CN201151816Y - Direct heating type sampling dying cup rotating heating device - Google Patents

Abstract

The utility model relates to a direct heating type rotary dye sample cup-heating mechanism, which comprises a dye sample cup insertion structure, a driving mechanism and a heater. The dye sample cup insertion structure is provided with a concave space, in which the body of a dye sample cup inserted in the dye sample cup insertion structure is positioned. The driving mechanism is connected with the dye sample cup insertion structure in order to drive the dye sample cup insertion structure to rotate. The heater is arranged at the center of the concave space of the dye sample cup insertion structure and close to the dye sample cup inserted in the dye sample cup insertion structure and can directly heat the dye sample cup.

Description

Direct-heating type dyes sample cup rotation heating arrangements

Technical field

The utility model relates to a kind of design of dying sample cup heating arrangements, particularly dyes sample cup rotation heating arrangements about a kind of direct-heating type.

Background technology

Operator be engaged in textiles dye the work of sample examination look the time, because many dyestuffs or interpolation pulvis usually all must (characteristic on dyestuff and textiles be decided in higher operating temperature, usually about about 60～130 ℃) under, just possesses comparatively ideal Color, so often must be by the running of dying heating arrangements in the sample device for testing color, in the fibr tissue that colorant or interpolation property pulvis are infiltrated equably dye the sample textiles.

See also shown in Figure 1ly, one existing dye sample cup heating arrangements 100 and mainly is made up of a heated roller 1, a heating module 2 and a driving mechanism 3.

Wherein, heated roller 1 possesses a cylinder body 11, and the axial vane surface of cylinder body 11 is to offer a plurality of sample cup insertion slots 12 that dye, and each dyes sample cup insertion slot 12 and all can plant and one dye sample cup 13.Heating module 2 is to be installed in contiguous heated roller 1 part.Driving mechanism 3 is to possess a CD-ROM drive motor 31 and a power transmission shaft 32.In addition, heating module 2 and driving mechanism 3 are to extend to be fixed in a pedestal or a workbench that dyes the sample device for testing color.

See also shown in Figure 2, even the heated roller 1 inner heat-conducting medium 14 that specified vol is housed, heat-conducting medium 14 can be solid particle (as broken sand particle) or the solution of other stability good (be not vulnerable to the influence of Gao Re and high-speed motion and the generation chemical change, and heat conduction being that number is higher).Be engaged in when operator and dye sample when work, be will sampling textiles be positioned over and dye in the sample cup 13, finish the pre-treatment operation after, be about to dye sample cup 13 and be positioned over and dye in the sample cup insertion slot 12.

And then, operator can start CD-ROM drive motor 31, by the driving and power transmission shaft 32 transmissions of CD-ROM drive motor 31, can drive heated roller 1 rotation.Simultaneously, can open heating module 2, to supply heat energy to heated roller 1 at reasonable time.At this moment, the heat-conducting medium 14 of heated roller 1 inside will be by the conduction or the mode of fluid convection, heat energy is disseminated to dyes sample cup 13, it is heated and obtains specific Color.

The technical problem that the utility model institute desire solves

Yet the structural design that is arranged so that the heated roller that dyes sample cup heating arrangements of heat-conducting medium is comparatively complicated, trouble inconvenience on making, and increase manufacturing and the Material Cost that dyes sample cup heating arrangements.

And, if heat-conducting medium is to adopt solid particle,, exist the shortcoming of easy wearing and tearing or scratch heated roller inwall though the uniformity of heat conduction is preferable.If, adopt the good solution of other stability to serve as heat-conducting medium, though also can obtain good heat conduction uniformity, but can therefore derive the problem of leakage.Therefore, in practice utilization,, all can't can finish and change or maintenance work, badly influence whole operating efficiency especially in the short time no matter when operator suffers from cylinder wearing and tearing scratch or fluid leakage problems.

The utility model content

Main purpose of the present utility model provides a kind of direct-heating type and dyes sample cup rotation heating arrangements, the manufacturing cost of dying sample cup heating arrangements with reduction.

Another purpose of the present utility model provide a kind of do not need any solid-state or liquid heat-conducting medium dye sample cup rotation heating arrangements, to improve the existing sample cup heating arrangements problems such as scratch and leak of liquid of wearing and tearing easily of dying.

