CN112680299A - Soap condensing equipment - Google Patents

Abstract

The invention relates to the technical field of soap processing, in particular to soap condensing equipment which comprises a base, wherein the top of the base is fixedly connected with a condensing box, a plurality of condensing mechanisms are arranged in the inner cavity of the condensing box, and each condensing mechanism comprises a first condensing die, a second condensing die and an extrusion spring; the first condensation mould is of a hollow structure, a first groove is arranged above the first condensation mould, and a demoulding mechanism and a feeding mechanism are arranged in a cavity of the first condensation mould; the cavity of the second condensation mould is internally provided with a demoulding mechanism which is the same as that in the first condensation mould, and the first condensation mould and the second condensation mould are fixedly connected through an extrusion spring.

Description

Soap condensing equipment

Technical Field

The invention relates to the technical field of soap processing, in particular to soap condensing equipment.

Background

Soap is a generic term for metal salts of fatty acids. The general formula is RCOOM, wherein RCOO is fatty acid radical, and M is metal ion. The daily soap contains fatty acid with carbon number of 10-18, and the metal is mainly alkali metal such as sodium or potassium, or special purpose soap prepared from ammonia and some organic alkali such as ethanolamine and triethanolamine. In a broad sense, fatty acid salts obtained by saponification or neutralization of fats and oils, waxes, rosins, fatty acids, or the like with alkalis may be referred to as soaps. The soap can be dissolved in water, and has effects of cleaning and decontaminating.

Soap condensing equipment in the traditional manufacturing process pours soap base into a die to be condensed into blocks, manual demoulding is carried out, so that more human resources are required to be consumed for demoulding, and the soap condensing equipment is required to be designed to solve the problems because the surface of soap is easily scratched and the appearance is influenced by manual demoulding and the production efficiency is low.

Disclosure of Invention

The invention aims to provide soap condensing equipment, which solves the problems brought forward by the technical background.

In order to achieve the purpose, the invention adopts the following technical scheme: a soap condensing device comprises a base, wherein a condensing box is fixedly connected to the top of the base, a plurality of condensing mechanisms are arranged in an inner cavity of the condensing box, and two adjacent condensing mechanisms are fixedly connected with each other; the condensation mechanism comprises a first condensation mould, a second condensation mould and an extrusion spring; the first condensation mould is of a hollow structure, a first groove is arranged above the first condensation mould, and a demoulding mechanism and a feeding mechanism are arranged in a cavity of the first condensation mould; the demolding mechanism comprises a first telescopic spring, one end of the first telescopic spring is fixedly connected with the inner wall of the cavity of the first condensation mold, the other end of the first telescopic spring is fixedly connected with a first sliding block, the first sliding block is connected with a first sliding groove in a sliding mode, and an elastic film is arranged at the connecting position of the first sliding groove and the first groove; the feeding mechanism comprises a feeding hole, the feeding hole is communicated with a first groove, a heat insulation layer is arranged on the peripheral side face of the joint of the feeding hole and the first groove, a heat insulation baffle is arranged in a cavity of the first condensation mould, the lower part of the heat insulation baffle is fixedly connected with a second sliding block, the second sliding block is in sealing sliding connection with a second sliding groove, the second sliding block is fixedly connected with one end of a second expansion spring, and the other end of the second expansion spring is fixedly connected with the inner wall of the cavity of the first condensation mould; a second groove is formed in the second condensation mould, the second condensation mould is of a hollow structure, a demoulding mechanism which is the same as that in the first condensation mould is arranged in a cavity of the second condensation mould, the first condensation mould and the second condensation mould are fixedly connected through an extrusion spring, and the bottom of the first condensation mould of the lowest condensation mechanism is fixedly connected with the bottom of the inner cavity of the condensation box; a second through hole is formed in one side of the top of the condensing box, a feeding hose is arranged at the top of the condensing box, one end of the feeding hose penetrates through the top of the condensing box through the second through hole, one side of an extending part of the feeding hose is communicated with a plurality of discharging hoses, the extending end of the feeding hose is fixedly connected with the bottom of an inner cavity of the condensing box, one ends of the discharging hoses, far away from the feeding hose, are fixedly connected with one side of a first condensing mold, a first through hole is formed in the middle of the top of the condensing box, pressing rods are fixedly connected to the tops of the second condensing molds, located in the condensing mechanisms at the head end, of the plurality of condensing mechanisms, and the top ends of the pressing rods penetrate through the top of the condensing box through the first through holes; the compression bar moves downwards to extrude the extrusion spring, so that the first condensation mould and the second condensation mould are in extrusion contact with each other to form a closed space when the first condensation mould and the second condensation mould reach the working positions.

