CN114102893A

CN114102893A - Nanometer antibacterial film production facility

Info

Publication number: CN114102893A
Application number: CN202111422388.0A
Authority: CN
Inventors: 崔建勋
Original assignee: Hebei Fulangshi Nano Technology Co ltd
Current assignee: Hebei Fulangshi Nano Technology Co ltd
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-03-01

Abstract

For solving above-mentioned technical problem, a nanometer antibacterial film production facility, including the install bin, material control feeding device, agitating unit, material surplus controlling means, discharge forming device, install other device through the install bin, material control feeding device collects can the volume when adding the material, agitating unit stirs and strikes off the material on the inside to the material of inside and places the caking, material surplus controlling means adds the material to the device inside according to the amount control of the inside surplus material of device, discharge forming device control discharge and function such as shaping, its characterized in that: the material control feeding device is fixedly installed inside the installation box, the stirring device is fixedly installed inside the installation box, the material allowance control device is fixedly installed inside the installation box, and the emission forming device is fixedly installed on the installation box.

Description

Nanometer antibacterial film production facility

Technical Field

The invention relates to production equipment, in particular to production equipment for a nano antibacterial film.

Background

With the progress of the development era of society, the requirements of people on some articles are higher and higher, and then nano materials are generated to correspond to the related directions, so that in order to better manufacture the nano antibacterial film, a nano antibacterial film production device is invented.

Disclosure of Invention

The invention relates to production equipment, in particular to nano antibacterial film production equipment, which has the functions of installing other devices through an installation box, collecting energy when materials are added by a material control feeding device, stirring the materials in the device by a stirring device, scraping the materials on the inner part to place lumps, adding the materials into the device by a material allowance control device according to the amount of the residual materials in the device, controlling discharge and forming by a discharge forming device and the like.

As a further optimization of the technical scheme, the nano antibacterial film production equipment comprises an installation box, a feed inlet, a feed pipe and a discharge port, wherein the feed inlet and the discharge port are formed in the box, and the feed pipe is fixedly installed on the box.

As a further optimization of the technical scheme, the invention relates to a nano antibacterial film production device, which comprises a first mounting seat, a sliding groove, a first discharge port, a connecting pipe, a first sliding plate, a first connecting hole, a first connecting control column, a first connecting pore passage, a sliding control groove, a first connecting bolt, a first spring, a movable discharge bolt, a discharge port, a second sliding plate, a first movable control bolt, a second spring, a third spring, a first connecting bolt, a first limiting bolt, a fourth spring, a limiting hole, a second discharge port, a second connecting bolt, a connecting mounting sleeve, a fifth spring and a second connecting plate, wherein the first mounting seat is fixedly mounted in a box body, the sliding groove is arranged on the first mounting seat, the first discharge port is arranged on the first mounting seat, the connecting pipe is fixedly mounted on the first mounting seat, the first sliding plate is slidably mounted in the connecting pipe, the first connecting hole is arranged on the first sliding plate, the first connecting control column is fixedly mounted on the first sliding plate, the first connecting pore channel is arranged on the first connecting control column, the sliding control groove is arranged on the second connecting control column, the first connecting bolt is fixedly arranged inside the first connecting control column, the first spring is fixedly arranged inside the first movable discharging bolt which is slidably arranged on the first connecting bolt, the second movable discharging bolt is slidably arranged inside the second connecting control column, the second movable controlling bolt is slidably arranged inside the second sliding plate, the second spring is arranged on the first movable controlling bolt, the third spring is arranged inside the first movable controlling bolt, the first connecting bolt is slidably arranged inside the first movable controlling bolt, the first limiting bolt is fixedly arranged on the first connecting bolt, the fourth spring is fixedly arranged on the first sliding plate and the second sliding plate, the limiting hole is arranged inside the first connecting control column, and the second discharging hole is arranged on the second connecting control column, the second connecting bolt is fixedly arranged on the second sliding plate, the second connecting bolt is slidably arranged on the connecting pipe, the connecting installation sleeve is fixedly arranged on the connecting pipe, the fifth spring is sleeved on the second connecting bolt, and the second connecting plate is fixedly arranged on the second connecting bolt.

