CN105708715A - Film making machine - Google Patents

Abstract

The invention relates to a film making machine, comprising: the bottom of the machine body main body is provided with a liquid outlet; the forming disc is placed at the bottom of the machine body main body and corresponds to the liquid outlet; the support is arranged at the bottom of the machine body main body to support the machine body main body, and the support can stretch and is adjustable to be matched with the forming disc; the control system comprises a power input module, a filtering and rectifying module and a voltage rising/reducing module, wherein the power input module is used for being connected with an external power supply device, the filtering and rectifying module is electrically connected with the power input module, and the voltage rising/reducing module is electrically connected with the filtering and rectifying module. Above-mentioned film manufacturing machine, film manufacturing machine's volume does not receive the restriction of shaping dish size and whole size is small and exquisite compacter, has greatly made things convenient for the storage and the use of this film manufacturing machine. The power input module can be connected with an alternating current power supply or a direct current power supply, and direct current output by the filtering rectification module can be boosted or reduced by the voltage boosting/reducing module to reach a required voltage value, so that low-voltage power supply of the film making machine is realized.

Description

Film-making machine

Technical field

The present invention relates to cosmetics manufacture field, particularly relate to a kind of film-making machine.

Background technology

Raising along with social development with people's living standard, the maintenance of skin is also increasingly paid attention to by people with nursing, face applied ointment or plaster by facial film and other positions of health become one of skin care method the most frequently used at present, and also entered into the life of people therewith gradually for the facial mask machine of self-made face pack.At present, use film-making machine to make facial film and specifically include that pulverizing vegetables and fruits, fruit and vegetable juice entrance forming disk and these key steps of molding in forming disk.

And at present, owing to the structure of film-making machine with forming disk limits, the volume of film-making machine is bigger, and require over high-tension alternating current power supply and power, it is thus desirable to take bigger memory space and not Portable belt and movement, cannot out of doors and other inconvenience use alternating current power supply occasion work, thus bringing inconvenience for people.

Summary of the invention

Based on this, it is necessary to for film-making machine volume relatively big and take larger space, not easily shifted and powered the problem limited by high voltage alternating current power supply, it is provided that a kind of small volume and the film-making machine little, that be moved easily and do not limited by high voltage alternating current power supply that takes up room.

A kind of film-making machine, including:

Fuselage main body, the bottom of described fuselage main body is provided with leakage fluid dram；

Forming disk, is positioned over the bottom of described fuselage main body and corresponding with described leakage fluid dram；And

Support, is installed on the bottom of described fuselage main body to support described fuselage main body, and described support stretches adjustable, to mate with described forming disk；

Control system, described control system includes Power Entry Module, filter rectification module and lifting/voltage reducing module, described Power Entry Module is used for connecting external powering device, described filter rectification module is electrically connected to described Power Entry Module, so that the alternating current that described Power Entry Module inputs is converted to unidirectional current, described lifting/voltage reducing module is electrically connected to described filter rectification module, to increase or to reduce the magnitude of voltage of described filter rectification module output.

Above-mentioned film-making machine, scalable being sized to of support being located at fuselage main body is mated with forming disk, so that forming disk is positioned at the lower section of fuselage main body and corresponding with leakage fluid dram.So, fuselage main body and forming disk can separately receive placement, and therefore the volume of the film-making machine overall dimensions compact more by the restriction of forming disk size, takes up room less, and the storage greatly facilitating this film-making machine is placed and uses, and are easy to carrying and carry.And, Power Entry Module can connect alternating current power supply or DC source, and when incoming transport power supply, AC conversion can be unidirectional current by filter rectification module.The unidirectional current of filter rectification module output can be undertaken boosting by lifting/voltage reducing module or blood pressure lowering is to reach required voltage value, it is achieved thereby that the low voltage power supply of film-making machine.

