11 is positioned at the upper side of the push plate 2-9, the spring 2-11 is connected with the push plate 2-9, the slide block 2-12 is positioned at the upper side of the spring 2-11, the slide block 2-12 is connected with the spring 2-11, the slide block 2-12 is positioned at the inner, the second sliding block 2-12 is connected with the second sliding rail 2-7, the lower hinged support 2-13 is positioned on the upper side of the supporting rod 2-8, the lower hinged support 2-13 is connected with the supporting rod 2-8, the lower hinged support 2-13 is positioned on the lower side of the wind selection channel 2-5, the lower hinged support 2-13 is connected with the wind selection channel 2-5, the fan 2-14 is positioned on the right side of the wind selection channel 2-5, the motor 2-1 drives the motor 2-1 to rotate, the motor 2-1 drives the belt 2-3 to rotate, the belt 2-3 drives the driven wheel 2-4 to rotate, the driven wheel 2-4 is an eccentric wheel, the distance between the extreme edge of the driven wheel 2-4 and the extreme edge of the main wheel 2-2 changes in the rotating process, and the length of the belt 2-3 does not change, so that the driven wheel 2-4 drives the wind selection channel 2-5 to swing around the hinged support 2-6, the lower hinged support 2-13 is driven to vibrate when the air separation channel 2-5 vibrates, the lower hinged support 2-13 drives the sliding block II 2-12 to move, the sliding block II 2-12 moves along the direction of the sliding way II 2-7, the supporting rod 2-8 and the spring II 2-11 generate the same force to the pushing plate 2-9, the nut 2-10 is rotated, the nut 2-10 moves along the direction of the supporting rod 2-8, the acting force of the pushing plate 2-9 to the spring II 2-11 is changed, the elasticity of the spring is changed, the spring can be used for adjusting the damping effect, the raw materials on the air separation channel 2-5 vibrate uniformly when vibrating, the fan 2-14 blows impurities on the air separation channel 2-5 to the oblique upper side of the air separation channel 2-5, the impurities are blown to one side of the air separation channel during air separation, the collection is convenient, and the purity, the raw materials enter the crushing step 3;
the grinding 3 is composed of a motor three 3-1, a grinding wheel 3-2 and a grinding channel 3-3, the motor three 3-1 is positioned at the right side of the grinding wheel 3-2, the motor three 3-1 is connected with the grinding wheel 3-2, the grinding wheel 3-2 is positioned at the inner side of the grinding channel 3-3, the grinding wheel 3-2 is connected with the grinding channel 3-3, the motor three 3-1 drives the grinding wheel 3-2 to rotate, the grinding wheel 3-2 grinds the raw materials in the grinding channel 3-3 and feeds the raw materials to the inner side;
the forming device 4 consists of a lifting device 4-1 and a forming box 4-2, wherein the lifting device 4-1 is positioned at the upper side of the forming box 4-2;
the lifting device 4-1 consists of a pressing plate 4-1-1, a guide rail four 4-1-2, a screw rod 4-1-3, a screw nut 4-1-4, a mounting table four 4-1-5, a motor four 4-1-6, an inner shaft 4-1-7, a connecting rod one 4-1-8, a spring four 4-1-9, a connecting rod two 4-1-10, a mounting plate four 4-1-11, a bearing seat 4-1-12, a bevel wheel left 4-1-13, an outer shaft 4-1-14, a bevel wheel right 4-1-15 and a bevel wheel main 4-1-16, wherein the screw nut 4-1-4 is positioned at the upper side of the pressing plate 4-1-1, the screw nut 4-1-4 is connected with the pressing plate 4-1-1, the screw 4-1-4 is positioned on the outer side of the screw rod 4-1-3, the screw 4-1-4 is connected with the screw rod 4-1-3, the screw 4-1-4 is positioned on the outer side of the guide rail four 4-1-2, the screw 4-1-4 is connected with the guide rail four 4-1-2, the installation table four 4-1-5 is positioned on the upper side of the guide rail four 4-1-2, the installation table four 4-1-5 is connected with the guide rail four 4-1-2, the installation table four 4-1-5 is positioned on the upper side of the screw rod 4-1-3, the installation table four 4-1-5 is connected with the screw rod 4-1-3, the motor four 4-1-6 is positioned on the upper side of the installation table four 4-1-5, the motor four 4-1-6 is connected with the installation table four 4-1-5, the inner shaft 4-1-7 is positioned at the right side of the motor IV 4-1-6, the inner shaft 4-1-7 is connected with the motor IV 4-1-6, the spring IV 4-1-9 is positioned at the upper side of the connecting rod I4-1-8, the connecting rod II 4-1-10 is positioned at the outer side of the spring IV 4-1-9, the connecting rod II 4-1-10 is connected with the spring IV 4-1-9, the connecting rod II 4-1-10 is positioned at the upper side of the connecting rod I4-1-8, the connecting rod II 4-1-10 is connected with the connecting rod I4-1-8, the mounting plate IV 4-1-11 is positioned at the side surface of the connecting rod II 4-1-10, the mounting plate IV 4-1-11 is connected with the connecting rod II 4-, the mounting plate IV 4-1-11 is positioned on the side surface of the connecting rod I4-1-8, the mounting plate IV 4-1-11 is connected with the connecting rod I4-1-8, the bearing seats 4-1-12 are positioned on the upper side of the mounting table IV 4-1-5, the bearing seats 4-1-12 are connected with the mounting table IV 4-1-5, the outer shaft 4-1-14 is positioned on the right side of the left 4-1-13 of the bevel wheel, the outer shaft 4-1-14 is connected with the left 4-1-13 of the bevel wheel, the right 4-1-15 of the bevel wheel is positioned