As a preferred technical scheme, a collecting box is fixedly connected to one side of the top of the base, a water collecting hose is arranged on one side, away from a feeding hose, of an inner cavity of the condensing box and is communicated with a plurality of first condensing molds and a plurality of second condensing molds through a plurality of communicating hoses, a water outlet pipe is communicated with the bottom end of the water collecting hose, one end of the water outlet pipe penetrates through the bottom of one side of the condensing box, and the extending end of the water outlet pipe is communicated with the collecting box.

As a preferable technical scheme of the invention, one side of the collecting box is provided with an observation port, and the inner side of the observation port is embedded with a transparent sealing plate.

As a preferred technical scheme of the invention, gaskets are fixedly connected at four corners of the bottom of the base, supporting legs are fixedly connected at the bottoms of the gaskets, and foot pads are fixedly connected at the bottoms of the supporting legs.

As a preferred technical scheme of the invention, the outside of the condensation box is rotatably connected with a box door through a hinge, and the outer wall of the box door is fixedly connected with a handle.

As a preferable technical scheme of the invention, one end of the compression bar, which is positioned outside the condensation box, is fixedly connected with a baffle, and the diameter of the baffle is larger than that of the first through hole.

In a preferred embodiment of the present invention, the initial position of the first slider is in close contact with the elastic film.

According to the preferable technical scheme, after the soap base is poured, high-pressure condensate is injected into the cavities of the first condensation mold and the second condensation mold, and the condensate condenses the soap base and pushes the second sliding block and the heat insulation baffle in the cavity of the first condensation mold to move upwards so that the feed port is cut off; after the soap base is solidified, reducing the pressure applied to the pressure rod, enabling the first condensation mould and the second condensation mould to keep a fixed gap, further increasing the pressure of condensate, enabling the condensate in the cavities of the first condensation mould and the second condensation mould to push the first sliding block to move, and enabling the first sliding block to push the soap to move, so that the soap is demoulded from the first condensation mould and the second condensation mould.

As a preferred technical solution of the present invention, after the soap is released from the first and second condensing molds, the cavities of the first and second condensing molds are vacuumized, negative pressure is formed in the cavities of the first and second condensing molds, the elastic film and the first slider move into the cavities, and the elastic film is separated from the soap.

The invention has at least the following beneficial effects:

1. the invention fills high-pressure condensate into the cavities of the first and second condensing dies after soap base filling is finished through the mutual matching of the first and second condensing dies, the condensate, the second slide block, the second expansion spring, the heat insulation baffle and the like, because the elastic coefficients of the first and second expansion springs are different, the first expansion spring and the second expansion spring have different expansion states by controlling the hydraulic pressure of the high-pressure condensate filled into the cavities of the first and second condensing dies, the first expansion spring keeps the original state, the second expansion spring deforms, the condensate in the cavity of the first condensing die pushes the second slide block to move upwards, the second slide block drives the second expansion spring to extend and push the heat insulation baffle to move upwards, the feed inlet is intercepted by the heat insulation baffle, the soap base in the discharge hose stops flowing to the first condensing die, fill into the condensate in first condensation mould and the second condensation mould cavity and can not only carry out the condensation to the soap base, can also make the feed inlet, ejection of compact hose and soap base cooling part separation, through setting up thermal baffle and insulating layer, make feed inlet and ejection of compact hose not receive the influence of condensate, avoid feed inlet and ejection of compact hose also by the condensation when the soap base condensation, prevent that feed inlet and ejection of compact hose from blockking up, influence production efficiency.