As a further optimization of the technical scheme, the nano antibacterial film production equipment comprises a rotating ring, a pushing strip, a transmission gear, a connecting pushing column, a second mounting seat, a first rotating shaft, a stirring blade, an internal thread cylinder and a stirring gear, wherein the rotating ring is rotatably mounted inside a box body, the pushing strip is fixedly mounted on the rotating ring, the transmission gear is fixedly mounted on the rotating ring, the connecting pushing column is fixedly mounted on the second connecting plate, the second mounting seat is fixedly mounted inside the box body, the first rotating shaft is rotatably mounted on the second mounting seat, the stirring blade is fixedly mounted on the first rotating shaft, the internal thread cylinder is fixedly mounted on the stirring blade, and the stirring gear is fixedly mounted on the internal thread cylinder.

As a further optimization of the technical scheme, the invention relates to a nano antibacterial film production device, which comprises a mounting limit column, a limit spring, a limit ball, a limit sleeve, a floater, a pushing rack, a limit hole II, a fixed shaft, a transmission gear set, a connecting rack, a control baffle, a mounting column, a mounting seat III, a sliding plate III, a spring VII, a floater connecting rod, a pushing inclined plane block, a mounting cylinder sleeve, a limit mounting bolt, a connecting pushing square column, a spring VIII, a matching inclined plane block and a matching mounting sleeve, wherein the mounting limit column is fixedly arranged in a box body, the limit spring is arranged in the mounting limit column, the limit ball is slidably arranged in the mounting limit column, the limit sleeve is fixedly arranged on the floater, the floater is fixedly arranged on the pushing rack, the pushing rack is slidably arranged in the matching mounting sleeve, the limit hole II is arranged on the pushing rack, the fixed shaft is installed and fixed inside the box body, the transmission gear set is installed on the fixed shaft in a rotating mode, the connecting tooth rack is installed and fixed on the control baffle, the control baffle is installed and fixed inside the sliding groove in a sliding mode, the mounting column is installed and fixed inside the sliding groove, the mounting seat III is installed and fixed inside the box body, the sliding plate III is installed and fixed inside the mounting seat III in a sliding mode, the spring seven is installed and fixed inside the mounting seat III, the float connecting rod is installed and fixed on the sliding plate III, the pushing slope block is installed and fixed on the float connecting rod, the mounting barrel sleeve is installed and fixed on the matched mounting sleeve, the limited mounting bolt is installed and fixed inside the mounting barrel sleeve in a sliding mode, the connecting pushing square column is installed and fixed on the limited mounting bolt, the spring eight sleeves are installed and fixed on the connecting pushing square column, the matching slope block is installed and fixed on the connecting pushing square column, and the matched mounting sleeve is installed and fixed inside the box body.

As a further optimization of the technical scheme, the nano antibacterial film production equipment comprises a discharge bolt, a discharge pipeline I, a fixed connection bolt I, a movable discharge bolt, a discharge pipeline II and a discharge control spring, wherein the discharge bolt is fixedly installed on a box body, the discharge pipeline I is arranged on the discharge bolt, the fixed connection bolt I is fixedly installed inside the discharge bolt, the movable discharge bolt is slidably installed on the fixed connection bolt I, the discharge pipeline II is arranged on the movable discharge bolt, and the discharge control spring is fixedly installed on the fixed connection bolt I.

As a further optimization of the technical scheme, the transmission gear set of the material allowance control device is respectively meshed with the connecting rack and the pushing rack; the number of the mounting seat III, the sliding plate III, the spring seven and the floater connecting rod is two.

