CN204311234U - A kind of carbon nano-fiber heating hand sample dyeing instrument - Google Patents

Abstract

A kind of carbon nano-fiber heating hand sample dyeing instrument, comprise rotating disc, rotary disk drive mechanism, heater and dye cup, 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, each installing hole place is provided with a heat conducting sleeve, this heat conducting sleeve is by aluminium, copper, pottery or stainless steel interlayer parcel Heat Conduction Material are made, rotating disc inside is stretched in heat conducting sleeve one end, dye cup correspondence is sheathed in heat conducting sleeve, heater comprises the heating element heater be fixed on rotating disc, this heating element heater heats heat conducting sleeve and transfers heat to dye cup.The dyeing instrument of this structure, heat conducting sleeve wraps up Heat Conduction Material by aluminium, copper, pottery or stainless steel interlayer and makes, its 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, improve the effect of high-temp dyeing.

Description

A kind of carbon nano-fiber heating hand sample dyeing instrument

Technical field

The utility model relates to staining technique field, is specifically related to a kind of carbon nano-fiber heating hand sample 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.Above two kinds of device for testing color are all first heated dye cup glass holder by heater to the heating of dye cup, then heat heats dye cup through dye cup glass holder with heat exchange pattern again, but, above two device for testing color are all adopt the dye cup glass holder be made up of stainless steel, although stainless steel dye cup glass holder has certain heat insulation effect, but the heat transference efficiency of stainless steel dye cup glass holder is not high, cause the heating rate contaminating cup low, heat time heating time is long, if once midway needs to heat up, stainless steel dye cup glass holder heats up slow, temperature easily produces and fluctuates up and down, be difficult to fixedly remain on a certain numerical value, affect high-temp dyeing effect.

Summary of the invention

The utility model provides a kind of carbon nano-fiber to heat hand sample dyeing instrument, has that heat conduction is slow, heating rate is low with the dye cup glass holder overcoming existing dyeing instrument, is difficult to keep fixing for temperature, affects the shortcomings such as high-temp dyeing effect.

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

A kind of carbon nano-fiber heating hand sample dyeing instrument, comprise rotating disc, rotary disk drive mechanism, heater and dye cup, 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, each installing hole place is provided with a heat conducting sleeve, this heat conducting sleeve is by aluminium, copper, pottery or stainless steel interlayer parcel Heat Conduction Material are made, rotating disc inside is stretched in heat conducting sleeve one end, dye cup correspondence is sheathed in heat conducting sleeve, above-mentioned heater comprises the heating element heater be fixed on described rotating disc, this heating element heater heats heat conducting sleeve and transfers heat to dye cup.

Further, above-mentioned 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 dye cup.

Further, above-mentioned heat conducting sleeve sealed bottom, dye glass holder is located in this heat conducting sleeve.

Further, the above-mentioned heat conducting sleeve other end forms one and is fixed on limited step on 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 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 offers two installing holes, above-mentioned heating element heater is positioned on the perpendicular bisector of same cover plate two installing hole lines of centres.

Further, said temperature checkout gear comprises tempilstick and cup for measuring temperature, and cup for measuring temperature is built with heat-conducting medium, and tempilstick stretches in cup for measuring temperature.

Further, above-mentioned cup for measuring temperature is any one dye cup being installed on swivel mount.

Further, said temperature checkout gear is installed on the centre of rotating disc end plate, a coated heating jacket on cup for measuring temperature lateral wall, and this heating jacket is also made up of aluminium, copper, pottery or stainless steel interlayer parcel Heat Conduction Material.

Further, above-mentioned heater comprises the fixed axis that stretches in rotating disc and is located at bearing block suitable with fixed axis on rotating disc, also be provided with a terminal box in rotating disc, this terminal box is fixed on fixed axis, and above-mentioned heating element heater and temperature-detecting device are connected in this terminal box.

