CN115991453A - Production process of hydrogen peroxide-containing disinfectant - Google Patents

Abstract

The invention discloses a production process of a hydrogen peroxide-containing disinfectant, which relates to the technical field of disinfectant production and comprises the following steps: s1: sterilizing packaging materials, namely sterilizing the packaging materials for production, wherein the packaging materials comprise packaging bottles, packaging covers, spray guns and packaging bags, and the sterilizing treatment comprises ethylene oxide sterilization, irradiation sterilization and vaporized hydrogen peroxide sterilization; s2: preparing disinfectant raw materials and water for injection in a clean area according to a proportion; s3: in a continuous and sealed pipeline, the disinfectant prepared in the step S2 is conveyed from the preparation tank to the sub-packaging device by an explosion-proof pump. The invention can provide intermittent rotation for the bottle body positioned on the rotating disc by arranging the transmission mechanism and the conveying mechanism, and perform secondary disinfection, filling, sealing and split charging operation for the bottle body.

Description

Production process of hydrogen peroxide-containing disinfectant

Technical Field

The invention relates to the technical field of disinfectant production, in particular to a production process of a hydrogen peroxide-containing disinfectant.

Background

Hydrogen peroxide, an inorganic compound, has the chemical formula H ₂ O ₂ Pure hydrogen peroxide is light blue viscous liquid, can be mixed with water in any proportion, and is a strong oxidant; the aqueous solution is commonly called hydrogen peroxide, is colorless transparent liquid, and is suitable for medical wound disinfection, environment disinfection and food disinfection.

The existing hydrogen peroxide disinfectant is required to be filled into finished product solutions in the production process, the existing filling mode is mainly rotary disc type filling, the filling bottles are required to be manually placed in rotary disc grooves, the filling bottles are rotated to the required positions through intermittent rotation of rotary discs, the filling bottles are filled and sealed by utilizing a quantitative automatic filling machine, then the sealed hydrogen peroxide disinfectant bottles are sucked out of the grooves through vacuum suction discs, and then the sealed hydrogen peroxide disinfectant bottles are pushed into a collecting box along a guide groove, so that the filling bottles pushed into the collecting box are in a disordered state, manual secondary arrangement is required, and the working procedure is complicated.

In addition, although the packaging bottles are subjected to a pre-sterilization process before filling, secondary pollution is not avoided in the conveying and circulating process, and how to perform secondary sterilization before filling is also a key link for ensuring the purity of the products, but the existing equipment does not have the function.

In view of the above, the applicant designs a production process of the hydrogen peroxide-containing disinfectant, which can realize pure and efficient filling of the hydrogen peroxide disinfectant, improve the filling efficiency and save labor.

Disclosure of Invention

The invention aims at: in order to solve the problems that in the existing hydrogen peroxide disinfectant production process, manual arrangement and complicated procedures are required in the split charging operation, the production process of the hydrogen peroxide disinfectant is provided.

In order to achieve the above purpose, the present invention provides the following technical solutions: a production process of a disinfectant containing hydrogen peroxide comprises the following steps:

s1: sterilizing packaging materials, namely sterilizing the packaging materials for production, wherein the packaging materials comprise packaging bottles, packaging covers, spray guns and packaging bags, and the sterilizing treatment comprises ethylene oxide sterilization, irradiation sterilization or vaporized hydrogen peroxide sterilization;

s2: preparing disinfectant raw materials and water for injection in a clean area according to a proportion;

s3: within a continuous and sealed pipe, S: the disinfectant prepared in the process is conveyed to a sub-packaging device from a preparation tank by an explosion-proof pump;

s4: packaging disinfectant in packaging bottles by using a packaging machine in a local or all class-A clean area, and sealing under the environmental condition;

s5: conveying the packaging bottles subjected to sealing and split charging in the step S4 to a sterilizing place for sterilization bagging treatment;