The production equipment of the nano antibacterial film has the beneficial effects that:

the invention relates to hardware stability protection equipment, in particular to nano antibacterial film production equipment which realizes the functions of installing other devices through an installation box, collecting energy when a material control feeding device adds materials, stirring the materials in the device by a stirring device and scraping the materials on the inner part to place lumps, adding the materials into the device by a material allowance control device according to the amount of the residual materials in the device, controlling discharge and forming by a discharge forming device and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a first structural schematic diagram of the material control feeding device of the present invention.

Fig. 4 is a structural schematic diagram of a material control feeding device of the invention.

Fig. 5 is a first structural schematic diagram of the stirring device of the present invention.

FIG. 6 is a schematic structural diagram of a stirring apparatus according to the present invention.

Fig. 7 is a first structural diagram of a material level control device according to the present invention.

Fig. 8 is a second structural diagram of the material balance control device according to the present invention.

Fig. 9 is a third schematic structural diagram of the material balance control device according to the present invention.

FIG. 10 is a first schematic structural diagram of the discharge forming apparatus of the present invention.

FIG. 11 is a second schematic structural view of the discharge forming apparatus of the present invention.

In the figure: 1. installing a box; 101. a box body; 102. a feed inlet; a feed pipe 103; 104. a discharge port; 2. a material control feed device; 201. a first mounting seat; 202. a sliding groove; 203. a first discharge opening; 204. a connecting pipe; 205. a first sliding plate; 206. a first connecting hole; a connection control column 207; 208. a first connecting hole channel; 209. a sliding control groove; 210. a first connecting bolt; 211. a first spring; 212. moving the venting plug; 213. a discharge port; 214. a second sliding plate; a movement control pin one 215; 216. a second spring; 217. a third spring; 218. a first connecting bolt; 219. a first limit bolt; 220. a fourth spring; 221. a limiting hole; 222. a second discharge port; 223. a second connecting bolt; 224. connecting the mounting sleeve; 225. a fifth spring; 226. a second connecting plate; a stirring device 3; 301. a rotating ring; 302. a push bar; 303. a transmission gear; 304. connecting a pushing column; 305. a second mounting seat; 306. rotating a first shaft; 307. stirring blades; 308. an internal threaded barrel; 309. a stirring gear; 4. a material allowance control device; 401. installing a limiting column; 402. a limiting spring; 403. a limiting ball; 404. a limiting sleeve; 405. a float; 406. pushing the rack; 407. a second limiting hole; 408. a fixed shaft; 409. a drive gear set; 410. connecting a toothed rack; 411. a control baffle; 412. mounting a column; 413. a third mounting seat; 414. a third sliding plate; 415. a seventh spring; 416. a float connecting rod; 417. pushing the bevel block; 418. mounting a barrel sleeve; 419. a limiting mounting bolt; 420. connecting and pushing square columns; 421. a spring eight; 422. matching the inclined plane blocks; 423. fitting the mounting sleeve; 5. a discharge forming device; 501. discharging the plug; 502. a first discharge pipe; 503. a first fixed connecting bolt; 504. moving the venting plug; 505. a second discharge pipe; 506. an emission control spring.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and a nano antibacterial film production apparatus including a mounting box 1, a material control and feeding device 2, a stirring device 3, a material allowance control device 4, and a discharge forming device 5, wherein other devices are installed through the mounting box, the material control and feeding device collects energy when adding a material, the stirring device stirs the material inside and scrapes off the material on the inside to place a cake, the material allowance control device adds the material into the apparatus according to the amount of the remaining material in the apparatus, and the discharge forming device controls discharge and forming, and is characterized in that: the material control feeding device 2 is fixedly installed in the installation box 1, the stirring device 3 is fixedly installed in the installation box 1, the material allowance control device 4 is fixedly installed in the installation box 1, and the discharge forming device 5 is fixedly installed on the installation box 1.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, in which the first discharge opening 203 of the first mounting seat 201 of the material control and feeding device 2 is exposed, and then the material inside the feeding pipe 103 on the box 101 is fed into the box 101 through the feeding opening 102.