2. According to the invention, through the mutual matching of the first condensation mould, the second condensation mould, the condensate, the compression rod, the extrusion spring and the like, after the soap base is solidified, the pressure applied to the compression rod is reduced, so that a fixed gap is kept between the first condensation mould and the second condensation mould, the high-pressure condensate is continuously injected into the cavities of the first condensation mould and the second condensation mould, the pressure of the condensate is further increased, the cooling liquid in the first condensation mould and the second condensation mould pushes the first sliding block to slide, the first sliding block drives the first telescopic spring to stretch, the first telescopic spring stretches, the plurality of first sliding blocks push the elastic film and the soap to move together, so that the soap is separated from the first condensation mould and the second condensation mould, the yield of the soap is further improved, the labor consumption is reduced, and the production efficiency is improved.

3. According to the invention, through the mutual matching of the first condensation mould and the second condensation mould, the condensate, the compression bar, the extrusion spring and the like, after the soap is demoulded from the first condensation mould and the second condensation mould, the condensate is released, the condensate enters the collection box through the communication hose, after the condensate is released, the vacuum pumping operation is started to be carried out on the cavities of the first condensation mould and the second condensation mould, negative pressure is formed in the cavities of the first condensation mould and the second condensation mould, the elastic film and the first sliding block move towards the cavities, and the elastic film is separated from the soap, so that the demoulding of the soap is completed, the demoulding of the soap is simple, the yield of the soap is improved, the labor loss is reduced, and the production efficiency is improved.

4. Through the arrangement of the elastic film, when the demoulding mechanism is used for demoulding the soap, the demoulding mechanism and the soap are not in direct contact to finish demoulding, so that the surface of the soap is prevented from being scratched by the demoulding mechanism.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a front elevational, open box view of the present invention;

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

FIG. 3 is a side view of the present invention;

FIG. 4 is a schematic structural diagram of a condensing mechanism according to the present invention;

FIG. 5 is a schematic cross-sectional view of a condensing mechanism according to the present invention;

FIG. 6 is an enlarged schematic view of the ejector mechanism of the present invention;

fig. 7 is an enlarged schematic view of the feed mechanism of the present invention.

In the figure: 1. a base; 2. a collection box; 3. a water outlet pipe; 4. a water collection hose; 5. a communication hose; 6. a condensing mechanism; 7. a first condensing mold; 8. a compression spring; 9. a first groove; 10. a pressure lever; 11. a baffle plate; 12. a feed hose; 13. a box door; 14. supporting legs; 15. a discharge hose; 16. a first through hole; 17. a condenser tank; 18. a transparent sealing plate; 19. a second groove; 20. a second condensing mold; 21. a viewing port; 22. a handle; 23. a gasket; 24. a foot pad; 25. a second through hole; 26. a demolding mechanism; 2601. a first extension spring; 2602. a first slider; 2603. a first chute; 2604. an elastic film; 27. a feeding mechanism; 2701. a feed inlet; 2702. a thermal insulation layer; 2703. a heat insulation baffle; 2704. a second slider; 2705. a second chute; 2706. a second extension spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-7, a soap condensing apparatus comprises a base 1, a condensing box 17 is fixedly connected to the top of the base 1, a collecting box 2 is fixedly connected to one side of the top of the base 1, gaskets 23 are fixedly connected to four corners of the bottom of the base 1, supporting legs 14 are fixedly connected to the bottoms of the gaskets 23, foot pads 24 are fixedly connected to the bottoms of the supporting legs 14, and the gaskets 23, the supporting legs 14 and the foot pads 24 are arranged to improve the stability of the soap condensing apparatus; an observation port 21 is formed in one side of the collecting box 2, a transparent sealing plate 18 is embedded in the inner side of the observation port 21, and the observation port 21 and the transparent sealing plate 18 are arranged, so that the condition that condensate is collected in the collecting box 2 can be observed conveniently.

The outside of condensing box 17 rotates through the hinge and is connected with chamber door 13, and 13 outer walls fixedly connected with handles 22 of chamber door, and the 17 inner chambers of condensing box are provided with a plurality of condensation mechanism 6, and fixed connection sets up chamber door 13 between two adjacent condensation mechanism 6, is convenient for take out the soap base after the cooling, also is convenient for overhaul inner structure simultaneously, sets up handle 22, is convenient for open chamber door 13, uses manpower sparingly.

