CN115501932A

CN115501932A - Auxiliary material grinds machine for butyronitrile gloves production

Info

Publication number: CN115501932A
Application number: CN202211155013.7A
Authority: CN
Inventors: 李瑞军; 高科; 武登高; 范洪福; 盖立亭; 许文奇
Original assignee: Jiangxi Yingke Medical Co ltd
Current assignee: Jiangxi Yingke Medical Co ltd
Priority date: 2022-09-21
Filing date: 2022-09-21
Publication date: 2022-12-23
Anticipated expiration: 2042-09-21
Also published as: CN115501932B

Abstract

The invention discloses an auxiliary material grinding machine for producing butyronitrile gloves, which comprises a box body, wherein a crushing device, a cooling grinding device, a screening device and a temperature control discharging device are arranged in the box body, a conveying device is arranged on the outer wall of the box body, and the crushing device comprises a crushing part and a material guide hopper; the cooling grinding device comprises an interval adjusting part, a grinding roller, a cooling part embedded in the grinding roller and a first camera arranged at the upper part of the interval adjusting part; the screening device comprises a vibration part, a screen and a second camera arranged on the base plate; the temperature control discharging device comprises a discharging opening, a discharging box, a turnover driving part, a cooling part and a first opening and closing part, wherein the turnover driving part is arranged at the bottom of the inner wall of the box body; the conveying device comprises a second opening and closing part, a first through hole, a second through hole, a conveying pipe and a self-lifting conveying part arranged at the bottom of the inner wall of the conveying pipe. The auxiliary material grinding machine is convenient for cooling during grinding of auxiliary materials and is convenient for secondary grinding of the auxiliary materials.

Description

Auxiliary material grinds machine for butyronitrile gloves production

Technical Field

The invention mainly relates to the technical field of disposable glove production, in particular to an auxiliary material grinding machine for butyronitrile glove production.

Background

The production of disposable gloves requires the use of latex, which is formulated from a variety of raw materials including certain adjuvants that require milling, such as zinc oxide and various pigments. The grinding machine generates high temperature when grinding the auxiliary materials, so that part of the auxiliary materials are discolored and deteriorated, and the quality of the butyronitrile gloves is further influenced.

According to the auxiliary material grinding device for the butyronitrile gloves, which is provided by the patent document with the application number of CN201920553292.X, the product is divided into an upper layer and a lower layer, the upper layer comprises a rotary cylinder and supporting structures at two ends, the cylinder is provided with a hole at one end, the hole is used for feeding and discharging materials, and the hole end is provided with a screen plate and a cylinder cover. The lower floor structure is the device that makes superstructure slope, because the ball mill volume that uses in this field is less, for saving the cost, has used manual drive's mode, uses turbine worm mechanism to drive the threaded rod and rotates, is provided with screw thread and threaded rod cooperation on the jacking device, and the jacking device rises and promotes superstructure slope. After the superstructure slope, open the cover, rotate the barrel and be driven and rotate, the fine powder flows out from the sieve, and the rinding body is stayed in the barrel, has improved the work efficiency who grinds greatly. The raw materials can be continuously added for grinding after the rotary cylinder body is flatly placed.

The auxiliary material of being convenient for in the above-mentioned patent flows from the sieve, and the rinding body is stayed in rotating the barrel, but the auxiliary material of not being convenient for cooling when grinding, the auxiliary material secondary of not being convenient for grinds.

Disclosure of Invention

The invention mainly provides an auxiliary material grinding machine for producing butyronitrile gloves, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the auxiliary material grinding machine for producing the butyronitrile gloves comprises a box body, wherein a feeding hole is formed in the top of the box body, a crushing device, a cooling grinding device, a screening device and a temperature control discharging device are sequentially arranged in the box body from top to bottom, a conveying device is arranged on the outer wall of the box body, the crushing device comprises a crushing part and a material guide hopper which are sequentially arranged in the box body from top to bottom, and the crushing part is used for receiving auxiliary materials entering from the feeding hole and primarily crushing the auxiliary materials;

the cooling grinding device comprises two spacing adjusting parts symmetrically arranged on the inner wall of the box body, two grinding rollers symmetrically arranged at the execution ends of the two spacing adjusting parts, a cooling part embedded in each grinding roller, and a first camera arranged on the inner wall of the box body and positioned at the upper part of the spacing adjusting part, wherein the first camera is used for observing the color of auxiliary materials positioned between the two grinding rollers, and the grinding rollers are used for grinding the auxiliary materials discharged from the guide hopper;