The third concrete implementation mode:

the first embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11. in the material feeding process, the material first enters the connecting pipe 204, then the sliding plate one 205 is pushed downwards to move, the sliding plate one 205 and the sliding plate two 214 move relatively, so that the sliding plate one 205 and the sliding plate two 214 are attached, then the spring four 220 is compressed, and the connection control column 207 and the sliding plate two 214 also move relatively, so that the movement control bolt one 215 and the sliding control slot 209 are separated, but due to the restriction inside the box body 101, the spring three 217 inside the movement control bolt one 215 is compressed, when the sliding plate two 214 moves to the lowest end of the connecting pipe 204, the limit bolt one 219 moves to the position of the limit hole 221 at the connecting bolt one 218, then the movement discharge bolt 212 contacts with the bottom end of the connecting pipe 204, then, the discharge port 213 and the first connecting channel 208 are opposite to each other, and then the material is discharged through the first connecting hole 206, the first connecting channel 208, the discharge port 213 and the second discharge port 222, the second connecting bolt 223 is driven by the second moving sliding plate 214, and the second connecting bolt 223 is driven by the second connecting plate 226.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, the second connecting plate 226 drives the connecting pushing column 304 of the stirring apparatus 3 to move, the moving connecting pushing column 304 and the internal thread cylinder 308 cooperate to drive the internal thread cylinder 308 to rotate, the internal thread cylinder 308 drives the stirring blade 307 and the stirring blade 307 to rotate, the rotating stirring blade 307 stirs the material, the stirring gear 309 drives the rotating ring 301 to rotate through the transmission tooth 303, and the rotating ring 301 drives the pushing bar 302 to rotate to scrape the material on the inner wall.

The fifth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, which will be further described in the following, with the decrease of the material inside the box 101, the remaining material amount control device 4 of the remaining material amount control device 4 will move downwards, at the same time, the spring seven 415 inside the mounting seat three 413 pushes the sliding plate three 414 to move, the moving float connecting rod 416 drives the pushing slope block 417 to move, the pushing slope block 417 pushes the matching slope block 422 to move, the matching slope block 422 drives the limiting mounting bolt 419 to move and push the limiting holes two 407 on the rack 406 to separate by connecting the pushing square column 420, and compresses the spring eight 421, after there is no limitation of the limiting mounting bolt 419, the float 405 will drive the limiting sleeve 404 and the pushing rack 406 to move downwards on the mounting limiting column 401 and be limited by the limiting spring 402 and the limiting ball 403, meanwhile, the limiting spring 402 and the limiting ball 403 drive the transmission gear set 409 to rotate, the transmission gear set 409 drives the connecting tooth frame 410 to move, and the connecting tooth frame 410 drives the control baffle 411 to move.

The sixth specific implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, which will be further described below, in the embodiment, when the discharging plug 501 of the discharging molding apparatus 5 is placed in the lower end molding die, the movable discharging plug 504 in the discharging plug 501 moves under the action of the discharging control spring 506, moves to the first discharging pipe 502 and the second discharging pipe 505 to be communicated, and then the material enters the discharging plug 501 through the discharging hole 104, and then in the die discharged from the second discharging pipe 505 to the lower end, when the die moves to say that the edge of the die is at the lower end of the movable discharging plug 504, the movable discharging plug 504 changes the position of the discharging plug 501, and then the first discharging pipe 502 and the second discharging pipe 505 are staggered, and then the discharging of the material of the box body 101 is stopped.

The seventh embodiment:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the fifth embodiment will be further described, in which the transmission gear set 409 of the material amount control device 4 is respectively engaged with the connecting rack 410 and the pushing rack 406; the number of the mounting seats three 413, the sliding plates three 414, the springs seven 415 and the float connecting rods 416 is two.

