CN206692891U - A kind of Drying of sizing yarn - Google Patents

Abstract

It the utility model is related to a kind of Drying of sizing yarn, including the heat radiation basic unit of tubular and the heat-conducting layer and thermal insulation layer that are sequentially sleeved at from inside to outside outside heat radiation basic unit；The more heat-generating pipes extended along Drying length direction are evenly arranged with the heat-conducting layer；The heat radiation basic unit encloses the drying cavity penetrated along Drying rectilinear direction；The intensive substrate cambered surface for being provided with multiple indents on heat radiation basic unit inwall；In drying cavity, two relative substrate cambered surface stagger settings；The substrate cambered surface surface is provided with multiple metallic reflection blocks；The metallic reflection block has evagination and smooth reflection cambered surface；Spirality is arranged at intervals with multiple connection drying cavities and extraneous through hole on the Drying；It is centrally disposed that the direction of the through hole deviates drying cavity；Multiple RF transmitters launch infrared ray into drying cavity from through hole.

Description

A kind of Drying of sizing yarn

Technical field

A kind of Drying of sizing yarn is the utility model is related to, belongs to field of textile machinery.

Background technology

Yarn needs yarn sizing, starching as the basic most important of field of textiles in the process of yarn Yarn filoplume or yarn fibre fascicle are more tightly joined together afterwards, and need that by drying next process could be entered, existing Technology typically using heat generating roller or drying plate dried, the former dry it is uneven, easily cause knit uniaxial stress concentration, reduce Line strength is knitted, the latter's heat utilization rate is low, wastes serious.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of Drying of sizing yarn.The sizing yarn Drying can effectively improve the drying rate and dries quantity of sizing yarn, improve heat utilization rate, reduce energy consumption.

The technical solution of the utility model is as follows：

A kind of Drying of sizing yarn, including the heat radiation basic unit of tubular and heat radiation base is sequentially sleeved at from inside to outside Heat-conducting layer and thermal insulation layer outside layer；The more heat-generating pipes extended along Drying length direction are evenly arranged with the heat-conducting layer； The heat radiation basic unit encloses the drying cavity penetrated along Drying rectilinear direction；Intensive setting on heat radiation basic unit inwall There is the substrate cambered surface of multiple indents；In drying cavity, two relative substrate cambered surface stagger settings；The substrate cambered surface surface is set There are multiple metallic reflection blocks；The metallic reflection block has evagination and smooth reflection cambered surface；Spirality on the Drying It is arranged at intervals with multiple connection drying cavities and extraneous through hole；It is centrally disposed that the direction of the through hole deviates drying cavity；It is multiple red Outside line transmitter launches infrared ray into drying cavity from through hole.

Wherein, the thickness of multiple metallic reflection blocks is gradually reduced from the center of substrate cambered surface to periphery；Multiple metallic reflections The cambered surface radius of block gradually increases from the center of substrate cambered surface to periphery.

Wherein, it is coated with reflectance coating on the through-hole wall.

Wherein, on radial section, the quantity of the substrate cambered surface is the odd number more than 1.

Wherein, on radial section, the quantity of the substrate cambered surface is 9.

The utility model has the advantages that：

1st, a kind of Drying of sizing yarn of the utility model can effectively improve drying rate and the baking of sizing yarn Dry mass, production efficiency is improved, improve heat utilization rate, reduce energy consumption.

2nd, a kind of Drying of sizing yarn of the utility model is provided with heat-conducting layer and heat-generating pipe, infrared ray can be coordinated to dry Dry, heat-conducting layer can improve the dispersiveness of heat-generating pipe heat energy, improve being uniformly distributed for heat.

3rd, a kind of Drying of sizing yarn of the utility model is provided with heat radiation basic unit, has good thermal conductivity and red Outside line re-radiation ability.

4th, a kind of Drying of sizing yarn of the utility model is provided with substrate cambered surface and metallic reflection block, and metallic reflection Reflection cambered surface is provided with block, infrared ray effectively can be subjected to multiple reflections in drying cavity, so as to improve infrared ray Dry utilization rate, uniformity of the increase infrared ray in drying cavity.

5th, a kind of through hole of Drying of sizing yarn of the utility model is centrally disposed towards drying cavity is deviateed, and can prevent Incident infrared ray is too strong and infringement is produced to yarn, and beneficial to the energy of scattered infrared ray, makes the temperature in drying cavity equal It is even.

6th, a kind of Drying of sizing yarn of the utility model is in drying cavity, two relative substrate cambered surface stagger settings, The scattered of infrared energy can effectively be increased.

7th, a kind of thickness of the multiple metallic reflection blocks of Drying of sizing yarn of the utility model by substrate cambered surface center It is gradually reduced to periphery；The cambered surface radius of multiple metal derbies gradually increases from the center of substrate cambered surface to periphery, can be further Improve the scattered of infrared energy.

8th, a kind of arrangement of the Drying through hole of sizing yarn of the utility model can improve the utilization of RF transmitter Rate.

Brief description of the drawings

Fig. 1 is a kind of radial cross section of the Drying of sizing yarn of the utility model；

Fig. 2 is a kind of axial sectional diagrammatical view illustration of the Drying of sizing yarn of the utility model.

Reference is expressed as in figure：

1- thermal insulation layers, 2- heat-conducting layers, 21- heat-generating pipes, 3- heat radiations basic unit, 31- substrates cambered surface, 32- metallic reflections block, 321- reflections cambered surface, 33- drying cavities, 34- through holes, 4- RF transmitters, 5- yarns.