the sub-packaging device in the S4 comprises a working platform, a rotating disc, a quantitative blanking unit, a sealing unit and a positioning block, wherein the rotating disc is rotatably arranged at the top end of the working platform and is used for driving the positioning block positioned at the top end face of the rotating disc to circumferentially rotate, and the quantitative blanking unit and the sealing unit are fixed at the edge position of the top end of the working platform and are distributed in ninety degrees in the circumferential direction;

the quantitative blanking unit comprises a blanking platform, two groups of blanking pipes are fixed on the blanking platform, the blanking pipes are of a double-layer compound sleeve structure, each blanking pipe comprises an inner pipe and an outer pipe, and the inner pipe is connected with an explosion-proof pump; the interlayer space between the inner tube and the outer tube is connected with a vaporized hydrogen peroxide generator through an air tube and an air pump;

the transmission mechanism is arranged inside the working platform and is used for driving the rotating disc to intermittently rotate, and a conveying mechanism for driving the collecting box to transport is arranged outside the working platform;

the transmission mechanism consists of a transmission assembly and a blanking assembly:

the transmission assembly is used for transmitting power for intermittent rotation of the rotating disc, so that the positioning blocks at the top end of the rotating disc are stopped at the positions of the quantitative blanking unit, the sealing unit and the collecting box respectively, and thrust is provided for transverse movement of the collecting box;

the blanking component is used for controlling the packaging bottles to be moved to a position close to the collecting box, and removing the bottom support of the packaging bottles so that the packaging bottles fall into the collecting box.

As still further aspects of the invention: the transmission assembly comprises a first driving motor, a first straight gear, a second straight gear, a rotating wheel, a push rod and a guide groove;

the first straight gear is connected with the output end of the first driving motor through a rotating shaft and a coupler and is used for driving the second straight gear to intermittently rotate;

the second spur gear is fixed on a bottom rotating shaft of the rotating disc, and the meshed second spur gear and the meshed first spur gear are used for transmitting the torque of the first driving motor to the rotating disc;

the rotating wheel is coaxially connected with the first straight gear and is positioned above the working platform; and a lug which pulls the push rod to reciprocate is formed at the eccentric position of the top end of the rotating wheel and is in sliding connection with the guide groove.

As still further aspects of the invention: the blanking assembly comprises a supporting rod, a supporting plate, a positioning rod and a spring;

the supporting rod is arranged at the top end of the working platform, an inclined rod is formed at the end part of the supporting rod, the inclined rod is obliquely arranged on a transverse horizontal plane, a supporting block in contact with the outer wall of the inclined rod is formed at the bottom end of the supporting plate, and the supporting block is used for providing guidance for the movement of the supporting plate after being in inclined surface contact with the outer wall of the inclined rod;

the positioning rod is slidably arranged in the rotating disc and fixed with the outer wall of the supporting plate, and is used for guiding the supporting plate to move out of the lower part of the positioning block;

the spring surrounds the outer wall at the locating lever, just the both ends of spring respectively in the tip protruding portion of locating lever with confession the cell body wall contact that the locating lever removed, the spring is used for providing elasticity for the reset of locating lever.

As still further aspects of the invention: the conveying mechanism comprises a second driving motor, a third spur gear, a fourth spur gear, a conveying rod and a linkage rod;

one end of the third straight gear is connected with the output end of the second driving motor and used for transmitting the rotation torque from the second driving motor;

the conveying rods are uniformly distributed on the outer wall of the top end of the working platform and are rotationally connected with the inner wall of the working platform through bearings, and one conveying rod is connected with a fourth spur gear for transmitting rotation torque from a third spur gear;

the other ends of the conveying rods are eccentrically and rotatably connected with a linkage rod through a rotating block, and the linkage rod is used for driving all the conveying rods to synchronously rotate when one conveying rod rotates;

the second driving motor is electrically connected with the PLC through a wire and used for controlling intermittent rotation of the second driving motor.

As still further aspects of the invention: the inside shaping of work platform has the rotatory groove that supplies gangbar rotation orbit assorted.

As still further aspects of the invention: the outer wall tooth piece of first straight gear is ninety degrees and distributes in the outer wall of first straight gear, and ninety degrees distributed tooth piece can provide intermittent type nature rotation for the second straight gear.

