阅读说明：本技术 一种织带烘干装置 (Meshbelt drying device ) 是由 单庆敏 于 2019-10-16 设计创作，主要内容包括：本发明涉及织物染色设备技术领域,尤其是指一种织带烘干装置,其包括烘干箱、热风道箱、热风道内胆、燃烧器、送风机、上导带轴组件、下导带轴组件和驱动装置；烘干箱设置有烘干箱进风口、烘干箱出风口、进带口、出带口和容置腔；热风道箱设置有热风道箱进风口和热风道箱出风口；织带经由进带口进入烘干箱的容置腔内,织带缠绕于上导带轴组件和下导带轴组件,上导带轴组件和下导带轴组件用于驱动织带移动,织带经由出带口从烘干箱出来。本申请的织带烘干装置的热量能耗低,从而减少能源的消耗,降低织带的生产成本。(The invention relates to the technical field of fabric dyeing equipment, in particular to a mesh belt drying device which comprises a drying box, a hot air channel inner container, a burner, a blower, an upper guide belt shaft assembly, a lower guide belt shaft assembly and a driving device, wherein the upper guide belt shaft assembly is arranged on the drying box; the drying box is provided with a drying box air inlet, a drying box air outlet, a belt inlet, a belt outlet and an accommodating cavity; the hot air duct box is provided with a hot air duct box air inlet and a hot air duct box air outlet; the meshbelt gets into the holding intracavity of stoving case via advancing the area mouth, and the meshbelt twines in last conduction band axle subassembly and conduction band axle subassembly down, and last conduction band axle subassembly and conduction band axle subassembly down are used for driving the meshbelt and remove, and the meshbelt comes out from the stoving case via going out the area mouth. The utility model provides a meshbelt drying device's heat energy consumption is low to reduce the consumption of the energy, reduce the manufacturing cost of meshbelt.)

1. The utility model provides a meshbelt drying device which characterized in that: comprises a drying box, a hot air duct liner, a burner, a blower, an upper guide belt shaft assembly, a lower guide belt shaft assembly and a driving device; the drying box is provided with a drying box air inlet, a drying box air outlet, a belt inlet, a belt outlet and an accommodating cavity, and the drying box air inlet, the drying box air outlet, the belt inlet and the belt outlet are communicated with the accommodating cavity; the hot air duct box is provided with a hot air duct box air inlet and a hot air duct box air outlet, the drying box air inlet is communicated with the hot air duct box air outlet, and the drying box air outlet is communicated with the hot air duct box air inlet; the hot air duct inner container and the air feeder are both arranged inside the hot air duct box, the burner is arranged in the hot air duct box, the flame outlet end of the burner is positioned inside the hot air duct inner container, the gas connecting end of the burner is exposed in the hot air duct box, and the burner is used for heating the air inside the hot air duct inner container; the air feeder is used for inputting hot air in the hot air duct liner into the accommodating cavity of the drying box through the air outlet of the hot air duct box and the air inlet of the drying box; the upper guide belt shaft assembly and the lower guide belt shaft assembly are both positioned in the accommodating cavity, the upper guide belt shaft assembly is rotatably arranged at the upper end of the drying box, the lower guide belt shaft assembly is rotatably arranged at the lower end of the drying box, and the driving device is arranged on the drying box and used for driving the lower guide belt shaft assembly to rotate; the meshbelt gets into the holding intracavity of stoving case via advancing the area mouth, and the meshbelt twines in last conduction band axle subassembly and conduction band axle subassembly down, and last conduction band axle subassembly and conduction band axle subassembly down are used for driving the meshbelt and remove, and the meshbelt comes out from the stoving case via going out the area mouth.

2. The webbing drying apparatus according to claim 1, wherein: the drying box comprises a left plate, a right plate, a front plate, a rear plate, a bottom plate and a top plate, wherein the left plate and the right plate are arranged on the bottom plate at intervals; the one end of roof plate spare is rotated and is connected in back plate, and left side plate and right plate have all been installed and are used for driving roof plate spare pivoted cylinder, and roof plate spare is used for opening or closes the holding chamber.

3. The webbing drying apparatus according to claim 2, wherein: the left plate, the right plate, the front plate, the rear plate, the bottom plate and the top plate all comprise inner sealing plates, supports, outer plates and heat insulation layers; the support of left plate, the support of right plate, the support of preceding plate, the support of back plate and the support interconnect of bottom plate spare, interior shrouding is installed in one side of support, and the planking is installed in the opposite side of support, and the heat preservation is installed between interior shrouding and planking.

4. The webbing drying apparatus according to claim 2, wherein: the front plate is provided with a first opening and two first heat-insulating doors, the first opening penetrates through the front plate, the two first heat-insulating doors are respectively connected to the left plate and the right plate in a rotating mode, and the two first heat-insulating doors are used for opening or closing the first opening.

5. The webbing drying apparatus according to claim 1, wherein: the hot air duct box is provided with a first air volume adjusting assembly, and the first air volume adjusting assembly is positioned on one side of an air inlet of the hot air duct box; first air regulation subassembly includes first dryer, first end cover and first handle, and first dryer intercommunication hot-air duct case and external atmosphere, and external air gets into the inside of hot-air duct case via first dryer, and first end cover sets up in the inside of first dryer, and first handle is installed in first dryer and is used for driving first end cover to rotate, and first end cover is used for adjusting the size of the air outlet of first dryer.

6. The webbing drying apparatus according to claim 1, wherein: the hot air duct box is provided with a second air volume adjusting assembly, and the second air volume adjusting assembly is positioned below an air outlet of the air feeder; the second air volume adjusting component comprises a second air duct, a second end cover and a second handle, one end of the second air duct is communicated with the hot air duct inner container, the other end of the second air duct protrudes out of the hot air duct box, the second end cover is arranged in the second air duct, the second handle is arranged on the second air duct and used for driving the second end cover to rotate, and the second end cover is used for adjusting the size of an air outlet of the second air duct.