Wherein in an embodiment, described support includes two sliding supports being oppositely arranged and runing rest, two described sliding supports be slidably connected to respectively described fuselage main body with close to each other or away from, two described runing rests are connected to one end that described sliding support is located remotely from each other rotationally.

Wherein in an embodiment, the bottom of described fuselage main body is provided with the limited block that guide groove and relatively described fuselage main body are fixing, described sliding support one end is inserted in described guide groove and slides along described guide groove, and the relatively described sliding support of described limited block slides and can spacing described sliding support.

Wherein in an embodiment, described film-making machine includes the cup and the emulsifying mechanism that are positioned at described fuselage main body, and described emulsifying mechanism is installed on described interior cup, and is provided with the liquid outlet channel that the described leakage fluid dram selectivity with described fuselage main body connects.

Wherein in an embodiment, described emulsifying mechanism includes emulsifying mechanism upper cover, emulsifying mechanism lower cover and emulsifying cup, described emulsifying cup is between described emulsifying mechanism upper cover and described emulsifying mechanism lower cover, and described liquid outlet channel is located at described emulsifying cup and near one end of described emulsifying mechanism lower cover and is stretched out described emulsifying mechanism lower cover.

Wherein in an embodiment, described emulsifying mechanism also includes drainage structure, described drainage structure is installed on described emulsifying cup and is provided with one end of described liquid outlet channel, described drainage structure includes driving assembly, reciprocating discharge opeing bar and being installed on the sealing member of described discharge opeing bar one end, and discharge opeing bar described in described driving Component driver moves back and forth to drive described sealing member to turn off or on described liquid outlet channel.

Wherein in an embodiment, described driving assembly includes discharge opeing motor and trace, and described trace one end is connected to described discharge opeing motor, and the other end can be held in described discharge opeing bar to drive described discharge opeing bar to move back and forth.

Wherein in an embodiment, described film-making machine also includes fever tablet, stirring motor, temperature sensor and water level probe, described fever tablet is positioned at the bottom of described emulsifying cup, described stirring motor, temperature sensor and described water level probe are mounted on described emulsifying mechanism upper cover, and stretch in described emulsifying cup.

Wherein in an embodiment, described emulsifying mechanism is provided with the connection terminal upper end connecting described stirring motor, temperature sensor and described water level probe, described interior cup is provided with the connection terminal lower end being connected with described control system, described connection terminal upper end connects with the described terminal lower end that is connected, so that described connection terminal upper end connects described control system.

Wherein in an embodiment, described control system also includes connecting the heating control module of described lifting/voltage reducing module, processing module and motor drive module, described heating control module is electrically connected to described fever tablet, described motor driver is electrically connected to described stirring motor and described discharge opeing motor, described processing module connects described temperature sensor and described water level probe by sensor detecting module, and described heating control module and described motor drive module electrically connect with described processing module respectively.

Accompanying drawing explanation

Fig. 1 is the front view of the film-making machine of an embodiment；

Fig. 2 is the control system module figure of the film-making machine shown in Fig. 1；

Fig. 3 is the side view of the film-making machine shown in Fig. 1；

Fig. 4 is the structural representation of the emulsifying mechanism of the film-making machine shown in Fig. 1；

Fig. 5 is the schematic diagram of the forming disk of the film-making machine shown in Fig. 1；

Fig. 6 is the module map of the inverter circuit of the film-making machine shown in Fig. 2.

Detailed description of the invention

For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully.Accompanying drawing gives the preferred embodiment of the present invention.But, the present invention can realize in many different forms, however it is not limited to embodiment described herein.On the contrary, the purpose providing these embodiments is to make the understanding to the disclosure more thorough comprehensively.

It should be noted that be referred to as " being fixed on " another element when element, it can directly on another element or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly to another element or may be simultaneously present centering elements.Term as used herein " vertical ", " level ", "left", "right" and similar statement are for illustrative purposes only.

Unless otherwise defined, all of technology used herein is identical with the implication that the those skilled in the art belonging to the present invention are generally understood that with scientific terminology.The term used in the description of the invention herein is intended merely to the purpose describing specific embodiment, it is not intended that in the restriction present invention.Term as used herein " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.

