CN114505133A - Method for preparing long-acting nano antibacterial spray - Google Patents

Abstract

The invention discloses a method for preparing long-acting nano antibacterial spray, which comprises the following steps: a. opening the electric door, and putting the nano titanium dioxide, the nano zinc oxide, the nano magnesium oxide, the nano zirconium oxide, the nano silicon dioxide, the nano arsenic trioxide, the nano iron oxide and the nano copper oxide into a grinding assembly for grinding to obtain a composite nano material; d. the composite nano material is further ground through the lifting assembly, and meanwhile, the adjusting assembly is driven to operate, and the operating speed of the grinding assembly is controlled; e. cooling the grinding assembly through the exhaust assembly, and finishing discharging work at the same time; f. doping various metal ions containing gold, silver, palladium, rhodium and platinum in the ground composite nano material, and preparing a material A by utilizing a nano composite technology and a metal ion exchanger technology; g. adding nanometer rare earth cerium oxide, yttrium oxide and lanthanum oxide into the material A, and preparing the antibacterial spray by a crystal form photocatalysis technology.

Description

Method for preparing long-acting nano antibacterial spray

Technical Field

The invention relates to the technical field of spray processing, in particular to a method for preparing a long-acting nano antibacterial spray.

Background

With the continuous development and the technical progress of the antiviral spraying agent, especially the increasing requirements of people on living environment, the antiviral spraying agent can be used for sterilizing and disinfecting, the effects of effectively preventing infection and preventing epidemic situation from spreading can be achieved, the grinding process in the preparation of the antibacterial spraying agent, if the grinding of particles is not uniform, the phenomenon of insufficient grinding and crushing always exists in a common grinding and crushing machine, larger particles often exist, or excessive grinding occurs, so that the antivirus effect is reduced, the efficiency is low, the additional labor time is increased, the operation is very inconvenient, the grinding capacity is not large, the particles are easy to accumulate, the blanking is difficult, and the quality of the prepared antibacterial spraying agent is greatly reduced.

Disclosure of Invention

The invention provides a method for preparing long-acting nano antibacterial spray in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a method for preparing long-acting nano antibacterial spray comprises the following steps:

a. opening the electric door, and putting nano titanium dioxide, nano zinc oxide, nano magnesium oxide, nano zirconium oxide, nano silicon dioxide, nano arsenic trioxide, nano iron oxide and nano copper oxide into a grinding assembly for grinding to obtain a composite nano material, wherein the grinding assembly comprises a first grinding block fixedly arranged on a rack, a telescopic block fixedly arranged on the rack, a first guide block fixedly arranged on the rack, a second grinding block movably arranged on the guide block and a discharging block fixedly arranged on the first grinding block;

d. the composite nano material is further ground through the lifting assembly, and meanwhile, the adjusting assembly is driven to operate, and the operating speed of the grinding assembly is controlled;

e. cooling the grinding assembly through the exhaust assembly, and finishing discharging work at the same time;

f. doping various metal ions containing gold, silver, palladium, rhodium and platinum in the ground composite nano material, and preparing a material A by utilizing a nano composite technology and a metal ion exchanger technology;

g. adding nanometer rare earth cerium oxide, yttrium oxide and lanthanum oxide into the material A, and preparing the antibacterial spray by a crystal form photocatalysis technology.

And the discharging block comprises a first block body and a plurality of discharging holes arranged on the first block body in an equidistant array mode.

