CN113952889A

CN113952889A - Laundry gel ball and preparation process thereof

Info

Publication number: CN113952889A
Application number: CN202111325244.3A
Authority: CN
Inventors: 王盛龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-10
Filing date: 2021-11-10
Publication date: 2022-01-21

Abstract

The invention relates to the field of gel ball preparation, in particular to a laundry gel ball and a preparation process thereof, wherein the process comprises the following steps: orderly placing a double-layer gel plate with liquid enzyme to be subjected to closed packaging on a propelling device; intermittently and quantitatively driving the propulsion device to displace and add through a driving device and a ratchet wheel structure; the gel ball former is driven to clamp and cut the heat-sealed gel plate by the reciprocating motion of the driving device, so that the preparation is realized; clamping the formed gel ball to enclose the liquid enzyme in the formed gel ball, and separating by driving a gel ball former clamp; the batch automatic preparation is realized through the cooperation of continuous reciprocating clamping separation and propulsion conditions; the molded gel balls are ejected out by the ejector and then are recycled and packaged by driving and contacting the top plate.

Description

Laundry gel ball and preparation process thereof

Technical Field

The invention relates to the field of gel ball preparation, in particular to a laundry gel ball and a preparation process thereof.

Background

The washing gel bead is named as a washing gel bead because the shape is similar to a bead, and is specially designed for machine washing, so that the washing gel bead is simple to operate, is convenient and does not dirty hands, and a small washing gel bead can wash a cylinder of clothes. The washing liquid has fragrant smell, soft, smooth and thick texture, mild property, no damage to clothes, a special low-foam concentrated color-locking formula, easy rinsing, no residue after the condensation beads are dissolved in water, and capability of effectively and quickly removing stubborn stains to clean the clothes as new; laundry beads have been marketed for over 3000 million households in europe, and are sold in the united states for up to 14 billion years. The outer film of the washing coagulated beads can bear the weight of 15 kilograms, and can be dissolved when meeting water, so that cold water enzyme for 'cold and bright concentration' fine purification and bright color chelating agent for removing dark stubborn stains can be quickly dissolved into the water. The low water formulation of the laundry bead also ensures that the laundry can be easily finished with only half the amount of the common laundry detergent.

Disclosure of Invention

The invention aims to provide a laundry gel ball and a preparation process thereof, and has the beneficial effect of quickly producing the gel ball containing liquid enzyme in batch.

The purpose of the invention is realized by the following technical scheme:

a preparation process of laundry gel balls comprises the following steps:

step one, orderly placing a double-layer gel plate with liquid enzyme to be subjected to closed packaging on a propelling device;

intermittently and quantitatively driving the propulsion device to displace and add through a driving device and a ratchet structure;

driving a gel ball former to clamp and cut the heat-sealed gel plate through the reciprocating motion of a driving device, and further realizing preparation;

step four, clamping the formed gel ball to seal the liquid enzyme in the formed gel ball, and separating by driving a gel ball former;

fifthly, batch automatic preparation is realized through the cooperation of continuous reciprocating clamping separation and propulsion conditions; the molded gel balls are ejected out by the ejector and then are recycled and packaged by driving and contacting the top plate.

The gel sphere former comprises an upper driving ring rod, a lower driving ring rod, an upper hemisphere clamp and a lower hemisphere clamp, the upper hemisphere clamp and the lower hemisphere clamp are fixed on the upper driving ring rod and the lower driving ring rod respectively, and the upper hemisphere clamp is attached to the lower hemisphere clamp.

The upper end of the lower hemisphere clamping device is fixedly provided with an annular cutting edge for cutting, the lower hemisphere clamping device is fixedly provided with a heat-seal clamping ring for heat sealing, and the heat-seal clamping ring is arranged in the annular cutting edge.

The bottom end of the inner wall of the lower hemisphere clamping device is provided with an ejection supporting plate for ejecting gel balls, the ejection supporting plate is fixed on a spring shaft for resetting, a reset spring for resetting the ejection supporting plate is sleeved on the spring shaft, the reset spring is arranged between a baffle of the spring shaft and the lower hemisphere clamping device, and the spring shaft slides in the lower hemisphere clamping device.