As shown in Figure 1, Figure 2, shown in Fig. 4 and Fig. 5, a kind of film-making machine 100 of this preferred embodiment, it is used for utilizing fruit and vegerable to make facial film.This film-making machine 100 includes fuselage main body 10, forming disk 20, support 30 and control system 60.

Wherein, the bottom of fuselage main body 10 is provided with leakage fluid dram, and forming disk 20 is positioned over the bottom of fuselage main body 10 and corresponding with leakage fluid dram, to accept the liquid flowed out from leakage fluid dram.Support 30 is installed on the bottom of fuselage main body 10 to support fuselage main body 10, and support 30 stretches adjustable, to mate with forming disk 20.

Control system 60 includes current input module 61, filter rectification module 62 and lifting/voltage reducing module 63.Wherein, filter rectification module 62 is located at fuselage main body 10, and is electrically connected to Power Entry Module 61, so that the alternating current that Power Entry Module 61 inputs is converted to unidirectional current.Lifting/voltage reducing module 63 is located at fuselage main body 10, and electrically connects with filter rectification module 62, to increase or to reduce the magnitude of voltage of filter rectification module 62 output.

Above-mentioned film-making machine 100, scalable being sized to of support 30 being located at fuselage main body 10 is mated with forming disk 20, so that forming disk 20 is positioned at the lower section of fuselage main body 10 and corresponding with leakage fluid dram.So, fuselage main body 10 and forming disk 20 can separately receive placement, and therefore the volume of the film-making machine 100 not overall dimensions compact more by the restriction of forming disk 20 size, takes up room less, the storage greatly facilitating this film-making machine 100 is placed and uses, and is easy to carrying and carries.And, Power Entry Module 61 can connect alternating current power supply or DC source, and when incoming transport power supply, AC conversion can be unidirectional current by filter rectification module 62.The unidirectional current of filter rectification module 62 output can pass through lifting/voltage reducing module 63 and carry out boosting or blood pressure lowering is to reach required voltage value, it is achieved thereby that the low voltage power supply of film-making machine 100.

As shown in Figure 4, in the present embodiment, the difform models such as face film, fingerprint, eck mould, foot film in forming disk 20, it are provided with, to make the satisfied different needs of difform facial film.In the present embodiment, forming disk 20 adopts folding flexible structure material to make so that receiving with movement.In other embodiments, forming disk 20 may be used without flat hard material and makes.

Referring to Fig. 1 and Fig. 3, support 30 includes two sliding supports being oppositely arranged 32 and runing rest 34.Two sliding supports 32 be slidably connected to respectively fuselage main body 10 with close to each other or away from, two runing rests 34 are connected to one end that sliding support 32 is located remotely from each other rotationally.Specifically, runing rest 34 and sliding support 32 are hinged by connecting rod.

Further, in the present embodiment, runing rest 34 is provided with anchor point, so that the rotational angle from inside to outside of runing rest 34 is not more than 110 °, so that maintaining a certain distance to place forming disk between fuselage main body 10 and placed side.

So, runing rest 34 can support fuselage main body 10 above forming disk 20, can pass through to make two sliding supports 32 slide with being located remotely from each other to fuselage main body 10 both sides, rotate runing rest 34 size of expanded stent 30 in the way of expanding the angle between runing rest 34 and sliding support 32, thus with the mating shapes of forming disk 20, the liquid that leakage fluid dram is discharged can fall directly into formation facial film in forming disk 20.After this film-making machine 100 uses, two sliding supports 32 can be made mutually to draw close, and rotate runing rest 34 with reduce between its with sliding support 32 angle until overlapping with sliding support 32, thus reducing the overall dimensions of this film-making machine 100, while saving storage area, it is moved easily carrying.