The first driving part comprises a first rotating shaft which is rotatably arranged on the rack, a motor which is fixedly arranged on the rack and is used for driving the first rotating shaft, an eccentric block which is fixedly arranged on the first rotating shaft, a first connecting rod which is rotatably arranged on the eccentric block, a second connecting rod which is rotatably arranged on the rack and is provided with one end rotatably arranged at the other end of the rack and rotatably arranged on the first connecting rod, a first slide block which can be movably arranged on the rack, and a third connecting rod which is rotatably arranged on the first slide block and is provided with one end rotatably arranged at the other end of the second connecting rod; the first connecting rod comprises a first rod body and a sliding groove arranged on the first rod body, the motor drives the first rotating shaft to rotate to drive the eccentric block to rotate, the eccentric block rotates to drive the first connecting rod to rotate, the first connecting rod rotates to drive the third connecting rod to rotate, and therefore the first sliding block is driven to move in a reciprocating mode, and the second grinding block is driven to move in a reciprocating mode to grind particles.

Further the adjustment subassembly includes the second slider on the portable frame of locating, the third slider on the portable first connecting rod of locating, one end is rotated and is located the second slider other end and rotate the second pivot of locating on the third slider, fix the first push rod of locating on the second slider, fix the second guide block of locating on the first push rod, fix the second push rod of locating on the lifting unit, fix the promotion piece of locating on the second push rod, lifting unit drive second push rod removes, the second push rod removes and drives the promotion piece removal, the promotion piece removes and drives the second guide block removal, the second guide block removes and drives the second slider removal, thereby adjust the displacement distance of first slider.

Further, the lifting component comprises a third slide block movably arranged on the frame, a first push block fixedly arranged on the third slide block, a first gear movably arranged on the first push block, a nut movably arranged on the first push block, a second push block movably arranged on the first push block, a third guide block fixedly arranged on the first push block, a fourth slide block movably arranged on the third guide block, a fourth connecting rod with one end rotatably arranged on the fourth slide block and the other end rotatably arranged on the second push block, and a fourth guide block fixedly arranged on the second grinding block, wherein the second grinding block reciprocates to drive the first push block to reciprocate, the first gear rotates under the action of a rack, the first gear rotates the one-way gear when moving to the right, the first gear does not rotate when moving to the left, the first gear rotates to drive the nut to move upwards so as to drive the second push block to move upwards, the second ejector pad moves up and drives the fourth slider to move, drives the fourth guide block to move up, thereby enabling the second grinding block to move up and adjusting the distance between the first grinding block and the second grinding block.

Further fourth guide block includes the second block, fixes the first inclined plane of locating on the second block, and the fourth guide block is equipped with first inclined plane, and the fourth slider removes and can drive the fourth guide block and up move to drive the removal of second grinding block.

Further the exhaust assembly comprises a first fixing block fixedly arranged on the second grinding block, a third push block movably arranged on the guide block, a one-way valve fixedly arranged on the first fixing block, a second fixing block fixedly arranged on the second grinding block, an air blowing block movably arranged on the second grinding block, a guide pillar fixedly arranged on the air blowing block, and a first spring sleeved on the guide pillar, wherein the second driving part drives the third push block to move so as to drive the air blowing block to move, and therefore, the air conditioning is blown out from the air blowing block.

Further, the air blowing block comprises a third block body, an air outlet hole arranged on the third block body and an inclined plane arranged on the third block body.

Further the second driving part comprises a third rotating shaft arranged on the rack in a rotating mode, a helical gear arranged on the third rotating shaft in a rotating mode, a fifth connecting rod arranged on the helical gear in a rotating mode, and a helical rack fixedly arranged on the rack and meshed with the helical gear, the second grinding block moves in a reciprocating mode, and the fifth connecting rod rotates to drive the third pushing block to move in a reciprocating mode along the first fixing block due to the fact that the helical rack drives the lower gear to rotate.

The invention has the following advantages: can grind the distance according to the size adjustment of abrasive particle, and can be according to the distance that the size adjustment of abrasive particle ground, improve grinding efficiency, save grinding time, and can blow to the abrasive particle, make the granule not pile up, guarantee that the granule can not excessively grind, thereby guarantee abrasive particle's uniformity, and it often is the oversize of abrasive particle to make antibiotic nebula effect not good, perhaps the granule is inconsistent, guarantee through grinder to the abrasive particle homogeneity, thereby improve the quality that the later stage made antibiotic nebula.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a sectional view a-a of fig. 2.