on the right side of the outer shaft 4-1-14, the right 4-1-15 of the bevel wheel is connected with the outer shaft 4-1-14, the outer shaft 4-1-14 is positioned on the left side of the connecting rod I4-1-8, the outer shaft 4-, the outer shaft 4-1-14 is positioned at the left side of the second connecting rod 4-1-10, the outer shaft 4-1-14 is connected with the second connecting rod 4-1-10, the umbrella wheel main 4-1-16 is positioned at the upper side of the screw rod 4-1-3, the umbrella wheel main 4-1-16 is connected with the screw rod 4-1-3, raw materials enter the box body 4-2-2-1, the motor fourth 4-1-6 drives the inner shaft 4-1-7 to rotate, the inner shaft 4-1-7 drives the outer shaft 4-1-14 to rotate, the outer shaft 4-1-14 drives the umbrella wheel right 4-1-15 to rotate, the umbrella wheel right 4-1-15 drives the umbrella wheel main 4-1-16 to rotate, the umbrella wheel main 4-1-16 drives the screw rod 4-1-3 to rotate, the screw rod 4-1-3 is connected with the threaded hole 4-1-4-2, the threaded hole 4-1-4-2 moves downwards along the screw rod 4-1-3, the through hole 4-1-4-3 is connected with the guide rail four 4-1-2, the through hole 4-1-4-3 moves downwards along the guide rail four 4-1-2, the screw nut body 4-1-4-1 is prevented from rotating, the screw nut body 4-1-4-1 moves downwards along the screw rod 4-1-3, the screw nut 4-1-4 moves downwards, and the screw nut 4-1-4 drives the pressing plate 4-1-1 to move downwards;
the screw nut 4-1-4 consists of a screw nut body 4-1-4-1, a threaded hole 4-1-4-2 and a through hole 4-1-4-3, wherein the threaded hole 4-1-4-2 is positioned in the center of the screw nut body 4-1-4-1, the threaded hole 4-1-4-2 is connected with the screw nut body 4-1-4-1, the through hole 4-1-4-3 is positioned at two sides of the screw nut body 4-1-4-1, and the through hole 4-1-4-3 is connected with the screw nut body 4-1-4-1;
the forming box 4-2 consists of a guide support 4-2-1 and an inner box 4-2-2, the guide support 4-2-1 is positioned at the lower side of the inner box 4-2-2, and the guide support 4-2-1 is connected with the inner box 4-2-2;
the inner box 4-2-2 is composed of a box body 4-2-2-1, an inner spring 4-2-2, a sliding block four 4-2-2-3, a sliding way four 4-2-2-4, a pin 4-2-2-5 and an outer spring 4-2-2-6, wherein the inner spring 4-2-2-2 is positioned at the inner side of the sliding way four 4-2-2-4, the inner spring 4-2-2-2 is connected with the sliding way four 4-2-4, the sliding block four 4-2-2-3 is positioned at the inner side of the sliding way four 4-2-2-4, the sliding block four 4-2-2-3 is connected with the sliding way four 4-2-2-4, a slide block IV 4-2-2-3 is positioned at the upper side of the inner spring 4-2-2, the slide block IV 4-2-2-3 is connected with the inner spring 4-2-2, a slide way IV 4-2-2-4 is positioned at two sides of the box body 4-2-2-1, the slide way IV 4-2-2-4 is connected with the box body 4-2-2-1, a pin 4-2-2-5 is positioned at the upper side of the box body 4-2-2-1, a pin 4-2-2-5 is connected with the box body 4-2-1, an outer spring 4-2-2-6 is positioned at the upper side of the box body 4-2-1, an outer spring 4-2-2-6 is connected with the box body 4-2-2-1, the outer spring 4-2-2-6 is connected with the pin 4-2-2-5, the inner spring 4-2-2 is compressed, in the process of compressing raw materials, the pressure in the box body 4-2-2-1 is increased, the elastic potential energy of the inner spring 4-2-2-2 is converted into kinetic energy to push the slide block four 4-2-2-3 to move upwards, the slide block four 4-2-2-3 drives the compressed raw materials to move upwards, the slide block 4-2-2-3-1 pushes the pin 4-2-2-5 to move outwards, the outer spring 4-2-2-6 is compressed, when the unidirectional base 4-2-2-3-2 reaches the upper side of the pin 4-2-2-5, the outer spring 4-2-2-6 drives the pin 4-2-2-5 to move inwards to limit the position of the slide block four 4-2-2-3, so that automatic discharging is completed, and the material taking and transferring are facilitated, and storage and transportation are facilitated;
the four sliding blocks 4-2-2-3 comprise edge sliding blocks 4-2-2-3-1, unidirectional bases 4-2-2-3-2, small springs 4-2-3-3, unidirectional plugs 4-2-2-3-4 and variable diameter holes 4-2-2-3-5, the edge sliding blocks 4-2-2-3-1 are positioned at two sides of the unidirectional bases 4-2-2-3-2, the edge sliding blocks 4-2-2-3-1 are connected with the unidirectional bases 4-2-2-3-2, the variable diameter holes 4-2-2-3-5 are positioned at the inner sides of the unidirectional bases 4-2-2-2-3-2, the variable diameter hole 4-2-2-3-5 is connected with the one-way base 4-2-2-3-2, the small spring 4-2-3-3 is positioned at the upper side of the one-way plug 4-2-3-4, the small spring 4-2-3-3 is connected with the one-way plug 4-2-2-3-4, the small spring 4-2-2-3-3 is positioned at the inner side of the variable diameter hole 4-2-2-3-5, the small spring 4-2-2-3-3 is connected with the variable diameter hole 4-2-2-3-5, the one-way plug 4-2-2-3-4 is positioned at the inner side of the variable diameter hole 4-2-2-3-5, the one-way plug 4-2-2-3-4 is connected with the reducing hole 4-2-2-3-5, the pressure plate 4-1-1 compresses the raw materials on the one-way base 4-2-2-3-2, the one-way base 4-2-3-2 is stressed to move downwards, the edge slide block 4-2-2-3-1 moves downwards along the slide way 4-2-2-4, high-pressure gas pushes the one-way plug 4-2-2-3-4 to move downwards, the small spring 4-2-2-3-3 is stretched, the reducing hole 4-2-2-3-5 forms a passage with the outside, and the gas is discharged through the reducing hole 4-2-2-3-5, after the compression is finished;