Embodiment

The utility model is described in detail with specific embodiment below in conjunction with the accompanying drawings.

As shown in Figure 1, 2, a kind of Drying of sizing yarn, including the heat radiation basic unit 3 of tubular and from inside to outside successively The heat-conducting layer 2 and thermal insulation layer 1 being set in outside heat radiation basic unit 3；More are evenly arranged with the heat-conducting layer 2 along Drying length The heat-generating pipe 21 of direction extension, can coordinate infrared baking, and heat-conducting layer 2 can improve the dispersiveness of the heat energy of heat-generating pipe 21, improve Heat is uniformly distributed；The heat radiation basic unit 3 encloses the drying cavity 33 penetrated along Drying rectilinear direction, heat radiation basic unit 3 have good thermal conductivity and infrared ray re-radiation ability；It is intensive on the inwall of heat radiation basic unit 3 to be provided with multiple indents Substrate cambered surface 31；In drying cavity 33, the two relative stagger settings of substrate cambered surface 31, it can effectively increase infrared energy It is scattered；The surface of substrate cambered surface 31 is provided with multiple metallic reflection blocks 32；The metallic reflection block 32 has evagination and smooth Reflection cambered surface 321, infrared ray effectively can be subjected to multiple reflections in the drying cavity 33, so as to improve the drying of infrared ray Utilization rate, uniformity of the increase infrared ray in drying cavity 33；Spirality is arranged at intervals with multiple connections on the Drying Drying cavity 33 and extraneous through hole 34；The direction deviation drying cavity 33 of the through hole 34 is centrally disposed, can prevent the red of incidence Outside line is too strong and infringement is produced to yarn 5, and beneficial to the energy of scattered infrared ray, makes the temperature in drying cavity 33 uniform；It is more Individual RF transmitter 4 launches infrared ray from through hole 34 into drying cavity 33.

Further, the thickness of multiple metallic reflection blocks 32 is gradually reduced from the center of substrate cambered surface 31 to periphery；It is multiple The cambered surface radius of metallic reflection block 32 gradually increases from the center of substrate cambered surface 31 to periphery, can further improve infrared ray energy Amount is disperseed.

Further, it is coated with reflectance coating on the inwall of through hole 34.

Further, on radial section, the quantity of the substrate cambered surface 31 is the odd number more than 1.

Preferably, on radial section, the quantity of the substrate cambered surface 31 is 9.

Operation principle of the present utility model：

After the starching of yarn 5, through drying cavity 33, RF transmitter 4 launches infrared ray from through hole 34 into drying cavity 33 Light beam, infrared light beam so as to the energy of scattered infrared light beam and improve drying cavity through the constantly reflection of multiple reflection cambered surfaces 321 Temperature in 33, the side of heat radiation basic unit 3, which absorbs heat-generating pipe 21 and conducted to the heat of heat-conducting layer 2, opposite side, in addition absorbs part Infrared ray heat, and go out heat to drying cavity 33 again homogeneous radiation；In addition, metallic reflection block 32 also simultaneously absorb heat and to The radiations heat energy of drying cavity 33, so as to rapidly and uniformly dry the sizing yarn 5 through drying cavity 33.

Embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, it is every The equivalent structure or equivalent flow conversion made using the utility model specification and accompanying drawing content, or be directly or indirectly used in Other related technical areas, similarly it is included in scope of patent protection of the present utility model.

Claims (5)

1. A kind of 1. Drying of sizing yarn, it is characterised in that：Heat radiation basic unit (3) including tubular and cover successively from inside to outside It is located at the heat-conducting layer (2) and thermal insulation layer (1) of heat radiation basic unit (3) outside；More are evenly arranged with the heat-conducting layer (2) along drying The heat-generating pipe (21) of cylinder length direction extension；The heat radiation basic unit (3) encloses the drying penetrated along Drying rectilinear direction Chamber (33)；The intensive substrate cambered surface (31) for being provided with multiple indents on heat radiation basic unit (3) inwall；In drying cavity (33) It is interior, two relative substrate cambered surface (31) stagger settings；Substrate cambered surface (31) surface is provided with multiple metallic reflection blocks (32)； The metallic reflection block (32) has evagination and smooth reflection cambered surface (321)；Spirality is arranged at intervals on the Drying There is the through hole (34) in multiple connection drying cavities (33) and the external world；The direction of the through hole (34) deviates drying cavity (33) center and set Put；Multiple RF transmitters (4) interior transmitting infrared ray from through hole (34) to drying cavity (33).
2. A kind of 2. Drying of sizing yarn as claimed in claim 1, it is characterised in that：The thickness of multiple metallic reflection blocks (32) Degree is gradually reduced from the center of substrate cambered surface (31) to periphery；The cambered surface radius of multiple metallic reflection blocks (32) is by substrate cambered surface (31) center gradually increases to periphery.
3. A kind of 3. Drying of sizing yarn as claimed in claim 2, it is characterised in that：Coated on through hole (34) inwall There is reflectance coating.
4. A kind of 4. Drying of sizing yarn as claimed in claim 3, it is characterised in that：On radial section, the base arcs The quantity in face (31) is the odd number more than 1.
5. A kind of 5. Drying of sizing yarn as claimed in claim 4, it is characterised in that：On radial section, the base arcs The quantity in face (31) is 9.