the screening device comprises a base plate arranged on the inner wall of the box body on one side far away from the conveying device, a screen mesh with one end connected with the upper surface of the base plate through a vibration part and the other end hinged with the inner wall of the box body, and a second camera arranged on the base plate and used for observing the color of the auxiliary material after the screen mesh is screened;

the temperature-control discharging device comprises a discharging opening penetrating through the side wall of the box body, a discharging box, a turnover driving part, a cooling part and a first opening and closing part, wherein the middle position of the bottom of the discharging box is connected with the inner wall of the box body in a rotating mode through a shaft rod, one end of the discharging box extends to the outside of the discharging opening, the turnover driving part is arranged at the bottom of the inner wall of the box body and is used for driving the discharging box to turn over, the cooling part is arranged at the bottom of the inner wall of the box body and is used for cooling auxiliary materials in the discharging box, the first opening and closing part is arranged on the inner wall of the box body and is used for opening or closing the discharging opening, and the screen is used for receiving the auxiliary materials ground by the grinding roller;

the conveying device comprises a first through hole penetrating through the side wall of the box body and located on the upper portion of the screen, a second through hole penetrating through the side wall of the box body and located on the upper portion of the material guide hopper, a conveying pipe, a self-lifting conveying part and a second opening and closing part, wherein the bottom of the side wall is communicated with the first through hole, the top of the side wall is communicated with the second through hole, the self-lifting conveying part is arranged at the bottom of the inner wall of the conveying pipe, and the second opening and closing part is arranged on the inner wall of the box body and used for opening or closing the first through hole.

Preferably, the crushing component comprises two first shaft rods which are rotatably connected with the inner wall of the box body and symmetrically distributed, a toothed edge crushing roller which is sleeved on the outer wall of the first shaft rod, a first motor which is arranged at the top of the box body and used for driving the first shaft rod to rotate, and a plurality of first semiconductor refrigerating pieces which are embedded in the toothed edge crushing roller. In this preferred embodiment, be convenient for carry out preliminary breakage to the auxiliary material through broken part, can cool down the auxiliary material when the while is broken.

Preferably, the interval adjustment part is including locating the slide rail box of box inner wall, the symmetry is located two first sliders in the slide rail box, both ends are rotated respectively and are connected slide rail box inner wall both ends and screw connection two the two-way lead screw of first slider locates slide rail box outer wall just is used for driving two-way lead screw pivoted second motor, sliding connection the L shape sliding seat of box outer wall, and locate transmission motor on the L shape sliding seat, it rotates through first central siphon to grind roller one end and connects one of them first slider in the interval adjustment part, the other end rotate through the second central siphon and connect another first slider in the interval adjustment part, the second central siphon runs through L shape sliding seat and connects the transmission motor output. In the present preferred embodiment, the distance between the two grinding rollers is conveniently adjusted by the distance adjusting part so as to control the fineness of the grinding of the auxiliary materials.

Preferably, the cooling part comprises a plurality of second semiconductor refrigerating pieces embedded in the two grinding rollers. In the preferred embodiment, the auxiliary materials are cooled conveniently during grinding through the cooling part.

Preferably, the vibration part comprises a vibration motor arranged on the base plate and a spring with one end connected with the execution end of the vibration motor and the other end connected with the bottom of the screen. In the preferred embodiment, the vibration component is used for facilitating the vibration of the auxiliary materials in the screen mesh, so as to facilitate the efficient screening.

Preferably, the turnover driving part comprises a first telescopic cylinder arranged at the bottom of the inner wall of the box body. In the preferred embodiment, the overturning driving part is convenient for driving the discharging box to overturn, so that the screened auxiliary materials enter the collecting box.

Preferably, the cooling part comprises a third semiconductor refrigeration piece which is arranged in the box body and is positioned at the lower part of the discharging box. In the preferred embodiment, cooling of the supplementary material in the discharge box is facilitated by the cooling member.

Preferably, the first opening and closing part comprises a second telescopic cylinder and a first baffle, the second telescopic cylinder is arranged on the inner wall of one side, far away from the conveying device, of the box body, the first baffle is arranged at the execution end of the second telescopic cylinder, and the second opening and closing part and the first opening and closing part are identical in structure. In the preferred embodiment, the auxiliary materials which are not cooled in the discharging box can conveniently enter the collecting box through the discharging opening through the first opening and closing part, and the auxiliary materials which are not screened by the screen can conveniently enter the conveying device through the first through hole through the second opening and closing part.