Further, in the present embodiment, the bottom of fuselage main body 10 is provided with guide groove and limited block (scheming non-formula) that relatively fuselage main body 10 is fixing.Sliding support 32 one end is inserted in guide groove and slides along guide groove, and limited block relative sliding support 32 slides and can spacing sliding support 32.So, when sliding support 32 is to when making the size of support 30 reach a certain size away from the slip of fuselage main body 10 direction, limited block can be held in sliding support 32 to stop that sliding support 32 continues to slide, thus preventing sliding support 32 from extracting out from guide groove.It is appreciated that the limit method of sliding support is not limited to this.

As shown in Fig. 1, Fig. 3 and Fig. 4, the fuselage main body 10 shell structure in hollow, film-making machine 100 includes the cup 40 and the emulsifying mechanism 50 that are positioned at the shell 12 of fuselage main body 10, raw material to be processed by emulsifying mechanism 50.Wherein, interior cup 40 is provided with accommodation chamber, and emulsifying mechanism 50 is installed on the accommodation chamber of interior cup 40, and offers the liquid outlet channel 532 connected with the leakage fluid dram selectivity in fuselage main body 10.So, the liquid machined by emulsifying mechanism 50 can discharge leakage fluid dram through liquid outlet channel 532, eventually falls into formation facial film on forming disk 20.

Specifically, emulsifying mechanism 50 includes emulsifying mechanism upper cover 51, emulsifying mechanism lower cover 52 and emulsifying cup 53.Emulsifying cup 53 is between emulsifying mechanism upper cover 51 and emulsifying mechanism lower cover 52, and liquid outlet channel 532 is located at emulsifying cup 53 and near one end of emulsifying mechanism lower cover 52 and is stretched out emulsifying mechanism lower cover 52.

Emulsifying mechanism 50 also includes drainage structure 54, and this drainage structure 54 is installed on emulsifying cup 53 and is provided with one end of liquid outlet channel 532, for controlling the opening and closing of liquid outlet channel 532.Specifically in the present embodiment, drainage structure 54 includes driving assembly 542, reciprocating discharge opeing bar 544 and being installed on the sealing member 546 of discharge opeing bar 544 one end, sealing member 546 stretches in emulsifying cup 53, drives assembly 542 to drive discharge opeing bar 544 to move back and forth and turns off or on leakage fluid dram with band dynamic seal 546.In the present embodiment, the cross section of liquid outlet channel 532 is C font and surrounds discharge opeing bar 544.

Further, assembly 542 is driven to include discharge opeing motor 5422 and trace 5424.Trace 5424 one end is connected to discharge opeing motor 5422, and the other end can be held in discharge opeing bar 544 to drive discharge opeing bar 544 to move back and forth.Specifically, the output shaft of discharge opeing motor 5422 is connected to output wheel, and the rotation of output wheel drives discharge opeing bar 544 1 end motion, and the other end liftable of discharge opeing bar 544 lifts driving discharge opeing bar 544.In the present embodiment, output wheel is the cam being provided with supporting surface to support discharge opeing bar 522.

So, when trace 5424 is not in contact with discharge opeing bar 544, sealing member 546 supports the bottom of emulsifying cup 53 due to action of gravity, so that liquid outlet channel 532 is in sealing state.When trace 5424 drives discharge opeing bar 544 to during near emulsifying cup 53 1 end motion, departing from the bottom of emulsifying cup 53 with dynamic seal 546 rises, thus opening liquid outlet channel 532, making the mixing liquid in emulsifying mechanism 50 be discharged by liquid outlet channel 532.Further, in the present embodiment, sealing member 546 is the plug offering installing hole.

Emulsifying mechanism upper cover 51 is provided with charging aperture 512, and operator can pass through this charging aperture 512 and put into raw material in emulsifying cup 53.

Emulsifying upper cover is additionally provided with stirring motor mounting structure 514, is used for installing stirring motor 55.The output shaft of stirring motor 55 is connected to paddle 552, and paddle 552 stretches in emulsifying cup 53, can be placed through charging aperture 512 put into the raw material in emulsifying cup 53 be stirred mixing.