The method comprises the steps of adding and processing a double-layer gel plate as a raw material, uniformly arranging liquid enzyme carrying grooves between the double-layer gel plate, clamping and fixing the double-layer gel plate, intermittently adding the liquid enzyme carrying grooves into a gel ball former through a driving device and a ratchet structure, simultaneously clamping the intermittently stopped double-layer gel plate by the driving device driving the gel ball former, cutting the double-layer gel plate in the clamping process, extruding and heat-sealing the cut double-layer gel plate with the liquid enzyme through heat sealing after cutting to form sealed gel balls with the liquid enzyme, separating the gel ball former clamp through the driving device, extruding, ejecting the formed gel balls clamped in the gel ball former, intermittently adding, and then clamping and processing; and further, the laundry gel balls with the liquid enzyme can be rapidly processed in batches, and the processing efficiency is high.

Drawings

FIG. 1 is a schematic flow diagram of the gel bead preparation of the present invention;

FIG. 2 is a schematic structural view of a gel pellet former of the present invention;

FIG. 3 is a first schematic view of the lower hemisphere clamp of the present invention;

FIG. 4 is a second schematic view of the lower hemisphere clamp of the present invention;

FIG. 5 is a schematic diagram of the structure of the gel bead lift of the present invention;

fig. 6 is a schematic structural view of an upper hemispherical clamper of the present invention;

FIG. 7 is a first schematic view of the structure of the drive of the gel ball former of the present invention;

FIG. 8 is a second schematic structural view of the drive of the gel pellet former of the present invention;

FIG. 9 is a schematic diagram of the structure of the drive of the gel pellet former of the present invention;

FIG. 10 is a fourth schematic structural view of the drive of the gel pellet former of the present invention;

FIG. 11 is a schematic view of the construction of the inventive processing stand;

FIG. 12 is a first overall schematic configuration of the present invention;

fig. 13 is a second overall configuration diagram of the present invention.

In the figure: an upper drive ring rod 1; a lower drive ring rod 2; an upper hemispherical clamper 3; a lower hemisphere clamper 4; an annular cutting edge 5; two heat-seal clamping rings 6; ejecting the supporting plate 7; a spring shaft 8; a return spring 9; an annular slot 10; a drive shaft 11; a reverse drive transmitter 12; a reverse drive gear 13; a half-arc combo frame 14; a variable frequency drive 15; a drive ratchet 16; an L-shaped ratchet plate 17; a limit push plate 18; two bolt clamping plates 19; a composite gel sheet 20; a processing frame 21; an L-shaped fixed top plate 22 and a push fixing frame 23.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in the embodiments illustrated herein,

Further optimization in conjunction with the above examples:

further working processes of an example of the preparation process of the laundry gel beads according to fig. 2, 3, 4 and 5 are as follows:

the upper driving ring rod 1 and the lower driving ring rod 2 are used for driving and clamping, the characteristics of the upper hemisphere clamping device 3 and the lower hemisphere clamping device 4 are combined to form extrusion and form a sphere at the same time, liquid enzyme liquid between the double-layer gel plates is wrapped at the same time, and the spherical washing gel sphere is formed and processed.

Further optimization in conjunction with the above examples:

in the clamping process of the upper hemisphere clamping device 3 and the lower hemisphere clamping device 4, the double-layer gel plate added between the upper hemisphere clamping device 3 and the lower hemisphere clamping device 4 is cut through the annular cutting edge 5, so that redundant connected gel is cut off in the extrusion forming process, and gel balls can be conveniently and quickly formed; meanwhile, the gel balls with the same specification are rapidly processed in batches.

Further optimization in conjunction with the above examples:

after extrusion heat-seal molding, the whole gel ball former is separated, and part of the gel balls subjected to heat-seal is clamped in the lower hemisphere clamping device 4 and is not easy to separate until the spring shaft 8 is jacked up, and then the gel balls are pushed out from the lower hemisphere clamping device 4 through the ejection supporting plate 7 for recycling and packaging.

Further optimization in conjunction with the above examples:

further, the lower end of the upper hemispherical clamper 3 is provided with an annular cutting groove 10 for cutting, an annular cutting blade 5 for cutting gel is inserted in the annular cutting groove 10, and another heat-seal clamping ring 6 for heat-sealing is fixed on the upper hemispherical clamper 3.

The working process of the part according to the preparation process example of the laundry gel ball shown in fig. 2, 3, 4 and 5 is:

by pushing the double-layered gel sheet into the annular cutting groove 10 by the annular cutting blade 5 during the extrusion molding process, the gel forming the two small sheets is squeezed between the upper hemisphere clamper 3 and the lower hemisphere clamper 4 and is also heat-sealed by the two heat-seal clamping rings 6, the peripheral edge seal of the gel of which the gel is a double-layered small sheet is melted, the liquid enzyme is sealed between the two gels, and the spherical gel ball with the liquid enzyme inside is formed.