7. The webbing drying apparatus according to claim 1, wherein: the drying box is provided with a third air volume adjusting assembly, and the third air volume adjusting assembly is positioned at the upper end of the drying box; the third air volume adjusting assembly comprises a third air duct, a third end cover and a third handle, one end of the third air duct is communicated with the drying box, the other end of the third air duct stretches out of the drying box, the third end cover is arranged in the third air duct, the third handle is arranged on the third air duct and used for driving the third end cover to rotate, and the third end cover is used for adjusting the size of an air outlet of the third air duct.

8. The webbing drying apparatus according to claim 1, wherein: the upper belt guide shaft assembly comprises a plurality of first belt guide shafts, the plurality of first belt guide shafts are rotatably arranged at the upper end of the drying box, and the plurality of first belt guide shafts are spaced from each other and are arranged in parallel; the lower belt guide shaft assembly comprises a plurality of second belt guide shafts, the second belt guide shafts are rotatably arranged at the lower end of the drying box, and the second belt guide shafts are spaced from each other and arranged in parallel; the first tape guide shaft and the second tape guide shaft are arranged in parallel;

the drying box is also provided with two groups of inclined guide belt assemblies and a plurality of groups of straight spacer belt assemblies, the two groups of inclined guide belt assemblies and the plurality of groups of straight spacer belt assemblies are positioned in the accommodating cavity, and a group of straight spacer belt assemblies is arranged between every two second guide belt shafts; the direct separation belt assembly comprises a direct separation belt support, a separation belt blocking rod and a plurality of separation belt shafts, the direct separation belt support is arranged in the drying box, one ends of the separation belt shafts are connected to the direct separation belt support at intervals, and the other ends of the separation belt shafts are connected to the separation belt blocking rod;

the oblique conduction band subassembly includes oblique conduction band support and a plurality of oblique conduction band axle, and oblique conduction band support is installed in the stoving case, and a plurality of oblique conduction band axle intervals are connected in oblique conduction band support, and the contained angle of oblique conduction band axle and oblique conduction band support is 30-90.

9. The webbing drying apparatus according to claim 1, wherein: the upper tape guide shaft assembly comprises a plurality of groups of tape guide shaft mechanisms which are arranged in parallel at intervals; the belt guide shaft mechanism comprises a third belt guide shaft and a fourth belt guide shaft, the third belt guide shaft and the fourth belt guide shaft are both rotatably arranged at the upper end of the drying box, the third belt guide shaft and the fourth belt guide shaft are arranged at intervals and in parallel, and the fourth belt guide shaft is positioned below the third belt guide shaft;

the lower belt guide shaft assembly comprises a feeding belt guide shaft, a discharging belt guide shaft and a plurality of fifth belt guide shafts, the feeding belt guide shaft is rotatably arranged on the drying box and positioned on one side of the belt inlet, the discharging belt guide shaft is rotatably arranged on the drying box and positioned on one side of the belt outlet, the fifth belt guide shafts are rotatably arranged at the lower end of the drying box, and the fifth belt guide shafts are spaced and arranged in parallel; the third tape guide shaft and the fifth tape guide shaft are arranged in a crossed manner, the fourth tape guide shaft and the fifth tape guide shaft are arranged in a crossed manner, the feeding tape guide shaft and the fifth tape guide shaft are arranged in a crossed manner, and the discharging tape guide shaft and the fifth tape guide shaft are arranged in a crossed manner.

10. The webbing drying apparatus according to claim 1, wherein: the drying box is also provided with a hot air uniform dispersion assembly, the hot air uniform dispersion assembly is positioned in the accommodating cavity, and the hot air uniform dispersion assembly is positioned between the upper tape guide shaft assembly and the lower tape guide shaft assembly;

the hot air uniform dispersion assembly comprises an air guide box and a plurality of hot air uniform dispersion hollow plates, and the air guide box is provided with an air guide box air inlet and a plurality of air guide box air outlets; the air guide box is arranged in the drying box, an air inlet of the air guide box is communicated with an air inlet of the drying box, the plurality of hot air uniformly-dispersed hollow plates are respectively communicated with a plurality of air outlets of the air guide box, the plurality of hot air uniformly-dispersed hollow plates are provided with a plurality of ventilation holes, and the plurality of ventilation holes penetrate through the hot air uniformly-dispersed hollow plates; the hollow plate all is provided with wind-guiding case air regulation subassembly in the hot-blast homodisperse of polylith, wind-guiding case air regulation subassembly includes wind-guiding case air regulation board, pivot and adjust knob, wind-guiding case air regulation board and pivot are all rotated and are set up in the inside of hollow plate in the hot-blast homodisperse, adjust knob rotates the lateral wall that sets up in hollow plate in the hot-blast homodisperse, wind-guiding case air regulation board is connected in the pivot, the pivot is connected in adjust knob, adjust knob is used for driving the pivot to rotate, wind-guiding case air regulation board is used for.

Technical Field

The invention relates to the technical field of fabric dyeing equipment, in particular to a mesh belt drying device.

Background

Textile is a fiber material, such as cloth, woven tape and other common textiles, and is often dyed by dyeing equipment in order to improve the comfort of use or the ornamental value of the material.

In the technology of dyeing the meshbelt, the meshbelt dyeing process is finished and then is sent to the drying device for drying and fixing, the heat loss of the traditional drying device is large, the energy consumption is large, and the production cost of the meshbelt is improved.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a mesh belt drying device, which is low in heat energy consumption, so that the energy consumption is reduced, and the production cost of the mesh belt is reduced.