Fig. 4 is a sectional view B-B of fig. 3.

Fig. 5 is an enlarged view of fig. 1 at a.

Fig. 6 is an enlarged view of fig. 2 at B.

Fig. 7 is an enlarged view of fig. 3 at C.

Fig. 8 is an enlarged view of fig. 4 at D.

Fig. 9 is an enlarged view of fig. 4 at E.

Fig. 10 is an enlarged view of fig. 8 at F.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-10, a method for preparing a long-acting nano antibacterial spray comprises the following steps: a. opening the electric door, and putting nano titanium dioxide, nano zinc oxide, nano magnesium oxide, nano zirconium oxide, nano silicon dioxide, nano arsenic trioxide, nano iron oxide and nano copper oxide into a grinding assembly for grinding to obtain a composite nano material, wherein the grinding assembly 2 comprises a first grinding block 21 fixedly arranged on a rack, a telescopic block 22 fixedly arranged on the rack, a first guide block 23 fixedly arranged on the rack, a second grinding block 24 movably arranged on the guide block and a discharging block 25 fixedly arranged on the first grinding block;

d. the composite nano material is further ground through the lifting assembly, and meanwhile, the adjusting assembly is driven to operate, and the operating speed of the grinding assembly is controlled;

e. cooling the grinding assembly through the exhaust assembly, and finishing discharging work at the same time;

f. doping various metal ions containing gold, silver, palladium, rhodium and platinum in the ground composite nano material, and preparing a material A by utilizing a nano composite technology and a metal ion exchanger technology;

g. nanometer rare earth cerium oxide, yttrium oxide and lanthanum oxide are added to the material A, an antibacterial spray is prepared by a crystal form photocatalysis technology, a power door is opened to pour particles into a grinding assembly, a first driving part drives the grinding assembly to move back and forth, meanwhile, the lifting assembly can drive the grinding assembly to move upwards along with the reduction, the grinding distance is adjusted, meanwhile, the grinding assembly can push and drive an adjusting assembly, the speed of the grinding assembly is adjusted, the grinding effect is improved, the grinding assembly can drive a second driving part to drive an exhaust assembly to blow air to the grinding assembly, meanwhile, the grinding block blows and meanwhile enables the accumulated particles to fall down, and meanwhile, the grinding assembly is cooled.

As shown in fig. 1, 2 and 4, the grinding assembly 2 includes a first grinding block 21 fixedly disposed on the frame, a telescopic block 22 fixedly disposed on the frame, a first guide block 23 fixedly disposed on the frame, a second grinding block 24 movably disposed on the guide block, and a discharging block 25 fixedly disposed on the first grinding block, wherein the first driving portion drives the second grinding block to reciprocate to grind particles, and the ground particles are discharged from the discharging block.

As shown in fig. 9, the discharging block 25 includes a first block 251 and a plurality of discharging holes 252 arranged on the first block in an equidistant array, and the discharging block is provided with a plurality of discharging holes to ensure discharging of the ground discharging block, and simultaneously prevent large particles from being omitted to ensure uniformity of ground particles.

As shown in fig. 1 and 5, the first driving part 3 includes a first rotating shaft 31 rotatably disposed on the frame, a motor 32 fixedly disposed on the frame for driving the first rotating shaft, an eccentric block 33 fixedly disposed on the first rotating shaft, a first connecting rod 34 rotatably disposed on the eccentric block, a second connecting rod 35 rotatably disposed on the first connecting rod with one end rotatably disposed on the other end of the frame, a first sliding block 36 movably disposed on the frame, a third connecting rod 37 rotatably disposed on the second connecting rod with one end rotatably disposed on the first sliding block with the other end, the first link 34 includes a first rod 341 and a sliding slot 342 disposed on the first rod, the motor drives the first rotating shaft to rotate to drive the eccentric block to rotate, the eccentric block rotates to drive the first link to rotate, the first link rotates to drive the third link to rotate, thereby driving the first slide block to reciprocate, and driving the second grinding block to reciprocate to grind the particles.

