CN110786345A

CN110786345A - Natural plant antibacterial agent

Info

Publication number: CN110786345A
Application number: CN201911108723.2A
Authority: CN
Inventors: 申璐璐; 李珊; 贺菲
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-13
Filing date: 2019-11-13
Publication date: 2020-02-14

Abstract

The invention belongs to the technical field of antibacterial agents, and particularly relates to a natural plant antibacterial agent; the natural plant antibacterial agent is stored in the pressure tank; the pressure tank comprises a tank body, a pressing unit and an atomizer; the pressing unit is arranged at an opening of the tank body and comprises a control block, an L-shaped pressing plate and a material conveying pipe; the L-shaped pressing plate consists of a first plate and a second plate; the first plate is hinged in the sliding chute through a torsion spring; the end part of the second plate is fixed on the first plate, and the second plate is inserted into the control block to block the flow channel, so that when people press the first plate, the second plate can be driven to be pulled out of the control block to realize the communication of the flow channel; the spraying range of the antibacterial agent is enlarged through the matching of the tank body, the pressing unit and the atomizer, the antibacterial effect is achieved, the antibacterial agent can be distributed in a larger range under the condition of the same amount, and the utilization rate of the antibacterial agent is improved.

Description

Natural plant antibacterial agent

Technical Field

The invention belongs to the technical field of antibacterial agents, and particularly relates to a natural plant antibacterial agent.

Background

The antibacterial agent is a medicament for preventing and treating plant diseases caused by various pathogenic microorganisms. An agent which kills or inhibits the growth of pathogenic microorganisms without interfering with the normal growth of plants. Fungicides can be classified according to mode of action, source of raw material and chemical composition. Internationally, they are generally referred to as agents for controlling various types of pathogenic microorganisms. Along with the development of the bactericide, the subclasses of bactericides, virucides, algicides and the like are distinguished; the antibacterial agent for textiles is produced along with the antibacterial sanitary finishing technology and is mainly used for textile materials and products thereof. With the improvement of science and technology and the improvement of living standard, the requirements of people on the comfort, the air permeability, the safety and the like of textiles are higher and higher; therefore, the corresponding textile antibacterial agent must keep pace with the trend of the times to better meet the requirements of people. This will make the textile antibacterial finishing agent perfect and the antibacterial sanitary finishing technology mature. The antibacterial sanitary finishing is to treat the fabric including natural fiber, chemical fiber and blended fabric thereof with an antibacterial agent so as to obtain the functions of antibiosis, mildew prevention, deodorization and the like; the purpose is not only to prevent the fabric from being polluted and damaged by microorganism and to ensure the wearing comfort, but also to reduce cross infection, prevent the spread of diseases and ensure the safety and health of human body; based on sanitary daily necessities, disposable daily necessities such as sanitary napkins, diapers, wipes and the like have penetrated into our lives. For the introduction of antimicrobial agents, reference is made to the journal: xiajin lan, wangchun, liuxin, antibacterial agents and their antibacterial mechanisms, university of the south and middle (nature science edition) 2004,35 (1). However, the antibacterial agents produced by the current antibacterial agent industry all have certain problems, and specifically comprise the following aspects:

(1) the antiseptic is added in the components of the existing antiseptic, so that the antiseptic can cause great harm to the skin of a human body in the using process and produce great stimulation to the skin of the human body, thereby seriously affecting the use safety of the sanitary product.

(2) The existing antibacterial agents are stored in plastic bottles, and need to be poured out firstly and then smeared on the surface of a hygienic product by using paper when in use, which brings great inconvenience to users and seriously influences the use effect of the antibacterial agents, so that the antibacterial agents are unevenly distributed on the smearing surface of the antibacterial agents.

In view of the above, in order to overcome the above technical problems, the present inventors have designed and developed a novel natural plant antimicrobial agent, which adopts a special bottle structure to solve the above technical problems.