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

1. The utility model provides a nanometer antibacterial film production facility, includes install bin (1), material control feeding device (2), agitating unit (3), material surplus controlling means (4), discharges forming device (5), its characterized in that: the material control feeding device (2) is fixedly installed inside the installation box (1), the stirring device (3) is fixedly installed inside the installation box (1), the material allowance control device (4) is fixedly installed inside the installation box (1), and the discharge forming device (5) is fixedly installed on the installation box (1).

2. The apparatus for producing a nano-scale antibacterial film according to claim 1, wherein: the mounting box (1) comprises a box body (101), a feeding hole (102), a feeding pipe (103) and a discharging hole (104), wherein the feeding hole (102) and the discharging hole (104) are formed in the box body (101), and the feeding pipe (103) is fixedly mounted on the box body (101).

3. The apparatus for producing a nano-scale antibacterial film according to claim 1, wherein: the material control feeding device (2) comprises a first mounting seat (201), a sliding groove (202), a first discharge outlet (203), a connecting pipe (204), a first sliding plate (205), a first connecting hole (206), a connecting control column (207), a first connecting pore channel (208), a sliding control groove (209), a first connecting bolt (210), a first spring (211), a movable discharge bolt (212), a discharge port (213), a second sliding plate (214), a first movable control bolt (215), a second spring (216), a third spring (217), a first connecting bolt (218), a first limiting bolt (219), a fourth spring (220), a limiting hole (221), a second discharge port (222), a second connecting bolt (223), a connecting mounting sleeve (224), a fifth spring (225) and a second connecting plate (226), wherein the first mounting seat (201) is fixedly arranged in the box body (101), and the sliding groove (202) is arranged on the first mounting seat (201), the first discharge port (203) is arranged on the first mounting seat (201), the connecting pipe (204) is fixedly arranged on the first mounting seat (201), the first sliding plate (205) is slidably arranged inside the connecting pipe (204), the first connecting hole (206) is arranged on the first sliding plate (205), the first connecting control column (207) is fixedly arranged on the first sliding plate (205), the first connecting channel (208) is arranged on the first connecting control column (207), the sliding control groove (209) is arranged on the first connecting control column (207), the first connecting bolt (210) is fixedly arranged inside the first connecting control column (207), the first spring (211) is fixedly arranged inside the movable discharge bolt (212), the movable discharge bolt (212) is slidably arranged on the first connecting bolt (210), the movable discharge bolt (212) is slidably arranged inside the first connecting control column (207), the discharge port (213) is arranged on the movable discharge bolt (212), the second sliding plate (214) is slidably arranged inside the connecting pipe (204), the connecting control column (207) is slidably mounted on the sliding plate II (214), the movable control bolt I (215) is slidably mounted inside the sliding plate II (214), the spring II (216) is sleeved on the movable control bolt I (215), the spring III (217) is mounted inside the movable control bolt I (215), the connecting bolt I (218) is slidably mounted inside the movable control bolt I (215), the limiting bolt I (219) is fixedly mounted on the connecting bolt I (218), the spring IV (220) is fixedly mounted on the sliding plate I (205) and the sliding plate II (214), the limiting hole (221) is arranged inside the connecting pipe (204), the discharge port II (222) is arranged on the connecting pipe (204), the connecting bolt II (223) is fixedly mounted on the sliding plate II (214), the connecting bolt II (223) is slidably mounted on the connecting pipe (204), and the connecting mounting sleeve (224) is fixedly mounted on the connecting pipe (204), the spring five (225) is sleeved on the connecting bolt two (223), and the connecting plate two (226) is fixedly arranged on the connecting bolt two (223).