As shown in fig. 1 and 5, the adjusting assembly 4 includes a second slider 41 movably disposed on the frame, a third slider 42 movably disposed on the first link, a second rotating shaft 43 having one end rotatably disposed on the second slider and the other end rotatably disposed on the third slider, a first push rod 44 fixedly disposed on the second slider, a second guide block 45 fixedly disposed on the first push rod, a second push rod 46 fixedly disposed on the lifting assembly, and a push block 47 fixedly disposed on the second push rod, wherein the lifting assembly drives the second push rod to move, the second push rod moves to drive the push block to move, the push block moves to drive the second guide block to move, the second guide block moves to drive the second slider to move, thereby adjusting the moving distance of the first slider, thereby reducing the moving distance of the grinding block, and the grinding block can change the moving distance according to the size of the grinding particles, thereby enabling large particles, the distance of first grinding piece is the biggest to speed also grinds the efficiency of guaranteeing to grind at the fastest, reduces when the abrasive particle diminishes and makes the grinding speed, guarantees that the abrasive particle can not excessively grind, thereby guarantees the efficiency of grinding when guaranteeing to grind quality, and the abrasive particle excessively grinds and makes the later stage make the nebula make cause the antibiotic effect not good, leads to the nebula of making not to reach the effect of expectation.

As shown in fig. 3 and 7, the lifting assembly 5 includes a third slide block 51 movably disposed on the frame, a first push block 52 fixedly disposed on the third slide block, a first gear 53 movably disposed on the first push block, a nut 54 movably disposed on the first push block, a second push block 55 movably disposed on the first push block, a third guide block 56 fixedly disposed on the first push block, a fourth slide block 57 movably disposed on the third guide block, a fourth connecting rod 58 having one end rotatably disposed on the fourth slide block and the other end rotatably disposed on the second push block, a fourth guide block 59 fixedly disposed on the second grinding block, and a rack 581 fixedly disposed on the frame, wherein the second grinding block reciprocates to drive the first push block to reciprocate, the first gear rotates under the action of the rack, because the first gear makes a one-way gear, the first gear rotates when moving to the right, and does not rotate when moving to the left, first gear revolve drives the nut and up moves, thereby drive the second ejector pad and up move, the second ejector pad up moves and drives the fourth slider and move, drive the fourth guide block and up move, thereby make the second grinding piece up move, adjust the distance of first grinding piece and second grinding piece, because under the grinding of first grinding piece and second grinding piece, the abrasive particle is littleer and smaller, it may be insufficient to keep unanimous original grinding distance, if the interval undersize probably leads to excessive grinding again, lead to not reaching anticipated effect, make the antibiotic effect of virus killing reduce, consequently make the second grinding piece along with the diminishing of granule, slowly up move, thereby make the grinding that the abrasive particle can be better, guarantee the homogeneity of granule, the abrasive particle is even can make the antibiotic nebula virus killing effect improvement of later stage preparation.

As shown in fig. 7, the fourth guide block 59 includes a second block 591, and a first inclined plane 592 fixed on the second block, the fourth guide block has the first inclined plane, and the fourth slider moves to drive the fourth guide block to move upward, so as to drive the second grinding block to move.

As shown in fig. 6, 8 and 10, the exhaust assembly 6 includes a first fixing block 61 fixed on the second grinding block, a third pushing block 62 movably arranged on the first fixing block, a check valve 63 fixed on the first fixing block, a second fixing block 64 fixed on the second grinding block, an air blowing block 65 movably arranged on the second grinding block, a guide post 66 fixed on the air blowing block, a first spring 67 sleeved on the guide post, a second driving portion driving the third pushing block to move, so that the cold air is blown out from the air blowing block to make the accumulated particles fall more easily, and the cold air cools the first grinding block and the second grinding block, because the grinding can lead the first grinding block and the second grinding block to generate heat during grinding, the first grinding block and the second grinding block can be cooled, and the ground particles can be discharged and the two grinding blocks can be cooled.