Disclosure of Invention

In order to make up for the deficiency of the prior art, the antiseptic additive for solving the sanitary article is often used in a large amount, the antiseptic is a plurality of antibacterial chemical agents, the antiseptic has safety problems when contacting with skin for use, and the antiseptic can stimulate the skin, thereby seriously affecting the use safety of the sanitary article, and the antiseptic needs to be poured out firstly and then smeared on the surface of the sanitary article by paper when in use, thereby bringing great inconvenience to users; the invention provides a natural plant antibacterial agent.

The technical scheme adopted by the invention for solving the technical problems is as follows: the natural plant antibacterial agent is stored in a pressure tank and consists of the following raw materials in parts by weight:

the plant extract is mild to the skin of a human body, so that the antibacterial agent cannot cause damage to the skin of the human body in the use process, and the safety problem of the antibacterial agent in the use process is avoided.

Preferably, the plant extract is prepared from the following raw materials in parts by weight:

in the technical scheme, after the plant extract is added into the natural plant antibacterial agent, the natural plant antibacterial agent can be easily contacted with skin, and the safety problem of anaphylaxis in the using process is avoided.

Preferably, the pressure tank comprises a tank body, a pressing unit and an atomizer; the pressing unit is arranged at an opening of the tank body and comprises a control block, an L-shaped pressing plate and a material conveying pipe; a runner is arranged in the control block, and a sliding groove is arranged at the top end of the control block; one end of the flow passage is connected with the opening of the tank body, and the other end of the flow passage is connected with the atomizer through the material conveying pipe; the L-shaped pressing plate consists of a first plate and a second plate; the first plate is hinged in the sliding groove through a torsion spring; the end part of the second plate is fixed on the first plate, and the second plate is inserted into the control block to block the flow channel, so that when people press the first plate, the second plate can be driven to be pulled out of the control block to realize the flow channel communication; the spraying range of the antibacterial agent is enlarged through the matching of the tank body, the pressing unit and the atomizer, and the antibacterial effect is realized; when in use, when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people are through pressing a number of board tip, thereby make a number of board rotatory around its articulated department, thereby drive No. two boards and pull out in the control block, the intercommunication of runner has been realized, thereby make jar internal high pressure antiseptic pass through the runner and flow to the conveying pipeline, again from conveying pipeline flow to atomizer blowout, the scope of spraying of antiseptic has been strengthened, strengthen the effect of spraying of antiseptic, make the antiseptic can distribute bigger scope under the condition of the same quantity, improve the rate of utilization of antiseptic.

Preferably, a cavity is formed in the second plate, and a through hole is formed in the side wall, close to the flow channel, of the second plate; the cavity is connected with a T-shaped ejector rod in a sliding manner through a spring, and a bulge is arranged at the position, close to the through hole, of the T-shaped ejector rod; a plug is connected in the through hole in a sliding manner; one end of the plug is contacted with the T-shaped ejector rod, and the other end of the plug blocks the flow channel; the sealing of the flow channel is realized through the matching of the T-shaped ejector rod and the plug; when in use, when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people press the end part of the first plate, so that the first plate rotates around the hinged position of the first plate, the second plate is driven to be pulled out of the control block, and the communication of the flow channel is realized, so that the high-pressure antibacterial agent in the tank body flows to the material conveying pipe through the flow channel and then flows to the atomizer from the material conveying pipe to be sprayed to a designated position; when people reach the needs to the volume of getting of spouting of antiseptic, loosen a board, a board takes place rotatoryly under the effect of torsional spring, thereby with No. two boards reinsertion control block, No. two boards can produce the extrusion to T shape ejector pin at the in-process that inserts the control block, T shape ejector pin pressurized back is through the protruding ejecting through-hole of stopper post through its tip, thereby stop up the runner, realized sealed to the runner, prevent that the antiseptic pressure in the jar body from taking place to leak after too big, thereby the security and the practicality of overhead tank in the use have been guaranteed, cause the wasting of resources after avoiding the antiseptic to leak.

