CN206232963U - Supercritical dyeing machine - Google Patents

Abstract

The utility model is related to supercritical dyeing machine, control device is arranged on fuselage, fuselage is provided with door closure, fixed mechanism is provided with fuselage, transmission mechanism and heating arrangements, fixed mechanism includes glass stand and cup disk, glass stand is fixedly connected with fuselage, glass stand supports the transmission mechanism, transmission mechanism connects cup disk, dyeing cup activity is inserted on glass disk, when transmission mechanism drives cup disk to rotate, cup disk drives dyeing cup to rotate, heating arrangements include food tray and heater, heater is electrically connected with control device, heater is placed in food tray, cup disk is fixed in food tray, food tray is built with conduction oil, when control device heater, heater heats conduction oil.The utility model proposes supercritical dyeing machine, compact conformation, heating effect is good, it is ensured that product quality, has saved cost, improves production efficiency.

Description

Supercritical dyeing machine

Technical Field

The utility model belongs to fabrics dyeing equipment field, concretely relates to supercritical dyeing machine.

Background

Traditional infrared dyeing machine's heating method passes through the infrared ray fluorescent tube heating, heat transfer is come with infrared ray production heat energy heating hexagonal case food tray, the rate of rise is slow, heating time is long, the fluorescent tube fragile, and traditional infrared dyeing machine's temperature control can only detect the temperature in the food tray, the temperature in the dyeing cup is not accurate, in addition, traditional infrared dyeing cup fixed mode all sets up purpose-made pressure spring on the both sides of glass stand, and by the pressure spring board, the fixed locking of screw, be used for fixed cup foot, traditional infrared dyeing machine's temperature control system adopts boat star computer control, the small operation in interface is inconvenient.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a supercritical dyeing machine overcomes above-mentioned defect, through the institutional advancement to supercritical dyeing machine, solves food tray heat time long, dye the cup and heat up slow, temperature control is poor, dye the complicated scheduling problem of cup fixed knot structure.

In order to solve the technical problem, the utility model provides a supercritical dyeing machine, including controlling means and fuselage, controlling means set up in on the fuselage, and with fuselage fixed connection, its characterized in that: the machine body is provided with a door cover, the machine body is internally provided with a fixing mechanism, a transmission mechanism and a heating mechanism,

the fixing mechanism comprises a cup holder and a cup tray, the cup holder is fixedly connected with the machine body, the cup holder supports the transmission mechanism, the transmission mechanism is connected with the cup tray, the dyeing cup is movably inserted on the cup tray, when the transmission mechanism drives the cup tray to rotate, the cup tray drives the dyeing cup to rotate,

the heating mechanism comprises an oil pan and a heater, the heater is electrically connected with the control device, the heater is arranged in the oil pan, the cup is arranged on the oil pan, heat conduction oil is filled in the oil pan, when the control device starts the heater, the heater heats the heat conduction oil.

As a preferred scheme of supercritical dyeing machine, the food tray with the door closure is perpendicular, the food tray have the first surface, with the corresponding second surface of first surface and certainly the first surface extends to the first side of second surface, first recess, second recess and cup dish have on the food tray, first recess certainly first surface to food tray center indent, the second recess certainly the second surface to food tray center indent, the cup dish certainly first side to food tray center indent, first recess, second recess with the food tray is on same central axis, the central axis of cup dish with the central axis of food tray is perpendicular.

As a preferred scheme of supercritical dyeing machine, drive mechanism includes gear motor, belt pulley, seat bearing and bearing, bearing set up in the second recess, connect bearing one end even bearing, another pot head is equipped with the belt pulley, the belt pulley with gear motor passes through the belt and rotates the connection, controlling means with gear motor electric connection works as controlling means opens gear motor, gear motor passes through the belt drives the belt pulley rotates, the belt pulley passes through seat bearing and bearing drive even the cup is rotated.

As an optimal solution of supercritical dyeing machine, the fixed establishment still includes planar bearing, planar bearing's one end is fixed in on the curb plate of fuselage, planar bearing's the other end inserts in the first recess, planar bearing with the door closure is parallel.