the transfer 5 consists of a motor five 5-1, a rod one 5-2, a rod two 5-3, a rod three 5-4, a rotating shaft five 5-5 and a pushing rod 5-6, wherein the rod one 5-2 is positioned on the side surface of the motor five 5-1, the rod one 5-2 is connected with the motor five 5-1, the rod two 5-3 is positioned on the upper side of the rod one 5-2, the rod two 5-3 is connected with the rod one 5-2, the rod three 5-4 is positioned on the right side of the rod two 5-3, the rod three 5-4 is connected with the rod two 5-3, the rotating shaft five 5-5 is positioned on the right side of the rod three 5-4, the rotating shaft five 5-5 is connected with the rod three 5-4, the pushing rod 5-6 is positioned on the upper side of the rod two 5-3, the pushing rod 5-6 is connected with the rod two 5-3, the motor five, the second rod 5-3 moves left and right by taking a connecting shaft of the third rod 5-4 and the second rod 5-3 as a fulcrum, because the third rod 5-4 swings by taking the fifth rotating shaft 5-5 as a center, and the connecting shaft of the third rod 5-4 and the second rod 5-3 has vertical component motion, the pushing rod 5-6 has vertical component motion, and the pushing rod 5-6 pushes raw materials on the fourth sliding block 4-2-2-3 to be fed;
the secondary crushing 6 consists of a main frame 6-1, a sliding seat 6-2, a sliding block shaft 6-3, a bottom rod six 6-4, a spring six-small 6-5, a hinged support six 6-6, a crushing cavity 6-7, a crushing ball 6-8, a motor six 6-9, a counterweight rotating block 6-10, a large sliding block six 6-11, a large slideway six 6-12, a slideway six 6-13 and a spring six-large 6-14, wherein the main frame 6-1 is positioned at the lower side of the sliding seat 6-2, the main frame 6-1 is connected with the sliding seat 6-2, the bottom rod six 6-4 is positioned at the upper side of the sliding block shaft 6-3, the bottom rod six 6-4 is connected with the sliding block shaft 6-3, the spring six-small 6-5 is positioned at the upper side of the sliding seat 6-2, the six small springs 6-5 are connected with the sliding seat 6-2, the six small springs 6-5 are positioned at the lower side of the six hinged supports 6-6, the six small springs 6-5 are connected with the six hinged supports 6-6, the crushing cavity 6-7 is positioned at the upper side of the six hinged supports 6-6, the crushing cavity 6-7 is connected with the six hinged supports 6-6, the crushing balls 6-8 are positioned at the inner side of the crushing cavity 6-7, the crushing balls 6-8 are connected with the crushing cavity 6-7, the motors six 6-9 are positioned at the side of the crushing cavity 6-7, the motors six 6-9 are connected with the crushing cavity 6-7, the counterweight rotating blocks 6-10 are positioned at the side of the six motors 6-9, the counterweight rotating blocks 6-10 are connected with the six motors 6-9, the counterweight rotating blocks 6-10 are positioned at the side of the six large sliding blocks 6-11, the counterweight rotating blocks 6-10 are connected with the six, six large slide ways 6-12 are positioned on the outer sides of six large slide blocks 6-11, six large slide ways 6-12 are connected with six large slide blocks 6-11, six slide ways 6-13 are positioned on the inner sides of six large slide ways 6-12, six slide ways 6-13 are connected with six large slide ways 6-12, six springs 6-14 are positioned on the inner sides of six slide ways 6-13, six springs 6-14 are connected with six slide ways 6-13, six springs 6-14 are positioned on the two sides of six large slide blocks 6-11, six springs 6-14 are connected with six large slide blocks 6-11, six motors 6-9 drive the balance weight rotating blocks 6-10 to move, the balance weight rotating blocks 6-10 generate eccentric force when rotating, the balance weight rotating blocks 6-10 drive the six slide blocks 6-11 to move, and the six slide blocks 6-11 move along the direction of six large slide ways 6-12, the six large springs 6-14 play a role in shock absorption, the balance weight rotating block 6-10 drives the crushing cavity 6-7 to move, the crushing cavity 6-7 drives the hinge seat six 6-6 to move, the hinge seat six 6-6 drives the bottom rod six 6-4 to move, the bottom rod six 6-4 swings around the slide block shaft 6-3, the slide block shaft 6-3 moves along the slide seat 6-2 direction, and the crushing cavity 6-7 collides with the crushing ball 6-8 in the moving process to crush the raw materials in the crushing cavity 6-7;
pan feeding 1 is located 2 upside of guide, and pan feeding 1 is connected with guide 2, and guide 2 is located crushing 3 upside, and guide 2 is connected with crushing 3, and shaping 4 is located and transfers 5 upsides, transfers 5 to be located 6 inboards of smashing once more, smashes 6 once more and is located crushing 3 downside, smashes 6 once more and smashes 6 and is connected with crushing 3.
The second embodiment is as follows:
the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the first embodiment in which the main frame 6-1 is connected to the grinding passage 3-3.
The third concrete implementation mode:
the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the first embodiment will be further described in detail with reference to the present embodiment, in which the main frame 6-1 is made of carbon steel.
The fourth concrete implementation mode:
the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the first embodiment will be further described with reference to the present embodiment, in which the number of the bearing blocks 4-1 to 12 is two.