Preferably, the outer wall of the box body is provided with a collecting part, and the collecting part comprises a collecting cover and a collecting box, wherein the collecting cover is arranged on the outer wall of one side, far away from the conveying device, of the box body and covers the discharging end of the discharging box, and the collecting box is arranged on the lower portion of the collecting cover. In this preferred embodiment, be convenient for high-efficient collection auxiliary material and can prevent to produce the flying dust when the auxiliary material is unloaded through collecting the part.

Preferably, the self-lifting conveying component comprises a third telescopic cylinder arranged at the bottom of the inner wall of the conveying pipe, a lifting plate arranged at the execution end of the third telescopic cylinder, a turning plate with one end hinged to the upper surface of the lifting plate, an air bag arranged on the lifting plate and used for driving the turning plate to rotate, and an air source pipe with one end communicated with the air bag. In the preferred embodiment, the auxiliary materials which are not screened by the screen mesh are conveyed back to the material guide hopper by the self-lifting conveying part, so that the secondary grinding is facilitated.

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

the device in the invention is convenient for cooling when grinding the auxiliary materials and is convenient for secondary grinding of the auxiliary materials.

According to the auxiliary material crushing device, the auxiliary material is crushed primarily through the crushing device, the crushing component in the crushing device is convenient for crushing the auxiliary material primarily, and the first semiconductor refrigerating sheet is convenient for cooling the crushed auxiliary material;

realize the cooling grinding of auxiliary material through cooling grinder, be convenient for adjust the interval between two grinding rollers through interval adjusting part in the cooling grinder to the meticulous degree of control auxiliary material grinding is convenient for cool down the auxiliary material when grinding through cooling part.

Realize the high-efficient screening of auxiliary material through screening plant, the auxiliary material in the vibrations screen cloth of being convenient for through vibrations part in the screening plant to high-efficient screening is convenient for.

Realize the high-efficient collection of auxiliary material through accuse temperature discharge apparatus, be convenient for drive through upset drive part among the accuse temperature discharge apparatus and arrange the upset of material box to auxiliary material after the screening gets into collects the box, is convenient for cool off the auxiliary material in the discharge box through cooling part, through first opening and close the part be convenient for discharge box in not refrigerated auxiliary material pass through the discharge opening and get into and collect the box, be convenient for high-efficiently collect the auxiliary material through collecting the part.

Realize the secondary grinding of auxiliary material through conveyer, be convenient for carry back the guide fill through the auxiliary material that does not pass through the screen cloth screening through the transport unit that goes up and down certainly among the conveyer to the secondary grinding is convenient for.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is an isometric view of the overall construction of the present invention;

fig. 2 is an exploded view of the crushing device structure of the present invention;

FIG. 3 is an exploded view of the cooling grinding device according to the present invention;

FIG. 4 is an exploded view of the screening device and temperature controlled discharge device of the present invention;

FIG. 5 is an exploded view of the conveyor structure of the present invention;

FIG. 6 is a front elevational view of the overall construction of the present invention;

FIG. 7 is a cross-sectional view of the overall construction of the present invention;

FIG. 8 is an enlarged view of the structure at A of the present invention.