In order to solve the technical problems, the invention adopts the following technical scheme:

a mesh belt drying device comprises a drying box, a hot air duct liner, a burner, a blower, an upper belt guiding shaft assembly, a lower belt guiding shaft assembly and a driving device; the drying box is provided with a drying box air inlet, a drying box air outlet, a belt inlet, a belt outlet and an accommodating cavity, and the drying box air inlet, the drying box air outlet, the belt inlet and the belt outlet are communicated with the accommodating cavity; the hot air duct box is provided with a hot air duct box air inlet and a hot air duct box air outlet, the drying box air inlet is communicated with the hot air duct box air outlet, and the drying box air outlet is communicated with the hot air duct box air inlet; the hot air duct inner container and the air feeder are both arranged inside the hot air duct box, the burner is arranged in the hot air duct box, the flame outlet end of the burner is positioned inside the hot air duct inner container, the gas connecting end of the burner is exposed in the hot air duct box, and the burner is used for heating the air inside the hot air duct inner container; the air feeder is used for inputting hot air in the hot air duct liner into the accommodating cavity of the drying box through the air outlet of the hot air duct box and the air inlet of the drying box; the upper guide belt shaft assembly and the lower guide belt shaft assembly are both positioned in the accommodating cavity, the upper guide belt shaft assembly is rotatably arranged at the upper end of the drying box, the lower guide belt shaft assembly is rotatably arranged at the lower end of the drying box, and the driving device is arranged on the drying box and used for driving the lower guide belt shaft assembly to rotate; the meshbelt gets into the holding intracavity of stoving case via advancing the area mouth, and the meshbelt twines in last conduction band axle subassembly and conduction band axle subassembly down, and last conduction band axle subassembly and conduction band axle subassembly down are used for driving the meshbelt and remove, and the meshbelt comes out from the stoving case via going out the area mouth.

Further, the drying box comprises a left plate, a right plate, a front plate, a rear plate, a bottom plate and a top plate, wherein the left plate and the right plate are arranged on the bottom plate at intervals, the front plate and the rear plate are arranged on the bottom plate at intervals, two ends of the left plate are respectively connected to the front plate and the rear plate, two ends of the right plate are respectively connected to the front plate and the rear plate, and an accommodating cavity is defined by the left plate, the right plate, the front plate, the rear plate and the bottom plate; the one end of roof plate spare is rotated and is connected in back plate, and left side plate and right plate have all been installed and are used for driving roof plate spare pivoted cylinder, and roof plate spare is used for opening or closes the holding chamber.

Furthermore, the left plate, the right plate, the front plate, the rear plate, the bottom plate and the top plate all comprise inner sealing plates, supports, outer plates and heat-insulating layers; the support of left plate, the support of right plate, the support of preceding plate, the support of back plate and the support interconnect of bottom plate spare, interior shrouding is installed in one side of support, and the planking is installed in the opposite side of support, and the heat preservation is installed between interior shrouding and planking.

Further, the front plate is provided with a first opening and two first insulated doors, the first opening penetrates through the front plate, the two first insulated doors are respectively connected to the left plate and the right plate in a rotating mode, and the two first insulated doors are used for opening or closing the first opening.

Furthermore, the hot air duct box is provided with a first air volume adjusting assembly, and the first air volume adjusting assembly is positioned on one side of an air inlet of the hot air duct box; first air regulation subassembly includes first dryer, first end cover and first handle, and first dryer intercommunication hot-air duct case and external atmosphere, and external air gets into the inside of hot-air duct case via first dryer, and first end cover sets up in the inside of first dryer, and first handle is installed in first dryer and is used for driving first end cover to rotate, and first end cover is used for adjusting the size of the air outlet of first dryer.

Furthermore, the hot air duct box is provided with a second air volume adjusting assembly, and the second air volume adjusting assembly is positioned below the air outlet of the air blower; the second air volume adjusting component comprises a second air duct, a second end cover and a second handle, one end of the second air duct is communicated with the hot air duct inner container, the other end of the second air duct protrudes out of the hot air duct box, the second end cover is arranged in the second air duct, the second handle is arranged on the second air duct and used for driving the second end cover to rotate, and the second end cover is used for adjusting the size of an air outlet of the second air duct.

Furthermore, the drying box is provided with a third air volume adjusting assembly, and the third air volume adjusting assembly is positioned at the upper end of the drying box; the third air volume adjusting assembly comprises a third air duct, a third end cover and a third handle, one end of the third air duct is communicated with the drying box, the other end of the third air duct stretches out of the drying box, the third end cover is arranged in the third air duct, the third handle is arranged on the third air duct and used for driving the third end cover to rotate, and the third end cover is used for adjusting the size of an air outlet of the third air duct.

Further, the upper belt guide shaft assembly comprises a plurality of first belt guide shafts, the plurality of first belt guide shafts are rotatably arranged at the upper end of the drying box, and the plurality of first belt guide shafts are spaced from each other and are arranged in parallel; the lower belt guide shaft assembly comprises a plurality of second belt guide shafts, the second belt guide shafts are rotatably arranged at the lower end of the drying box, and the second belt guide shafts are spaced from each other and arranged in parallel; the first tape guide shaft and the second tape guide shaft are arranged in parallel;

the drying box is also provided with two groups of inclined guide belt assemblies and a plurality of groups of straight spacer belt assemblies, the two groups of inclined guide belt assemblies and the plurality of groups of straight spacer belt assemblies are positioned in the accommodating cavity, and a group of straight spacer belt assemblies is arranged between every two second guide belt shafts; the direct separation belt assembly comprises a direct separation belt support, a separation belt blocking rod and a plurality of separation belt shafts, the direct separation belt support is arranged in the drying box, one ends of the separation belt shafts are connected to the direct separation belt support at intervals, and the other ends of the separation belt shafts are connected to the separation belt blocking rod;

the oblique conduction band subassembly includes oblique conduction band support and a plurality of oblique conduction band axle, and oblique conduction band support is installed in the stoving case, and a plurality of oblique conduction band axle intervals are connected in oblique conduction band support, and the contained angle of oblique conduction band axle and oblique conduction band support is 30-90.

Furthermore, the upper tape guide shaft assembly comprises a plurality of groups of tape guide shaft mechanisms which are arranged in parallel at intervals; the belt guide shaft mechanism comprises a third belt guide shaft and a fourth belt guide shaft, the third belt guide shaft and the fourth belt guide shaft are both rotatably arranged at the upper end of the drying box, the third belt guide shaft and the fourth belt guide shaft are arranged at intervals and in parallel, and the fourth belt guide shaft is positioned below the third belt guide shaft;

the lower belt guide shaft assembly comprises a feeding belt guide shaft, a discharging belt guide shaft and a plurality of fifth belt guide shafts, the feeding belt guide shaft is rotatably arranged on the drying box and positioned on one side of the belt inlet, the discharging belt guide shaft is rotatably arranged on the drying box and positioned on one side of the belt outlet, the fifth belt guide shafts are rotatably arranged at the lower end of the drying box, and the fifth belt guide shafts are spaced and arranged in parallel; the third tape guide shaft and the fifth tape guide shaft are arranged in a crossed manner, the fourth tape guide shaft and the fifth tape guide shaft are arranged in a crossed manner, the feeding tape guide shaft and the fifth tape guide shaft are arranged in a crossed manner, and the discharging tape guide shaft and the fifth tape guide shaft are arranged in a crossed manner.