As a preferred scheme of supercritical dyeing machine, fixed establishment still includes a plurality of glass holders, the glass holder is located in the glass tray, dye the cup activity and insert and locate in the glass holder, the glass tray has a plurality ofly, the glass tray evenly set up in the first side of food tray, the number of glass holder equals the number of glass tray, the number of dyeing the cup is less than or equal to the number of glass holder.

As an optimized scheme of the supercritical dyeing machine of the present invention, the number of the cup trays is 12.

As an optimal selection scheme of supercritical dyeing machine, still be equipped with a plurality of hasp lock in the fuselage, the hasp lock will the dyeing cup is fixed in the cup dish, the hasp lock set up in the first side of food tray corresponds a hasp lock in a cup dish.

As a preferred scheme of supercritical dyeing machine, hasp lock includes the spring, detains body, fixed block, is used for the fixed plate fixed with the food tray and is used for the pull ring fixed with the dyeing cup, the fixed plate passes through first axis of rotation hub connection with detaining the body, detain the body and pass through the second axis of rotation hub connection with the fixed block, be equipped with the through-hole on the fixed block, the cover has on the pull ring the spring, the pull ring certainly the one end of through-hole is inserted, certainly the other end of through-hole stretches out, stretches out the pull ring passes through threaded connection with the nut.

As an optimal selection scheme of supercritical dyeing machine, still be equipped with the probe in the fuselage, the probe including set up in interior probe in the conduction oil with set up in dye outer probe in the cup, interior probe through high temperature resistant line with controlling means electric connection, outer probe through high temperature resistant line with controlling means electric connection.

As an optimal selection scheme of supercritical dyeing machine, still be equipped with heat dissipation mechanism in the fuselage, heat dissipation mechanism includes fan and air exit, the air exit set up in fuselage upper portion, the fan is fixed in the fuselage below, the fan with controlling means electric connection.

Compared with the prior art, the utility model provides a supercritical dyeing machine improves part structure and position in the dyeing machine fuselage, has following advantage:

1: the heating rate is high, the heating time is short, and energy conservation and emission reduction are realized more by a built-in oil heating mode;

2: probes are arranged in the dyeing cup and the oil pan, so that the temperature of the dyeing liquid in the dyeing cup and the temperature of the oil can be detected simultaneously, the temperature is more accurate, and the success rate of the dyeing process is ensured;

3: the dyeing cup clamp is fixedly controlled on one side, and the dyeing cup clamp is convenient and quick to take;

4: the temperature control system is controlled by a large-screen human-computer interface PLC, the picture is clear and bright, the temperature control precision is high, and the operation is more convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor. Wherein,

fig. 1 is a schematic front view of a supercritical dyeing machine according to the present invention;

fig. 2 is a schematic side view of a supercritical dyeing machine according to the present invention;

fig. 3 is a schematic structural view of a snap lock of the supercritical dyeing machine according to the present invention.

Wherein: the device comprises a control device 1, a body 2, a door cover 3, a cup tray 4, a first surface 41, a second surface 42, a first side surface 43, a first groove 44, a second groove 45, a third groove 46, a cup sleeve 5, an oil pan 6, a heater 7, a speed reduction motor 8, a belt tray 9, a connecting bearing 10, a needle bearing 11, a belt 12, a plane bearing 13, a snap lock 14, a spring 141, a buckle body 142, a fixing block 143, a fixing plate 144, a pull ring 145, a first rotating shaft 146, a second rotating shaft 147, an inner probe 15, a fan 16, an exhaust outlet 17, a heat insulation layer 18 and a caster 19.

Detailed Description

A supercritical dyeing machine, it includes supercritical dyeing machine, supercritical dyeing machine includes controlling means 1 and fuselage 2, controlling means 1 set up in on the fuselage 2, and with 2 fixed connection of fuselage, be equipped with door closure 3 on the fuselage 2, be equipped with fixed establishment (not shown in the figure), drive mechanism (not shown in the figure) and heating mechanism (not shown in the figure) etc. in the fuselage 2.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the following embodiments.

First, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with at least one implementation of the invention is included. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Secondly, the utility model discloses utilize structural schematic diagram etc. to describe in detail, when detailing the embodiment of the utility model, for the convenience of explanation, the schematic diagram that shows supercritical dyeing machine structure can not do local enlargement according to general proportion, moreover the schematic diagram is the example only, and it should not limit the scope of the utility model protection here. In addition, the actual fabrication process should include three-dimensional space of length, width and depth.

Referring to fig. 1, fig. 1 is a schematic view of a supercritical dyeing machine according to the present invention. As shown in fig. 1, the supercritical dyeing machine of the present invention comprises a control device 1 and a machine body 2, wherein the control device 1 is disposed on the machine body 2 and is fixedly connected with the machine body 2, a door 3 is disposed on the machine body 2, and a fixing mechanism (not shown), a transmission mechanism (not shown) and a heating mechanism (not shown) are disposed in the machine body 2. In the above mechanisms, the fixing mechanism fixes the transmission mechanism and the heating mechanism in the machine body 2, and the control device 1 controls the rotation, stop or lifting temperature of the transmission mechanism or the heating mechanism. The heating mechanism is used for raising the temperature of the dyeing liquid, and the setting position of the heating mechanism is various, including but not limited to the position shown in the attached figure 1. The heating mechanism is optimally arranged in the fixing mechanism and is attached to the dyeing cup. The advantage that sets up like this lies in, the dyeing cup can be quick by the heating, avoids energy loss, heating effect poor, moreover through so, heating mechanism and fixed establishment's dual structure can make heating performance safer.

The fixing mechanism, the transmission mechanism and the heating mechanism in the body 2 will be described separately.

Referring to fig. 1, as shown in fig. 1, the fixing mechanism includes a cup holder (not shown), a cup tray 4 and a plurality of cups 5, the cup holder is fixedly connected to the body 2, a frame body of the cup holder is fixedly connected to a side wall of the body 2, a frame structure is formed in the body 2, and a part of the cup holder is disposed to fix the cup tray 4 so that damage due to vibration is reduced when the cup tray rotates or shakes, such as: the cup and tray 4 falls, the cup and tray 4 deviates, and the joint of the cup and tray 4 and the transmission mechanism or the heating mechanism deforms or cracks. The cup holder also has a portion for securing or mounting the drive mechanism and the heating mechanism in a relatively stable configuration within the body 2.

In the embodiment of fig. 1, the dye cup is not fixed in the machine body 2, and it is inserted into the cup plate 4 after loading the dye and the sample cloth. Therefore, the dyeing cup is movably inserted on the cup tray 4, in the actual arrangement, the dyeing cup has various forms, and only the transmission mechanism can drive the dyeing cup to move so as to lead the dye in the dyeing cup and the sample cloth to be uniformly shaken.

Since the oil pan 6 is a structure of the fixed cup tray 4, in the fixed structure, the structure of the oil pan 6 is described, please refer to fig. 2, and fig. 2 is a schematic side view of the supercritical dyeing machine according to the present invention. As shown in fig. 1 and 2, the oil pan 6 is configured in a horizontal cylindrical shape, and the shape of the oil pan 6 may also be configured in other similar shapes, in this embodiment, the oil pan 6 has a first surface 41, a second surface 42 corresponding to the first surface 41, and a first side surface 43 extending from the first surface 41 to the second surface 42, that is, the first surface 41 is an upper surface of the cylindrical body, the second surface 42 is a lower surface of the cylindrical body, and the first side surface 43 is a side surface of the cylindrical body, and the cylindrical body is laid upside down and laid horizontally. The cup tray 4 has a first groove 44, a second groove 45 and a third groove 46, the first groove 44 is recessed from the first surface 41 to the center of the oil pan 6, the first groove 44 is used for matching with other shaft-shaped objects and fixing the cup tray from one side of the oil pan 6, the second groove 45 is recessed from the second surface 42 to the center of the oil pan 6, the second groove 45 is used for matching with other shaft-shaped objects and fixing the cup tray from the other side of the oil pan 6, the third groove 46 is recessed from the first side 43 to the center of the oil pan 6, the third groove 46 is used for accommodating a dyeing cup, the first groove 44 and the second groove 45 are correspondingly arranged, the first groove 44 and the second groove 45 are on the same central axis with the oil pan 6, the central axis of the third groove 46 is perpendicular to the central axis of the oil pan 6, in other embodiments, the first groove 44 and the second groove 45 may be provided only by one of them, or both may be provided through them, and all that is required is to fix the central axis of the oil pan 6, which falls within the present protection scope. In this embodiment, the third groove 46 is the cup plate 4.

