CN110671917B - Meshbelt drying device - Google Patents

Abstract

The invention relates to the technical field of fabric dyeing equipment, in particular to a braid drying device which comprises a drying box, a hot air duct liner, a burner, a blower, an upper conduction band shaft assembly, a lower conduction band shaft assembly and a driving device, wherein the drying box is provided with a lower conduction band shaft assembly; the drying box is provided with a drying box air inlet, a drying box air outlet, a belt inlet, a belt outlet and a containing cavity; the hot air channel box is provided with a hot air channel box air inlet and a hot air channel 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 lower conduction band axle subassembly, goes up conduction band axle subassembly and lower conduction band axle subassembly and is used for driving the meshbelt and removes, and the meshbelt comes out from the stoving case via the area mouth. The heat energy consumption of the meshbelt drying device is low, so that the consumption of energy sources is reduced, and the production cost of meshbelt is reduced.

Description

Meshbelt drying device

Technical Field

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

Background

A textile is a common textile of fiber materials, such as cloth, webbing, etc., and in order to improve the comfort of use or the ornamental value of the material, dyeing is often required by dyeing equipment.

In the process of dyeing the mesh belt, the mesh belt is sent to a drying device for drying and fixation after dyeing treatment is completed, and the traditional drying device is high in heat loss, so that energy consumption is high, and the production cost of the mesh belt is increased.

Disclosure of Invention

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

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

the braid drying device comprises a drying box, a hot air duct liner, a burner, a blower, an upper conduction band shaft assembly, a lower conduction band 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 a containing cavity, and the drying box air inlet, the drying box air outlet, the belt inlet and the belt outlet are all communicated with the containing cavity; the hot air channel box is provided with a hot air channel box air inlet and a hot air channel box air outlet, the drying box air inlet is communicated with the hot air channel box air outlet, and the drying box air outlet is communicated with the hot air channel box air inlet; the hot air duct inner container and the air feeder are both arranged in the hot air duct box, the burner is arranged in the hot air duct box, the flame outlet end of the burner is positioned in the hot air duct inner container, the gas connection end of the burner is exposed in the hot air duct box, and the burner is used for heating air in the hot air duct inner container; the air feeder is used for inputting hot air of 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 conduction band shaft assembly and the lower conduction band shaft assembly are both positioned in the accommodating cavity, the upper conduction band shaft assembly is rotatably arranged at the upper end of the drying box, the lower conduction band shaft assembly is rotatably arranged at the lower end of the drying box, and the driving device is arranged in the drying box and is used for driving the lower conduction band 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 lower conduction band axle subassembly, goes up conduction band axle subassembly and lower conduction band axle subassembly and is used for driving the meshbelt and removes, and the meshbelt comes out from the stoving case via 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 with the front plate and the rear plate, two ends of the right plate are respectively connected with the front plate and the rear plate, and the left plate, the right plate, the front plate, the rear plate and the bottom plate are enclosed to form a containing cavity; one end of the top plate is rotationally connected to the rear plate, and the left plate and the right plate are respectively provided with a cylinder for driving the top plate to rotate, and the top plate is used for opening or closing the accommodating cavity.

Further, the left plate, the right plate, the front plate, the rear plate, the bottom plate and the top plate all comprise an inner sealing plate, a bracket, an outer plate and a heat preservation layer; the support of left plate, the support of right plate, the support of front 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 heat insulation doors, the first opening penetrates through the front plate, the two first heat insulation doors are respectively connected to the left plate and the right plate in a rotating mode, and the two first heat insulation doors are used for opening or closing the first opening.

Further, the hot air duct box is provided with a first air quantity adjusting component, and the first air quantity adjusting component is positioned at one side of an air inlet of the hot air duct box; the first air quantity adjusting component comprises a first air duct, a first end cover and a first handle, the first air duct is communicated with the hot air duct box and the outside atmosphere, outside air enters the inside of the hot air duct box through the first air duct, the first end cover is arranged in the inside of the first air duct, the first handle is arranged on the first air duct and used for driving the first end cover to rotate, and the first end cover is used for adjusting the size of an air outlet of the first air duct.

Further, the hot air duct box is provided with a second air quantity adjusting component, and the second air quantity adjusting component 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 liner, 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 in 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.