Film-making machine 100 also includes fever tablet 56, and this fever tablet 56 is contained between emulsifying mechanism lower cover 52 and emulsifying cup 53 and fits in bottom emulsifying cup 53, for the liquid in emulsifying cup 53 is heated.Further, fever tablet 56 is fixed on bottom emulsifying cup 53 by fever tablet fixture 562.

Film-making machine 100 also includes temperature sensor 57 and water level probe 58.Temperature sensor 57 and water level probe 58 are installed on emulsifying mechanism upper cover 51, and stretch in emulsifying cup 53, to measure position and the temperature of the liquid in emulsifying cup 53.

As it is shown in figure 5, film-making machine 100 also includes control system 60 to control the work of the various piece of film-making machine 100.

As shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 4, emulsifying mechanism 50 is provided with connection terminal upper end, and interior cup 40 is provided with the connection terminal lower end being connected with control system 60.Connect terminal upper end and be connected the connection of terminal lower end to be connected to control system 60.

In the present embodiment, emulsifying mechanism upper cover 51 is provided with the first connection terminal upper end 592, emulsifying mechanism lower cover 52 is provided with the second connection terminal upper end 594, being provided with of interior cup 40 connect with first respectively terminal upper end 592 and second connect terminal upper end 594 corresponding first connect terminal lower end 44 with and second be connected terminal lower end 46.

So, fever tablet 56 is connected to the second connection terminal lower end 46 by the second connection terminal upper end 594, and then is connected with control system 60.Temperature sensor 57 and water level probe 58 connect terminal upper end 592 each through first and are connected to the first connection terminal lower end 44, and then are connected with control system 60.

Specifically, control system 60 also includes connecting the heating control module 66 of lifting/voltage reducing module 62, processing module 64 and motor drive module 65.Heating control module 66 is electrically connected to fever tablet 56 to control the duty of fever tablet 56.Motor drive module 65 is electrically connected to stirring motor 54 and discharge opeing motor 5422, to control the duty 5422 of stirring electricity 54 and discharge opeing motor.Processing module 64 connects temperature sensor 45 and water level probe 48 by sensor detecting module 68, to receive the detection signal of temperature sensor 45 and water level probe 48 and to be passed to processing module 64.Further, processing module 64 electrically connects with heating control module 66 and motor drive module 65, to control the duty of heating control module 66 and motor drive module 65, works thus controlling fever tablet 56 with stirring motor 54 and discharge opeing motor 5422.

Lifting/voltage reducing module 63 includes two DC-DC converter (not shown), to produce DC12V power supply and DC5V power supply respectively.DC12V power supply is electrically connected to motor drive module 65 and heating control module 66, and to power to motor drive module 65 and heating control module 66, DC5V power supply is electrically connected to processing module 64 to power to processing module 64.So, this film-making machine 100 exports different magnitudes of voltage by lifting/voltage reducing module, meet the different requirements of processing module 64 and motor drive module 65, heating control module 66, therefore can connect the different electric supply installation such as alternating current power supply or portable power source, there is higher use motility.

Further, inversion module 67 it is additionally provided with between lifting/voltage reducing module 63 and heating control module 66, so that the low level direct current of output from lifting/voltage reducing device 63 is become high level unidirectional current and is delivered to heating control module 66, power for heating control module 66 and fever tablet 56.

Specifically, as shown in Figure 6, push-pull type high-frequency inverter circuit 671, high-frequency inverter transformer 672 and the filter rectifier 673 that inversion module 67 includes being sequentially connected electrically.The input of push-pull type high-frequency inverter circuit 671 electrically connects with the outfan of lifting/voltage reducing module 63, and the outfan of filter rectifier 673 electrically connects with the input of heating control apparatus 66.So, low flat alternating current can be converted to high straight flow electricity, it is provided that to heating control apparatus 66.

