CN104452155A - Solid heat-conducting independent-temperature-control experimental dyeing apparatus - Google Patents

Abstract

The invention discloses a solid heat-conducting independent-temperature-control experimental dyeing apparatus. The solid heat-conducting independent-temperature-control experimental dyeing apparatus comprises a rotary disk, a rotary disk drive mechanism, a heating device and a dyeing cup, wherein the rotary disk is in hollow structure, and multiple installation holes which are communicated with the inner portion of the rotary disk is interval disposed on the outer peripheral surfaces of the rotary disk. A heat conduct sleeve is mounted at the installation hole. One end of the heat conduct sleeve is inserted into the inner portion of the rotary disk. The dyeing cup is corresponding sleeved inside the heat conduct sleeve. The heating device comprises multiple heating elements. Each heat conduct sleeve is respectively equipped with one heating element. The dyeing apparatus in the above structure respectively adds heating elements to the heat conduct sleeve of each dyeing cups, each heating element heats the corresponding heat conduct sleeve, then the heat conduct sleeve conducts heat energy to the dyeing cup, and the heating rate of the dyeing cup is rapid, and thus the high-temperature dyeing efficiency of the dyeing cup is greatly improved. When each heating element is set at same temperature, the identity of the same batch sample quality is ensured. When each heating element is set at different temperature, sample test of different dyeing temperature can be finished at the same time.

Description

Solid bodies heat conduction independence temperature control experiment dyeing instrument

Technical field

The present invention relates to staining technique field, be specifically related to a kind of solid bodies heat conduction independence temperature control experiment dyeing instrument.

Background technology

Dyeing instrument is the testing machine needing most in dyeing to use, and is generally used for high-temp dyeing, has to test sample fast, coordinate and produce greatly, pick and place separately the dye advantage such as cup and simple operation.Existing dyeing instrument comprises casing, be located at rotating disc in casing and several dye cup, rotating disc is connected to transmission mechanism, this transmission mechanism comprises fixed axis and is sheathed on the turning cylinder on fixed axis, conduction oil is filled with in rotating disc, heating element heater is provided with in conduction oil, heating element heater is fixedly connected on fixed axis, also comprise and being fixed on rotating disc and several dye glass holder cylinders that can be immersed in liquid heat-conducting medium, the opening of each dye glass holder cylinder exposes outside rotating disc, and each dye cup is fixedly installed in corresponding dye glass holder cylinder in the mode of movable taking-up respectively.Adopt that conduction oil is large as the energy of consumption required during heat medium, firing rate slow, and can the pollutants such as oil smoke be produced when heating, conduction oil is easily oxidized, rotten, need periodic replacement, use inconvenience.

For solving the problem, applicant in this case provides the technical scheme of multiple alternative conduction oil, as the patent No. for ZL200910112150.0 disclosed in a kind of novel sample dyeing machine, and for example publication No. a kind of circulated air hot type laboratory device for testing color disclosed in CN 103757848A, improve after device for testing color all overcome and adopt the shortcoming of heat-conducting oil heating.But the heating of above two kinds of device for testing color to dye cup is all produce heat by heating element generating heat, heat is concentrated and is sealed in rotating disc, by heating dye cup heat transfer in this airtight rotating disc space.This mode of heating requires the good airproof performance of rotating disc, the rate of heat addition is slow, the heating of each dye cup is even not, and the dye cup temperature near thermal source is higher, and the dye cup temperature of stow away from heat is lower, same batch of test dyeing effect is caused to occur otherness, simultaneously because swivel mount space is comparatively large, and need often to pick and place dye cup, cause energy dissipation serious, in addition, traditional mode of heating is tested while cannot meeting the different sample of multiple dyeing temperature.

Summary of the invention

The invention provides a kind of solid bodies heat conduction independence temperature control experiment dyeing instrument, there is with the heating overcoming existing dyeing instrument dye cup inequality of being heated, occur otherness with a batch test dyeing effect, energy waste is serious, the shortcoming such as test while coloured differently temperature sample cannot be met.