Description of the drawings: 10. a box body; 101. a feed inlet; 20. a crushing device; 21. a crushing member; 211. a first shaft lever; 212. a toothed edge crushing roller; 213. a first motor; 214. a first semiconductor refrigeration chip; 22. a material guide hopper; 30. a cooling grinding device; 31. a grinding roller; 311. a first shaft tube; 312. a second shaft pipe; 32. a spacing adjustment member; 321. a slide rail box; 322. a first slider; 323. a bidirectional screw rod; 324. a second motor; 33. a temperature reduction component; 331. a second semiconductor refrigeration chip; 34. a first camera; 35. an L-shaped sliding seat; 36. a drive motor; 40. a screening device; 41. screening a screen; 42. a vibration member; 421. vibrating a motor; 422. a spring; 43. a second camera; 44. a base plate; 50. a conveying device; 51. a first through hole; 52. a second through hole; 53. a delivery tube; 54. a self-elevating transport member; 541. a third telescopic cylinder; 542. a lifting plate; 543. turning over a plate; 544. an air bag; 545. a gas source pipe; 55. two opening and closing parts; 60. a temperature control discharging device; 61. a discharge box; 62. a tumble drive component; 621. a first telescoping cylinder; 63. a cooling member; 631. a third semiconductor refrigeration chip; 64. a discharge opening; 65. a first opening and closing member; 651. a second telescoping cylinder; 652. a first baffle plate; 66. a collecting member; 661. a collection cover; 662. and (4) collecting the box.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification of the present invention are for the purpose of describing particular embodiments only and are not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Please refer to fig. 1, 2, 3, 6, and 7, in a preferred embodiment of the present invention, an auxiliary material grinding machine for producing nitrile gloves includes a box 10, a feeding opening 101 is disposed at the top of the box 10, a crushing device 20, a temperature reduction grinding device 30, a screening device 40, and a temperature control discharging device 60 are sequentially disposed in the box 10 from top to bottom, a conveying device 50 is disposed on an outer wall of the box 10, the crushing device 20 includes a crushing member 21 and a material guiding hopper 22 sequentially disposed in the box 10 from top to bottom, and the crushing member 21 is configured to receive auxiliary materials entering from the feeding opening 101 and primarily crush the auxiliary materials; the cooling grinding device 30 comprises two spacing adjusting parts 32 symmetrically arranged on the inner wall of the box body 10, two grinding rollers 31 symmetrically arranged at the execution ends of the two spacing adjusting parts 32, a cooling part 33 embedded in each grinding roller 31, and a first camera 34 arranged on the inner wall of the box body 10 and positioned above the spacing adjusting part 32, wherein the first camera 34 is used for observing the color of auxiliary materials positioned between the two grinding rollers 31, and the grinding rollers 31 are used for grinding the auxiliary materials discharged by the material guide hopper 22; broken part 21 is including rotating the connection box 10 inner wall just is two first axle levers 211 of symmetric distribution, and the cover is located first axle lever 211 outer wall tooth limit crushing roller 212 is located box 10 top just is used for driving a first axle lever 211 pivoted first motor 213, and inlays and locate a plurality of first semiconductor refrigeration pieces 214 in the tooth limit crushing roller 212, interval adjusting part 32 is including locating slide rail box 321 of box 10 inner wall, the symmetry is located two first slider 322 in the slide rail box 321, both ends are rotated respectively and are connected slide rail box 321 inner wall both ends and screw connection two-way lead screw 323 of first slider 322 is located slide rail box 321 outer wall just is used for driving two-way lead screw 323 pivoted second motor 324, sliding connection the L shape sliding seat 35 of box 10 outer wall, and locate drive motor 36 on the L shape sliding seat 35, grind roller 31 one end and rotate through first 311 and connect one of them first slider 322 in the interval adjusting part 32, the other end passes through second axle pipe 312 and rotates and connects in another slider adjusting part 32 the drive motor 36 that the second axle pipe 322 runs through two second axle pipe cooling pieces 33, the second axle pipe 322 passes through two drive motor output ends that the first slider 322.

It should be noted that, in this embodiment, when the auxiliary materials are crushed and ground, the auxiliary materials are placed in the feeding hole 101, and then the crushing and grinding can be started, after the auxiliary materials enter the crushing device 20 from the feeding hole 101, the crushing part 21 performs primary crushing on the auxiliary materials, and the auxiliary materials after the primary crushing are discharged to the cooling and grinding device 30 through the material guiding hopper 22;

after the auxiliary materials enter the cooling grinding device 30, the distance adjusting part 32 adjusts the distance between the two grinding rollers 31 according to the fineness of the auxiliary materials ground by the grinding rollers 31, the auxiliary materials are ground by the grinding rollers 31 after the distance adjustment is finished, the first camera 34 observes the color of the auxiliary materials between the two grinding rollers 31, and if the color of the auxiliary materials changes, the first semiconductor refrigerating sheet 214 and the second semiconductor refrigerating sheet 331 start to cool the auxiliary materials;

further, when the crushing component 21 works, the execution end of the first motor 213 drives the first shaft lever 211 to rotate through a belt pulley and a belt, the first shaft lever 211 drives the toothed edge crushing roller 212 to rotate, and the toothed edge crushing roller 212 performs preliminary crushing on the auxiliary material;

further, when the spacing adjusting component 32 works, the execution end of the second motor 324 drives the bidirectional screw rod 323 to rotate, the bidirectional screw rod 323 drives the two first sliding blocks 322 to slide oppositely or reversely, and the two first sliding blocks 322 drive the two grinding rollers 31 to slide oppositely or reversely;

further, when the grinding roller 31 works, the output end of the transmission motor 36 drives the second shaft pipe 312 to rotate, and the second shaft pipe 312 drives the grinding roller 31 to rotate;

further, when the cooling unit 33 works, the controller receives the color information of the auxiliary material observed by the first camera 34, and triggers the first semiconductor chilling plate 214 and the second semiconductor chilling plate 331 when the color information of the auxiliary material changes, so that the first semiconductor chilling plate 214 and the second semiconductor chilling plate 331 start to cool the auxiliary material during crushing and grinding.