Further, the drying box is provided with a third air quantity adjusting component, and the third air quantity adjusting component is positioned at the upper end of the drying box; the third air quantity adjusting component 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 protrudes 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 conduction band shaft assembly comprises a plurality of first conduction band shafts which are rotatably arranged at the upper end of the drying box, and the first conduction band shafts are spaced from each other and are arranged in parallel; the lower conduction band shaft assembly comprises a plurality of second conduction band shafts which are rotatably arranged at the lower end of the drying box, and the second conduction band shafts are spaced from each other and are arranged in parallel; the first conduction band shaft and the second conduction band shaft are arranged in parallel;

the drying box is also provided with two groups of inclined conduction band assemblies and a plurality of groups of straight separation band assemblies, the two groups of inclined conduction band assemblies and the plurality of groups of straight separation band assemblies are positioned in the accommodating cavity, and a group of straight separation band assemblies are arranged between every two second conduction band shafts; the straight belt separating assembly comprises a straight belt separating support, a belt separating baffle rod and a plurality of belt separating shafts, wherein the straight belt separating support is arranged on the drying box;

the inclined conduction band assembly comprises an inclined conduction band support and a plurality of inclined conduction band shafts, the inclined conduction band support is arranged in the drying box, the plurality of inclined conduction band shafts are connected to the inclined conduction band support at intervals, and the included angle between the inclined conduction band shafts and the inclined conduction band support is 30-90 degrees.

Further, the upper conduction band shaft assembly comprises a plurality of groups of conduction band shaft mechanisms which are spaced from each other and are arranged in parallel; the conduction band shaft mechanism comprises a third conduction band shaft and a fourth conduction band shaft, the third conduction band shaft and the fourth conduction band shaft are both rotatably arranged at the upper end of the drying box, the third conduction band shaft and the fourth conduction band shaft are spaced and arranged in parallel, and the fourth conduction band shaft is positioned below the third conduction band shaft;

the lower conduction band shaft assembly comprises a feeding conduction band shaft, a discharging conduction band shaft and a plurality of fifth conduction band shafts, the feeding conduction band shaft is rotatably arranged on the drying box and positioned on one side of the belt inlet, the discharging conduction band shaft is rotatably arranged on the drying box and positioned on one side of the belt outlet, the plurality of fifth conduction band shafts are rotatably arranged at the lower end of the drying box, and the plurality of fifth conduction band shafts are spaced from each other and are arranged in parallel; the third conduction band axis and the fifth conduction band axis are arranged in a crossing manner, the fourth conduction band axis and the fifth conduction band axis are arranged in a crossing manner, the feeding conduction band axis and the fifth conduction band axis are arranged in a crossing manner, and the discharging conduction band axis and the fifth conduction band axis are arranged in a crossing manner.

Further, the drying box is also provided with a hot air uniform dispersing component, the hot air uniform dispersing component is positioned in the accommodating cavity, and the hot air uniform dispersing component is positioned between the upper conduction band shaft component and the lower conduction band shaft component;

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 on the drying box, the air inlet of the air guide box is communicated with the air inlet of the drying box, the plurality of air guide box air outlets are respectively communicated with the plurality of air guide box air outlets, the plurality of air guide box air outlets are respectively provided with a plurality of ventilation holes, and the plurality of ventilation holes penetrate through the air guide box air outlets; the hot-blast evenly distributed cavity board of polylith all is provided with air guide box air regulation subassembly, and air guide box air regulation subassembly includes air guide box air regulation board, pivot and adjust knob, and air guide box air regulation board and pivot all rotate and set up in the inside of hot-blast evenly distributed cavity board, and adjust knob rotates the lateral wall that sets up in hot-blast evenly distributed cavity board, and air guide box air regulation board is connected in the pivot, and the pivot is connected in adjust knob, and adjust knob is used for driving the pivot and rotates, and air guide box air regulation board is used for adjusting the size of air guide box air outlet.