Preferably, the side wall of the second plate and the bottom end of the second plate are respectively provided with a spongy cushion; the spongy cushion is provided with a hose which is communicated with a flow passage close to the atomizer; the antibacterial agent flowing out when the convection channel is opened and closed is absorbed by the spongy cushion, so that resource waste is avoided; when in use, when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people press the end part of the first plate, so that the first plate rotates around the hinged part of the first plate, and the second plate is driven to be pulled out of the control block, and the communication of the flow channel is realized; when the spraying amount of the antibacterial agent is required, the first plate is loosened, the first plate rotates under the action of the torsion spring, so that the second plate is inserted into the control block again, the second plate can extrude the T-shaped ejector rod in the process of being inserted into the control block, the T-shaped ejector rod pushes the plug out of the through hole through the bulge at the end part of the T-shaped ejector rod after being pressed, and the flow channel is blocked, so that the sealing of the flow channel is realized; at opening and sealed in-process to the flow passage, because the internal antiseptic pressure of jar is great, thereby make the slip in-process at No. two boards, it leaks to have partial antiseptic to take place, consequently all be equipped with the foam-rubber cushion at No. two board lateral walls and No. two board bottoms, the foam-rubber cushion can carry out effectual absorption to the antiseptic, and when No. two boards reinsert the control block, can produce the extrusion to the foam-rubber cushion, precipitate from the foam-rubber cushion after the antiseptic pressurized in the foam-rubber cushion, and through hose flow to in the flow passage, the waste of antiseptic has been avoided, thereby avoid the antiseptic to influence the holistic life of overhead tank in too much the remaining of control block simultaneously, very big improvement the result of use of overhead tank, the effective blowout of antiseptic has been guaranteed.

Preferably, the inner wall of the material conveying pipe is conical, the end with the larger diameter of the material conveying pipe is communicated with the flow channel, and the end with the smaller diameter of the material conveying pipe is communicated with the atomizer, so that the pressure is increased when the antibacterial agent is retained in the atomizer through the material conveying pipe, and the spraying range and the spraying effect of the antibacterial agent are enhanced; when in use, when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people are through pressing a number of board tip, thereby make a number of board take place the rotation around its articulated department, thereby it pulls out in the control block to drive No. two boards, the intercommunication of runner has been realized, thereby make the internal high pressure antiseptic of jar flow to the conveying pipeline through the runner, again from conveying pipeline flow to atomizer blowout, because the great one end of conveying pipeline diameter and runner intercommunication, the less one end and the atomizer intercommunication of conveying pipeline diameter, make when the antiseptic flows to the atomizer from the runner, the pressure grow, thereby the spraying range of atomizer has been increased, make the antiseptic can be sprayed to bigger scope, improve the result of use of antimicrobial.

The invention has the following beneficial effects:

1. according to the natural plant antibacterial agent disclosed by the invention, the plant extract is used for replacing a chemical reagent for antibiosis, so that the antibacterial agent can be quickly absorbed by human skin, and a large amount of stimulation to the human skin is avoided, therefore, the safety of the antibacterial agent in the use process is improved, and the use range of the antibacterial agent in a sanitary product is enlarged.

2. According to the natural plant antibacterial agent, the spraying range of the antibacterial agent is enlarged through the matching of the tank body, the pressing unit and the atomizer, the spraying effect of the antibacterial agent is enhanced, the antibacterial agent can be distributed in a larger range under the condition of the same amount, the use rate of the antibacterial agent is improved, and unnecessary waste of the antibacterial agent in the spraying process is avoided.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a perspective view of a pressure tank of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

in the figure: the device comprises a tank body 1, a pressing unit 2, a control block 21, a flow channel 211, a chute 212, an L-shaped pressing plate 22, a first plate 221, a second plate 222, a cavity 223, a through hole 224, a T-shaped ejector rod 225, a plug 226, a sponge pad 227, a hose 228, a feed delivery pipe 23 and an atomizer 3.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1

A natural plant antibacterial agent is composed of the following raw materials by weight: 7 parts of tea tree essential oil, 1 part of mandelic acid, 3 parts of polyhydric alcohol, 4 parts of phenoxyethanol, 3 parts of ethylhexyl glycerol, 2 parts of p-hydroxyacetophenone, 8 parts of antioxidant, 8 parts of plant extract and 80 parts of water; wherein, the plant extracts comprise 10 parts of aloe extract, 1 part of mint extract, 2 parts of rhododendron extract and 0.2 part of honeysuckle extract; sequentially adding the weighed raw materials into a stirring container for stirring, adjusting the ph of the raw material to 6-7 by using mandelic acid, and finally standing until no foam exists on the surface of the raw material.