For achieving the above object, the technical scheme of invention employing is as follows:

Solid bodies heat conduction independence temperature control experiment dyeing instrument, comprise rotating disc, rotary disk drive mechanism, heater and dye cup, wherein, rotating disc is hollow-core construction, spaced apartly on rotating disc outer peripheral face is provided with a plurality of installing hole that inside is communicated with rotating disc, and each installing hole place is provided with a heat conducting sleeve, it is inner that described rotating disc is stretched in heat conducting sleeve one end, above-mentioned dye cup correspondence is sheathed in heat conducting sleeve, and heater comprises a plurality of heating element heater, each heat conducting sleeve is respectively equipped with a heating element heater.

Further, above-mentioned heat conducting sleeve wraps up Heat Conduction Material by aluminium, copper or stainless steel interlayer and makes, and the heat conducting sleeve other end forms one and is fixed on limited step on described installing hole, and this limited step is provided with one and dye cup is fixed on locating cover on corresponding heat conducting sleeve.

Further, above-mentioned heat conducting sleeve has two kinds of structures, wherein a kind of bottom hollow out being heat conducting sleeve and stretching into rotating disc, stretches out the bottom or concordant with the edge bottom this heat conducting sleeve hollow out of this heat conducting sleeve hollow out bottom dye cup; Another kind is heat conducting sleeve sealed bottom, and dye glass holder is located in this heat conducting sleeve.

Further, above-mentioned rotating disc is prismatic structure, comprises end plate that two pieces of front and back are arranged symmetrically with and is a plurality ofly dismountablely connected to the cover plate forming faceted pebble between two end plates, each cover plate end face offering two described installing holes.

As the further improvement project of the present invention, above-mentioned each heat conducting sleeve is also provided with a tempilstick.

Further, above-mentioned heater also comprises a hollow fixed axis, wire rotating joint and power line, wherein, fixed axis stretches in rotating disc also fixing by end plate central, wire rotating joint is fixed on fixed axis termination, power line penetrates and by described wire rotating joint in fixed axis, then is connected to each heating element heater and tempilstick respectively.

From the above-mentioned description to invention, compared with prior art, invention has the following advantages:

1, the dyeing instrument of this structure, the heat conducting sleeve of each dye cup is respectively equipped with heating element heater, the heat conducting sleeve of each heating element heater to correspondence heats, heat conduction is given dye cup by heat conducting sleeve again, the heating rate of dye cup is fast, greatly improve the high-temp dyeing efficiency of dye cup, when each temp of heating element setting is identical, the homogeneity of same batch of sample mass can be ensured; When temp of heating element setting is different, test while coloured differently temperature sample can be applicable to again.

2, the dyeing instrument of this structure, heating element heater is embedded on heat conducting sleeve sidewall, greatly reduces the waste of heat energy, and rotating disc is without the need to keeping sealing simultaneously, makes the manufacture of rotating disc more convenient, simple.

3, the dyeing instrument of this structure, tempilstick is also embedded on heat conducting sleeve sidewall, and temperature survey is direct, accurate, there is not Thermal Hysteresis Time difference, is conducive to the control of high-temp dyeing time.

4, the dyeing instrument of this structure, heat conducting sleeve wraps up Heat Conduction Material by aluminium, copper or stainless steel interlayer and makes, its heat conduction is fast, heating rate is fast, greatly save the heat time heating time of high-temp dyeing, there is good heat-insulating property simultaneously, temperature stabilization can be remained on one numerically, can not produce up and down fluctuation or fluctuating error minimum, improve the effect of high-temp dyeing.

5, with the heat conducting sleeve that the material such as aluminium, copper is made, after heater stop heating, its rapid heat dissipation, prevents coloring agent to be subject to remaining warm continuous action dye further to cloth specimen and produce ill effect.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is the structural representation that the present invention drives storehouse.

Fig. 3 is the structural representation of the embodiment of the present invention one rotating disc.

Fig. 4 is the sectional view of the embodiment of the present invention one rotating disc.

Fig. 5 is the sectional view of the embodiment of the present invention two rotating disc.