The technological means that the utility model is dealt with problems

The utility model dyes sample cup rotation heating arrangements for the solution technological means that prior art problems adopted provides a kind of direct-heating type, and it includes one and dyes sample cup plant structure, a driving mechanism and a heater.Dye sample cup plant structure and have a recess space, being inserted in the cup body that dyes the sample cup that dyes sample cup plant structure is to be arranged in the recess space.Driving mechanism is to be linked to dye sample cup plant structure, dyes the rotation of sample cup plant structure with driving.Heater be arranged at the middle position in the recess space of dying sample cup plant structure and be adjacent to be plugged on dye sample cup plant structure dye the sample cup.

The effect of the utility model contrast prior art

Via the technological means that the utility model adopted, remove the use of materials such as solid-state or liquid heat-conducting medium from, heater directly to dying the heating of sample cup, can be saved the manufacturing cost of dying sample cup heating arrangements.And thorny problems such as existing wearing and tearing scratch of dying sample cup heating arrangements and leak of liquid can not take place, and effectively significantly the quality and the efficient of sample operation are dyed in lifting.

The specific embodiment that the utility model adopted will and attachedly be graphic and be further described by following embodiment.

Description of drawings

Fig. 1 is the existing three-dimensional appearance schematic diagram that dyes sample cup heating arrangements;

Fig. 2 is existing vertical cross-sectional schematic of dying sample cup heating arrangements;

Fig. 3 is the schematic side view that the utility model direct-heating type dyes sample cup rotation heating arrangements first embodiment;

Fig. 4 is vertical cross-sectional schematic that the utility model direct-heating type dyes sample cup rotation heating arrangements first embodiment;

Fig. 5 is the schematic side view that the utility model direct-heating type dyes sample cup rotation heating arrangements second embodiment;

Fig. 6 is vertical cross-sectional schematic that the utility model direct-heating type dyes sample cup rotation heating arrangements;

Fig. 7 is the schematic side view that the utility model direct-heating type dyes sample cup rotation heating arrangements the 3rd embodiment;

Fig. 8 is vertical cross-sectional schematic that the utility model direct-heating type dyes sample cup rotation heating arrangements the 4th embodiment;

Fig. 9 is the schematic side view that the utility model direct-heating type dyes sample cup rotation heating arrangements the 5th embodiment.

[primary clustering symbol description]

100 dye sample cup heating arrangements

200,300,400 direct-heating types dye sample cup rotation heater

Structure

1 heated roller

11 cylinder bodies

12 dye sample cup insertion slot

13 dye the sample cup

14 heat-conducting mediums

2 heating modules

3 driving mechanisms

31 CD-ROM drive motors

32 power transmission shafts

4 dye sample cup plant structure

41 recess spaces

42 open surfaces

43,43a, 43b, 43c, 43d dye sample cup inserting part

44 driving mechanism link surfaces

45 power transmission shaft inserting holes

46 outer ring surfaces

5 dye the sample cup

6 driving mechanisms

61 power transmission shafts

62 CD-ROM drive motors

63,64 envelopes

65 supporting mechanisms

7 heaters

71 are nested with the hole

8 heater fixed mounts

81 sleeve parts

82 extensions

83 through holes

84 supporting mechanisms

9 sensing rod for temperature

The specific embodiment

Consult Fig. 3 and shown in Figure 4, it is to show that the utility model direct-heating type dyes first embodiment of sample cup rotation heating arrangements.It is to comprise dying sample cup plant structure 4, a driving mechanism 6, a heater 7 and a heater fixed mount 8 that the utility model direct-heating type dyes sample cup rotation heating arrangements 200.

Dying sample cup plant structure 4 is to have a recess space 41, an open surface 42, a plurality of sample cup inserting part 43, a driving mechanism link surface 44, a power transmission shaft inserting hole 45 and outer ring surface 46 of dying.Dying sample cup inserting part 43 is to be formed at the driving mechanism link surface 44 that dyes sample cup plant structure 4, and its formation direction is obliquely towards dying the close middle position in the recess space 41 of sample cup plant structure 4.Power transmission shaft inserting hole 45 is the middle positions that are opened in driving mechanism link surface 44.The sample cup inserting part 43 that dyes that dyes sample cup plant structure 4 is can be for a plurality of sample cup 5 plant location of dying, and being inserted in a cup body that dyes sample cup 5 that dyes sample cup plant structure 4 is to be arranged in recess space 41.

Driving mechanism 6 is to include a power transmission shaft 61, a CD-ROM drive motor 62 and the axle envelope 63 and 64 that is socketed in power transmission shaft 61 two ends.One end of power transmission shaft 61 is to be inserted in the power transmission shaft inserting hole 45 that dyes sample cup plant structure 4, makes driving mechanism 6 be linked to and dyes sample cup plant structure 4, dyes 4 rotations of sample cup plant structure with driving.