Further optimization in conjunction with the above examples:

further, a plurality of upper driving ring rods 1 are arranged, the plurality of upper driving ring rods 1 are uniformly fixed on a driving rotating shaft 11 for the same driving, the driving rotating shaft 11 is used for driving a reverse driving transmitter 12 for steering through gear meshing transmission, the reverse driving transmitter 12 is in meshing transmission with a reverse driving gear 13 for the reverse driving, the reverse driving gear 13 is fixed on a half-arc combined frame 14 for the same driving in the reverse direction, and a plurality of lower driving ring rods 2 are uniformly fixed on the inner wall of the half-arc combined frame 14.

The working process of the part according to the preparation process example of the laundry gel ball shown in fig. 7, 8, 9 and 10 is:

the reverse driving gear 13 and the half-arc combined frame 14 are driven by the driving rotation of the rotating driving rotating shaft 11 and the reverse driving transmitter 12, the reverse rotation is between the driving rotating shaft 11 and the processing frame 21, the rotation directions of the upper driving ring rod 1 and the lower driving ring rod 2 are opposite, and the combined cutting and heat sealing between the upper hemisphere clamp 3 and the lower hemisphere clamp 4 can be realized.

Further optimization in conjunction with the above examples:

further, the driving rotating shaft 11 and the half-arc combined frame 14 are rotatably connected in a processing frame 21 for fixing preparation, the driving rotating shaft 11 is connected with a variable frequency driver 15 through a coupler, and the variable frequency driver 15 is fixed on the processing frame 21; an L-shaped fixed top plate 22 for ejecting the molded gel balls is fixed in the processing frame 21, and a propelling and fixing frame 23 for propelling the raw material is fixed at the side end of the processing frame 21.

all the spring shafts 8 are jacked up after being separated through the L-shaped fixed top plate 22, the clamped gel balls are jacked out, and the original shape is recovered through the return spring 9 after the gel balls are separated from the L-shaped fixed top plate 22; the variable frequency driver 15 drives the rotating shaft 11180 degrees to reciprocate, and further drives the upper hemispherical clamp 3 and the lower hemispherical clamp 4 to clamp and separate.

Further optimization in conjunction with the above examples:

further, the driving rotating shaft 11 drives a driving ratchet wheel 16 for adding raw materials through synchronous belt reciprocating motion transmission, the driving ratchet wheel 16 intermittently drives an L-shaped ratchet plate 17 through ratchet wheel meshing, the L-shaped ratchet plate 17 is fixed on a limiting pushing plate 18 for engaging and pushing, two ends of the limiting pushing plate 18 are connected with two bolt clamping plates 19 for clamping the raw materials through bolts, and the limiting pushing plate 18 slides in a pushing fixing frame 23 through a limiting sliding block.

the ratchet wheel 16 is driven to rotate on the processing frame 21 through the variable frequency driver 15 and the transmission belt, the rotating shaft 11 is driven to rotate anticlockwise through the variable frequency driver 15, the upper hemispherical clamp 3 and the lower hemispherical clamp 4 are clamped, and the combined gel plate 20 is formed, cut and thermally sealed; meanwhile, the drive ratchet wheel 16 rotating anticlockwise is not meshed with the L-shaped ratchet plate 17, and the intermittent addition of the combined gel plate 20 is stopped; when the variable frequency driver 15 drives the driving rotating shaft 11 to rotate clockwise, the hemisphere clamp 3 and the lower hemisphere clamp 4 are separated, meanwhile, the driving ratchet wheel 16 rotating clockwise is meshed with the L-shaped ratchet plate 17, the combined gel plate 20 clamped and fixed on the limiting pushing plate 18 is driven to add, and the process is repeated in this way.

Further optimization in conjunction with the above examples:

further, a combined gel plate 20 for adding is clamped between the limiting pushing plate 18 and the two bolt clamping plates 19, the combined gel plate 20 is two layers of gel, and a plurality of grooves carrying liquid enzyme are uniformly arranged between the two layers of gel.

The working process of the part according to the preparation process example of the laundry gel ball shown in fig. 9, 10, 11 and 12 is:

through combination gel board 20 for two-layer gel glue be in the same place, inside evenly is provided with a plurality of recesses that are liquid carrier enzyme receiving extrusion, cutting and heat-seal, with liquid enzyme package to the gel ball in, realize the processing of automatic gel ball in batches.