Detailed description of the invention

Below by way of detailed description of the invention, the invention is further described.

Embodiment one

With reference to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, a kind of efficiently without heat-conducting medium dyeing instrument, comprise cabinet 10, rotating disc 20, rotary disk drive mechanism 30, dye cup 40, heater 50 and a plurality of tempilstick 60.Cabinet 10 is divided into heating cabinet 11 and drives storehouse 12, and rotating disc 20 is located in heating cabinet 11, and rotary disk drive mechanism 30 is located at and is driven in storehouse 12.

Rotating disc 20 comprises rotating disc body 21, installing hole 22, heat conducting sleeve 23 and locating cover 24, heat conducting sleeve 23 is made up of aluminium, copper or stainless steel interlayer parcel Heat Conduction Material, heat conduction is fast, heating rate is fast, there is not Thermal Hysteresis Time difference, greatly save the heat time heating time of high-temp dyeing, be conducive to the control of high-temp dyeing time.Rotating disc body 21 is hollow-core construction, comprises the end plate 211 of the regular polygon that two pieces are arranged symmetrically with and dismountable cover plate 212 be connected between two end plates 211, and end plate 211 and cover plate 212 surround formation prismatic structure.Certainly, the shape of this rotating disc body can also only include cover plate 212, and does not comprise two end plates 211, as long as its both sides are provided with the support for fixing following fixed axis 51.Above-mentioned each cover plate 212 has two dye cup installing holes 22 be communicated with rotating disc 20 inside, be arranged in juxtaposition between installing hole 22.Heat conducting sleeve 23 1 termination stretches in rotating disc 20 by installing hole 22, the other end is formed with limited step 231, heat conducting sleeve 23 sealed bottom of the present embodiment, and dye cup 40 correspondence is sheathed in heat conducting sleeve 23, is embedded with a tempilstick 60 in each heat conducting sleeve 23.Above-mentioned dye cup 40 is provided with multiple, and when contaminating cup 40 and inserting heat conducting sleeve 23, the cup now contaminating cup 40 is placed in rotating body 21, and rim of a cup is fixed on heat conducting sleeve 23.Limited step 231 is also provided with dye cup 40 is fixed on corresponding heat conducting sleeve 23 can automatically reset elasticity locating cover 24, this locating cover 24 wherein can do and rotates in side around limited step 231.First open locating cover 24 when installing dye cup 40, then load in heat conducting sleeve 23 by dye cup 40, dye cup 40 can be fixed when closing locating cover 24, contaminate cup 40 when taking out from heat conducting sleeve 23, locating cover 24 resets and to be sealed by installing hole 22.

With reference to Fig. 2 to Fig. 4, rotary disk drive mechanism 30 comprises motor 31, decelerator 32, ring flange 33 and power transmission shaft 34, motor 31 and decelerator 32 are in transmission connection, decelerator 32 is connected with power transmission shaft 34, ring flange 33 one end connection for transmission axle 34, ring flange 33 other end is fixed in the middle part of end plate 211, and motor 31 is connected also driven rotary dish 20 by decelerator 32, ring flange with power transmission shaft 34 successively and rotates.

Heater 50 comprises fixed axis 51, bearing block 52, wire rotating joint 53, a plurality of heating element heater 54 and power line 55, the present embodiment heating element heater 54 adopts infrared ray heating tube, each heating element heater 54 correspondence is embedded in the sidewall of heat conducting sleeve 23, the heat conducting sleeve 23 of each heating element heater 54 to correspondence heats, heat conduction is given dye cup 40 by heat conducting sleeve 23 again, the heating rate of dye cup 40 is fast, greatly improve the high-temp dyeing efficiency of dye cup, when each heating element heater 54 temperature setting is identical, the homogeneity of same batch of sample mass can be ensured; When the setting of heating element heater 54 temperature is different, test while coloured differently temperature sample can be applicable to again.Above-mentioned fixed axis 51 boring, this fixed axis 51 stretches in rotating disc 20 after in the middle part of power transmission shaft 34, bearing block 52 be arranged on rotating disc 20 end plate 211 for and support fixed axis 51, wire rotating joint 53 is fixed on fixed axis 51 termination, power line 55 penetrates and by wire rotating joint 53 in fixed axis 51, then is connected to each heating element heater 54 and tempilstick 60 respectively.