The working principle of the device is as follows: the raw materials are put into the shell 1-1-1, the hand lever 1-2-2 is rotated clockwise, and the hand lever 1-2-2 drives the main shaft 1-2-1 to rotate clockwise. The main shaft 1-2-1 drives the baffle plate 1-1-3 on the left side to rotate clockwise, the hand lever 1-2-2 drives the connecting shaft 1-2-3 to rotate clockwise, the connecting shaft 1-2-3 drives the slideway 1-2-4 to rotate anticlockwise, the slideway 1-2-4 drives the sliding rod 1-2-5 to rotate anticlockwise, the sliding rod 1-2-5 drives the stopper I1-2-7 to rotate anticlockwise, in the rotating process of the hand lever 1-2-2, the distance between the connecting shaft 1-2-3 and the driven shaft 1-2-8 is reduced, the sliding rod 1-2-5 moves inwards along the slideway 1-2-4, the spring I1-2-6 is compressed, when the distance between the connecting shaft 1-2-3 and the driven shaft 1-2-8 exceeds the minimum value, the elastic potential energy of the first spring 1-2-6 is converted into kinetic energy, the first sliding rod 1-2-5 is pushed to extend, the distance between the connecting shaft 1-2-3 and the driven shaft 1-2-8 is increased, the driven shaft 1-2-8 drives the baffle plate 1-1-3 on the right side to rotate anticlockwise, the baffle plate 1-1-3 rotates around the hinged support 1-1-2 as the center, the baffle plate 1-1-3 seals the shell 1-1-1, the first spring 1-2-6 tightly presses the baffle plate 1-1-3 and the shell 1-1-1, a feeding port is shielded by the baffle plate, and the baffle plate has a self-locking function and prevents raw materials from flowing backwards. The motor II 2-1 drives the belt II 2-3 to rotate, the belt II 2-3 drives the driven wheel II 2-4 to rotate, the driven wheel II 2-4 is an eccentric wheel, the distance between the outermost edge of the driven wheel II 2-4 and the outermost edge of the main wheel II 2-2 is changed in the rotating process, the length of the belt II 2-3 is unchanged, the driven wheel II 2-4 drives the wind selection channel 2-5 to swing around the hinged support II 2-6 as the center, the wind selection channel 2-5 drives the lower hinged support 2-13 to vibrate when vibrating, the lower hinged support 2-13 drives the slide block II 2-12 to move, the slide block II 2-12 moves along the direction of the slide track II 2-7, the force generated by the support rod 2-8 and the spring II 2-11 on the push plate 2-9 is the same, the nut 2-10 is rotated, the nut 2-10 moves along the support rod 2-8, the acting force of the push plate 2-9 on the spring II 2-11 is changed, the elasticity of the spring is changed, the spring can be used for adjusting the damping effect, the raw materials on the air separation channel 2-5 are uniformly vibrated when the air separation channel 2-5 is vibrated, the impurities on the air separation channel 2-5 are blown to the oblique upper side of the air separation channel 2-5 by the fan 2-14, the impurities are blown to one side of the air separation channel during air separation, the collection is convenient, the purity of the raw materials is guaranteed, and the raw materials enter the crushing 3. The motor III 3-1 drives the mincing wheel 3-2 to rotate, the mincing wheel 3-2 minces the raw materials in the mincing channel 3-3, and the raw materials are fed inwards. The raw materials enter a box body 4-2-2-1, a motor four 4-1-6 drives an inner shaft 4-1-7 to rotate, the inner shaft 4-1-7 drives an outer shaft 4-1-14 to rotate, the outer shaft 4-1-14 drives an umbrella wheel right 4-1-15 to rotate, the umbrella wheel right 4-1-15 drives an umbrella wheel main 4-1-16 to rotate, the umbrella wheel main 4-1-16 drives a screw rod 4-1-3 to rotate, the screw rod 4-1-3 is connected with a threaded hole 4-1-4-2, the threaded hole 4-1-4-2 moves downwards along the screw rod 4-1-3, a through hole 4-1-4-3 is connected with a guide rail four 4-1-2, the through hole 4-1-4-3 moves downwards along the four 4-1-2 guide rails to prevent the rotation of the screw matrix 4-1-4-1, the screw matrix 4-1-4-1 moves downwards along the screw rod 4-1-3, the screw 4-1-4 moves downwards, the screw 4-1-4 drives the pressing plate 4-1-1 to move downwards, the pressing plate 4-1-1 compresses the raw material on the one-way base 4-2-2-3-2, the one-way base 4-2-3-2 moves downwards under stress, the edge sliding block 4-2-2-3-1 moves downwards along the four 4-2-2-4 slide rails, and the inner spring 4-2-2-2 is compressed, in the process of compressing the raw materials, the pressure in the box body 4-2-2-1 is increased, high-pressure gas pushes the one-way plug 4-2-3-4 to move downwards, the small spring 4-2-2-3-3 is stretched, the diameter-variable hole 4-2-2-3-5 forms a passage with the outside, the gas is discharged through the diameter-variable hole 4-2-3-5, after the compression is finished, the elastic potential energy of the inner spring 4-2-2-2 is converted into kinetic energy to push the sliding block four 4-2-2-3 to move upwards, the sliding block four 4-2-2-3 drives the compressed raw materials to move upwards, and the sliding block 4-2-2-3-1 pushes the pin 4-2-2-5 to move outwards while the sliding block 4-2-2-3-1 pushes the pin 4-2-, the outer spring 4-2-2-6 is compressed, when the one-way base 4-2-2-3-2 reaches the upper side of the pin 4-2-2-5, the outer spring 4-2-2-6 drives the pin 4-2-2-5 to move inwards, the four sliding blocks 4-2-2-3 are limited, automatic discharging is completed, transferring and taking are facilitated, and storage and transportation are facilitated. The motor five 5-1 drives the rod one 5-2 to rotate, the rod two 5-3 moves left and right by taking a connecting shaft of the rod three 5-4 and the rod two 5-3 as a fulcrum, the rod three 5-4 swings by taking the rotating shaft five 5-5 as a center, and the connecting shaft of the rod three 5-4 and the rod two 5-3 has vertical partial motion, so that the pushing rod 5-6 has vertical partial motion, and the pushing rod 5-6 pushes the sliding block four 4-2-2-3 to discharge raw materials. The motor six 6-9 drives the counter weight rotating block 6-10 to move, eccentric force is generated when the counter weight rotating block 6-10 rotates, the counter weight rotating block 6-10 drives the sliding block six 6-11 to move, the sliding block six 6-11 moves along the direction of the large slide way six 6-12, the spring six 6-14 plays a role in shock absorption, the counter weight rotating block 6-10 drives the crushing cavity 6-7 to move, the crushing cavity 6-7 drives the hinged support six 6-6 to move, the hinged support six 6-6 drives the bottom rod six 6-4 to move, the bottom rod six 6-4 swings with the sliding block shaft 6-3 as the center, the sliding block shaft 6-3 moves along the direction of the sliding seat 6-2, and the crushing cavity 6-7 collides with the crushing ball 6-8 in the moving process to crush raw materials in the crushing cavity 6-7.