More specifically, inversion module 67 also includes the auxiliary circuit 674, control circuit 675 and the current/voltage testing circuit 676 that are sequentially connected electrically.The input of auxiliary circuit 674 is electrically connected to the outfan of lifting/voltage reducing device 63, the input of current/voltage testing circuit 676 is electrically connected to the outfan of filter rectifier 673, and the outfan of control circuit 675 is electrically connected to the input of push-pull type high-frequency inverter circuit 671.

So, auxiliary circuit 674 coordinates with current/voltage testing circuit 676, and input voltage is transformed into the voltage that suitable control circuit 675 works.Control circuit 675 provides for push-pull type high-frequency inverter circuit 671 and controls pulse to control conducting and the closedown of the inverse switch pipe of push-pull type high-frequency inverter circuit 671, to coordinate push-pull type high-frequency inverter circuit 671 to complete the inversion function of voltage.

After the electric current rectification module 62 after filtering of Power Entry Module 61 input, input dc power is to lifting/voltage reducing module 63.Input current is converted into three tunnels by lifting/voltage reducing module 63, powers to respectively motor drive module 65, processing module 64 and inversion module 67.The low level direct current of lifting/voltage reducing module 63 output is converted into high level alternating current by after the push-pull type high-frequency inverter circuit of inversion module 67 671 and high-frequency inverter transformer 674, high level alternating current is converted to high level unidirectional current by filter rectifier 673, and then flows to heat treated module 66.

So, motor drive module 65, heating control module 66 are controlled by processing module 66 with sensor detecting module 68 so that film-making machine 100 in different environments all can normal operation, have and use motility preferably, provided the user great convenience.

The work process of above-mentioned film-making machine 100 is as follows:

First, the size that adjusting pole 30 mates with forming disk 20, forming disk 20 is placed the position corresponding with leakage fluid dram with the bottom part down of fuselage main body 10.Put into collagen peptide afterwards from the charging aperture 512 of emulsifying mechanism upper cover 51 toward emulsifying cup 53, then pour appropriate fruit and vegetable juice into, then open autocontrol system 60.Stirring motor 55 drives paddle 552 to be stirred mixing with collagen peptide to fruit and vegetable juice, and emulsifying cup is heated by the fever tablet 56 bottom emulsifying cup 53.Meanwhile, the change of temperature sensor 57 and water level probe 58 monitor in real time temperature and water level.When the temperature value that temperature sensor 57 detects reaches preset value, control system 60 starts discharge opeing motor 5422, to drive trace 5424 to make discharge opeing bar 544 raise, so that sealing member 546 leaves emulsifying cup 53, liquid after stirring can by the liquid outlet channel 532 bottom emulsifying cup 53 and leakage fluid dram, flow into the forming disk 20 being arranged under leakage fluid dram, after liquid cooling, fruit and vegerable juice facial mask can be condensed into.

In one embodiment, the collagen protein powder (55%) that total amount is 4 grams can be put in emulsifying cup 53, Sargassum powder (27.3%), microcrystalline Cellulose (5.2%), maltodextrin (2.3%), Radix Glycyrrhizae extract (1.2%), Rhizoma amorphophalli powder (10%), it is subsequently adding the clear water of 80 milliliters.When temperature sensor 57 detects that temperature value reaches 68 °, the liquid after stirring flows in forming disk 20, can become facial film by autocoagulation after cooling.