The central authorities of heater 7 offer one to be nested with hole 71, and heater fixed mount 8 is to have a sleeve part 81, an extension 82 and a through hole 83.The sleeve part 81 of heater fixed mount 8 is to be arranged at being nested with in the hole 71 of heater 7.Power transmission shaft 61 is the power transmission shaft inserting hole 45 that wears overstain sample cup plant structure 4 in regular turn, the sleeve part 81 and the CD-ROM drive motor 62 of heater fixed mount 8, and with axle envelope 63 and 64 with the two ends of power transmission shaft 61 in addition socket fix, make heater 7 be arranged on to dye sample cup plant structure 4 recess space 41 middle position and be adjacent to and be plugged on the cup body that dyes sample cup 5 that dyes sample cup plant structure 4.And the diameter of the sleeve part 81 of heater fixed mount 8 is the diameters greater than power transmission shaft 61, and the sleeve part 81 of heater fixed mount 8 is to extend by a supporting mechanism 84 to be fixed on the pedestal or workbench that dyes the sample device for testing color.

The extension 82 of heater fixed mount 8 is positioned at the close position of the open surface 42 that dyes sample cup plant structure 4, and the area of the extension 82 of heater fixed mount 8 is the areas greater than the open surface 42 that dyes sample cup plant structure 4, so that the extension 82 of heater fixed mount 8 and dye and form an approximate airtight space between the recess space 41 of sample cup plant structure 4.

In addition, CD-ROM drive motor 62 is to extend by a supporting mechanism 65 to be fixed on the pedestal or workbench that dyes the sample device for testing color, dyes also same the extension by a supporting mechanism (not shown) of sample cup plant structure 4 and is fixed on the pedestal or workbench that dyes the sample device for testing color.Also a sensing rod for temperature 9 can be set in dying sample cup 5, dye temperature in the sample cup 5 with the sense side.

When the operation personnel are engaged in when dying the sample operation, open CD-ROM drive motor 62 earlier, by the startup of CD-ROM drive motor 62, power can be reached power transmission shaft 61, and then drive and dye 4 rotations of sample cup plant structure.The sample cup plant structure 4 of only having illicit sexual relations this moment is tumbler with power transmission shaft 61, and 8 of heater 7 and heater fixed mounts are fixture.

Simultaneously, the operating personnel can start heater 7 to produce heat energy at reasonable time, directly to dying 5 heating (utilizing radiation mode) of sample cup, and simultaneously to the air heat in the recess space 41 of dying sample cup plant structure 4, and utilize the rotation dye sample cup plant structure 4 to come hot-air in the disturbance recess space 41, make the hot-air samming in the recess space 41, also can make simultaneously and be inserted in the effect that the sample cup 5 of having illicit sexual relations that dyes sample cup plant structure 4 reaches samming.Extension 82 because of the driving mechanism link surface 44 that dyes sample cup plant structure 4, outer ring surface 46, axle envelope 63 and heater fixed mount 8 is that recess space 41 is surrounded again, be similar to airtight space and form one, can avoid hot-air to overflow to keep the temperature in the recess space 41, when dye journey midway as need stop operating add auxiliary agent or other dye the journey action time, the temperature that can avoid dying the sample cup reduces accuracy too many and influence dyeing.

In addition, heater 7 all can be linked to a control interface with CD-ROM drive motor 62, to reach functions such as control heating-up temperature, heat time heating time, running speed, power output, outputting torsion.

Consult Fig. 5 and shown in Figure 6, it is to show that the utility model direct-heating type dyes second embodiment of sample cup rotation heating arrangements.The structural design that the utility model direct-heating type dyes sample cup rotation heating arrangements 300 is identical with aforesaid first embodiment haply, so identical assembly is the assembly numbering that indicates with identical, as a means of correspondence.Its difference is that the sample cup inserting part 43a that dyes that dyes sample cup plant structure 4 is formed at the outer ring surface 46 that dyes sample cup plant structure 4.

Consult shown in Figure 7ly, it is to show that the utility model direct-heating type dyes the 3rd embodiment of sample cup rotation heating arrangements.The structural design that the utility model direct-heating type dyes sample cup rotation heating arrangements 400 is identical with aforesaid second embodiment haply, so identical assembly is the assembly numbering that indicates with identical, as a means of correspondence.Its difference is that the sample cup inserting part 43b that dyes that dyes sample cup plant structure 4 obliquely is formed at the outer ring surface 46 that dyes sample cup plant structure 4.