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a device is made to raw and other materials of moulding plastics, includes pan feeding (1), guide (2), smashes (3), shaping (4), transfers (5), smashes (6) once more, its characterized in that: the feeding (1) consists of a feeding opening (1-1) and a lock (1-2), the lock (1-2) is positioned at the upper side of the feeding opening (1-1), and the lock (1-2) is connected with the feeding opening (1-1);
the feeding port (1-1) is composed of a shell (1-1-1), a hinged support I (1-1-2) and a baffle (1-1-3), the shell (1-1-1) is located on the inner side of the hinged support I (1-1-2), the shell (1-1-1) is connected with the hinged support I (1-1-2), the hinged support I (1-1-2) is located on the lower side of the baffle (1-1-3), the hinged support I (1-1-2) is connected with the baffle (1-1-3), and the baffle (1-1-3) is located on the upper side of the shell (1-1-1);
the locking device (1-2) consists of a main shaft (1-2-1), a hand lever (1-2-2), a connecting shaft (1-2-3), a slideway I (1-2-4), a sliding rod I (1-2-5), a spring I (1-2-6), a stop block I (1-2-7) and a driven shaft (1-2-8), wherein the hand lever (1-2-2) is positioned at the right side of the main shaft (1-2-1), the hand lever (1-2-2) is connected with the main shaft (1-2-1), the connecting shaft (1-2-3) is positioned at the inner side of the hand lever (1-2-2), the connecting shaft (1-2-3) is connected with the hand lever (1-2-2), the slideway I (1-2-4) is positioned at the right side of the connecting shaft (1-2-3), the slide way I (1-2-4) is connected with the connecting shaft (1-2-3), the slide rod I (1-2-5) is positioned on the right side of the slide way I (1-2-4), the slide rod I (1-2-5) is connected with the slide way I (1-2-4), the spring I (1-2-6) is positioned on the right side of the slide way I (1-2-4), the spring I (1-2-6) is connected with the slide way I (1-2-4), the stop block I (1-2-7) is positioned on the right side of the spring I (1-2-6), the stop block I (1-2-7) is connected with the spring I (1-2-6), the driven shaft (1-2-8) is positioned on the right side of the stop block I (1-2-7), the driven shaft (1-2-8) is connected with the first stop block (1-2-7);
the material guide (2) consists of a motor II (2-1), a main wheel II (2-2), a belt II (2-3), a driven wheel II (2-4), a wind selecting channel (2-5), a hinged support II (2-6), a slide way II (2-7), a support rod (2-8), a push plate (2-9), a nut (2-10), a spring II (2-11), a slide block II (2-12), a lower hinged support (2-13) and a fan (2-14), wherein the main wheel II (2-2) is positioned on the side face of the motor II (2-1), the main wheel II (2-2) is connected with the motor II (2-1), the belt II (2-3) is positioned on the left side of the main wheel II (2-2), the belt II (2-3) is connected with the main wheel II (2-2), the driven wheel II (2-4) is positioned on the left side of the belt II (2-3), the driven wheel II (2-4) is connected with the belt II (2-3), the air separation channel (2-5) is positioned at the upper side of the driven wheel II (2-4), the air separation channel (2-5) is connected with the driven wheel II (2-4), the hinged support II (2-6) is positioned at the lower side of the air separation channel (2-5), the hinged support II (2-6) is connected with the air separation channel (2-5), the push plate (2-9) is positioned at the outer side of the supporting rod (2-8), the push plate (2-9) is connected with the supporting rod (2-8), the nut (2-10) is positioned at the lower side of the supporting rod (2-8), the nut (2-10) is connected with the supporting rod (2-8), the nut (2-10) is positioned at the lower side of the push plate (2-9), the nut (2-10) is connected with the push plate (, a second spring (2-11) is positioned on the upper side of the push plate (2-9), the second spring (2-11) is connected with the push plate (2-9), a second sliding block (2-12) is positioned on the upper side of the second spring (2-11), the second sliding block (2-12) is connected with the second spring (2-11), the second sliding block (2-12) is positioned on the inner side of a second sliding way (2-7), the second sliding block (2-12) is connected with the second sliding way (2-7), a lower hinged support (2-13) is positioned on the upper side of a supporting rod (2-8), the lower hinged support (2-13) is connected with the supporting rod (2-8), the lower hinged support (2-13) is positioned on the lower side of the air separation channel (2-5), the lower hinged support (2-13) is connected with the air separation channel (2-5), and a fan (2-14) is positioned on the right side of the air;
the grinding (3) consists of a motor III (3-1), a grinding wheel (3-2) and a grinding channel (3-3), wherein the motor III (3-1) is positioned at the right side of the grinding wheel (3-2), the motor III (3-1) is connected with the grinding wheel (3-2), the grinding wheel (3-2) is positioned at the inner side of the grinding channel (3-3), and the grinding wheel (3-2) is connected with the grinding channel (3-3);