As still further aspects of the invention: the quantity of backup pad is provided with four, four backup pad evenly distributed is in the inside of rolling disc, and the backup pad that does not receive from the butt pole thrust will be located the hole groove below of locating piece, provides the support for the packing bottle.

As still further aspects of the invention: the top end of the working platform is provided with a limiting block for limiting the direction of the transverse reciprocating movement of the push rod, and the rotation clearance time of the second driving motor is one time of that of the first driving motor.

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

the invention can carry out secondary disinfection on the packaging bottle before filling, and uses the vaporized hydrogen peroxide, thereby avoiding the residues of disinfectants generated by other types of disinfection modes and improving the purity of the product.

The split charging device can provide intermittent rotation for the bottle bodies on the rotating disc through the transmission mechanism and the conveying mechanism, performs secondary disinfection, filling, sealing and split charging operation on the bottle bodies, can realize automatic split charging of the bottle bodies, avoids stacking of the bottle bodies, does not need manual secondary arrangement, and further improves the production efficiency.

The invention saves the pneumatic adsorption transfer structure on the traditional equipment, and can realize the circulation and sub-packaging arrangement operation of the bottle bodies at different stations by completely utilizing two motors, so that the structure is more refined and practical.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a cross-sectional view showing the internal structure of the rotary disk of the present invention;

FIG. 3 is an enlarged view of a portion of the invention at A;

FIG. 4 is a schematic view of the bottom structure of the rotating disc of the present invention;

FIG. 5 is an enlarged view of a portion of the invention at B;

FIG. 6 is a schematic view of the structure of the conveying unit of the present invention;

fig. 7 is a schematic view of an installation structure of the abutment lever of the present invention.

In the figure: 1. a working platform; 2. a rotating disc; 3. a quantitative blanking unit; 301. a blanking platform; 302. discharging pipes; 4. a sealing unit; 5. a positioning block; 6. a collection box; 7. a transmission mechanism; 701. a first driving motor; 702. a first straight gear; 703. a second spur gear; 704. a rotating wheel; 705. a push rod; 706. a guide groove; 707. a supporting rod; 708. a support plate; 709. a positioning rod; 710. a spring; 8. a conveying mechanism; 801. a second driving motor; 802. a third spur gear; 803. a fourth spur gear; 804. a conveying rod; 805. and a linkage rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, in an embodiment of the invention, a process for producing a hydrogen peroxide-containing disinfectant includes the following steps:

s1: and sterilizing the packaging material, namely sterilizing the packaging material for production, wherein the packaging material comprises a packaging bottle, a packaging cover, a spray gun and a packaging bag, and the sterilization treatment comprises ethylene oxide sterilization, irradiation sterilization or vaporized hydrogen peroxide sterilization.

S2: the disinfectant raw material and the water for injection are prepared in a clean area according to a proportion.

S3: in a continuous and sealed pipeline, the disinfectant prepared in the step S2 is conveyed from the preparation tank to the sub-packaging device by an explosion-proof pump.

S4: the disinfectant is packaged in packaging bottles by a packaging machine in a local or total class A clean area, and is sealed under the environment condition.

S5: and (3) conveying the packaging bottles subjected to sealing and split charging in the step (S4) to a sterilizing place for sterilization bagging treatment.

The sub-packaging device in S4 comprises a working platform 1, a rotating disc 2, a quantitative discharging unit 3, a sealing unit 4 and a positioning block 5, wherein the rotating disc 2 is rotatably arranged at the top end of the working platform 1, the rotating disc 2 is used for driving the positioning block 5 positioned on the top end surface of the rotating disc to circumferentially rotate, and the quantitative discharging unit 3 and the sealing unit 4 are fixed at the edge position of the top end of the working platform 1 and are distributed at ninety degrees in the circumferential direction.

The quantitative blanking unit 3 comprises a blanking platform 301, two groups of blanking pipes 302 are fixed on the blanking platform, the blanking pipes 302 are of a double-layer compound sleeve structure, each blanking pipe comprises an inner pipe and an outer pipe, and the inner pipe is connected with an explosion-proof pump; the interlayer space between the inner tube and the outer tube is connected with the vaporized hydrogen peroxide generator through an air tube and an air pump.