Further, above-mentioned heating element heater adopts carbon nano-fiber heating tube or far-infrared heating tube, and carbon nano-fiber heating tube or far-infrared heating tube are evenly arranged along above-mentioned terminal box outer peripheral face.

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

1, the dyeing instrument of this structure, the lateral wall of dye cup is coated with heat conducting sleeve, this heat conducting sleeve is by aluminium, copper, pottery or stainless steel interlayer parcel Heat Conduction Material are made, its 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, in addition, aluminium, the heat conducting sleeve that pottery or stainless steel interlayer parcel Heat Conduction Material are made has good heat-insulating property, 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.

2, 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.

3, rotating disc inside center is located at by heater, and each heat conducting sleeve can be cooled uniformly, and ensures the homogeneity of same batch of sample mass.

4, heat conducting sleeve stretches out the outside one end of rotating disc and is provided with a locating cover be fixed on by dye cup on heat conducting sleeve, even if there are some residue installing holes not install dye cup, also can ensure that installing hole is sealed completely, heat is not easily dispersed into rotating disc outside.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation that the utility model drives storehouse.

Fig. 3 is the structural representation of the utility model rotating disc.

Fig. 4 is the sectional view of the utility model rotating disc.

Fig. 5 is the sectional view of the utility model temperature-detecting device.

Detailed description of the invention

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

With reference to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, a kind of carbon nano-fiber heating hand sample dyeing instrument, comprises cabinet 10, rotating disc 20, rotary disk drive mechanism 30, dye cup 40, heater 50 and temperature-detecting device 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, pottery 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.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, it is engraved structure that heat conducting sleeve 23 stretches into rotating disc 20 inner bottom part, dye cup 40 correspondence is sheathed in heat conducting sleeve 23 and the bottom of dye cup 40 is stretched out bottom heat conducting sleeve 23, and the length that the dye cup 40 of the present embodiment stretches out heat conducting sleeve 23 base section equals the length that heat conducting sleeve 23 stretches into rotating disc 20 inside.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, terminal box 53 and heating element heater 54, 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, terminal box 53 is fixed on fixed axis 51, the present embodiment heating element heater 54 adopts carbon nano-fiber heating tube, and carbon nano-fiber heating tube is evenly arranged equally spacedly along terminal box 53 outer peripheral face.Carbon nano-fiber heating tube is located at dye cup 40 and is stretched out side in the middle part of heat conducting sleeve 23 base section, and on same cover plate 212 between two dye cups 40, dye cup 40 can be cooled uniformly always, ensure the homogeneity of same batch of sample mass.

With reference to Fig. 5, rotating disc 20 is provided with the temperature-detecting device 60 being installed on end plate 211 centre, this temperature-detecting device comprises cup for measuring temperature 61 and tempilstick 62, cup for measuring temperature 61 is built with heat-conducting medium, cup for measuring temperature 61 is to be installed on end plate 211 perpendicular to end plate 211 mode, tempilstick 62 stretches in cup for measuring temperature 61, heat-conducting medium is filled with and coated heating jacket 63 on its lateral wall in cup for measuring temperature 61, this heating jacket is also made up of aluminium, copper, pottery or stainless steel interlayer parcel Heat Conduction Material, and the bottom of cup for measuring temperature 61 is stretched out bottom heating jacket 63.Tempilstick 62 stretches in cup for measuring temperature 61 for detecting heat-conducting medium temperature.

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 occupation mode of above-mentioned a kind of carbon nano-fiber heating hand sample dyeing instrument is as follows:

In dyeing instrument heating process, rotary disk drive mechanism 30 driven rotary dish 20 rotates and drives dye cup 40 to rotate together, and dye cup 40 is themselves directly heated near heating element heater 54 successively along the rotation direction of rotating disc 20.Meanwhile, heat conducting sleeve 23 is incubated dye cup 40, and the cup 40 of guarantee dye on the one hand leaves the heating that heating element heater 54 also can be continued, even if temperature is different in each dye cup 40, also can reach unanimity through certain hour insulation; Heat conducting sleeve 23 can carry out preheating to the dye cup 40 entering cup test halfway on the other hand, improves the efficiency of heating surface of dye cup 40 further, prevents coloring agent to be heated instantaneously simultaneously and produce temperature deviation slowly, cause cloth specimen to produce ill effect.