Taking 20g of the prepared natural plant antibacterial agent, spraying the natural plant antibacterial agent on the surfaces of the diaper, the sanitary towel and the wet tissue, standing the diaper, the sanitary towel and the wet tissue for 30min, and detecting the average per cubic centimeter sterilizing effect on the surfaces of the diaper, the sanitary towel and the wet tissue.

Example 2

A natural plant antibacterial agent is composed of the following raw materials by weight: 7 parts of tea tree essential oil, 1 part of mandelic acid, 3 parts of polyhydric alcohol, 4 parts of phenoxyethanol, 3 parts of ethylhexyl glycerol, 2 parts of p-hydroxyacetophenone, 8 parts of antioxidant, 11 parts of plant extract and 80 parts of water; wherein, the plant extracts comprise 10 parts of aloe extract, 1 part of mint extract, 2 parts of rhododendron extract and 0.2 part of honeysuckle extract; sequentially adding the weighed raw materials into a stirring container for stirring, adjusting the ph of the raw material to 6-7 by using mandelic acid, and finally standing until no foam exists on the surface of the raw material.

Example 3

A natural plant antibacterial agent is composed of the following raw materials by weight: 7 parts of tea tree essential oil, 1 part of mandelic acid, 3 parts of polyhydric alcohol, 4 parts of phenoxyethanol, 3 parts of ethylhexyl glycerol, 2 parts of p-hydroxyacetophenone, 8 parts of antioxidant, 14 parts of plant extract and 80 parts of water; wherein, the plant extracts comprise 10 parts of aloe extract, 1 part of mint extract, 2 parts of rhododendron extract and 0.2 part of honeysuckle extract; sequentially adding the weighed raw materials into a stirring container for stirring, adjusting the ph of the raw material to 6-7 by using mandelic acid, and finally standing until no foam exists on the surface of the raw material.

The use effect of the obtained natural plant antibacterial agent is shown in table 1.

TABLE 1

Through the examples 1-3, the natural plant antibacterial agent prepared by adding the plant extract has better sterilization effect, and bacteria are less likely to breed on the surface of the hygienic product coated with the natural plant antibacterial agent, so that the natural plant antibacterial agent has the advantages of reasonable formula, convenient material taking, simple and convenient use method and sterilization effect.

As shown in fig. 1 to 2, the pressure tank includes a tank body 1, a pressing unit 2, and an atomizer 3; the pressing unit 2 is arranged at an opening of the tank body 1, and the pressing unit 2 comprises a control block 21, an L-shaped pressing plate 22 and a material conveying pipe 23; a flow channel 211 is formed in the control block 21, and a sliding groove 212 is formed at the top end of the control block 21; one end of the flow channel 211 is connected with the opening of the tank body 1, and the other end of the flow channel 211 is connected with the atomizer 3 through the material conveying pipe 23; the L-shaped pressing plate 22 consists of a first plate 221 and a second plate 222; the first plate 221 is hinged in the sliding groove 212 through a torsion spring; the end of the second plate 222 is fixed on the first plate 221, and the second plate 222 is inserted into the control block 21 to block the flow channel 211, so that when people press the first plate 221, the second plate 222 can be driven to be pulled out of the control block 21 to realize communication of the flow channel 211; the spraying range of the antibacterial agent is enlarged through the matching of the tank body 1, the pressing unit 2 and the atomizer 3, and the antibacterial effect is realized; when in use, when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people are through pressing a number of board 221 tip, thereby make a number of board 221 take place rotatoryly around its articulated department, thereby drive two number of boards 222 and pull out in the control block 21, the intercommunication of runner 211 has been realized, thereby make the high pressure antiseptic in the jar body 1 flow to conveying pipeline 23 through runner 211, flow to atomizer 3 blowout from conveying pipeline 23 again, the spraying range of antiseptic has been increaseed, strengthen the spraying effect of antiseptic, make antiseptic can distribute bigger scope under the condition of the same quantity, the utilization ratio of antiseptic is improved.