Dyeing instrument can experimentally need to replace the cover plate 212 on rotating body 21, and the installing hole 22 on cover plate on 212 and heat conducting sleeve 23 can be configured according to actual, thus expand the scope of application of dyeing instrument.In addition, dye cup 40 can stretch out the length of heat conducting sleeve 23 base section according to the needs adjustment dye cup 40 of actual samples, to obtain best high-temp dyeing effect.

The dyeing instrument of this structure, in each heat conducting sleeve sidewall, correspondence buries a tempilstick 60 underground, ensures the thermometric accuracy of each dye cup 40 high-temp dyeing, there is not Thermal Hysteresis Time difference, be conducive to the control of high-temp dyeing time.

Embodiment two

The present embodiment is substantially identical with embodiment one, its difference is the structure of heat conducting sleeve, with reference to Fig. 5, be engraved structure bottom the heat conducting sleeve 23 of this embodiment, and contaminate the bottom that can stretch out this heat conducting sleeve 23 hollow out bottom cup 40 or concordant with the edge bottom this heat conducting sleeve 23 hollow out.

Above are only some detailed description of the invention of invention, but the design concept of invention is not limited thereto, all changes utilizing this design invention to be carried out to unsubstantiality, all should belong to the behavior of invading invention protection domain.

Claims (8)

1. solid bodies heat conduction independence temperature control experiment dyeing instrument, comprise rotating disc, rotary disk drive mechanism, heater and dye cup, described rotating disc is hollow-core construction, spaced apartly on its outer peripheral face be provided with a plurality of installing hole that inside is communicated with rotating disc, it is characterized in that: each installing hole place is provided with a heat conducting sleeve, it is inner that described rotating disc is stretched in heat conducting sleeve one end, described dye cup correspondence is sheathed in heat conducting sleeve, described heater comprises a plurality of heating element heater, each described heat conducting sleeve is respectively equipped with a described heating element heater.

2. solid bodies heat conduction independence temperature control experiment dyeing instrument according to claim 1, is characterized in that: described heat conducting sleeve is made up of aluminium, copper or stainless steel interlayer parcel Heat Conduction Material.

3. solid bodies heat conduction independence temperature control experiment dyeing instrument according to claim 1, it is characterized in that: the described heat conducting sleeve other end forms one and is fixed on limited step on described installing hole, this limited step is provided with one and dye cup is fixed on locating cover on corresponding heat conducting sleeve.

4. solid bodies heat conduction independence temperature control experiment dyeing instrument according to claim 1, is characterized in that: described heat conducting sleeve stretches into the bottom hollow out of rotating disc, stretches out the bottom or concordant with the edge bottom this heat conducting sleeve hollow out of this heat conducting sleeve hollow out bottom described dye cup.

5. solid bodies heat conduction independence temperature control experiment dyeing instrument according to claim 1, it is characterized in that: described heat conducting sleeve sealed bottom, described dye glass holder is located in this heat conducting sleeve.

6. solid bodies heat conduction independence temperature control experiment dyeing instrument according to claim 1, it is characterized in that: described rotating disc is prismatic structure, comprise end plate that two pieces of front and back are arranged symmetrically with and be a plurality ofly dismountablely connected to the cover plate forming faceted pebble between two end plates, each cover plate end face offering two described installing holes.

7. solid bodies heat conduction independence temperature control experiment dyeing instrument according to claim 6, is characterized in that: each heat conducting sleeve is also provided with a tempilstick.

8. solid bodies heat conduction independence temperature control experiment dyeing instrument according to claim 7, it is characterized in that: described heater also comprises a hollow fixed axis, wire rotating joint and power line, described fixed axis stretches in described rotating disc also fixing by end plate central, described wire rotating joint is fixed on fixed axis termination, described power line penetrates and by described wire rotating joint in fixed axis, then is connected to each heating element heater and tempilstick respectively.