The condensing mechanism 6 includes a first condensing mold 7, a second condensing mold 20, and an extrusion spring 8; the first condensation mould 7 is of a hollow structure, a first groove 9 is arranged above the first condensation mould 7, and a demoulding mechanism 26 and a feeding mechanism 27 are arranged in a cavity of the first condensation mould 7.

The demolding mechanism 26 comprises a first telescopic spring 2601, one end of the first telescopic spring 2601 is fixedly connected with the inner wall of the cavity of the first condensation mold 7, the other end of the first telescopic spring 2601 is fixedly connected with a first sliding block 2602, the first sliding block 2602 is slidably connected with a first sliding chute 2603, and an elastic film 2604 is arranged at the connection part of the first sliding chute 2603 and the first groove 9; the initial position of the first slider 2602 abuts the flexible membrane 2604. By arranging the elastic film 2604, when the demoulding mechanism 26 is used for demoulding the soap, the demoulding mechanism 26 can be used for demoulding the soap without directly contacting the soap, so that the surface of the soap is prevented from being scratched by the demoulding mechanism 26, and the produced soap is attractive.

The feeding mechanism 27 comprises a feeding hole 2701, the feeding hole 2701 is communicated with the first groove 9, a heat insulation layer 2702 is arranged on the peripheral side face of the connection part of the feeding hole 2701 and the first groove 9, a heat insulation baffle 2703 is arranged in a cavity of the first condensation mold 7, and the feeding hole 2701 and the discharging hose 15 are not affected by condensate liquid by arranging the heat insulation baffle 2703 and the heat insulation layer 2702, so that the feeding hole 2701 and the discharging hose 15 are prevented from being condensed when soap bases are condensed, and the feeding hole 2701 and the discharging hose 15 are prevented from being blocked to influence the production efficiency; the lower part of the heat insulation baffle 2703 is fixedly connected with a second slide block 2704, the second slide block 2704 is in sealed sliding connection with a second sliding chute 2705, and through the sealed connection, the sealing performance between the second slide block 2704 and the second sliding chute 2705 is ensured, high-pressure condensate is prevented from flowing into the feed port 2701 from a gap between the second slide block 2704 and the second sliding chute 2705, the second slide block 2704 is fixedly connected with one end of a second telescopic spring 2706, and the other end of the second telescopic spring 2706 is fixedly connected with the inner wall of the cavity of the first condensation mold 7; the elastic coefficients of the first expansion spring 2601 and the second expansion spring 2706 are different, and the elastic coefficients of the first expansion spring 2601 and the second expansion spring 2706 are different, so that the first expansion spring 2601 and the second expansion spring 2706 can have different expansion states by controlling the hydraulic pressure of the high-pressure condensate filled in the cavities of the first condensation mold 7 and the second condensation mold 20.

A second groove 19 is formed in the second condensation mold 20, the second condensation mold 20 is of a hollow structure, a demolding mechanism 26 which is the same as that in the first condensation mold 7 is arranged in a cavity of the second condensation mold 20, the first condensation mold 7 and the second condensation mold 20 are fixedly connected through an extrusion spring 8, and the bottom of the first condensation mold 7 of the lowest condensation mechanism 6 is fixedly connected with the bottom of an inner cavity of the condensation box 17.

A second through hole 25 is formed in one side of the top of the condensation box 17, a feeding hose 12 is arranged on the top of the condensation box 17, one end of the feeding hose 12 penetrates through the top of the condensation box 17 through the second through hole 25, one side of an extending portion of the feeding hose 12 is communicated with a plurality of discharging hoses 15, the extending end of the feeding hose 12 is fixedly connected with the bottom of an inner cavity of the condensation box 17, one ends, far away from the feeding hose 12, of the discharging hoses 15 are fixedly connected with one side of a first condensation mold 7, a first through hole 16 is formed in the middle of the top of the condensation box 17, pressure rods 10 are fixedly connected to the tops of second condensation molds 20, arranged from top to bottom, of condensation mechanisms 6 located at the head ends in the plurality of condensation mechanisms 6, and the top ends of the pressure rods 10 penetrate through the top of; the one end fixedly connected with baffle 11 that depression bar 10 is located the condensing box 17 outside, and the diameter of baffle 11 is greater than the diameter of first through-hole 16, through setting up baffle 11, prevents that depression bar 10 from falling into in the condensing box 17 at the in-process that pushes down.