the forming device (4) consists of a lifting device (4-1) and a forming box (4-2), and the lifting device (4-1) is positioned on the upper side of the forming box (4-2); the lifting device (4-1) consists of a pressing plate (4-1-1), a guide rail four (4-1-2), a screw rod (4-1-3), a screw nut (4-1-4), an installation table four (4-1-5), a motor four (4-1-6), an inner shaft (4-1-7), a connecting rod one (4-1-8), a spring four (4-1-9), a connecting rod two (4-1-10), an installation plate four (4-1-11), a bearing seat (4-1-12), a bevel wheel left (4-1-13), an outer shaft (4-1-14), a bevel wheel right (4-1-15) and a bevel wheel main (4-1-16), wherein the screw nut (4-1-4) is positioned on the upper side of the pressing plate (4-1-1), the screw nut (4-1-4) is connected with the pressing plate (4-1-1), the screw nut (4-1-4) is positioned on the outer side of the screw rod (4-1-3), the screw nut (4-1-4) is connected with the screw rod (4-1-3), the screw nut (4-1-4) is positioned on the outer side of the guide rail four (4-1-2), the screw nut (4-1-4) is connected with the guide rail four (4-1-2), the installation table four (4-1-5) is positioned on the upper side of the guide rail four (4-1-2), the installation table four (4-1-5) is connected with the guide rail four (4-1-2), the installation table four (4-1-5) is positioned on the upper side of the screw rod (4-1-3), the installation table four (4-1-5) is connected with the screw rod (4-1-3), the motor IV (4-1-6) is positioned at the upper side of the mounting table IV (4-1-5), the motor IV (4-1-6) is connected with the mounting table IV (4-1-5), the inner shaft (4-1-7) is positioned at the right side of the motor IV (4-1-6), the inner shaft (4-1-7) is connected with the motor IV (4-1-6), the spring IV (4-1-9) is positioned at the upper side of the connecting rod I (4-1-8), the connecting rod II (4-1-10) is positioned at the outer side of the spring IV (4-1-9), the connecting rod II (4-1-10) is connected with the spring IV (4-1-9), the connecting rod II (4-1-10) is positioned at the upper side of the connecting rod I (4-1-8), the second connecting rod (4-1-10) is connected with the first connecting rod (4-1-8), the fourth mounting plate (4-1-11) is positioned on the side surface of the second connecting rod (4-1-10), the fourth mounting plate (4-1-11) is connected with the second connecting rod (4-1-10), the fourth mounting plate (4-1-11) is positioned on the side surface of the first connecting rod (4-1-8), the fourth mounting plate (4-1-11) is connected with the first connecting rod (4-1-8), the bearing seat (4-1-12) is positioned on the upper side of the fourth mounting table (4-1-5), the bearing seat (4-1-12) is connected with the fourth mounting table (4-1-5), the outer shaft (4-1-14) is positioned on the left side (4-1-13) of the bevel wheel, the outer shaft (4-1-14) is connected with the left umbrella wheel (4-1-13), the right umbrella wheel (4-1-15) is positioned at the right side of the outer shaft (4-1-14), the right umbrella wheel (4-1-15) is connected with the outer shaft (4-1-14), the outer shaft (4-1-14) is positioned at the left side of the first connecting rod (4-1-8), the outer shaft (4-1-14) is connected with the first connecting rod (4-1-8), the outer shaft (4-1-14) is positioned at the left side of the second connecting rod (4-1-10), the outer shaft (4-1-14) is connected with the second connecting rod (4-1-10), the main umbrella wheel (4-1-16) is positioned at the upper side of the screw rod (4-1-3), and the main umbrella wheel (4-1-16) is connected with the screw rod (4-1-3);
the screw nut (4-1-4) consists of a screw nut body (4-1-4-1), a threaded hole (4-1-4-2) and a through hole (4-1-4-3), wherein the threaded hole (4-1-4-2) is positioned in the center of the screw nut body (4-1-4-1), the threaded hole (4-1-4-2) is connected with the screw nut body (4-1-4-1), the through hole (4-1-4-3) is positioned on two sides of the screw nut body (4-1-4-1), and the through hole (4-1-4-3) is connected with the screw nut body (4-1-4-1);
the forming box (4-2) consists of a guide support (4-2-1) and an inner box (4-2-2), the guide support (4-2-1) is positioned at the lower side of the inner box (4-2-2), and the guide support (4-2-1) is connected with the inner box (4-2-2);
the inner box (4-2-2) consists of a box body (4-2-2-1), an inner spring (4-2-2-2), a slide block (4-2-2-3), a slide way (4-2-2-4), a pin (4-2-2-5) and an outer spring (4-2-2-6), wherein the inner spring (4-2-2-2) is positioned at the inner side of the slide way (4-2-2-4), the inner spring (4-2-2-2) is connected with the slide way (4-2-2-4), the slide block (4-2-2-3) is positioned at the inner side of the slide way (4-2-2-4), the slide block (4-2-2-3) is connected with the slide way (4-2-2-4), the slide block four (4-2-2-3) is positioned at the upper side of the inner spring (4-2-2-2), the slide block four (4-2-2-3) is connected with the inner spring (4-2-2-2), the slide way four (4-2-2-4) is positioned at two sides of the box body (4-2-2-1), the slide way four (4-2-2-4) is connected with the box body (4-2-2-1), the pin (4-2-2-5) is positioned at the upper side of the box body (4-2-2-1), the pin (4-2-2-5) is connected with the box body (4-2-2-1), the outer spring (4-2-2-6) is positioned at the upper side of the box body (4-2-2-1), the outer spring (4-2-2-6) is connected with the box body (4-2-2-1), and the outer spring (4-2-2-6) is connected with the pin (4-2-2-5);
the four sliding blocks (4-2-2-3) are composed of edge sliding blocks (4-2-2-3-1), a one-way base (4-2-2-3-2), small springs (4-2-2-3-3), one-way plugs (4-2-2-3-4) and variable diameter holes (4-2-2-3-5), the edge sliding blocks (4-2-2-3-1) are positioned at two sides of the one-way base (4-2-2-3-2), the edge sliding blocks (4-2-2-3-1) are connected with the one-way base (4-2-2-3-2), the variable diameter holes (4-2-2-3-5) are positioned at the inner side of the one-way base (4-2-2-3-2), the variable-diameter hole (4-2-2-3-5) is connected with the one-way base (4-2-2-3-2), the small spring (4-2-2-3-3) is positioned at the upper side of the one-way plug (4-2-2-3-4), the small spring (4-2-2-3-3) is connected with the one-way plug (4-2-2-3-4), the small spring (4-2-2-3-3) is positioned at the inner side of the variable-diameter hole (4-2-2-3-5), the small spring (4-2-2-3-3) is connected with the variable-diameter hole (4-2-2-3-5), and the one-way plug (4-2-2-3-4) is positioned at the variable-diameter hole (4-2-2-3-5) On the inner side, a one-way plug (4-2-2-3-4) is connected with a diameter-variable hole (4-2-2-3-5);