In the above mentioned embodiment where the first groove 44 and the second groove 45 are correspondingly disposed, the fixing mechanism may further include a flat bearing 13, one end of the flat bearing 13 is fixed to the side plate of the body 2, the other end of the flat bearing 13 is inserted into the first groove 44, and the flat bearing 13 is parallel to the door cover 3. Be used for being fixed with food tray 6 through first recess 44 and fuselage 2, on the one hand the dispersion second recess 45 and the fixed bearing of other axles, on the other hand, through the cooperation with second recess 45, food tray 6 both ends are fixed, avoid appearing the axle when rotating and quiver, influence life.

With continued reference to fig. 2, the third recesses 46 for inserting dyeing cups may be provided in plural numbers during the rotation of the oil pan 6, and the dyeing cups are inserted into the third recesses 46, so that the plural dyeing cups can be heated and oscillated simultaneously during one operation. Time and electric energy loss are saved. In order to obtain better rotation effect, a plurality of the third grooves 46 are uniformly arranged on the first side surface 43 of the oil pan 6, which is more beneficial to prolonging the service life of the oil pan 6 and the fixed shaft, and is also beneficial to obtaining equivalent oscillating force for each dyeing cup inserted into the third grooves 46. According to the sample requirement, in the sample cloth dyeing process, the number of dyeing cups is less than or equal to the number of third recess 46 all can use the dyeing machine. In fig. 2, the number of the third grooves 46 is 12 in the illustrated embodiment. Furthermore, in order to enhance the fixation between the oil pan 6 and the dyeing cup, facilitate cleaning and improve the firmness of the third groove 46, a cup sleeve 5 is arranged between the cup pan 4 and the dyeing cup, and the cup sleeve 5 is arranged in the third groove 46.

In any of the above-mentioned embodiments, the utility model discloses can be along with in other dyeing machines or trade the fixed device of dying the cup in the similar equipment fix dye the cup with connect between the glass holder 5 the dyeing machine can be along with a neotype hasp lock 14, it is fixed to change one side into with the two side symmetry of other machines is fixed. Specifically, please refer to fig. 3, fig. 3 is a schematic structural diagram of a buckle lock of a supercritical dyeing machine according to the present invention. As shown in fig. 3, a plurality of snap locks 14 are further disposed in the body 2, the snap locks 14 fix the dyeing cup in the cup sleeve 5, the snap locks 14 are disposed on the first side surface 43 of the oil pan 6, and one third groove 46 corresponds to one snap lock 14. The dyeing cup is fixedly controlled on one side, and the dyeing cup is convenient and quick to take.

Referring to fig. 3, as shown in fig. 3, the snap lock 14 includes a spring 141, a buckle body 142, a fixing block 143, a fixing plate 144 for fixing with the cup plate 4, and a pull ring 145 for fixing with the dyeing cup, the fixing plate 144 is connected with the buckle body 142 through a first rotating shaft 146, the buckle body 142 is connected with the fixing block 143 through a second rotating shaft 147, a through hole (not shown) is formed on the fixing block 143, the pull ring 145 is sleeved with the spring 141, the pull ring 145 is inserted from one end of the through hole and extends out from the other end of the through hole, and the extended pull ring 145 is connected with a nut through a screw thread. When oil pan 6 rotates, dye the cup because centrifugal motion's principle, dye the cup and can produce the pulling force to centrifugal direction, so can produce certain pressure to hasp lock 14, cause the connecting portion fracture between pull ring 145 and the dyeing cup easily, influence life, and the cover is equipped with spring 141 on pull ring 145 to collocation fixed block 143 and nut, can avoid above-mentioned result. Therefore, when the oil pan 6 rotates, the snap lock 14 can adjust the expansion and contraction of the pull ring 145 according to the centrifugal force.