Furthermore, the drying box is also provided with a hot air uniform dispersion assembly, the hot air uniform dispersion assembly is positioned in the accommodating cavity, and the hot air uniform dispersion assembly is positioned between the upper belt guide shaft assembly and the lower belt guide shaft assembly;

the hot air uniform dispersion assembly comprises an air guide box and a plurality of hot air uniform dispersion hollow plates, and the air guide box is provided with an air guide box air inlet and a plurality of air guide box air outlets; the air guide box is arranged in the drying box, an air inlet of the air guide box is communicated with an air inlet of the drying box, the plurality of hot air uniformly-dispersed hollow plates are respectively communicated with a plurality of air outlets of the air guide box, the plurality of hot air uniformly-dispersed hollow plates are provided with a plurality of ventilation holes, and the plurality of ventilation holes penetrate through the hot air uniformly-dispersed hollow plates; the hollow plate all is provided with wind-guiding case air regulation subassembly in the hot-blast homodisperse of polylith, wind-guiding case air regulation subassembly includes wind-guiding case air regulation board, pivot and adjust knob, wind-guiding case air regulation board and pivot are all rotated and are set up in the inside of hollow plate in the hot-blast homodisperse, adjust knob rotates the lateral wall that sets up in hollow plate in the hot-blast homodisperse, wind-guiding case air regulation board is connected in the pivot, the pivot is connected in adjust knob, adjust knob is used for driving the pivot to rotate, wind-guiding case air regulation board is used for.

The invention has the beneficial effects that: in the actual work, get into the holding intracavity of stoving case from advancing the area mouth after the meshbelt dyeing is handled, then the meshbelt twines in lower conduction band axle subassembly and last conduction band axle subassembly in proper order, and the meshbelt moves from advancing the area mouth to the direction of going out the area mouth under the drive of lower conduction band axle subassembly and last conduction band axle subassembly. Simultaneously, the combustor work heats the air of the inside of hot-blast main inner bag, the forced draught blower work and with the hot-air of hot-blast main inner bag via hot-blast main case air outlet and stoving case air intake input stoving case's holding chamber, the hot-blast meshbelt to the holding intracavity of holding intracavity is dried the fixation and is handled, then the hot-blast entering hot-blast main incasement that again passes through stoving case air outlet and hot-blast main case air intake in holding chamber, realize carrying out recycle to the hot-blast of holding intracavity, reduce thermal loss, reduce the consumption of the energy, thereby reduce the manufacturing cost of meshbelt. The meshbelt just comes out from the stoving case via going out the area mouth after being dried the fixation and accomplishing. The hot air duct inner container is made of ceramic materials or metal plates wrapped with glass wool, and has a good heat preservation effect, so that heat loss is reduced. The utility model provides a meshbelt drying device's heat energy consumption is low to reduce the consumption of the energy, reduce the manufacturing cost of meshbelt.

Drawings

FIG. 1 is an exploded view of the present invention.

FIG. 2 is an exploded view of another embodiment of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is a sectional view taken along a-a in fig. 3.

Fig. 5 is a schematic structural view of a first air volume adjusting assembly according to the present invention.

Fig. 6 is a schematic structural view of a second air volume adjusting assembly according to the present invention.

Fig. 7 is a schematic structural view of a third airflow rate adjusting assembly according to the present invention.

Fig. 8 is a schematic structural view of the upper tape guide shaft assembly and the lower tape guide shaft assembly of the present invention arranged in parallel.

Fig. 9 is an enlarged view at B in fig. 8.

Fig. 10 is a schematic structural view of the upper tape guide shaft assembly and the lower tape guide shaft assembly of the present invention arranged crosswise.

Fig. 11 is an exploded view of the hot air uniformly dispersing unit according to the present invention.

FIG. 12 is a schematic structural view of an air volume adjusting assembly of an air guide box according to the present invention

Description of reference numerals:

a drying box 1, a drying box air inlet 11, a drying box air outlet 12, a belt inlet 13, a belt outlet 14, an accommodating cavity 15, a left plate 16, a right plate 17, a front plate 18, a first opening 181, a first heat insulation door 182, a rear plate 19, a second opening 191, a second heat insulation door 192, a bottom plate 110, a top plate 111, an air cylinder 112, an inner sealing plate 113, a bracket 114, an outer plate 115, a heat insulation layer 116, a support rod 117, a hot air duct box 2, a hot air duct box air inlet 21, a hot air duct box air outlet 22, a first air volume adjusting assembly 23, a first air duct 231, a first end cover 232, a first handle 233, a second air volume adjusting assembly 24, a second air duct 241, a second end cover 242, a second handle 243, a hot air duct inner container 3, a burner 4, a blower 5, an upper belt guide shaft assembly 6, a first belt guide shaft 61, a belt guide shaft mechanism 62, a third belt guide shaft 621, a fourth belt guide shaft 622, a lower belt guide shaft assembly 7, the device comprises a second tape guide shaft 71, an oblique tape guide component 72, an oblique tape guide support 721, an oblique tape guide shaft 722, a straight tape isolating component 73, a straight tape isolating support 731, a tape isolating blocking rod 732, a tape isolating shaft 733, a feeding tape guide shaft 74, a discharging tape guide shaft 75, a fifth tape guide shaft 76, a driving device 8, a third air volume adjusting component 9, a third air duct 91, a third end cover 92, a third handle 93, a hot air uniform dispersion component 10, an air guide box 101, an air guide box air inlet 1011, an air guide box air outlet 1012, a hot air uniform dispersion hollow plate 102, a vent 1021, an air guide box air volume adjusting component 103, an air guide box air volume adjusting plate 1031, a rotating shaft 1032, an adjusting knob 1033, an air volume adjusting box 104 and an air volume adjusting box air outlet 1041.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 4, the mesh belt drying device provided by the present invention comprises a drying box 1, a hot air duct box 2, a hot air duct liner 3, a burner 4, a blower 5, an upper belt guide shaft assembly 6, a lower belt guide shaft assembly 7 and a driving device 8; the drying box 1 is provided with a drying box air inlet 11, a drying box air outlet 12, a belt inlet 13, a belt outlet 14 and an accommodating cavity 15, and the drying box air inlet 11, the drying box air outlet 12, the belt inlet 13 and the belt outlet 14 are all communicated with the accommodating cavity 15; the hot air duct box 2 is provided with a hot air duct box air inlet 21 and a hot air duct box air outlet 22, the drying box air inlet 11 is communicated with the hot air duct box air outlet 22, and the drying box air outlet 12 is communicated with the hot air duct box air inlet 21; the hot air duct inner container 3 and the air feeder 5 are both arranged inside the hot air duct box 2, the burner 4 is arranged in the hot air duct box 2, the flame outlet end of the burner 4 is positioned inside the hot air duct inner container 3, the gas connecting end of the burner 4 is exposed in the hot air duct box 2, and the burner 4 is used for heating the air inside the hot air duct inner container 3; the blower 5 is used for inputting hot air of the hot air duct liner 3 into the accommodating cavity 15 of the drying box 1 through the hot air duct box air outlet 22 and the drying box air inlet 11; the upper belt guiding shaft assembly 6 and the lower belt guiding shaft assembly 7 are both positioned in the accommodating cavity 15, the upper belt guiding shaft assembly 6 is rotatably arranged at the upper end of the drying box 1, the lower belt guiding shaft assembly 7 is rotatably arranged at the lower end of the drying box 1, and the driving device 8 is arranged on the drying box 1 and is used for driving the lower belt guiding shaft assembly 7 to rotate; the meshbelt enters the containing cavity 15 of the drying box 1 through the belt inlet 13, is wound on the upper belt guide shaft assembly 6 and the lower belt guide shaft assembly 7, the upper belt guide shaft assembly 6 and the lower belt guide shaft assembly 7 are used for driving the meshbelt to move, and the meshbelt comes out of the drying box 1 through the belt outlet 14.

In actual work, after the dyeing of the woven tape is finished, the woven tape enters the accommodating cavity 15 of the drying box 1 from the tape inlet 13, then the woven tape is sequentially wound on the lower tape guide shaft assembly 7 and the upper tape guide shaft assembly 6, and the woven tape is driven by the lower tape guide shaft assembly 7 and the upper tape guide shaft assembly 6 to move from the tape inlet 13 to the tape outlet 14. Meanwhile, the combustor 4 works and heats the air inside the hot air duct liner 3, the blower 5 works and inputs the hot air of the hot air duct liner 3 into the accommodating cavity 15 of the drying box 1 through the hot air duct box air outlet 22 and the drying box air inlet 11, the hot air in the accommodating cavity 15 dries and fixes the color of the braid in the accommodating cavity 15, and then the hot air in the accommodating cavity 15 enters the hot air duct box 2 through the drying box air outlet 12 and the hot air duct box air inlet 21, so that the hot air in the accommodating cavity 15 is recycled, the heat loss is reduced, the energy consumption is reduced, and the production cost of the braid is reduced. After the drying and fixing of the woven belt are completed, the woven belt comes out from the drying box 1 through the belt outlet 14. The hot air duct inner container 3 is made of ceramic materials or metal plates wrapped with glass wool, and the hot air duct inner container 3 has a good heat preservation effect, so that heat loss is reduced.

The utility model provides a meshbelt drying device's heat energy consumption is low to reduce the consumption of the energy, reduce the manufacturing cost of meshbelt.

As shown in fig. 1 to 4, in the present embodiment, the drying box 1 includes a left plate 16, a right plate 17, a front plate 18, a rear plate 19, a bottom plate 110, and a top plate 111, the left plate 16 and the right plate 17 are disposed at an interval on the bottom plate 110, the front plate 18 and the rear plate 19 are disposed at an interval on the bottom plate 110, two ends of the left plate 16 are respectively connected to the front plate 18 and the rear plate 19, two ends of the right plate 17 are respectively connected to the front plate 18 and the rear plate 19, and the left plate 16, the right plate 17, the front plate 18, the rear plate 19, and the bottom plate 110 enclose an accommodating cavity 15; one end of the top plate member 111 is rotatably connected to the rear plate member 19, the left plate member 16 and the right plate member 17 are each provided with a cylinder 112 for driving the top plate member 111 to rotate, and the top plate member 111 is used for opening or closing the accommodating chamber 15.

In actual work, when the temperature of the hot air in the accommodating cavity 15 is too high or the braid drying device stops working, the hot air in the accommodating cavity 15 needs to be discharged to the outside atmosphere in time, so that the braid in the accommodating cavity 15 is prevented from being damaged by the hot air with too high temperature. Specifically, the cylinder 112 works to drive the top plate member 111 to rotate, the rotating top plate member 111 opens the accommodating cavity 15, so that the accommodating cavity 15 is communicated with the outside atmosphere, and the hot air in the accommodating cavity 15 can be discharged into the outside atmosphere. When the mesh belt drying device works normally, the top plate piece 111 closes the accommodating cavity 15, so that the accommodating cavity 15 is isolated from the outside atmosphere, and hot air in the accommodating cavity 15 is prevented from leaking. Specifically, the left plate 16 and the right plate 17 are both provided with a support rod 117 for supporting the top plate 111, the air cylinder 112 operates and drives the top plate 111 to rotate, then the support rod 117 supports the top plate 111, and then the operation of the air cylinder 112 is stopped, thereby achieving the purpose of saving energy.