The transmission mechanism 7 is arranged inside the working platform 1, the transmission mechanism 7 is used for driving the rotating disc 2 to intermittently rotate, and the conveying mechanism 8 for driving the collecting box 6 to transport is arranged outside the working platform 1.

The transmission mechanism 7 consists of a transmission component and a blanking component.

The transmission component is used for transmitting power for intermittent rotation of the rotating disc 2, so that the positioning blocks 5 at the top end of the rotating disc 2 stop at the positions of the quantitative blanking unit 3, the sealing unit 4 and the collecting box 6 respectively, and simultaneously provide thrust for transverse movement of the collecting box 6.

The blanking component is used for controlling the packaging bottles to be moved to a position close to the collecting box 6, and releasing the bottom support of the packaging bottles so that the packaging bottles fall into the collecting box 6.

The transmission assembly comprises a first drive motor 701, a first spur gear 702, a second spur gear 703, a runner 704, a pushrod 705, and a guide slot 706.

The first straight gear 702 is connected with the output end of the first driving motor 701 through a rotating shaft and a coupling, and is used for driving the second straight gear 703 to intermittently rotate.

The second spur gear 703 is fixed to the bottom rotation shaft of the rotation disk 2, and the second spur gear 703 and the first spur gear 702 in the engaged state are used to transmit the torque of the first drive motor 701 to the rotation disk 2.

The rotating wheel 704 is coaxially connected with the first straight gear 702 and is positioned above the working platform 1; a cam for pulling the push rod 705 to reciprocate is formed at the eccentric position of the top end of the rotating wheel 704, and the cam is slidably connected with the guide groove 706.

The blanking assembly comprises a support rod 707, a support plate 708, a positioning rod 709, and a spring 710.

The supporting rod 707 is mounted at the top end of the working platform 1, an inclined rod is formed at the end of the supporting rod 707, the inclined rod is obliquely arranged on a horizontal plane, a supporting block in contact with the outer wall of the inclined rod is formed at the bottom end of the supporting plate 708, and the supporting block is used for providing guidance for movement of the supporting plate 708 after being in inclined contact with the outer wall of the inclined rod.

The positioning rod 709 is slidably mounted inside the rotating disc 2 and fixed to the outer wall of the supporting plate 708, and the positioning rod 709 is used for guiding the supporting plate 708 to move out of the position under the positioning block 5.

The spring 710 surrounds the outer wall of the positioning rod 709, and two ends of the spring 710 are respectively contacted with the end protruding parts of the positioning rod 709 and the wall of the groove for moving the positioning rod 709, and the spring 710 is used for providing elastic force for resetting the positioning rod 709.

The conveying mechanism 8 includes a second driving motor 801, a third spur gear 802, a fourth spur gear 803, a conveying lever 804, and a link lever 805.

One end of the third spur gear 802 is connected to an output end of the second driving motor 801 for transmitting rotational torque from the second driving motor 801.

The plurality of conveying rods 804 are uniformly distributed on the outer wall of the top end of the working platform 1 and are rotationally connected with the inner wall of the working platform 1 through bearings, and one conveying rod 804 is connected with a fourth spur gear 803 for transmitting rotational torque from the third spur gear 802.

The other ends of the conveying rods 804 are eccentrically and rotatably connected with a linkage rod 805 through a rotating block, and the linkage rod 805 is used for driving all the conveying rods 804 to synchronously rotate when one conveying rod 804 rotates.

The second driving motor 801 is electrically connected with the PLC controller through a wire, and is used for controlling intermittent rotation of the second driving motor 801.