Above-mentioned film-making machine 100, forming disk 20 and fuselage main body 10 are independently arranged, and are positioned over below fuselage main body 10 in use and can accept the liquid flowed out from fuselage main body 10, and therefore the volume of film-making machine 100 is without being subject to the restriction of forming disk 20 size.And, the support 30 of size adjustable can make fuselage main body 10 coordinate with forming disk 20, and support 30 can reduce the volume of film-making machine 100 further, makes film-making machine 100 without taking too much space.This film-making machine 100 can be powered by portable power supplies such as portable power sources, thus having bigger motility, being moved easily and carrying.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a film-making machine, it is characterised in that including:

Fuselage main body, the bottom of described fuselage main body is provided with leakage fluid dram；

Forming disk, is positioned over the bottom of described fuselage main body and corresponding with described leakage fluid dram；And

Support, is installed on the bottom of described fuselage main body to support described fuselage main body, and described support stretches adjustable, to mate with described forming disk；

Control system, described control system includes Power Entry Module, filter rectification module and lifting/voltage reducing module, described Power Entry Module is used for connecting external powering device, described filter rectification module is electrically connected to described Power Entry Module, so that the alternating current that described Power Entry Module inputs is converted to unidirectional current, described lifting/voltage reducing module is electrically connected to described filter rectification module, to increase or to reduce the magnitude of voltage of described filter rectification module output.

2. film-making machine according to claim 1, it is characterized in that, described support includes two sliding supports being oppositely arranged and runing rest, two described sliding supports be slidably connected to respectively described fuselage main body with close to each other or away from, two described runing rests are connected to one end that described sliding support is located remotely from each other rotationally.

3. film-making machine according to claim 2, it is characterized in that, the bottom of described fuselage main body is provided with the limited block that guide groove and relatively described fuselage main body are fixing, described sliding support one end is inserted in described guide groove and slides along described guide groove, and the relatively described sliding support of described limited block slides and can spacing described sliding support.

4. film-making machine according to claim 1, it is characterized in that, described film-making machine includes the cup and the emulsifying mechanism that are positioned at described fuselage main body, and described emulsifying mechanism is installed on described interior cup, and is provided with the liquid outlet channel that the described leakage fluid dram selectivity with described fuselage main body connects.

5. film-making machine according to claim 4, it is characterized in that, described emulsifying mechanism includes emulsifying mechanism upper cover, emulsifying mechanism lower cover and emulsifying cup, described emulsifying cup is between described emulsifying mechanism upper cover and described emulsifying mechanism lower cover, and described liquid outlet channel is located at described emulsifying cup and near one end of described emulsifying mechanism lower cover and is stretched out described emulsifying mechanism lower cover.

6. film-making machine according to claim 5, it is characterized in that, described emulsifying mechanism also includes drainage structure, described drainage structure is installed on described emulsifying cup and is provided with one end of described liquid outlet channel, described drainage structure includes driving assembly, reciprocating discharge opeing bar and being installed on the sealing member of described discharge opeing bar one end, and discharge opeing bar described in described driving Component driver moves back and forth to drive described sealing member to turn off or on described liquid outlet channel.

7. film-making machine according to claim 6, it is characterised in that described driving assembly includes discharge opeing motor and trace, and described trace one end is connected to described discharge opeing motor, the other end can be held in described discharge opeing bar to drive described discharge opeing bar to move back and forth.

8. film-making machine according to claim 7, it is characterized in that, described film-making machine also includes fever tablet, stirring motor, temperature sensor and water level probe, described fever tablet is positioned at the bottom of described emulsifying cup, described stirring motor, temperature sensor and described water level probe are mounted on described emulsifying mechanism upper cover, and stretch in described emulsifying cup.

9. film-making machine according to claim 8, it is characterized in that, described emulsifying mechanism is provided with the connection terminal upper end connecting described stirring motor, temperature sensor and described water level probe, described interior cup is provided with the connection terminal lower end being connected with described control system, described connection terminal upper end connects with the described terminal lower end that is connected, so that described connection terminal upper end connects described control system.

10. film-making machine according to claim 9, it is characterized in that, described control system also includes connecting the heating control module of described lifting/voltage reducing module, processing module and motor drive module, described heating control module is electrically connected to described fever tablet, described motor driver is electrically connected to described stirring motor and described discharge opeing motor, described processing module connects described temperature sensor and described water level probe by sensor detecting module, and described heating control module and described motor drive module electrically connect with described processing module respectively.