Referring to fig. 1, 4, 6, 7 and 8 again, in another preferred embodiment of the present invention, the screening device 40 includes a base plate 44 disposed on an inner wall of the box 10 on a side away from the conveying device 50, a screen 41 having a bottom end connected to an upper surface of the base plate 44 through a vibration member 42 and an other end hinged to the inner wall of the box 10, and a second camera 43 disposed on the base plate 44 and used for observing the color of the auxiliary materials screened by the screen 41; the temperature-controlled discharging device 60 comprises a discharging opening 64 penetrating through the side wall of the box body 10, a discharging box 61, a turnover driving part 62, a cooling part 63 and a first opening and closing part 65, wherein the middle position of the bottom of the temperature-controlled discharging device is rotatably connected with the inner wall of the box body 10 through a shaft rod, one end of the turnover driving part extends to the outside of the discharging opening 64, the turnover driving part 62 is arranged at the bottom of the inner wall of the box body 10 and is used for driving the discharging box 61 to turn over, the cooling part 63 is arranged at the bottom of the inner wall of the box body 10 and is used for cooling auxiliary materials in the discharging box 61, the first opening and closing part 65 is arranged on the inner wall of the box body 10 and is used for opening or closing the discharging opening 64, and the screen 41 is used for receiving the auxiliary materials ground by the grinding roller 31; the vibrating component 42 is including locating vibrating motor 421 on the base plate 44 to and the spring 422 that the vibrating motor 421 execution end other end is connected to one end screen 41 bottom, upset driver part 62 is including locating the first telescoping cylinder 621 of box 10 inner wall bottom, cooling part 63 is including locating the third semiconductor refrigeration piece 631 that just is located the magazine 61 lower part in the box 10, first part 65 of opening and close is including locating the second telescoping cylinder 651 of conveyer 50 one side inner wall is kept away from to box 10, and locates the first baffle 652 of second telescoping cylinder 651 execution end, the second part 55 of opening and close is the same with first part 65 structure of opening and close, the box 10 outer wall is equipped with collecting component 66, collecting component 66 is including locating conveyer 50 one side outer wall and cover are located the collection lid 661 of magazine 61 discharge end are kept away from to box 10, and locate collection box 662 of lid lower part.

It should be noted that, in this embodiment, the auxiliary materials after being ground by the temperature-reducing grinding device 30 are screened by the screen 41, the execution end of the vibration component 42 drives the screen 41 to vibrate, the auxiliary materials screened by the screen 41 enter the discharging box 61, and the auxiliary materials not screened by the screen 41 enter the conveying device 50;

the second camera 43 observes the color of the auxiliary materials screened by the screen 41, if the color of the auxiliary materials is changed and the first opening and closing part 65 is closed, the cooling part 63 cools the auxiliary materials in the discharge box 61, after the cooling is finished, the first opening and closing part 65 is opened, and the execution end of the turnover driving part 62 drives the discharge box 61 to rotate, so that the auxiliary materials in the discharge box 61 are discharged into the collection box 662;

further, when the vibration component 42 works, the execution end of the vibration motor 421 drives the spring 422 to vibrate, and one end of the spring 422 drives the screen 41 to vibrate, so that the screen 41 efficiently screens the auxiliary materials;

further, when the turnover driving part 62 works, the executing end of the first telescopic cylinder 621 pushes the bottom of the discharge box 61, so that the discharge box 61 rotates and tilts, and the auxiliary materials in the discharge box 61 are discharged into the collection box 662;

further, when the cooling unit 63 works, the controller receives the color information of the auxiliary materials observed by the second camera 43, and triggers the cooling unit 63 to turn on and off when the color information of the auxiliary materials changes, so that the third semiconductor chilling plate 631 starts to cool the auxiliary materials in the discharging box 61;

further, when the first opening and closing member 65 works, the execution end of the second telescopic cylinder 651 drives the first flapper 652 to extend and retract, so that the first flapper 652 opens or closes the discharge opening 64;

further, when the collecting member 66 is operated, the collecting box 662 collects the auxiliary materials discharged from the discharging box 61, and the collecting cover 661 collects the discharged auxiliary materials.