One side that feed hose 12 was kept away from to the inner chamber of condensing tank 17 is provided with water collecting hose 4, and water collecting hose 4 communicates each other with the first condensation mould 7 of a plurality of and second condensation mould 20 through a plurality of intercommunication hose 5, and water collecting hose 4's bottom intercommunication has outlet pipe 3, and outlet pipe 3's one end runs through one side bottom of condensing tank 17 to communicate each other between outlet pipe 3's the extension end and the collecting box 2.

The pressing rod 10 moves downwards to press the pressing spring 8, so that the first condensation mould 7 and the second condensation mould 20 are in pressing contact with each other to form a closed space when the first condensation mould 7 and the second condensation mould 20 reach the working position.

After the soap base is filled, high-pressure condensate is filled into the cavities of the first condensation mould 7 and the second condensation mould 20, and the second slide block 2704 and the heat insulation baffle 2703 in the cavity of the first condensation mould 7 are pushed to move upwards while the soap base is condensed by the condensate so that the feed port 2701 is intercepted; after the soap base is solidified, the pressure applied to the pressure rod 10 is reduced, so that the first condensation mould 7 and the second condensation mould 20 keep a fixed gap, the pressure of condensate is further increased, the condensate in the cavities of the first condensation mould 7 and the second condensation mould 20 pushes the first slide block 2602 to move, the first slide block 2602 pushes the soap to move, and the soap is demoulded from the first condensation mould 7 and the second condensation mould 20. By controlling the hydraulic pressure of the high-pressure condensate filled in the cavities of the first condensation mold 7 and the second condensation mold 20, the first expansion spring 2601 and the second expansion spring 2706 have different expansion states, and two different functions of intercepting and demolding are further completed.

After the soap is stripped from the first condensation mold 7 and the second condensation mold 20, the cavities of the first condensation mold 7 and the second condensation mold 20 are vacuumized, negative pressure is formed in the cavities of the first condensation mold 7 and the second condensation mold 20, the elastic film 2604 and the first slider 2602 move into the cavities, and the elastic film 2604 is separated from the soap.

When pouring soap, the pressing rod 10 is pushed downwards, the extrusion spring 8 contracts inwards, so that the first condensation mould 7 and the second condensation mould 20 are in extrusion contact and form a closed space when the first condensation mould 7 and the second condensation mould 20 reach working positions, so that the pouring mould is closed, then soap bases are injected into the feeding hose 12, the soap bases flow into the closed space formed by the extrusion contact of the first condensation mould 7 and the second condensation mould 20 through the discharging hose 15, after the closed space formed by the extrusion contact of the first condensation mould 7 and the second condensation mould 20 is filled with the soap bases, then high-pressure condensate is injected into cavities of the first condensation mould 7 and the second condensation mould 20, under the action of the high-pressure condensate, and due to the different elastic coefficients of the first expansion spring 2601 and the expansion spring 2706, the first expansion spring 2601 keeps the original state, and the second expansion spring 2706 deforms, condensate in the cavity of the first condensation mould 7 pushes the second sliding block 2704 to move upwards, the second sliding block 2704 drives the second telescopic spring 2706 to extend and push the heat insulation baffle 2703 to move upwards, the feed port 2701 is intercepted by the heat insulation baffle 2703, the soap base in the discharge hose 15 stops flowing to the first condensation mould 7, and the feed port 2701 and the discharge hose 15 are not affected by the condensate by arranging the heat insulation baffle 2703 and the heat insulation layer 2702, so that the feed port and the discharge hose are prevented from being condensed when the soap base is condensed, and the feed port and the discharge hose are prevented from being blocked; after the heat insulation baffle 2703 finishes intercepting the feeding hole 2701, the soap base remained in the discharging hose 15 is drawn back to the device for filling the soap base from the outside, so that the soap base remained in the discharging hose 15 is prevented from influencing the demoulding of the poured soap. Meanwhile, the condensate in the cavities of the first condensation mould 7 and the second condensation mould 20 condenses the soap base, the condensate is filled into the cavities of the first condensation mould 7 and the second condensation mould 20, so that the soap base can be condensed, the feed inlet, the discharge hose and the soap base cooling part can be separated,