As shown in fig. 1 to 4, in the present embodiment, each of the left plate 16, the right plate 17, the front plate 18, the rear plate 19, the bottom plate 110, and the top plate 111 includes an inner sealing plate 113, a bracket 114, an outer plate 115, and an insulating layer 116; the bracket 114 of the left plate 16, the bracket 114 of the right plate 17, the bracket 114 of the front plate 18, the bracket 114 of the rear plate 19 and the bracket 114 of the bottom plate 110 are connected with each other, the inner sealing plate 113 is installed on one side of the bracket 114, the outer plate 115 is installed on the other side of the bracket 114, and the insulating layer 116 is installed between the inner sealing plate 113 and the outer plate 115.

The left plate 16, the right plate 17, the front plate 18, the rear plate 19, the bottom plate 110 and the top plate 111 all have good heat preservation effects, the heat loss of hot air in the accommodating cavity 15 can be reduced, the energy consumption is reduced, and therefore the production cost of the woven belt is reduced. Preferably, the heat insulation layer 116 is made of heat insulation cotton material, and the heat insulation cotton material has good heat insulation effect and low price.

As shown in fig. 1 and 2, in the present embodiment, the front plate 18 is provided with a first opening 181 and two first heat-insulating doors 182, the first opening 181 penetrates through the front plate 18, the two first heat-insulating doors 182 are respectively rotatably connected to the left plate 16 and the right plate 17, and the two first heat-insulating doors 182 are used for opening or closing the first opening 181.

Before the woven belt drying device works, the first opening 181 is opened through the two first heat insulation doors 182, an operator winds the woven belt to work through the first opening 181 and the upward belt guide shaft assembly 6 and the downward belt guide shaft assembly 7, and meanwhile, the parts in the accommodating cavity 15 can be installed or maintained through the first opening 181, so that the production requirement is met. Specifically, two first insulated doors 182 rotate through hinge and left plate 16, right plate 17 respectively and are connected, and two first insulated doors 182 all are provided with the sealing strip with preceding plate 18, and when two first insulated doors 182 closed first opening 181, the sealing strip of plate 18 before two first insulated doors 182's sealing strip contradicted increases two first insulated doors 182's sealed effect. Specifically, the number of the first openings 181 is plural.

Specifically, the rear plate 19 is provided with a second opening 191 and two second heat insulation doors 192, the second opening 191 penetrates through the rear plate 19, the two second heat insulation doors 192 are respectively rotatably connected to the left plate 16 and the right plate 17, and the two second heat insulation doors 192 are used for opening or closing the second opening 191. Specifically, the number of the second openings 191 is plural. The second thermal door 192 and the first thermal door 182 have the same structure and function, and are not described herein again.

As shown in fig. 1 and fig. 5, in the present embodiment, the hot air duct box 2 is provided with a first air volume adjusting assembly 23, and the first air volume adjusting assembly 23 is located at one side of the hot air duct box air inlet 21; the first air volume adjusting assembly 23 includes a first air duct 231, a first end cap 232 and a first handle 233, the first air duct 231 communicates with the hot air duct box 2 and the external atmosphere, the external air enters the inside of the hot air duct box 2 via the first air duct 231, the first end cap 232 is disposed inside the first air duct 231, the first handle 233 is disposed on the first air duct 231 and used for driving the first end cap 232 to rotate, and the first end cap 232 is used for adjusting the size of the air outlet of the first air duct 231.

In actual work, the forced draught blower 5 is used for inputting the hot air of the hot air duct inner container 3 into the accommodating cavity 15 of the drying box 1 through the hot air duct box air outlet 22 and the drying box air inlet 11, the forced draught blower 5 can enable the hot air duct box 2 to generate negative pressure in the working process, air needs to be introduced into the hot air duct box 2 through the first air duct 231, the air pressure value in the hot air duct box 2 is guaranteed to be normal, and the mesh belt drying device can work normally. Specifically, the first end cover 232 can be rotated by the first handle 233 to adjust the size of the air outlet of the first air duct 231, so that the production requirement is met.

As shown in fig. 1 and fig. 6, in the present embodiment, the hot air duct box 2 is provided with a second air volume adjusting assembly 24, and the second air volume adjusting assembly 24 is located below the air outlet of the blower 5; the second air volume adjusting assembly 24 includes a second air duct 241, a second end cap 242 and a second handle 243, wherein one end of the second air duct 241 is communicated with the hot air duct inner container 3, the other end of the second air duct 241 protrudes out of the hot air duct box 2, the second end cap 242 is disposed inside the second air duct 241, the second handle 243 is installed on the second air duct 241 and is used for driving the second end cap 242 to rotate, and the second end cap 242 is used for adjusting the size of the air outlet of the second air duct 241.

In the process of meshbelt production, can use a plurality of drying device, the temperature that every drying device's hot-blast settlement also is different, and the higher drying device of hot-blast temperature can carry the lower drying device the inside of hot-blast temperature to the hot-blast via the trachea of the hot-blast after-drying of meshbelt heat, realizes reducing thermal loss, reduces the consumption of the energy to reduce the manufacturing cost of meshbelt. Specifically, the air pipe is communicated with one end of the second air duct 241 which protrudes out of the hot air duct box 2, hot air of the drying device with higher hot air temperature is input into the hot air duct liner 3 through the air pipe and the second air duct 241, then the burner 4 heats the hot air in the hot air duct liner 3, and the hot air in the hot air duct liner 3 has heat, so that the flame projecting amount of the burner 4 can be properly reduced, the consumption of fuel gas is reduced, and the purpose of reducing energy consumption is achieved. Specifically, the second end cap 242 can be rotated by the second handle 243 to adjust the size of the air outlet of the second air duct 241, so as to meet the production requirement.

As shown in fig. 1 and 7, in the present embodiment, the drying box 1 is provided with a third air volume adjusting assembly 9, and the third air volume adjusting assembly 9 is located at the upper end of the drying box 1; third air regulation subassembly 9 includes third dryer 91, third end cover 92 and third handle 93, and the one end intercommunication stoving case 1 of third dryer 91, and stoving case 1 is stretched out to the other end of third dryer 91 suddenly, and third end cover 92 sets up in the inside of third dryer 91, and third handle 93 is installed in third dryer 91 and is used for driving third end cover 92 to rotate, and third end cover 92 is used for adjusting the size of the air outlet of third dryer 91.