As shown in fig. 8, the blowing block 65 includes a third block 651, an air outlet 652 formed in the third block, and an inclined surface 653 formed on the third block, and since the particles are located on the upper surface of the blowing block, the air outlet is formed below the blowing block, so that the abrasive particles do not enter the blowing block, and the abrasive particles can be blown, thereby preventing the accumulation of the abrasive particles.

As shown in fig. 6, the second driving part 7 includes a third rotating shaft 71 rotatably disposed on the frame, a helical gear 72 rotatably disposed on the third rotating shaft, a fifth connecting rod 73 rotatably disposed on the helical gear, and a helical rack 74 fixedly disposed on the frame and engaged with the helical gear, the second grinding block reciprocates, the fifth connecting rod rotates due to the rotation of the helical rack, the fifth connecting rod rotates to drive the third pushing block to reciprocate along the first fixing block, thereby driving the blowing block to move, so that the cold air is blown out from the blowing block, the accumulated particles are more easily dropped, and the cold air cools the first grinding block and the second grinding block, because the grinding generates heat when the first grinding block and the second grinding block are ground, the first grinding block and the second grinding block can be cooled, and the ground particles can be discharged and both can be cooled, meanwhile, the air outlet block can also grind large grinding particles, so that the antibacterial property of the spraying agent is improved.

Claims (9)

1. A method for preparing long-acting nano antibacterial spray is characterized in that: the method comprises the following steps:

a. opening the electric door, putting nano titanium dioxide, nano zinc oxide, nano magnesium oxide, nano zirconium oxide, nano silicon dioxide, nano arsenic trioxide, nano iron oxide and nano copper oxide into a grinding assembly for grinding to obtain a composite nano material, wherein the grinding assembly (2) comprises a first grinding block (21) fixedly arranged on a rack, a telescopic block (22) fixedly arranged on the rack, a first guide block (23) fixedly arranged on the rack, a second grinding block (24) movably arranged on the guide block and a discharging block (25) fixedly arranged on the first grinding block;

d. the composite nano material is further ground through the lifting assembly, and meanwhile, the adjusting assembly is driven to operate, and the operating speed of the grinding assembly is controlled;

e. cooling the grinding assembly through the exhaust assembly, and finishing discharging work at the same time;

f. doping various metal ions containing gold, silver, palladium, rhodium and platinum in the ground composite nano material, and preparing a material A by utilizing a nano composite technology and a metal ion exchanger technology;

g. adding nanometer rare earth cerium oxide, yttrium oxide and lanthanum oxide into the material A, and preparing the antibacterial spray by a crystal form photocatalysis technology.

2. The method for preparing long-acting nano antibacterial spray according to claim 1, characterized in that: the discharging block (25) comprises a first block body (251) and a plurality of discharging holes (252) which are arranged on the first block body in an equidistant array mode.

3. The method for preparing long-acting nano antibacterial spray according to claim 1, characterized in that: the first driving part (3) comprises a first rotating shaft (31) rotatably arranged on the rack, a motor (32) fixedly arranged on the rack and used for driving the first rotating shaft, an eccentric block (33) fixedly arranged on the first rotating shaft, a first connecting rod (34) rotatably arranged on the eccentric block, a second connecting rod (35) with one end rotatably arranged on the rack and the other end rotatably arranged on the first connecting rod, a first sliding block (36) movably arranged on the rack, and a third connecting rod (37) with one end rotatably arranged on the first sliding block and the other end rotatably arranged on the second connecting rod; the first connecting rod (34) comprises a first rod body (341) and a sliding groove (342) formed in the first rod body, the motor drives the first rotating shaft to rotate to drive the eccentric block to rotate, the eccentric block rotates to drive the first connecting rod to rotate, and the first connecting rod rotates to drive the third connecting rod to rotate, so that the first sliding block is driven to reciprocate, and the second grinding block is driven to reciprocate to grind particles.