In the embodiment shown in fig. 1 to 3, the operating principle of the above-described fixing mechanism is as follows: the door cover 3 is opened, one or more dyeing cups filled with dyeing liquid and sample cloth are put into the cup sleeve 5 on the cup plate 4 one by one, the tightness between the spring 141 and the pull ring 145 is adjusted through a nut, then the pull ring 145 is sleeved on the fixing device of the dyeing cup, and then the buckle body 142 is pressed down to buckle the hasp lock 14. And closing the door cover 3, opening the control device 1, and operating the transmission mechanism and the heating mechanism to drive the oil disc 6 to rotate, lifting the buckle body 142 after dyeing is finished, and taking out the dyeing cups one by one.

The structure is the steps involved in the use process of the fixing mechanism in the supercritical dyeing machine.

The transmission mechanism is described below:

drive mechanism including be used for food tray 6 rotate provide power gear motor 8, be used for with gear motor 8 power to the pulley 9 of food tray 6, be used for supporting food tray 6 and driven even bearing 10 with be used for supporting 6 pivoted bearing 11 of food tray, bearing 11 set up in the second recess 45, even bearing 10 one end is connected bearing 11, another pot head is equipped with pulley 9, be equipped with belt gear dish on the gear motor 8, one side cover of belt 12 is located belt gear dish, the opposite side cover is located pulley 9, controlling means 1 with 8 electric connection of gear motor. The roller bearings 10 and the needle bearings 11 serve, on the one hand, as a transmission for the rotation of the oil pan 6 and, on the other hand, also as a fixed support for the oil pan 6 on the side of the second recess 45.

In the embodiment shown in fig. 1 to 3, the operating principle of the transmission mechanism described above is as follows: when the control device 1 starts the speed reducing motor 8, the belt gear disc on the speed reducing motor 8 rotates, the belt 12 drives the belt disc 9 to rotate, the belt disc 9 drives the bearing 10 to rotate, the bearing 10 drives the needle roller bearing 11 to drive the oil disc 6 to rotate, and the cup disc 4 drives the dyeing cup to rotate.

The structure is the steps involved in the use process of the transmission mechanism in the supercritical dyeing machine.

The heating mechanism is described below:

the heating mechanism is used for raising the temperature of the dye liquor in the dyeing cup, can be heated in a water bath, can be heated by wind heat and the like, and comprises but is not limited to the above. In the embodiment shown in fig. 1, the heating mechanism includes an oil pan 6 and a heater 7, the heater 7 is electrically connected to the control device 1, the heater 7 is disposed in the oil pan 6, the cup tray 4 is fixed on the oil pan 6, and the oil pan 6 is filled with heat conducting oil.

In the embodiment shown in fig. 1, the operating principle of the transmission mechanism is as follows: the control device 1 is powered on, the heater 7 converts electric energy into heat energy, and the heater 7 heats the heat conduction oil in the oil pan 6. Since the cup plate 4 is arranged on the oil pan 6, the temperature of the groove wall of the third groove 46 is increased along with the temperature, and therefore, the temperature of the dye cup inserted into the groove and the dye liquor in the groove is increased along with the temperature, and the heating purpose is achieved.

The structure is the steps involved in the use process of the heating mechanism in the supercritical dyeing machine.

In the heating mechanism, the temperature control needs to be embodied by a temperature measuring device, therefore, a probe (not shown) is further arranged in the machine body 2, the probe comprises an inner probe 15 arranged in the heat conducting oil and an outer probe (not shown) arranged in the dyeing cup, the inner probe 15 is electrically connected with the control device 1 through a high temperature resistant wire, and the outer probe is electrically connected with the control device 1 through a high temperature resistant wire.