The inside shaping of work platform 1 has the pivoted slot that supplies gangbar 805 to rotate orbit assorted, the outer wall tooth piece of first straight gear 702 is ninety degrees and distributes in the outer wall of first straight gear 702, ninety degrees distributed tooth piece can provide intermittent type nature rotation for second straight gear 703, the backup pad 708 that does not receive from the thrust of supporting rod 707 will be located the hole groove below of locating piece 5, provide support for the packing bottle, the top shaping of work platform 1 has the stopper that carries out the direction spacing to push rod 705 transverse reciprocating motion, the rotation clearance time of second driving motor 801 is one time of first driving motor 701.

In this embodiment: when the device is used, the collecting box 6 is manually arranged on the outer wall of the conveying rod 804, meanwhile, the packaging bottle is arranged on the inner side of the positioning block 5 at the feeding position, the first driving motor 701 and the second driving motor 801 are started, the first driving motor 701 works to drive the first straight gear 702 to rotate, when the tooth blocks on the outer wall of the first straight gear 702 are meshed with the tooth blocks on the outer wall of the second straight gear 703, the second straight gear 703 is driven to rotate by the rotation thrust from the first straight gear 702, so that the rotating disc 2 fixedly connected with the first straight gear 702 is driven to rotate, the positioning block 5 is synchronously driven to rotate by the rotating disc 2, and as the tooth blocks on the outer wall of the first straight gear 702 are distributed at ninety degrees, the corresponding rotating disc 2 is also rotated by a quarter circle, so that the packaging bottle arranged in the positioning block 5 is moved to the lower part of the quantitative discharging unit 3, vaporized hydrogen peroxide between the inner tube and the outer tube is released first, and the packaging bottle is subjected to secondary sterilization; closing the vaporized hydrogen peroxide, starting an explosion-proof pump to enable the hydrogen peroxide solution to flow into the packaging bottle along the inner tube, and quantitatively filling; the rotating disc 2 continues to rotate for one quarter turn, the positioning block 5 is moved to the lower side of the sealing unit 4 for sealing, and the positioning block 5 is moved to the lower side of the collecting box 6 after one quarter turn.

At this time, the collecting box 6 will be attached to one side close to the first driving motor 701, and when the rotating disc 2 rotates the positioning block 5 to above the collecting box 6, the supporting rod 707 fixed at the top end of the working platform 1 will also contact with the supporting plate 708 bottom block in this direction, the inclined supporting rod 707 will provide a pressing force for the supporting plate 708, so that the supporting plate 708 moves laterally along the inside of the rotating disc 2 under the action of the supporting rod 707 until the supporting plate 708 is no longer located below the positioning block 5, and then the packaging bottle located inside the positioning block 5 will also lose the supporting force from the supporting plate 708 and fall into the collecting box 6, and it is required to be noted that the supporting rod 707 and the bottom supporting block of the supporting plate 708 are located in the middle position of the positioning block 5, so as not to affect the falling process of the packaging bottle.

Then the collecting box 6 will receive two bottles of packaging bottles, and the continuous operation of the first driving motor 701 will also drive the rotating wheel 704 coaxially arranged with the first driving motor 701 to rotate, the rotating wheel 704 rotates to give tension to the pushing rod 705 connected through the rotating block, so that the pushing rod 705 transversely moves under the cooperation of the tension of the limiting block and the rotating block, when the rotating disc 2 rotates for one quarter turn, the end part of the pushing rod 705 will be in a retracted state, at this time, the inner packaging bottle of one positioning block 5 synchronously discharges, and when the rotating disc 2 continues to rotate for one quarter turn, the pushing rod 705 will be in an ejection state, the collecting box 6 is ejected, the other two containing grooves of the collecting box 6 are aligned with the discharging openings of the positioning block 5, the packaging bottle stacking is avoided, and the efficiency is further improved.

Correspondingly, when the packing bottles are filled in one collecting box 6, the second driving motor 801 also works under the controller of the PLC, the second driving motor 801 drives the third straight gear 802 to rotate, torque is transmitted to the fourth straight gear 803 and the conveying rod 804 through rotation of the third straight gear 802, one conveying rod 804 rotates, the linkage rod 805 is driven to axially rotate along the center of the one conveying rod 804 through rotation of the one conveying rod 804, so that the plurality of conveying rods 804 are driven to synchronously rotate, power is provided for movement of the collecting box 6, and meanwhile, the next collecting box 6 close to the first driving motor 701 also continues to move to the position below the positioning block 5, so that the production efficiency is further improved.