the transfer (5) is composed of a motor five (5-1), a rod one (5-2), a rod two (5-3), a rod three (5-4), a rotating shaft five (5-5) and a push rod (5-6), wherein the rod one (5-2) is positioned on the side surface of the motor five (5-1), the rod one (5-2) is connected with the motor five (5-1), the rod two (5-3) is positioned on the upper side of the rod one (5-2), the rod two (5-3) is connected with the rod one (5-2), the rod three (5-4) is positioned on the right side of the rod two (5-3), the rod three (5-4) is connected with the rod two (5-3), the rotating shaft five (5-5) is positioned on the right side of the rod three (5-4), the rotating shaft five (5-5) is connected with the rod three (5-4), the push rod (5-6) is positioned on the upper side of the rod two (5-3), the push rod (5-6) is connected with the second rod (5-3);
the secondary crushing (6) consists of a main frame (6-1), a sliding seat (6-2), a sliding block shaft (6-3), a bottom rod six (6-4), a spring six-small (6-5), a hinged support six (6-6), a crushing cavity (6-7), a crushing ball (6-8), a motor six (6-9), a counterweight rotating block (6-10), a large sliding block six (6-11), a large sliding way six (6-12), a sliding way six (6-13) and a spring six-large (6-14), wherein the main frame (6-1) is positioned at the lower side of the sliding seat (6-2), the main frame (6-1) is connected with the sliding seat (6-2), the bottom rod six (6-4) is positioned at the upper side of the sliding seat (6-2), and the bottom rod six (6-4) is connected with the sliding seat (6-2), a bottom rod six (6-4) is positioned on the upper side of the sliding block shaft (6-3), the bottom rod six (6-4) is connected with the sliding block shaft (6-3), a spring six (6-5) is positioned on the upper side of the sliding seat (6-2), the spring six (6-5) is connected with the sliding seat (6-2), the spring six (6-5) is positioned on the lower side of the hinged support six (6-6), the spring six (6-5) is connected with the hinged support six (6-6), the crushing cavity (6-7) is positioned on the upper side of the hinged support six (6-6), the crushing cavity (6-7) is connected with the hinged support six (6-6), the crushing ball (6-8) is positioned on the inner side of the crushing cavity (6-7), the crushing ball (6-8) is connected with the crushing cavity (6-7), and a motor six (6-9) is positioned on the side of the crushing cavity (6-7), a motor six (6-9) is connected with the crushing cavity (6-7), a counterweight rotating block (6-10) is positioned on the side surface of the motor six (6-9), the counterweight rotating block (6-10) is connected with the motor six (6-9), the counterweight rotating block (6-10) is positioned on the side surface of a large sliding block six (6-11), the counterweight rotating block (6-10) is connected with the large sliding block six (6-11), a large sliding way six (6-12) is positioned on the outer side of the large sliding block six (6-11), a large sliding way six (6-12) is connected with the large sliding block six (6-11), a sliding way six (6-13) is positioned on the inner side of the large sliding way six (6-12), a sliding way six (6-13) is connected with the large sliding way six (6-12), a spring six (6-14) is positioned on the inner side of the sliding way six (6-13), the six springs (6-14) are connected with the six slideways (6-13), the six springs (6-14) are positioned at two sides of the six large sliders (6-11), and the six springs (6-14) are connected with the six large sliders (6-11);
the feeding (1) is positioned on the upper side of the material guide (2), the feeding (1) is connected with the material guide (2), the material guide (2) is positioned on the upper side of the smashing (3), the material guide (2) is connected with the smashing (3), the forming (4) is positioned on the upper side of the transferring (5), the transferring (5) is positioned on the inner side of the re-smashing (6), the re-smashing (6) is positioned on the lower side of the smashing (3), and the re-smashing (6) is connected with the smashing (3);
the main frame (6-1) is connected with the mincing channel (3-3); the main frame (6-1) is made of carbon steel;
the working principle of the injection molding raw material manufacturing device is as follows: the raw materials are put into the shell (1-1-1), the hand lever (1-2-2) is rotated clockwise, and the hand lever (1-2-2) drives the main shaft (1-2-1) to rotate clockwise; the main shaft (1-2-1) drives the baffle (1-1-3) on the left side to rotate clockwise, the hand lever (1-2-2) drives the connecting shaft (1-2-3) to rotate clockwise, the connecting shaft (1-2-3) drives the slideway I (1-2-4) to rotate anticlockwise, the slideway I (1-2-4) drives the sliding rod I (1-2-5) to rotate anticlockwise, the sliding rod I (1-2-5) drives the baffle I (1-2-7) to rotate anticlockwise, in the rotating process of the hand lever (1-2-2), the distance between the connecting shaft (1-2-3) and the driven shaft (1-2-8) is reduced, and the sliding rod I (1-2-5) moves inwards along the slideway I (1-2-4), the spring I (1-2-6) is compressed, when the distance between the connecting shaft (1-2-3) and the driven shaft (1-2-8) exceeds the minimum value, the elastic potential energy of the spring I (1-2-6) is converted into kinetic energy to push the sliding rod I (1-2-5) to extend out, the distance between the connecting shaft (1-2-3) and the driven shaft (1-2-8) is increased, the driven shaft (1-2-8) drives the baffle (1-1-3) on the right side to rotate anticlockwise, the baffle (1-1-3) rotates by taking the hinged support I (1-1-2) as the center, the baffle (1-1-3) seals the shell (1-1-1), the spring I (1-2-6) compresses the baffle (1-1-3) and the shell (1-1-1-1), the feeding port is shielded by the baffle, and the baffle has a self-locking function to prevent the raw materials from flowing backwards; the second motor (2-1) drives the second belt (2-3) to rotate, the second belt (2-3) drives the second driven wheel (2-4) to rotate, the second driven wheel (2-4) is an eccentric wheel, the distance between the outermost edge of the second driven wheel (2-4) and the outermost edge of the second main wheel (2-2) changes in the rotating process, the length of the second belt (2-3) is unchanged, so the second driven wheel (2-4) drives the wind selection channel (2-5) to swing around the second hinged support (2-6), the wind selection channel (2-5) drives the lower hinged support (2-13) to vibrate when vibrating, the lower hinged support (2-13) drives the second sliding block (2-12) to move, the second sliding block (2-12) moves along the direction of the second sliding way (2-7), and the supporting rod (2-8) and the second spring (2-11) generate the same force on the push plate (2-9), the nuts (2-10) are rotated, the nuts (2-10) move along the direction of the supporting rods (2-8), the acting force of the push plates (2-9) on the springs (2-11) is changed, the elasticity of the springs is changed for adjusting the damping effect, the air separation channels (2-5) uniformly vibrate the raw materials on the air separation channels when vibrating, the fans (2-14) blow impurities on the air separation channels (2-5) to the oblique upper sides of the air separation channels (2-5), the impurities are blown to one sides of the air separation channels when air separation is performed, collection is facilitated, the purity of the raw materials is guaranteed, and the raw materials enter the crushing device (3); the motor III (3-1) drives the mincing wheel (3-2) to rotate, the mincing wheel (3-2) minces the raw materials in the mincing channel (3-3), and the raw materials are fed inwards; raw materials enter a box body (4-2-2-1), a motor four (4-1-6) drives an inner shaft (4-1-7) to rotate, the inner shaft (4-1-7) drives an outer shaft (4-1-14) to rotate, the outer shaft (4-1-14) drives an umbrella wheel right (4-1-15) to rotate, the umbrella wheel right (4-1-15) drives an umbrella wheel main (4-1-16) to rotate, the umbrella wheel main (4-1-16) drives a screw rod (4-1-3) to rotate, the screw rod (4-1-3) is connected with a threaded hole (4-1-4-2), the threaded hole (4-1-4-2) moves downwards along the screw rod (4-1-3), the through hole (4-1-4-3) is connected with the guide rail IV (4-1-2), the through hole (4-1-4-3) moves downwards along the guide rail IV (4-1-2) to prevent the screw matrix (4-1-4-1) from rotating, the screw matrix (4-1-4-1) moves downwards along the screw rod (4-1-3), the screw matrix (4-1-4) moves downwards, the screw matrix (4-1-4) drives the pressing plate (4-1-1) to move downwards, the pressing plate (4-1-1) compresses raw materials on the unidirectional base (4-2-2-3-2), the unidirectional base (4-2-2-3-2) is forced to move downwards, the side sliding block (4-2-2-3-1) moves downwards along the four sliding ways (4-2-2-4), the inner spring (4-2-2-2) is compressed, in the process of compressing raw materials, the pressure in the box body (4-2-2-1) is increased, high-pressure gas pushes the one-way plug (4-2-2-3-4) to move downwards, the small spring (4-2-2-3-3) is stretched, the diameter-variable hole (4-2-2-3-5) forms a passage with the outside, the gas is discharged through the diameter-variable hole (4-2-2-3-5), after the compression is finished, the elastic potential energy of the inner spring (4-2-2-2) is converted into kinetic energy, and the sliding block four (4-2-2-3) is pushed to move upwards, the four (4-2-2-3) sliding blocks drive the compressed raw materials to move upwards, the sliding blocks (4-2-2-3-1) push the pins (4-2-2-5) to move outwards, the outer springs (4-2-2-6) are compressed, when the unidirectional base (4-2-2-3-2) is arranged on the upper sides of the pins (4-2-2-5), the outer springs (4-2-2-6) drive the pins (4-2-2-5) to move inwards, the four (4-2-2-3) sliding blocks are limited, automatic discharging is completed, material taking is facilitated, and storage and transportation are facilitated; the motor five (5-1) drives the rod one (5-2) to rotate, the rod two (5-3) moves left and right by taking a connecting shaft of the rod three (5-4) and the rod two (5-3) as a fulcrum, the rod three (5-4) swings by taking the rotating shaft five (5-5) as a center, and the connecting shaft of the rod three (5-4) and the rod two (5-3) moves in a vertical direction in a sub-motion manner, so that the pushing rod (5-6) moves in a vertical direction in a sub-motion manner, and the pushing rod (5-6) pushes the sliding block four (4-2-2-3) to discharge raw materials; a motor six (6-9) drives a counter weight rotating block (6-10) to move, the counter weight rotating block (6-10) generates eccentric force when rotating, the counter weight rotating block (6-10) drives a sliding block six (6-11) to move, the sliding block six (6-11) moves along a large slideway six (6-12), a spring six (6-14) plays a role in shock absorption, the counter weight rotating block (6-10) drives a crushing cavity (6-7) to move, the crushing cavity (6-7) drives a hinged support six (6-6) to move, the hinged support six (6-6) drives a bottom rod six (6-4) to move, the bottom rod six (6-4) swings around a sliding block shaft (6-3), the sliding block shaft (6-3) moves along a sliding seat (6-2), and the crushing cavity (6-7) collides with a crushing ball (6-8) in the moving process, the raw material in the crushing chamber (6-7) is crushed.
2. An injection molding raw material forming apparatus according to claim 1, wherein: the number of the bearing seats (4-1-12) is two.
CN201910348967.1A 2019-04-28 2019-04-28 Device is made to raw and other materials of moulding plastics Active CN110064493B (en)

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