Referring to fig. 1, 5, 6 and 7, in another preferred embodiment of the present invention, the conveying device 50 includes a first through hole 51 penetrating through a side wall of the box 10 and located above the screen 41, a second through hole 52 penetrating through a side wall of the box 10 and located above the material guiding hopper 22, a conveying pipe 53 communicating with the first through hole 51 at a bottom of the side wall and communicating with the second through hole 52 at a top of the side wall, a self-lifting conveying member 54 disposed at a bottom of an inner wall of the conveying pipe 53, and a second opening/closing member 55 disposed at an inner wall of the box 10 and used for opening or closing the first through hole 51; the self-lifting conveying component 54 comprises a third telescopic cylinder 541 arranged at the bottom of the inner wall of the conveying pipe 53, a lifting plate 542 arranged at an execution end of the third telescopic cylinder 541, a turning plate 543 with one end hinged with the upper surface of the lifting plate 542, an air bag 544 arranged on the lifting plate 542 and used for driving the turning plate 543 to rotate, and an air source pipe 545 with one end communicated with the air bag 544.

It should be noted that, in this embodiment, after the screening is completed, the second opening and closing member 55 is opened, the auxiliary materials that are not screened by the screen 41 enter the conveying device 50, after the powder enters the conveying device 50, the second opening and closing member 55 is closed, the conveying device 50 pushes the auxiliary materials that are not screened by the screen 41 back to the material guide hopper 22, and the auxiliary materials that are pushed back to the material guide hopper 22 enter the grinding roller 31 for secondary grinding;

further, the operating principle of the second opening and closing member 55 is the same as that of the first opening and closing member 65;

further, when the self-lifting conveying component 54 works, the execution end of the third telescopic cylinder 541 drives the lifting plate 542 to lift, the lifting plate 542 drives the turning plate 543 to lift, when the turning plate 543 pushes the auxiliary material to lift to the second through hole 52, the air source system connected with the air source pipe 545 supplies air to the air source pipe 545, the air source pipe 545 inflates the air bag 544, and the air bag 544 bulges to push the turning plate 543 to turn around the hinged position thereof, so that the auxiliary material slides into the material guide hopper 22.

The specific process of the invention is as follows:

the controller model is 6ES7323-1BL00-0AA 0.

When the auxiliary materials are crushed and ground, the auxiliary materials are placed in the crushing and grinding device through the feeding hole 101, the crushing part 21 performs primary crushing on the auxiliary materials after the auxiliary materials enter the crushing device 20 from the feeding hole 101, and the auxiliary materials after the primary crushing are discharged to the cooling and grinding device 30 through the material guide hopper 22;

when the crushing component 21 works, the execution end of the first motor 213 drives the first shaft lever 211 to rotate through a belt pulley and a belt, the first shaft lever 211 drives the toothed edge crushing roller 212 to rotate, and the toothed edge crushing roller 212 performs primary crushing on the auxiliary materials;

when the spacing adjusting component 32 works, the execution end of the second motor 324 drives the two-way screw rod 323 to rotate, the two-way screw rod 323 drives the two first sliding blocks 322 to slide oppositely or reversely, and the two first sliding blocks 322 drive the two grinding rollers 31 to slide oppositely or reversely;

when the grinding roller 31 works, the output end of the transmission motor 36 drives the second shaft pipe 312 to rotate, and the second shaft pipe 312 drives the grinding roller 31 to rotate;

when the cooling component 33 works, the controller receives the auxiliary material color information observed by the first camera 34, and triggers the first semiconductor refrigeration piece 214 and the second semiconductor refrigeration piece 331 when the auxiliary material color information changes, so that the first semiconductor refrigeration piece 214 and the second semiconductor refrigeration piece 331 start to cool the crushed and ground auxiliary material;

the auxiliary materials ground by the cooling grinding device 30 are screened by the screen 41, the execution end of the vibration component 42 drives the screen 41 to vibrate, the auxiliary materials screened by the screen 41 enter the discharge box 61, and the auxiliary materials not screened by the screen 41 enter the conveying device 50;