After the heating mechanism is started, the temperatures of the dyeing cup and the heat conducting oil are measured by the outer probe and the inner probe 15 and then are displayed on the control device 1, and an operator can adjust the heater 7 through the control device 1 at any time according to the displayed temperatures.

Because the temperature inside and outside the body 2 needs to be adjusted according to the air temperature or the oil pan 6 inside the body 2, a heat dissipation mechanism (not shown) for reducing the temperature inside the body 2 and a heat insulation layer 18 for reducing the influence of the temperature outside the body 2 on the temperature inside the body 2 are further arranged inside the body 2, the heat dissipation mechanism comprises a fan 16 and an air outlet 17, the air outlet 17 is arranged on the upper part of the body 2, the fan 16 is fixed below the body 2, and the fan 16 is electrically connected with the control device 1. The location of the exhaust vent 17 and the fan 16 may be varied, including but not limited to the above-described configurations. The heat insulation layer 18 is disposed on the frame of the door 3 and the frame of the body 2.

In the embodiment shown in fig. 1, the operation principle of the heat dissipation mechanism and the thermal insulation layer is as follows: when the temperature in the machine body 2 is too high, the fan 16 is turned on, the fan 16 sends outside air into the machine body 2, the outside air is neutralized with the air in the machine body 2 and is sent out through the air outlet 17, and therefore the purpose of reducing the temperature in the machine body 2 is achieved. The temperature inside the fuselage 2 is protected from the outside temperature by adding an insulating layer 18 to the fuselage walls and the door covers 3: when the outside temperature is too low, the insulation layer 18 prevents the heater 7 from heating the oil pan 6 to generate excessive temperature loss.

The control device 1 specifically comprises a touch screen computer and the like, and the machine body 2 can be additionally provided with a caster 19, a cleaning device, an observation port, an alarm device and the like according to needs. Since these are well known to those skilled in the art, they will not be described herein.

Supercritical dyeing machine operating procedure do: pressing a power button, opening a touch screen computer, inputting a required dyeing process to a process meter, ensuring convenient selection during dyeing operation, opening a door cover 3, pressing a 'inching button' to inching an oil pan 6, inserting a dyeing cup with prepared dye and sample cloth into a cup tray 4 and locking, closing the door cover 3, using the touch screen computer to run a preset test process program, automatically rotating forward and backward alternately under the action of a transmission mechanism by a visible oil pan 6 at the moment through an observation port, selecting a proper rotating speed and heating temperature in the touch screen computer, giving an alarm after the test process program is finished, closing the transmission mechanism and the heating mechanism in the touch screen computer, opening the door cover 3, and rotating the oil pan 6 to take out the dyeing cup by pressing the 'inching button'. The operation is completed.

The supercritical dyeing machine is compact in structure and good in heating effect, ensures the product quality, saves the cost and improves the production efficiency. The concrete advantages are that:

1. and (3) changing the heating mode: the oil heating type is built in, heat conducting oil is arranged in an oil pan 6, a heater 7 is arranged in the heat conducting oil, and the temperature is raised by directly heating the heat conducting oil;

2. the change of the temperature measurement mode: the temperature of the dye liquor in the cup and the temperature of the oil can be detected simultaneously. The central positions of two sides of the oil disc 6 are provided with an axle hole and an oil inlet, a hollow shaft is inserted and is brought into a probe and a high temperature resistant wire to be communicated with a computer, the built-in probe 15 is arranged in heat conducting oil, the external probe is arranged in a dye cup, and the oil temperature in the oil disc 6 and the dye liquor temperature in the dye cup can be monitored simultaneously;

3. changing the fixing mode of the dyeing cup: the dyeing cup is fixedly controlled through the 14-card single side of the buckle lock, and the taking is more convenient and faster.