Dye cup 40 is when heating, and the heat-conducting medium in cup for measuring temperature 61 is heated intensifications, and cup for measuring temperature 61 is consistent with the temperature of dye cup 40, controls heater 50 by tempilstick 62 testing result, thus realizes with according to the temperature control dyeing instrument work in rotating disc 20.

It should be noted that, above-mentioned heating element heater is not only confined to adopt carbon nano-fiber heating tube, can also adopt far-infrared heating tube.Above-mentioned heat conducting sleeve 23 and heating jacket 63 are not only confined to bottom hollow out, and it can also be sealed bottom, and dye cup 40 and cup for measuring temperature 61 are sheathed in heat conducting sleeve 23 and heating jacket 63 respectively.In addition, temperature-detecting device 60 also can be arranged on the fixed axis 51 of rotating disc 20 inside.

Embodiment two

A kind of carbon nano-fiber heating hand sample dyeing instrument, comprise cabinet, rotating disc, rotary disk drive mechanism, multiple dye cup, heater and temperature-detecting device, wherein temperature-detecting device is using any dye cup as cup for measuring temperature, tempilstick is provided with for detecting the temperature of dye cup in cup for measuring temperature, because the temperature of each dye cup is identical, therefore high as the temperature accuracy measured by cup for measuring temperature by dye cup, structure is simple.

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

Claims (10)

1. a carbon nano-fiber heating hand sample 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, this heat conducting sleeve is by aluminium, copper, pottery or stainless steel interlayer parcel Heat Conduction Material are made, 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 the heating element heater be fixed on described rotating disc, this heating element heater heats described heat conducting sleeve and transfers heat to described dye cup.

2. a kind of carbon nano-fiber heating hand sample 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.

3. a kind of carbon nano-fiber heating hand sample 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.

4. a kind of carbon nano-fiber heating hand sample 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.

5. a kind of carbon nano-fiber heating hand sample 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 offers two described installing holes, described heating element heater is positioned on the perpendicular bisector of same cover plate two installing hole lines of centres.

6. a kind of carbon nano-fiber heating hand sample dyeing instrument according to claim 5, it is characterized in that: also comprise temperature-detecting device, described temperature-detecting device comprises tempilstick and cup for measuring temperature, and described cup for measuring temperature is built with heat-conducting medium, and tempilstick stretches in cup for measuring temperature.

7. a kind of carbon nano-fiber heating hand sample dyeing instrument according to claim 6, is characterized in that: described cup for measuring temperature is any one dye cup being installed on swivel mount.

8. a kind of carbon nano-fiber heating hand sample dyeing instrument according to claim 6, it is characterized in that: described temperature-detecting device is installed on the centre of rotating disc end plate, a coated heating jacket on described cup for measuring temperature lateral wall, this heating jacket is also made up of aluminium, copper, pottery or stainless steel interlayer parcel Heat Conduction Material.

9. a kind of carbon nano-fiber heating hand sample dyeing instrument according to claim 6, it is characterized in that: described heater comprises the fixed axis that stretches in rotating disc and is located at bearing block suitable with fixed axis on rotating disc, a terminal box is also provided with in described rotating disc, this terminal box is fixed on described fixed axis, and described heating element heater and temperature-detecting device are connected in described terminal box.

10. a kind of carbon nano-fiber heating hand sample dyeing instrument according to claim 9, it is characterized in that: described heating element heater adopts carbon nano-fiber heating tube or far-infrared heating tube, and described carbon nano-fiber heating tube or far-infrared heating tube are evenly arranged along described terminal box outer peripheral face.