In the process of meshbelt production, can use a plurality of drying device, the temperature that every drying device's hot-blast settlement also is different, and the higher drying device of hot-blast temperature can carry the lower drying device the inside of hot-blast temperature to the hot-blast via the trachea of the hot-blast after-drying of meshbelt heat, realizes reducing thermal loss, reduces the consumption of the energy to reduce the manufacturing cost of meshbelt. Specifically, the air pipe is communicated with one end of the third air duct 91 which protrudes out of the drying box 1, and hot air of the drying device with higher hot air temperature is input into the drying device with lower hot air temperature through the third air duct 91 and the air pipe. Specifically, the third end cover 92 can be rotated by the third handle 93 to adjust the size of the air outlet of the third air duct 91, so as to meet the production requirement.

As shown in fig. 4, 8 and 9, in the present embodiment, the upper tape guide shaft assembly 6 includes a plurality of first tape guide shafts 61, the plurality of first tape guide shafts 61 are rotatably disposed at the upper end of the drying box 1, and the plurality of first tape guide shafts 61 are spaced apart from each other and are disposed in parallel; the lower tape guide shaft assembly 7 comprises a plurality of second tape guide shafts 71, the second tape guide shafts 71 are rotatably arranged at the lower end of the drying box 1, and the second tape guide shafts 71 are spaced from each other and arranged in parallel; the first tape guide shaft 61 and the second tape guide shaft 71 are arranged in parallel;

the drying box 1 is also provided with two groups of inclined guide belt assemblies 72 and a plurality of groups of straight spacer belt assemblies 73, the two groups of inclined guide belt assemblies 72 and the plurality of groups of straight spacer belt assemblies 73 are both positioned in the accommodating cavity 15, and one group of straight spacer belt assemblies 73 is arranged between every two second guide belt shafts 71; the direct isolation belt assembly 73 comprises a direct isolation belt support 731, an isolation belt blocking rod 732 and a plurality of isolation belt shafts 733, the direct isolation belt support 731 is arranged in the drying box 1, one ends of the isolation belt shafts 733 are connected to the direct isolation belt support 731 at intervals, and the other ends of the isolation belt shafts 733 are connected to the isolation belt blocking rod 732; the inclined guide belt assembly 72 comprises an inclined guide belt support 721 and a plurality of inclined guide belt shafts 722, the inclined guide belt support 721 is installed on the drying box 1, the inclined guide belt shafts 722 are connected to the inclined guide belt support 721 at intervals, and the inclined guide belt shafts 722 and the inclined guide belt support 721 form an included angle of 30-90 degrees.

In practical operation, after the dyeing process of the woven tape is completed, the woven tape enters the accommodating cavity 15 of the drying box 1 from the tape inlet 13, then the woven tape is wound around the second tape guide shaft 71, then the woven tape passes through the space between the two tape separation shafts 733, then the woven tape is wound around the first tape guide shaft 61, then the woven tape passes through the space between the two tape separation shafts 733 of the other group of straight tape assemblies 73, then the woven tape is wound around the other second tape guide shaft 71, and the woven tape is wound in a circulating manner. One set of the slanted guide strip elements 72 is disposed above the last second guide strip shaft 71, the other set of the slanted guide strip elements 72 is disposed below the first guide strip shaft 61, when the webbing is wound around the last second tape guide shaft 71 or the first tape guide shaft 61, the webbing passes between the two diagonal tape guide shafts 722, the diagonal tape guide shafts 722 change the angle of the webbing, the webbing makes a number of turns from the last second tape guide shaft 71 to the first tape guide shaft 61, or the woven belt circulates for a plurality of circles from the first belt guide shaft 61 to the last second belt guide shaft 71, the travel of the woven belt in the accommodating cavity 15 is increased, thereby increase the stoving fixation time of meshbelt in holding chamber 15, reinforcing meshbelt drying device is just come out from stoving case 1 via play area mouth 14 after being dried the fixation and accomplishing to the stoving fixation effect of meshbelt. The two sets of inclined belt assemblies 72 in this embodiment are used to change the angle of the webbing so that the webbing can be wound back and forth in the receiving cavity 15 for a number of turns. The plurality of sets of straight spacer strip assemblies 73 serve to space the adjacent webbing apart to prevent the webbing from shifting or the adjacent two webbings from interfering with each other.

As shown in fig. 10, in the present embodiment, the upper tape guide shaft assembly 6 includes a plurality of tape guide shaft mechanisms 62, and the plurality of tape guide shaft mechanisms 62 are spaced apart from each other and arranged in parallel; the tape guide shaft mechanism 62 comprises a third tape guide shaft 621 and a fourth tape guide shaft 622, the third tape guide shaft 621 and the fourth tape guide shaft 622 are both rotatably arranged at the upper end of the drying box 1, the third tape guide shaft 621 and the fourth tape guide shaft 622 are arranged at intervals and in parallel, and the fourth tape guide shaft 622 is positioned below the third tape guide shaft 621;

the lower tape guide shaft assembly 7 comprises a feeding tape guide shaft 74, a discharging tape guide shaft 75 and a plurality of fifth tape guide shafts 76, the feeding tape guide shaft 74 is rotatably arranged on the drying box 1 and positioned at one side of the tape inlet 13, the discharging tape guide shaft 75 is rotatably arranged on the drying box 1 and positioned at one side of the tape outlet 14, the fifth tape guide shafts 76 are rotatably arranged at the lower end of the drying box 1, and the fifth tape guide shafts 76 are spaced from each other and arranged in parallel; the third tape guide shaft 621 and the fifth tape guide shaft 76 are arranged in a crossed manner, the fourth tape guide shaft 622 and the fifth tape guide shaft 76 are arranged in a crossed manner, the feeding tape guide shaft 74 and the fifth tape guide shaft 76 are arranged in a crossed manner, and the discharging tape guide shaft 75 and the fifth tape guide shaft 76 are arranged in a crossed manner.