4. The apparatus for producing a nano-scale antibacterial film according to claim 1, wherein: the stirring device (3) comprises a rotating ring (301), a pushing strip (302), a transmission gear (303), a connecting pushing column (304), a second mounting seat (305), a first rotating shaft (306), a stirring blade (307), an internal thread cylinder (308) and a stirring gear (309), the rotating ring (301) is rotatably installed inside the box body (101), the pushing strip (302) is fixedly installed on the rotating ring (301), the transmission gear (303) is fixedly installed on the rotating ring (301), the connecting pushing column (304) is fixedly installed on the connecting plate II (226), the mounting seat II (305) is fixedly installed inside the box body (101), the rotating shaft I (306) is rotatably installed on the mounting seat II (305), the stirring blade (307) is fixedly installed on the rotating shaft I (306), the internal thread cylinder (308) is fixedly installed on the stirring blade (307), and the stirring gear (309) is fixedly installed on the internal thread cylinder (308).

5. The apparatus for producing a nano-scale antibacterial film according to claim 1, wherein: the material allowance control device (4) comprises an installation limiting column (401), a limiting spring (402), a limiting ball (403), a limiting sleeve (404), a floater (405), a pushing rack (406), a limiting hole II (407), a fixing shaft (408), a transmission gear set (409), a connecting tooth rack (410), a control baffle (411), an installation column (412), an installation base III (413), a sliding plate III (414), a spring VII (415), a floater connecting rod (416), a pushing bevel block (417), an installation cylinder sleeve (418), a limiting installation bolt (419), a connecting pushing square column (420), a spring VIII (421), a matching bevel block (422) and a matching installation sleeve (423), the installation limiting column (401) is fixedly installed in the box body (101), the limiting spring (402) is arranged in the installation limiting column (401), the limiting ball (403) is slidably installed in the installation limiting column (401), the limiting sleeve (404) is fixedly installed on the floater (405), the floater (405) is fixedly installed on the pushing rack (406), the pushing rack (406) is slidably installed inside the matching installation sleeve (423), the limiting hole II (407) is arranged on the pushing rack (406), the fixed shaft (408) is fixedly installed inside the box body (101), the transmission gear set (409) is rotatably installed on the fixed shaft (408), the connecting rack (410) is fixedly installed on the control baffle (411), the control baffle (411) is slidably installed inside the sliding groove (202), the installation column (412) is fixedly installed inside the sliding groove (202), the installation seat III (413) is fixedly installed inside the box body (101), the sliding plate III (414) is slidably installed inside the installation seat III (413), the spring VII (415) is installed inside the installation seat III (413), the floater connecting rod (416) is fixedly installed on the sliding plate III (414), promote ramp block (417) installation and fix on float connecting rod (416), installation barrel casing (418) installation is fixed on cooperation installation cover (423), spacing installation bolt (419) slidable mounting is inside installation barrel casing (418), connect and promote square column (420) installation and fix on spacing installation bolt (419), spring eight (421) suit is on connecting and promoting square column (420), cooperation ramp block (422) installation is fixed on connecting and promoting square column (420), cooperation installation cover (423) installation is fixed inside box (101).

6. The apparatus for producing a nano-scale antibacterial film according to claim 1, wherein: the discharge forming device (5) comprises a discharge bolt (501), a discharge pipeline I (502), a fixed connection bolt I (503), a movable discharge bolt (504), a discharge pipeline II (505) and a discharge control spring (506), wherein the discharge bolt (501) is fixedly arranged on the box body (101), the discharge pipeline I (502) is arranged on the discharge bolt (501), the fixed connection bolt I (503) is fixedly arranged inside the discharge bolt (501), the movable discharge bolt (504) is slidably arranged on the fixed connection bolt I (503), the discharge pipeline II (505) is arranged on the movable discharge bolt (504), and the discharge control spring (506) is fixedly arranged on the fixed connection bolt I (503).

7. The apparatus for producing a nano-scale antibacterial film according to claim 5, wherein: a transmission gear set (409) of the material allowance control device (4) is respectively meshed with a connecting rack (410) and a pushing rack (406); the number of the mounting seat III (413), the sliding plate III (414), the spring seven (415) and the floater connecting rod (416) is two.