It should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (10)

1. Supercritical dyeing machine, including controlling means and fuselage, controlling means set up in on the fuselage, and with fuselage fixed connection, its characterized in that: the machine body is provided with a door cover, the machine body is internally provided with a fixing mechanism, a transmission mechanism and a heating mechanism,

the fixing mechanism comprises a cup holder and a cup tray, the cup holder is fixedly connected with the machine body, the cup holder supports the transmission mechanism, the transmission mechanism is connected with the cup tray, the dyeing cup is movably inserted on the cup tray, when the transmission mechanism drives the cup tray to rotate, the cup tray drives the dyeing cup to rotate,

the heating mechanism comprises an oil pan and a heater, the heater is electrically connected with the control device, the heater is arranged in the oil pan, the cup is arranged on the oil pan, heat conduction oil is filled in the oil pan, when the control device starts the heater, the heater heats the heat conduction oil.

2. Supercritical dyeing machine according to claim 1, characterized in that: the oil pan is perpendicular to the door cover, the oil pan is provided with a first surface, a second surface corresponding to the first surface and a first side face extending from the first surface to the second surface, the oil pan is provided with a first groove, a second groove and a cup disc, the first groove is inwards concave from the first surface to the center of the oil pan, the second groove is inwards concave from the second surface to the center of the oil pan, the cup disc is inwards concave from the first side face to the center of the oil pan, the first groove, the second groove and the oil pan are on the same central axis, and the central axis of the cup disc is perpendicular to the central axis of the oil pan.

3. Supercritical dyeing machine according to claim 2, characterized in that: drive mechanism includes gear motor, belt pulley, even seat bearing and bearing, bearing set up in the second recess, even seat bearing one end is connected bearing, another pot head is equipped with the belt pulley, the belt pulley with gear motor passes through the belt and rotates the connection, controlling means with gear motor electric connection works as controlling means opens gear motor, gear motor passes through the belt drives the belt pulley rotates, the belt pulley passes through even seat bearing and bearing drive the food tray rotates.

4. Supercritical dyeing machine according to claim 2, characterized in that: the fixing mechanism further comprises a plane bearing, one end of the plane bearing is fixed on the side plate of the machine body, the other end of the plane bearing is inserted into the first groove, and the plane bearing is parallel to the door cover.

5. Supercritical dyeing machine according to claim 2, characterized in that: the fixing mechanism further comprises a plurality of cup sleeves, the cup sleeves are arranged in the cup tray, the dyeing cups are movably inserted into the cup sleeves, the cup trays are multiple and evenly arranged on the first side face of the oil tray, the number of the cup sleeves is equal to that of the cup trays, and the number of the dyeing cups is smaller than or equal to that of the cup sleeves.

6. Supercritical dyeing machine according to claim 5, characterized in that: the number of the cup trays is 12.

7. Supercritical dyeing machine according to claim 2, characterized in that: the dyeing cup is characterized in that a plurality of hasp locks are further arranged in the machine body, the dyeing cups are fixed in the cup trays through the hasp locks, the hasp locks are arranged on the first side face of the oil tray, and one hasp lock corresponds to one hasp lock in one cup tray.

8. Supercritical dyeing machine according to claim 7, characterized in that: the hasp lock comprises a spring, a hasp body, a fixed block, a fixed plate and a pull ring, wherein the fixed plate is used for being fixed with an oil disc, the pull ring is used for being fixed with a dyeing cup, the fixed plate is connected with the hasp body through a first rotating shaft, the hasp body is connected with the fixed block through a second rotating shaft, a through hole is formed in the fixed block, the spring is sleeved on the pull ring, the pull ring is inserted into one end of the through hole, extends out of the other end of the through hole, and the extended pull ring is connected with a nut through threads.

9. Supercritical dyeing machine according to claim 1, characterized in that: the dyeing machine is characterized in that a probe is further arranged in the machine body, the probe comprises an inner probe arranged in the heat conduction oil and an outer probe arranged in the dyeing cup, the inner probe is electrically connected with the control device through a high-temperature-resistant wire, and the outer probe is electrically connected with the control device through a high-temperature-resistant wire.

10. Supercritical dyeing machine according to claim 1, characterized in that: still be equipped with heat dissipation mechanism in the fuselage, heat dissipation mechanism includes fan and air exit, the air exit set up in fuselage upper portion, the fan is fixed in fuselage below, the fan with controlling means electric connection.