In actual work, the belt inlet 13 is arranged in the middle of the drying box 1, the belt outlet 14 is arranged at the upper end of the drying box 1, and the belt inlet 13 and the belt outlet 14 are arranged oppositely. As shown in fig. 10, the winding path of one webbing has been shown for convenience of understanding. After the dyeing treatment of the woven tape, the woven tape enters the containing cavity 15 of the drying box 1 from the tape inlet 13, then the woven tape is wound on the feeding tape guide shaft 74, then the woven tape is wound on the fourth tape guide shaft 622 upwards, then the woven tape is wound on the fifth tape guide shaft 76 downwards, then the woven tape is wound on the third tape guide shaft 621 upwards, then the woven tape is wound on the fifth tape guide shaft 76 downwards, then the woven tape is wound on the fourth tape guide shaft 622 of the next group of tape guide shaft mechanisms 62 upwards, the woven tape is wound in such a circulating way, and finally the woven tape is wound on the discharging tape guide shaft 75 and comes out of the drying box 1 through the tape outlet 14. Specifically, the tape inlet 13 can simultaneously feed a plurality of woven tapes, and each woven tape is matched with one fifth tape guide shaft 76 for use. Follow and lead tape spool subassembly 6 and lead tape spool subassembly 7 parallel arrangement down and compare, the third of this embodiment leads tape spool 621, fourth leads tape spool 622, feeding leads tape spool 74 and ejection of compact and leads tape spool 75 all and fifth and lead tape spool 76 cross arrangement, increase the winding number of times of meshbelt in holding chamber 15, and then increase the stroke of meshbelt in holding chamber 15, thereby increase the stoving fixation time of meshbelt in holding chamber 15, strengthen the stoving fixation effect of meshbelt drying device to the meshbelt. Simultaneously, the meshbelt can not appear the skew and can not influence each other with adjacent meshbelt, also need not install meshbelt interval mechanism in stoving case 1 in addition, saves the cost.

As shown in fig. 4, 11 and 12, in this embodiment, the drying box 1 is further provided with a hot air uniform dispersion assembly 10, the hot air uniform dispersion assembly 10 is located in the accommodating cavity 15, and the hot air uniform dispersion assembly 10 is located between the upper tape guide shaft assembly 6 and the lower tape guide shaft assembly 7;

the hot air uniform dispersion assembly 10 comprises an air guide box 101 and a plurality of hot air uniform dispersion hollow plates 102, wherein the air guide box 101 is provided with an air guide box air inlet 1011 and a plurality of air guide box air outlets 1012; the air guide box 101 is arranged in the drying box 1, an air guide box air inlet 1011 is communicated with an air drying box air inlet 11, the hot air uniformly-dispersing hollow plates 102 are respectively communicated with the air guide box air outlets 1012, the hot air uniformly-dispersing hollow plates 102 are provided with a plurality of ventilation holes 1021, and the ventilation holes 1021 penetrate through the hot air uniformly-dispersing hollow plates 102; the hollow board 102 all is provided with wind-guiding case air regulation subassembly 103 in the hot-blast homodisperse of polylith, wind-guiding case air regulation subassembly 103 includes wind-guiding case air regulation board 1031, pivot 1032 and adjust knob 1033, wind-guiding case air regulation board 1031 and pivot 1032 all rotate and set up in the inside of hollow board 102 in the hot-blast homodisperse, adjust knob 1033 rotates and sets up in the lateral wall of hollow board 102 in the hot-blast homodisperse, wind-guiding case air regulation board 1031 connects in pivot 1032, pivot 1032 connects in adjust knob 1033, adjust knob 1033 is used for driving pivot 1032 to rotate, wind-guiding case air regulation board 1031 is used for adjusting the size of wind-guiding.

In practical work, the blower 5 works and makes hot air in the hot air duct liner 3 enter the air guide box 101 through the hot air duct box air outlet 22, the drying box air inlet 11 and the air guide box air inlet 1011, the hot air in the air guide box 101 enters the multiple hot air uniformly-dispersed hollow plates 102 through the multiple air guide box air outlets 1012, and the hot air enters the accommodating cavity 15 of the drying box 1 through the multiple ventilation holes 1021 of the multiple hot air uniformly-dispersed hollow plates 102. The plurality of ventilation holes 1021 of the plurality of hot air uniformly-dispersed hollow plates 102 uniformly disperse hot air, so that the temperature in the accommodating cavity 15 is uniform, and the woven belt is better dried and fixed. Specifically, an operator can drive the rotating shaft 1032 to rotate through the adjusting knob 1033, the rotating shaft 1032 drives the air guide box air quantity adjusting plate 1031 to rotate, and the size of the air guide box air outlet 1012 can be adjusted through the rotating air guide box air quantity adjusting plate 1031, so that the air output of the plurality of air vents 1021 of the multi-block hot air uniformly-dispersing hollow plate 102 is controlled.

Preferably, the air guiding box 101 is provided with a plurality of air volume adjusting boxes 104, the plurality of air volume adjusting boxes 104 are communicated with a plurality of air guiding box air outlets 1012, and air volume adjusting box air outlets 1041 of the plurality of air volume adjusting boxes 104 are communicated with the accommodating cavity 15; the air volume adjusting boxes 104 are provided with air guide box air volume adjusting components 103. In actual work, because the temperature in the middle of the holding cavity 15 is high, the temperatures on the two sides of the holding cavity 15 are low, so that the hot air quantity is adjusted through the air quantity adjusting boxes 104, the hot air quantity in the middle of the holding cavity 15 is small, the hot air quantity on the two sides of the holding cavity 15 is large, the temperature in the holding cavity 15 is uniform, and the woven belt obtains a better drying and color fixing effect. Specifically, an operator can rotate the rotating shaft 1032 through the adjusting knob 1033, the rotating shaft 1032 drives the air guiding box air quantity adjusting plate 1031 to rotate, and the rotating air guiding box air quantity adjusting plate 1031 can adjust the size of the air guiding box air outlet 1012, so that the air output of the air quantity adjusting box air outlets 1041 of the air quantity adjusting boxes 104 is controlled.

The above embodiments are preferred implementations of the present invention, and the present invention can be implemented in other ways without departing from the spirit of the present invention.