Further optimization in conjunction with the above examples:

furthermore, the upper end and the lower end of the laundry gel ball are both gels, the two gels are heat-sealed, and the gel laundry gel ball contains liquid enzyme inside.

Claims

1. A preparation process of a laundry gel ball is characterized by comprising the following steps: the method comprises the following steps:

step four, clamping the formed gel ball to seal the liquid enzyme in the formed gel ball, and driving a gel ball former clamp to separate;

2. A laundry gel bead making process according to claim 1 wherein said gel bead former comprises an upper drive ring rod (1), a lower drive ring rod (2), an upper hemisphere clamper (3) and a lower hemisphere clamper (4), the upper hemisphere clamper (3) and the lower hemisphere clamper (4) are fixed on the upper drive ring rod (1) and the lower drive ring rod (2), respectively, the upper hemisphere clamper (3) is attached to the lower hemisphere clamper (4).

3. A process for preparing laundry gel balls according to claim 2, wherein the lower hemisphere holder (4) has an annular cutting edge (5) fixed to its upper end for cutting, and a heat-seal clamp ring (6) for heat-sealing is fixed to the lower hemisphere holder (4), the heat-seal clamp ring (6) being disposed inside the annular cutting edge (5).

4. The process for preparing laundry gel balls according to claim 3, wherein an ejection supporting plate (7) for ejecting the gel balls is arranged at the bottom end of the inner wall of the lower hemispherical clamp (4), the ejection supporting plate (7) is fixed on a spring shaft (8) for resetting, a resetting spring (9) for resetting the ejection supporting plate (7) is sleeved on the spring shaft (8), the resetting spring (9) is arranged between a baffle of the spring shaft (8) and the lower hemispherical clamp (4), and the spring shaft (8) slides in the lower hemispherical clamp (4).

5. A laundry gel ball preparation process according to claim 2, wherein the lower end of said upper hemispherical gripper (3) is provided with an annular cutting groove (10) for cutting, an annular cutting edge (5) for cutting gel is inserted into the annular cutting groove (10), and another heat-seal clamping ring (6) for heat-sealing is fixed on the upper hemispherical gripper (3).

6. A process for preparing laundry gel balls according to claim 2, wherein the upper driving ring bars (1) are provided in plurality, the plurality of upper driving ring bars (1) are uniformly fixed on the driving shaft (11) for the same driving, the driving shaft (11) is used for driving the reverse driving transmitter (12) for steering by gear mesh transmission, the reverse driving transmitter (12) is in mesh transmission with the reverse driving gear (13) for reverse driving, the reverse driving gear (13) is fixed on the half-arc combination frame (14) for the same driving reverse, and the plurality of lower driving ring bars (2) are uniformly fixed on the inner wall of the half-arc combination frame (14).

7. The preparation process of the laundry gel balls according to claim 6, wherein the driving rotating shaft (11) and the half-arc combined frame (14) are rotatably connected in a processing frame (21) for fixed preparation, the driving rotating shaft (11) is connected with the variable frequency driver (15) through a coupler, and the variable frequency driver (15) is fixed on the processing frame (21); an L-shaped fixed top plate (22) for jacking up the formed gel balls is fixed in the processing frame (21), and a propelling and fixing frame (23) for propelling the raw materials is fixed at the side end of the processing frame (21).

8. The process for preparing laundry gel balls according to claim 7, wherein the driving shaft (11) drives the driving ratchet (16) for adding raw materials through synchronous belt reciprocating motion, the driving ratchet (16) intermittently drives the L-shaped ratchet plate (17) through ratchet meshing, the L-shaped ratchet plate (17) is fixed on a limit pushing plate (18) for engaging and pushing, two ends of the limit pushing plate (18) are connected with two bolt clamping plates (19) for clamping raw materials through bolts, and the limit pushing plate (18) slides in a pushing fixing frame (23) through a limit sliding block.

9. The process for preparing laundry gel balls according to claim 8, wherein a combined gel plate (20) for adding is clamped between the limiting pushing plate (18) and the two bolt clamping plates (19), the combined gel plate (20) is two layers of gel, and a plurality of grooves for carrying enzyme are uniformly arranged between the two layers of gel.

10. The laundry gel ball prepared by the process according to claim 1, wherein the upper and lower ends of the laundry gel ball are gels, the two gels are heat sealed, and the laundry gel ball contains liquid enzyme inside.