As an embodiment of the present invention, a cavity 223 is formed in the second plate 222, and a through hole 224 is formed in the second plate 222 near the side wall of the flow channel 211; a T-shaped ejector rod 225 is connected in the cavity 223 in a sliding mode through a spring, and a bulge is arranged at the position, close to the through hole 224, of the T-shaped ejector rod 225; a plug 226 is slidably connected in the through hole 224; one end of the plug 226 is contacted with the T-shaped top rod 225, and the other end of the plug 226 blocks the flow channel 211; the sealing of the flow channel 211 is realized through the matching of the T-shaped ejector rod 225 and the plug 226; when in use, when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people press the end part of the first plate 221, so that the first plate 221 rotates around the hinged position of the first plate 221, the second plate 222 is driven to be pulled out of the control block 21, the communication of the flow channel 211 is realized, and the high-pressure antibacterial agent in the tank body 1 flows to the material conveying pipe 23 through the flow channel 211 and then flows to the atomizer 3 from the material conveying pipe 23 to be sprayed to a designated position; when people reach the needs to the volume of spouting of antiseptic, loosen first board 221, first board 221 takes place the rotation under the effect of torsional spring, thereby reinsert second board 222 in control block 21, second board 222 can produce the extrusion to T shape ejector pin 225 inserting control block 21's in-process, T shape ejector pin 225 is pressed the back through-hole 224 is ejected with the stopper post 226 through the arch of its tip, thereby block up runner 211, realized the sealed to runner 211, prevent to take place to leak behind the antiseptic pressure in the jar body 1 too big, thereby guaranteed the security and the practicality of overhead tank in the use, cause the wasting of resources after avoiding the antiseptic to leak.

As an embodiment of the present invention, the side wall of the second board 222 and the bottom end of the second board 222 are both provided with sponge pads 227; a hose 228 arranged on the sponge pad 227 is communicated with the flow passage 211 close to the atomizer 3; the antibacterial agent flowing out when the opening and closing of the flow passage 211 are realized is absorbed by the sponge pad 227, so that the waste of resources is avoided; when in use, when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people press the end part of the first plate 221, so that the first plate 221 rotates around the hinged part of the first plate, and the second plate 222 is driven to be pulled out of the control block 21, and the communication of the flow channel 211 is realized; when people need the spraying amount of the antibacterial agent, the first plate 221 is loosened, the first plate 221 rotates under the action of the torsion spring, so that the second plate 222 is inserted into the control block 21 again, the second plate 222 extrudes the T-shaped ejector rod 225 in the process of being inserted into the control block 21, the T-shaped ejector rod 225 ejects the plug 226 out of the through hole 224 through the protrusion at the end part of the T-shaped ejector rod 225 after being pressed, and the flow channel 211 is blocked, so that the sealing of the flow channel 211 is realized; in the opening and sealing process of the flow passage 211, because the pressure of the antibacterial agent in the tank body 1 is large, thereby in the sliding process of the second plate 222, part of the antibacterial agent leaks, and therefore the sponge pad 227 is arranged on the side wall of the second plate 222 and the bottom end of the second plate 222, the sponge pad 227 can effectively absorb the antibacterial agent, and when the second plate 222 is inserted into the control block 21 again, the sponge pad 227 can be squeezed, the antibacterial agent in the sponge pad 227 is pressed and then separated out from the sponge pad 227, and flows into the flow passage 211 through the hose 228, the waste of the antibacterial agent is avoided, meanwhile, the excessive residue of the antibacterial agent in the control block 21 is avoided, so that the service life of the whole pressure tank is influenced, the service effect of the pressure tank is greatly improved, and the effective ejection of the antibacterial agent is ensured.