4. The method for preparing long-acting nano antibacterial spray according to claim 1, characterized in that: the adjusting component (4) comprises a second sliding block (41) which can be movably arranged on the rack, a third sliding block (42) which can be movably arranged on the first connecting rod, a second rotating shaft (43) which is arranged at the other end of the second sliding block in a rotating manner and is arranged on the third sliding block at one end, a first push rod (44) which is fixedly arranged on the second sliding block, a second guide block (45) which is fixedly arranged on the first push rod, a second push rod (46) which is fixedly arranged on the lifting component, a pushing block (47) which is fixedly arranged on the second push rod, the lifting component drives the second push rod to move, the second push rod moves to drive the pushing block to move, the pushing block moves to drive the second guide block to move, the second guide block moves to drive the second sliding block to move, and the moving distance of the first sliding block is adjusted.

5. The method for preparing long-acting nano antibacterial spray according to claim 1, characterized in that: the lifting component (5) comprises a third sliding block (51) movably arranged on the frame, a first push block (52) fixedly arranged on the third sliding block, a first gear (53) movably arranged on the first push block, a nut (54) movably arranged on the first push block, a second push block (55) movably arranged on the first push block, a third guide block (56) fixedly arranged on the first push block, a fourth sliding block (57) movably arranged on the third guide block, a fourth connecting rod (58) with one end rotatably arranged on the fourth sliding block and the other end rotatably arranged on the second push block, and a fourth guide block (59) fixedly arranged on the second grinding block, wherein the second grinding block reciprocates to drive the first push block to reciprocate, the first gear rotates under the action of a rack, because the first gear enables the one-way gear, the first gear rotates when moving rightwards, and does not rotate when moving leftwards, first gear revolve drives the nut and up-shifts to drive the second ejector pad and up-shift, the second ejector pad up-shift drives the fourth slider and moves, drives the fourth guide block and up-shifts, thereby makes the second grind the piece and up-shift, adjusts the distance that first grinding piece and second ground the piece.

6. The method for preparing long-acting nano antibacterial spray according to claim 1, characterized in that: the fourth guide block (59) comprises a second block body (591) and a first inclined surface (592) fixedly arranged on the second block body, the fourth guide block is provided with the first inclined surface, and the fourth slide block moves to drive the fourth guide block to move upwards so as to drive the second grinding block to move.

7. The method for preparing long-acting nano antibacterial spray according to claim 1, characterized in that: the exhaust assembly (6) comprises a first fixing block (61) fixedly arranged on the second grinding block, a third push block (62) movably arranged on the guide block, a one-way valve (63) fixedly arranged on the first fixing block, a second fixing block (64) fixedly arranged on the second grinding block, an air blowing block (65) movably arranged on the second grinding block, a guide pillar (66) fixedly arranged on the air blowing block, and a first spring (67) sleeved on the guide pillar, wherein the second driving part drives the third push block to move, so that the air blowing block is driven to move, and air is blown out from the air blowing block.

8. The method for preparing long-acting nano antibacterial spray according to claim 1, characterized in that: the air blowing block (65) comprises a third block body (651), an air outlet hole (652) arranged on the third block body, and an inclined surface (653) arranged on the third block body.

9. The method for preparing long-acting nano antibacterial spray according to claim 1, characterized in that: the second driving part (7) comprises a third rotating shaft (71) which is rotatably arranged on the rack, a helical gear (72) which is rotatably arranged on the third rotating shaft, a fifth connecting rod (73) which is rotatably arranged on the helical gear, and a helical rack (74) which is fixedly arranged on the rack and is meshed with the helical gear, and the second grinding block moves in a reciprocating manner.

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