when the vibration component 42 works, the execution end of the vibration motor 421 drives the spring 422 to vibrate, and one end of the spring 422 drives the screen 41 to vibrate, so that the screen 41 can efficiently screen auxiliary materials;

when the turnover driving part 62 works, the executing end of the first telescopic cylinder 621 pushes the bottom of the discharging box 61 to make the discharging box 61 rotate and incline, so that the auxiliary materials in the discharging box 61 are discharged into the collecting box 662;

when the cooling part 63 works, the controller receives the auxiliary material color information observed by the second camera 43, and triggers the cooling part 63 to open and close when the auxiliary material color information changes, so that the third semiconductor refrigerating sheet 631 starts to cool the auxiliary material in the discharging box 61;

when the first opening and closing component 65 works, the execution end of the second telescopic cylinder 651 drives the first baffle 652 to stretch, so that the first baffle 652 opens or closes the discharge opening 64;

when the collecting member 66 is operated, the collecting box 662 collects the auxiliary materials discharged from the discharging box 61, and the collecting cover 661 collects the discharged auxiliary materials;

after the screening is completed, the second opening and closing part 55 is opened, the auxiliary materials which are not screened by the screen 41 enter the conveying device 50, the second opening and closing part 55 is closed after the powder enters the conveying device 50, the conveying device 50 pushes the auxiliary materials which are not screened by the screen 41 back to the material guide hopper 22, and the auxiliary materials which are pushed back to the material guide hopper 22 enter the grinding roller 31 for secondary grinding;

the operation principle of the second opening and closing member 55 is the same as that of the first opening and closing member 65;

when the lifting conveying part 54 works, the execution end of the third telescopic cylinder 541 drives the lifting plate 542 to ascend, the lifting plate 542 drives the turning plate 543 to ascend, when the turning plate 543 pushes the auxiliary material to ascend to the second through hole 52, the air source system connected with the air source pipe 545 transmits air into the air source pipe 545, the air source pipe 545 inflates the air bag 544, and the air bag 544 swells to push the turning plate 543 to overturn around the hinged position thereof, so that the auxiliary material slides into the material guide hopper 22.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims

1. The auxiliary material grinding machine for producing the nitrile gloves comprises a box body (10), wherein a feeding hole (101) is formed in the top of the box body (10), and is characterized in that a crushing device (20), a cooling grinding device (30), a screening device (40) and a temperature control discharging device (60) are sequentially arranged in the box body (10) from top to bottom, a conveying device (50) is arranged on the outer wall of the box body (10), the crushing device (20) comprises a crushing part (21) and a material guide hopper (22) which are sequentially arranged in the box body (10) from top to bottom, and the crushing part (21) is used for receiving auxiliary materials entering from the feeding hole (101) and primarily crushing the auxiliary materials;

the cooling grinding device (30) comprises two spacing adjusting parts (32) symmetrically arranged on the inner wall of the box body (10), two grinding rollers (31) symmetrically arranged at the execution ends of the two spacing adjusting parts (32), a cooling part (33) embedded in each grinding roller (31), and a first camera (34) arranged on the inner wall of the box body (10) and positioned at the upper part of each spacing adjusting part (32), wherein the first camera (34) is used for observing the color of auxiliary materials positioned between the two grinding rollers (31), and the grinding rollers (31) are used for grinding the auxiliary materials discharged from the guide hopper (22);

the screening device (40) comprises a base plate (44) arranged on the inner wall of one side, far away from the conveying device (50), of the box body (10), a screen (41) with one end connected with the upper surface of the base plate (44) through a vibration part (42) and the other end hinged with the inner wall of the box body (10), and a second camera (43) arranged on the base plate (44) and used for observing the color of the auxiliary materials screened by the screen (41);

the temperature control discharging device (60) comprises a discharging opening (64) penetrating through the side wall of the box body (10), a discharging box (61) with one end extending to the outside of the discharging opening (64) and the middle position at the bottom rotatably connected with the inner wall of the box body (10) through a shaft rod, a turnover driving part (62) arranged at the bottom of the inner wall of the box body (10) and used for driving the discharging box (61) to turn over, a cooling part (63) arranged at the bottom of the inner wall of the box body (10) and used for cooling auxiliary materials in the discharging box (61), and a first opening and closing part (65) arranged at the inner wall of the box body (10) and used for opening or closing the discharging opening (64), wherein the screen (41) is used for receiving the auxiliary materials ground by the grinding roller (31);

the conveying device (50) comprises a first through hole (51) penetrating through the side wall of the box body (10) and located on the upper portion of the screen (41), a second through hole (52) penetrating through the side wall of the box body (10) and located on the upper portion of the material guide hopper (22), a conveying pipe (53) with the bottom of the side wall communicated with the first through hole (51) and the top of the side wall communicated with the second through hole (52), a self-lifting conveying part (54) arranged at the bottom of the inner wall of the conveying pipe (53), and a second opening and closing part (55) arranged on the inner wall of the box body (10) and used for opening or closing the first through hole (51).