Referring to fig. 1-7, the number of the supporting plates 708 is four, the four supporting plates 708 are uniformly distributed inside the rotating disc 2, and the supporting plates 708 which are not subject to the pushing force from the supporting rod 707 will be located below the hole slots of the positioning block 5 to provide support for the packaging bottles.

In this embodiment: by means of the structure, when one supporting plate 708 is in contact with the supporting rod 707, the supporting plate 708 is subjected to inclined extrusion from the supporting rod 707, the supporting plate 708 moves transversely, the supporting plate 708 moves synchronously to drive the positioning rod 709 to move, the positioning rod 709 gives extrusion force to the spring 710 surrounding the outer wall of the positioning rod 709, and when the rotating disc 2 continues to rotate to drive the supporting plate 708 to move continuously and not in contact with the supporting rod 707 any more, the supporting plate 708 is reset under the action of the elasticity of the spring 710 to provide support for a packaging bottle manually put into the next group.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (8)

1. A production process of a disinfectant containing hydrogen peroxide comprises the following steps:

s1: sterilizing packaging materials, namely sterilizing the packaging materials for production, wherein the packaging materials comprise packaging bottles, packaging covers, spray guns and packaging bags, and the sterilizing treatment comprises ethylene oxide sterilization, irradiation sterilization or vaporized hydrogen peroxide sterilization;

s2: preparing disinfectant raw materials and water for injection in a clean area according to a proportion;

s3: in a continuous and sealed pipeline, conveying the disinfectant prepared in the step S2 from a preparation tank to a sub-packaging device by using an explosion-proof pump;

s4: packaging disinfectant in packaging bottles by using a packaging machine in a local or all class-A clean area, and sealing under the environmental condition;

s5: conveying the packaging bottles subjected to sealing and split charging in the step S4 to a sterilizing place for sterilization bagging treatment;

the sub-packaging device in the S4 comprises a working platform (1), a rotating disc (2), a quantitative blanking unit (3), a sealing unit (4) and a positioning block (5), wherein the rotating disc (2) is rotatably arranged at the top end of the working platform (1), the rotating disc (2) is used for driving the positioning block (5) positioned on the top end surface of the rotating disc to circumferentially rotate, and the quantitative blanking unit (3) and the sealing unit (4) are fixed at the edge position of the top end of the working platform (1) and are distributed in ninety degrees in the circumferential direction;

the quantitative blanking unit (3) comprises a blanking platform (301), two groups of blanking pipes (302) are fixed on the blanking platform, the blanking pipes (302) are of a double-layer compound sleeve structure, each blanking pipe comprises an inner pipe and an outer pipe, and the inner pipes are connected with an explosion-proof pump; the interlayer space between the inner tube and the outer tube is connected with a vaporized hydrogen peroxide generator through an air tube and an air pump;

the transmission mechanism (7) is arranged inside the working platform (1), the transmission mechanism (7) is used for driving the rotating disc (2) to intermittently rotate, and the conveying mechanism (8) for driving the collecting box (6) to transport is arranged outside the working platform (1);

the transmission mechanism (7) consists of a transmission assembly and a blanking assembly:

the transmission assembly is used for transmitting power for intermittent rotation of the rotating disc (2), so that the positioning blocks (5) at the top end of the rotating disc (2) are stopped at the positions of the quantitative blanking unit (3), the sealing unit (4) and the collecting box (6) respectively, and thrust is provided for transverse movement of the collecting box (6);

the blanking component is used for controlling the packaging bottles to be moved to a position close to the collecting box (6), and releasing the bottom support of the packaging bottles so that the packaging bottles fall into the collecting box (6).