after the soap base is solidified, reducing the pressure applied to the pressure lever 10 to keep a fixed gap between the first condensation mold 7 and the second condensation mold 20, continuing to inject high-pressure condensate into the cavities of the first condensation mold 7 and the second condensation mold 20, further increasing the pressure of the condensate, so that the coolant in the first condensation mold 7 and the second condensation mold 20 pushes the first slider 2602 to slide, the first slider 2602 drives the first expansion spring 2601 to stretch and push the elastic film 2604 to move together with the soap, so that the soap is separated from the first condensation mold 7 and the second condensation mold 20, in order to ensure that the thrust of the first slider 2602 is uniform when the soap is demolded from the first condensation mold 7 and the second condensation mold 20, and avoid the soap from being broken due to nonuniform stress, the arrangement of a plurality of sets of soap demolding mechanisms 26 can make the thrust of the first slider 2602 uniform when demolded, thereby the soap can be smoothly demoulded.

After the soap is demolded from the first condensation mold 7 and the second condensation mold 20, condensate is released, the condensate enters the collecting box 2 through the communicating hose 5, after the condensate is released, vacuumizing operation is carried out on cavities of the first condensation mold 7 and the second condensation mold 20, negative pressure is formed in the cavities of the first condensation mold 7 and the second condensation mold 20, the elastic film 2604 and the first sliding block 2602 move into the cavities, the elastic film 2604 is separated from the soap, demolding of the soap is completed at the moment, demolding of the soap is simple, yield of the soap is improved, manpower loss is reduced, and production efficiency is improved.

The foregoing shows and describes the general principles, essential features, and advantages of the 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 merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the 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 (9)

1. The soap condensing equipment comprises a base (1), and is characterized in that a condensing box (17) is fixedly connected to the top of the base (1), a plurality of condensing mechanisms (6) are arranged in an inner cavity of the condensing box (17), and two adjacent condensing mechanisms (6) are fixedly connected with each other;

the condensation mechanism (6) comprises a first condensation mould (7), a second condensation mould (20) and an extrusion spring (8); the first condensation mould (7) is of a hollow structure, a first groove (9) is arranged above the first condensation mould, and a demoulding mechanism (26) and a feeding mechanism (27) are arranged in a cavity of the first condensation mould (7);

the demolding mechanism (26) comprises a first telescopic spring (2601), one end of the first telescopic spring (2601) is fixedly connected with the inner wall of the cavity of the first condensation mold (7), the other end of the first telescopic spring (2601) is fixedly connected with a first sliding block (2602), the first sliding block (2602) is in sliding connection with a first sliding groove (2603), and an elastic film (2604) is arranged at the connection position of the first sliding groove (2603) and a first groove (9);

the feeding mechanism (27) comprises a feeding hole (2701), the feeding hole (2701) is communicated with a first groove (9), a heat insulation layer (2702) is arranged on the peripheral side face of the joint of the feeding hole (2701) and the first groove (9), a heat insulation baffle (2703) is arranged in a cavity of the first condensation mould (7), the lower part of the heat insulation baffle (2703) is fixedly connected with a second sliding block (2704), the second sliding block (2704) is in sealed sliding connection with a second sliding groove (2705), the second sliding block (2704) is fixedly connected with one end of a second telescopic spring (2706), and the other end of the second telescopic spring (2706) is fixedly connected with the inner wall of the cavity of the first condensation mould (7);

a second groove (19) is formed in the second condensation mould (20), the second condensation mould (20) is of a hollow structure, a demoulding mechanism (26) which is the same as that in the first condensation mould (7) is arranged in a cavity of the second condensation mould (20), the first condensation mould (7) and the second condensation mould (20) are fixedly connected through an extrusion spring (8), and the bottom of the first condensation mould (7) of the lowest condensation mechanism (6) is fixedly connected with the bottom of the inner cavity of the condensation box (17);