2. The auxiliary material grinding machine for producing the nitrile gloves as recited in claim 1, wherein the crushing member (21) comprises two first shafts (211) rotatably connected to the inner wall of the box body (10) and symmetrically distributed, a toothed edge crushing roller (212) sleeved on the outer wall of the first shafts (211), a first motor (213) arranged at the top of the box body (10) and used for driving one first shaft (211) to rotate, and a plurality of first semiconductor cooling fins (214) embedded in the toothed edge crushing roller (212).

3. The auxiliary material grinding machine for producing the nitrile gloves as recited in claim 1, wherein the distance adjusting member (32) comprises a slide rail box (321) disposed on the inner wall of the box body (10), two first sliding blocks (322) symmetrically disposed in the slide rail box (321), a two-way screw rod (323) having two ends rotatably connected to two ends of the inner wall of the slide rail box (321) respectively and having a nut connected to the two first sliding blocks (322), a second motor (324) disposed on the outer wall of the slide rail box (321) and configured to drive the two-way screw rod (323) to rotate, an L-shaped sliding seat (35) slidably connected to the outer wall of the box body (10), and a transmission motor (36) disposed on the L-shaped sliding seat (35), one end of the grinding roller (31) is rotatably connected to one of the first sliding blocks (322) in the distance adjusting member (32) through a first shaft tube (311), the other end of the grinding roller is rotatably connected to the other first sliding blocks (322) in the distance adjusting member (32) through a second shaft tube (312), and the second shaft tube (312) is rotatably connected to the output end of the transmission motor (36).

4. An auxiliary material grinder for nitrile glove production according to claim 1, characterized in that the cooling means (33) comprise a plurality of second semiconductor chilling plates (331) embedded in the two grinding rollers (31).

5. The grinding machine for the auxiliary materials for the production of nitrile gloves according to claim 1, characterized in that the vibration part (42) comprises a vibration motor (421) arranged on the base plate (44) and a spring (422) with one end connected with the execution end of the vibration motor (421) and the other end connected with the bottom of the screen (41).

6. The grinder for auxiliary materials for nitrile glove production according to claim 1, wherein the overturning driving component (62) comprises a first telescopic cylinder (621) arranged at the bottom of the inner wall of the box body (10).

7. The auxiliary material grinder for producing nitrile gloves according to claim 1, wherein the cooling part (63) comprises a third semiconductor cooling plate (631) disposed in the box body (10) and located at the lower portion of the material discharging box (61).

8. The grinding machine for the auxiliary materials for the production of nitrile gloves according to claim 1, wherein the first opening and closing member (65) comprises a second telescopic cylinder (651) arranged on the inner wall of one side, away from the conveying device (50), of the box body (10), and a first baffle (652) arranged at the execution end of the second telescopic cylinder (651), and the second opening and closing member (55) and the first opening and closing member (65) are identical in structure.

9. The auxiliary material grinding machine for nitrile gloves production according to claim 1, wherein the outer wall of the box body (10) is provided with a collecting part (66), the collecting part (66) comprises a collecting cover (661) which is arranged on the outer wall of one side of the box body (10) far away from the conveying device (50) and covers the discharging end of the discharging box (61), and a collecting box (662) which is arranged at the lower part of the collecting cover (661).

10. The auxiliary material grinding machine for producing the nitrile gloves according to claim 1, wherein the self-lifting conveying part (54) comprises a third telescopic cylinder (541) arranged at the bottom of the inner wall of the conveying pipe (53), a lifting plate (542) arranged at an execution end of the third telescopic cylinder (541), a turning plate (543) with one end hinged to the upper surface of the lifting plate (542), an air bag (544) arranged on the lifting plate (542) and used for driving the turning plate (543) to rotate, and an air source pipe (545) with one end communicated with the air bag (544).