2. The process for producing the hydrogen peroxide-containing disinfectant according to claim 1, wherein the transmission assembly comprises a first driving motor (701), a first spur gear (702), a second spur gear (703), a rotating wheel (704), a pushing rod (705) and a guiding groove (706);

the first straight gear (702) is connected with the output end of the first driving motor (701) through a rotating shaft and a coupler and is used for driving the second straight gear (703) to intermittently rotate;

the second spur gear (703) is fixed on the bottom rotating shaft of the rotating disc (2), and the second spur gear (703) and the first spur gear (702) in the meshed state are used for transmitting the torque of the first driving motor (701) to the rotating disc (2);

the rotating wheel (704) is coaxially connected with the first straight gear (702) and is positioned above the working platform (1); a lug which pulls the push rod (705) to reciprocate is formed at the eccentric position of the top end of the rotating wheel (704), and the lug is in sliding connection with the guide groove (706).

3. The process for producing the hydrogen peroxide-containing disinfectant according to claim 1, wherein the blanking assembly comprises a supporting rod (707), a supporting plate (708), a positioning rod (709) and a spring (710);

the supporting rod (707) is arranged at the top end of the working platform (1), an inclined rod is formed at the end part of the supporting rod (707), the inclined rod is obliquely arranged on a transverse horizontal plane, a supporting block in contact with the outer wall of the inclined rod is formed at the bottom end of the supporting plate (708), and the supporting block is used for providing guidance for the movement of the supporting plate (708) after the supporting block is in inclined surface contact with the outer wall of the inclined rod;

the positioning rod (709) is slidably arranged in the rotating disc (2) and fixed with the outer wall of the supporting plate (708), and the positioning rod (709) is used for guiding the supporting plate (708) to move out of the lower part of the positioning block (5);

the spring (710) surrounds the outer wall of the positioning rod (709), two ends of the spring (710) are respectively contacted with the wall of the groove body for the movement of the positioning rod (709) at the protruding parts of the end parts of the positioning rod (709), and the spring (710) is used for providing elastic force for the reset of the positioning rod (709).

4. The production process of the hydrogen peroxide-containing disinfectant according to claim 1, wherein the conveying mechanism (8) comprises a second driving motor (801), a third spur gear (802), a fourth spur gear (803), a conveying rod (804) and a linkage rod (805);

one end of the third straight gear (802) is connected with the output end of the second driving motor (801) and is used for transmitting the rotation torque from the second driving motor (801);

the conveying rods (804) are uniformly distributed on the outer wall of the top end of the working platform (1) and are rotationally connected with the inner wall of the working platform (1) through bearings, and one conveying rod (804) is connected with a fourth spur gear (803) for transmitting rotational torque from the third spur gear (802);

the other ends of the conveying rods (804) are eccentrically and rotatably connected with a linkage rod (805) through a rotating block, and the linkage rod (805) is used for driving all the conveying rods (804) to synchronously rotate when one conveying rod (804) rotates;

the second driving motor (801) is electrically connected with the PLC through a wire and used for controlling intermittent rotation of the second driving motor (801).

5. The production process of the hydrogen peroxide-containing disinfectant as set forth in claim 4, wherein a rotating groove for matching the rotating track of the linkage rod (805) is formed in the working platform (1).

6. The process for producing the hydrogen peroxide-containing disinfectant according to claim 2, wherein the tooth blocks on the outer wall of the first straight gear (702) are distributed on the outer wall of the first straight gear (702) in ninety degrees, and the tooth blocks distributed in ninety degrees can provide intermittent rotation for the second straight gear (703).

7. A process for the production of a hydrogen peroxide containing sterilizing liquid according to claim 3, characterized in that the number of the supporting plates (708) is four, the four supporting plates (708) are uniformly distributed inside the rotating disc (2), and the supporting plates (708) which are not subjected to the pushing force from the pushing rod (707) are positioned below the hole grooves of the positioning blocks (5) to provide support for the packaging bottles.

8. The production process of the hydrogen peroxide-containing disinfectant according to claim 4, wherein a limiting block for limiting the direction of the transverse reciprocating movement of the push rod (705) is formed at the top end of the working platform (1), and the rotation clearance time of the second driving motor (801) is one time of that of the first driving motor (701).

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