a second through hole (25) is formed in one side of the top of the condensation box (17), a feeding hose (12) is arranged on the top of the condensation box (17), one end of the feeding hose (12) penetrates through the top of the condensation box (17) through the second through hole (25), one side of an extending part of the feeding hose (12) is communicated with a plurality of discharging hoses (15), the extending end of the feeding hose (12) is fixedly connected with the bottom of an inner cavity of the condensation box (17), one ends of the discharging hoses (15), far away from the feeding hose (12), are fixedly connected with one side of a first condensation mold (7), a first through hole (16) is formed in the middle of the top of the condensation box (17), and a plurality of compression rods (10) are fixedly connected to the tops of second condensation molds (20) which are arranged from top to bottom in the condensation mechanisms (6) and are located at the head ends, the top end of the pressure lever (10) penetrates through the top of the condensation box (17) through a first through hole (16);

the compression bar (10) moves downwards to extrude the extrusion spring (8), so that the first condensation mould (7) and the second condensation mould (20) are in extrusion contact with each other to form a closed space when the first condensation mould (7) and the second condensation mould (20) reach working positions.

2. The soap condensing equipment according to claim 1, wherein a collecting box (2) is fixedly connected to one side of the top of the base (1), a water collecting hose (4) is arranged on one side of the inner cavity of the condensing box (17) far away from the feeding hose (12), the water collecting hose (4) is communicated with a plurality of first condensing molds (7) and second condensing molds (20) through a plurality of communicating hoses (5), the bottom end of the water collecting hose (4) is communicated with a water outlet pipe (3), one end of the water outlet pipe (3) penetrates through the bottom of one side of the condensing box (17), and the extending end of the water outlet pipe (3) is communicated with the collecting box (2).

3. The soap condensing apparatus as claimed in claim 2, wherein a viewing port (21) is opened at one side of the collecting box (2), and a transparent sealing plate (18) is embedded at the inner side of the viewing port (21).

4. Soap condensing apparatus according to claims 1 and 2 characterized by that at each of the four corners of the base (1) bottom there is fixedly connected a gasket (23), and the bottom of the gasket (23) is fixedly connected with a support leg (14), and the bottom of the support leg (14) is fixedly connected with a foot pad (24).

5. A soap condensing apparatus according to claims 1-3, wherein the outside of said condensing box (17) is rotatably connected with a box door (13) by a hinge, and the outer wall of the box door (13) is fixedly connected with a handle (22).

6. The soap condensing apparatus according to claim 1, wherein a baffle (11) is fixedly connected to one end of the pressure lever (10) located outside the condensing box (17), and the diameter of the baffle (11) is larger than that of the first through hole (16).

7. A soap condensing apparatus according to claim 1, wherein said first slider (2602) is in close contact with an elastic membrane (2604) at its initial position.

8. The soap condensing equipment according to claim 1, wherein after pouring of soap base, high-pressure condensate is filled into the cavities of the first condensing mold (7) and the second condensing mold (20), and the condensate condenses the soap base and pushes the second slide block (2704) and the heat insulation baffle (2703) in the cavity of the first condensing mold (7) to move upwards so as to stop the feed port (2701); after the soap base is solidified, reducing the pressure applied to the pressure rod (10), keeping a fixed gap between the first condensation mould (7) and the second condensation mould (20), further increasing the pressure of condensate, and enabling the condensate in the cavities of the first condensation mould (7) and the second condensation mould (20) to push the first sliding block (2602) to move, and the first sliding block (2602) to push the soap to move, so that the soap is demoulded from the first condensation mould (7) and the second condensation mould (20).

9. The soap condensing apparatus of claim 1, wherein after the soap is completely released from the first and second condensing molds (7, 20), the vacuum pumping operation is performed on the cavities of the first and second condensing molds (7, 20), the negative pressure is formed in the cavities of the first and second condensing molds (7, 20), the elastic membrane (2604) and the first slider (2602) move into the cavities, and the elastic membrane (2604) is separated from the soap.

Images