As an embodiment of the present invention, the inner wall of the feed delivery pipe 23 is conical, and the end of the feed delivery pipe 23 with the larger diameter is communicated with the flow channel 211, and the end of the feed delivery pipe 23 with the smaller diameter is communicated with the atomizer 3, so that the pressure is increased when the antibacterial agent is retained in the atomizer 3 through the feed delivery pipe 23, thereby enhancing the spraying range and the spraying effect of the antibacterial agent; when in use, when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people are through pressing a number board 221 tip, thereby make a number board 221 take place rotatoryly around its articulated department, thereby drive in second number board 222 extracts control block 21, the intercommunication of runner 211 has been realized, thereby make the high pressure antiseptic in the jar body 1 flow to conveying pipeline 23 through runner 211, flow to atomizer 3 blowout from conveying pipeline 23 again, because the great one end of conveying pipeline 23 diameter communicates with runner 211, the less one end of conveying pipeline 23 diameter communicates with atomizer 3, make when antiseptic flows to atomizer 3 from runner 211, the pressure grow, thereby atomizer 3's spraying range has been increased, make the antiseptic can be sprayed to bigger scope, improve the result of use of anti-microbial agent.

When in use, when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people press the end part of the first plate 221, so that the first plate 221 rotates around the hinged position of the first plate, the second plate 222 is driven to be pulled out of the control block 21, the communication of the flow channel 211 is realized, the high-pressure antibacterial agent in the tank body 1 flows to the material conveying pipe 23 through the flow channel 211 and then flows to the atomizer 3 from the material conveying pipe 23 to be sprayed out, the spraying range of the antibacterial agent is enlarged, the spraying effect of the antibacterial agent is enhanced, the antibacterial agent can be distributed in a larger range under the condition of the same amount, and the utilization rate of the antibacterial agent is improved; when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people press the end part of the first plate 221, so that the first plate 221 rotates around the hinged position of the first plate 221, the second plate 222 is driven to be pulled out of the control block 21, the communication of the flow channel 211 is realized, and the high-pressure antibacterial agent in the tank body 1 flows to the material conveying pipe 23 through the flow channel 211 and then flows to the atomizer 3 from the material conveying pipe 23 to be sprayed to a designated position; when the spraying amount of the antibacterial agent is required, the first plate 221 is loosened, the first plate 221 rotates under the action of the torsion spring, so that the second plate 222 is inserted into the control block 21 again, the second plate 222 extrudes the T-shaped ejector rod 225 in the process of being inserted into the control block 21, the T-shaped ejector rod 225 ejects the plug 226 out of the through hole 224 through the protrusion at the end part of the T-shaped ejector rod 225 after being pressed, the flow channel 211 is blocked, the flow channel 211 is sealed, the antibacterial agent in the tank body 1 is prevented from leaking after being pressed too high, the safety and the practicability of the pressure tank in the using process are ensured, and the resource waste caused by the leakage of the antibacterial agent is avoided; when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people press the end part of the first plate 221, so that the first plate 221 rotates around the hinged part of the first plate, and the second plate 222 is driven to be pulled out of the control block 21, and the communication of the flow channel 211 is realized; when people need the spraying amount of the antibacterial agent, the first plate 221 is loosened, the first plate 221 rotates under the action of the torsion spring, so that the second plate 222 is inserted into the control block 21 again, the second plate 222 extrudes the T-shaped ejector rod 225 in the process of being inserted into the control block 21, the T-shaped ejector rod 225 ejects the plug 226 out of the through hole 224 through the protrusion at the end part of the T-shaped ejector rod 225 after being pressed, and the flow channel 211 is blocked, so that the sealing of the flow channel 211 is realized; in the opening and sealing process of the flow passage 211, the pressure of the antibacterial agent in the tank body 1 is high, so that part of the antibacterial agent leaks in the sliding process of the second plate 222, the sponge pads 227 are arranged on the side wall of the second plate 222 and the bottom end of the second plate 222, the sponge pads 227 can effectively absorb the antibacterial agent, when the second plate 222 is inserted into the control block 21 again, the sponge pads 227 can be squeezed, the antibacterial agent in the sponge pads 227 is separated out from the sponge pads 227 after being pressed and flows into the flow passage 211 through the hose 228, the waste of the antibacterial agent is avoided, meanwhile, the influence on the service life of the whole pressure tank due to excessive residues of the antibacterial agent in the control block 21 is avoided, the use effect of the pressure tank is greatly improved, and the effective ejection of the antibacterial agent is ensured; when people need to use the antibacterial agent, the antibacterial agent can be sprayed to a specified position through the pressure tank; people are through pressing a number board 221 tip, thereby make a number board 221 take place rotatoryly around its articulated department, thereby drive in second number board 222 extracts control block 21, the intercommunication of runner 211 has been realized, thereby make the high pressure antiseptic in the jar body 1 flow to conveying pipeline 23 through runner 211, flow to atomizer 3 blowout from conveying pipeline 23 again, because the great one end of conveying pipeline 23 diameter communicates with runner 211, the less one end of conveying pipeline 23 diameter communicates with atomizer 3, make when antiseptic flows to atomizer 3 from runner 211, the pressure grow, thereby atomizer 3's spraying range has been increased, make the antiseptic can be sprayed to bigger scope, improve the result of use of anti-microbial agent.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A natural plant antibacterial agent characterized by: the natural plant antibacterial agent is stored in the pressure tank and consists of the following raw materials in parts by weight:

2. the natural plant antimicrobial agent of claim 1, wherein: the plant extract is prepared from the following raw materials in parts by weight:

3. the natural plant antimicrobial agent of claim 1, wherein: the pressure tank comprises a tank body (1), a pressing unit (2) and an atomizer (3); the pressing unit (2) is arranged at an opening of the tank body (1), and the pressing unit (2) comprises a control block (21), an L-shaped pressing plate (22) and a material conveying pipe (23); a flow channel (211) is formed in the control block (21), and a sliding groove (212) is formed in the top end of the control block (21); one end of the flow channel (211) is connected with the opening of the tank body (1), and the other end of the flow channel (211) is connected with the atomizer (3) through a material conveying pipe (23); the L-shaped pressing plate (22) consists of a first plate (221) and a second plate (222); the first plate (221) is hinged in the sliding groove (212) through a torsion spring; the end part of the second plate (222) is fixed on the first plate (221), and the second plate (222) is inserted into the control block (21) to block the flow channel (211), so that when people press the first plate (221), the second plate (222) can be driven to be pulled out of the control block (21) to realize communication of the flow channel (211); the spraying range of the antibacterial agent is enlarged through the matching of the tank body (1), the pressing unit (2) and the atomizer (3), and the antibacterial effect is realized.

4. A natural plant antimicrobial according to claim 3, wherein: a cavity (223) is formed in the second plate (222), and a through hole (224) is formed in the side wall, close to the flow channel (211), of the second plate (222); a T-shaped ejector rod (225) is connected in the cavity (223) in a sliding mode through a spring, and a bulge is arranged at the position, close to the through hole (224), of the T-shaped ejector rod (225); a plug (226) is connected in the through hole (224) in a sliding way; one end of the plug (226) is contacted with the T-shaped ejector rod (225), and the other end of the plug (226) plugs the flow channel (211); the sealing of the flow channel (211) is realized through the matching of the T-shaped ejector rod (225) and the plug column (226).

5. The natural plant antimicrobial agent of claim 4, wherein: sponge pads (227) are arranged on the side wall of the second plate (222) and the bottom end of the second plate (222); the sponge cushion (227) is provided with a hose (228) which is communicated with a flow passage (211) close to the atomizer (3); the antibacterial agent flowing out when the opening and closing of the flow path (211) are realized is absorbed by the sponge pad (227), and the waste of resources is avoided.

6. A natural plant antimicrobial according to claim 3, wherein: the inner wall of conveying pipeline (23) is the toper, and the great one end of conveying pipeline (23) diameter and runner (211) intercommunication, and the less one end of conveying pipeline (23) diameter and atomizer (3) intercommunication to pressure emergence increase when making the antiseptic stay to atomizer (3) in through conveying pipeline (23), thereby reinforcing antiseptic sprays the scope and sprays the effect.