Consult Fig. 8 and shown in Figure 9, it is to show that respectively the utility model direct-heating type dyes the 4th embodiment and the 5th embodiment of sample cup rotation heating arrangements.The structural design that the utility model direct-heating type dyes sample cup rotation heating arrangements 500 is identical with aforesaid first embodiment haply, and that the utility model direct-heating type dyes the structural design of sample cup rotation heating arrangements 600 is identical with aforesaid the 3rd embodiment haply, so identical assembly is the assembly numbering that indicates with identical, as a means of correspondence.Its difference is to dye sample cup inserting part 43c and dyes sample cup inserting part 43d has a recess 431,432 respectively, the recess 431 that dyes sample cup inserting part 43c is recessed to the recess space 41 of dying sample cup plant structure 4 by the driving mechanism link surface 44 that dyes sample cup plant structure 4, and the recess 432 that dyes sample cup inserting part 43d is recessed to the recess space 41 of dying sample cup plant structure 4 by the outer ring surface that dyes sample cup plant structure 4.The recess 431 that dyes sample cup inserting part 43c is to envelope the cup end of dying sample cup 5 with the recess 432 that dyes sample cup inserting part 43d, that is when dye sample cup 5 be inserted in dye sample cup inserting part 43c or dye sample cup inserting part 43d after, the cup that dyes sample cup 5 is to push against in the recess 431 that dyes sample cup inserting part 43c or dye the recess 432 of sample cup inserting part 43d the end.

By above embodiment as can be known, direct-heating type provided by the utility model dyes the value on the true tool industry of sample cup rotation heating arrangements, so the utility model had accorded with the important document of patent already.Above narration only be preferred embodiment explanation of the present utility model, allly is skillful in this skill person when doing other all improvement according to above-mentioned explanation, and these changes of thought still belong in creation spirit of the present utility model and the following claim that defines.

Claims (6)

1. a direct-heating type dyes sample cup rotation heating arrangements, includes

One dyes sample cup plant structure, for a plurality of sample cup plant location of dying, being inserted in this close position that dyes the sample cup that dyes sample cup plant structure is to be provided with a heater, this dyes sample cup plant structure is to be linked to a driving mechanism, this driving mechanism dyes the rotation of sample cup plant structure in order to drive this, it is characterized in that: this dyes sample cup plant structure and has a recess space, be inserted in this sample cup that dyes that dyes sample cup plant structure and be arranged in this recess space, this heater is arranged at the middle position in this recess space of dying sample cup plant structure and directly the contiguous sample cup that dyes is heated.

2. direct-heating type as claimed in claim 1 dyes sample cup rotation heating arrangements, it is characterized in that: more comprise a heater fixed mount, have a sleeve part and an extension, the central authorities of this heater offer one and are nested with the hole, this dyes sample cup plant structure and has an open surface, the sleeve part of this heater fixed mount is arranged at being nested with in the hole of this heater, the extending part of this heater fixed mount dyes the close position of the open surface of sample cup plant structure in this, and the area of the extension of this heater fixed mount is the area that dyes the open surface of sample cup plant structure more than or equal to this, forms an approximate airtight space so that the extension of this heater fixed mount and this dye between the recess space of sample cup plant structure.

3. direct-heating type as claimed in claim 1 dyes sample cup rotation heating arrangements, and it is characterized in that: this dyes sample cup plant structure and has a plurality of sample cup inserting parts that dye, and is formed at the outer ring surface that this dyes sample cup plant structure, for a plurality of sample cup plant location of dying.

4. direct-heating type as claimed in claim 3 dyes sample cup rotation heating arrangements, and it is characterized in that: this dyes sample cup inserting part and has a recess, and is recessed to the recess space that this dyes sample cup plant structure by this outer ring surface that dyes sample cup plant structure.

5. direct-heating type as claimed in claim 1 dyes sample cup rotation heating arrangements, it is characterized in that: this dyes sample cup plant structure and has a driving mechanism link surface and a plurality of sample cup inserting part that dyes, this dyes sample cup inserting part and is formed at the driving mechanism link surface that this dyes sample cup plant structure, for a plurality of sample cup plant location of dying.

6. direct-heating type as claimed in claim 5 dyes sample cup rotation heating arrangements, and it is characterized in that: this dyes sample cup inserting part and has a recess, and is recessed to the recess space that this dyes sample cup plant structure by this driving mechanism link surface that dyes sample cup plant structure.

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