The invention has the beneficial effects that: in actual operation, after the ribbon dyeing treatment is finished, the ribbon enters the accommodating cavity of the drying box from the ribbon inlet, then the ribbon is sequentially wound on the lower ribbon guide shaft assembly and the upper ribbon guide shaft assembly, and the ribbon is driven by the lower ribbon guide shaft assembly and the upper ribbon guide shaft assembly to move from the ribbon inlet to the ribbon outlet. Simultaneously, the combustor works and heats the air in the hot air duct inner container, the blower works and inputs the hot air in the hot air duct inner container 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, hot air in the accommodating cavity dries and fixes colors to the woven belt in the accommodating cavity, and then hot air in the accommodating cavity enters the hot air duct box through the air outlet of the drying box and the air inlet of the hot air duct box, so that the hot air in the accommodating cavity is recycled, the heat loss is reduced, the energy consumption is reduced, and the production cost of the woven belt is reduced. After the fixation of the woven belt is dried, the woven belt is discharged from the drying box through the belt outlet. The hot air duct liner is made of ceramic materials or metal plates wrapped with glass wool, and has good heat preservation effect, so that heat loss is reduced. The heat energy consumption of the meshbelt drying device is low, so that the consumption of energy sources is reduced, and the production cost of meshbelt is reduced.

Drawings

Fig. 1 is a schematic exploded view of the present invention.

Fig. 2 is an exploded view of another view of the present invention.

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

Fig. 4 is a cross-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 air volume adjusting assembly according to the present invention.

Fig. 8 is a schematic structural view of an upper and 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 crossed arrangement of the upper and lower tape guide shaft assemblies of the present invention.

Fig. 11 is a schematic exploded view of the hot air uniformly dispersing module according to the present invention.

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

Reference numerals illustrate:

drying box 1, drying box inlet 11, drying box outlet 12, inlet 13, outlet 14, accommodation chamber 15, left panel 16, right panel 17, front panel 18, first opening 181, first heat insulating door 182, rear panel 19, second opening 191, second heat insulating door 192, bottom panel 110, top panel 111, cylinder 112, inner seal plate 113, bracket 114, outer panel 115, heat insulating layer 116, support bar 117, hot air duct box 2, hot air duct box inlet 21, hot air duct box outlet 22, first air volume adjustment assembly 23, first air duct 231, first end cap 232, first handle 233, second air volume adjustment assembly 24, second air duct 241, second end cap 242, second handle 243, hot air duct liner 3, burner 4, blower 5, upper guide shaft assembly 6, first guide shaft 61, guide shaft mechanism 62, the third conduction band shaft 621, the fourth conduction band shaft 622, the lower conduction band shaft assembly 7, the second conduction band shaft 71, the inclined conduction band assembly 72, the inclined conduction band support 721, the inclined conduction band shaft 722, the straight conduction band assembly 73, the straight conduction band support 731, the partition band baffle 732, the partition band shaft 733, the feeding conduction band shaft 74, the discharging conduction band shaft 75, the fifth conduction band shaft 76, the driving device 8, the third air volume adjusting assembly 9, the third air duct 91, the third end cover 92, the third handle 93, the hot air uniform dispersion assembly 10, the air guide box 101, the air guide box air inlet 1011, the air guide box air outlet 1012, the hot air uniform dispersion hollow plate 102, the ventilation hole 1021, the air guide box air volume adjusting assembly 103, the air guide box air volume adjusting plate 1031, the rotating shaft 1032, the adjusting knob 1033, the air volume adjusting box 104, and the air volume adjusting box air outlet 1041.

Detailed Description

The invention will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the invention.

As shown in fig. 1 to 4, the invention provides a braid drying device, which 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 conduction band shaft assembly 6, a lower conduction band 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 a containing 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 containing 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 arranged in 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 in the hot air duct inner container 3, the gas connection end of the burner 4 is exposed in the hot air duct box 2, and the burner 4 is used for heating air in 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 conduction band shaft assembly 6 and the lower conduction band shaft assembly 7 are both positioned in the accommodating cavity 15, the upper conduction band shaft assembly 6 is rotatably arranged at the upper end of the drying box 1, the lower conduction band shaft assembly 7 is rotatably arranged at the lower end of the drying box 1, and the driving device 8 is arranged in the drying box 1 and is used for driving the lower conduction band shaft assembly 7 to rotate; the meshbelt gets into the holding chamber 15 of stoving case 1 through entering area mouth 13, and the meshbelt twines in upper conduction band axle subassembly 6 and lower conduction band axle subassembly 7, and upper conduction band axle subassembly 6 and lower conduction band axle subassembly 7 are used for driving the meshbelt and remove, and the meshbelt comes out from stoving case 1 through the area mouth 14.

In actual operation, after the dyeing treatment of the woven belt is completed, the woven belt enters the accommodating cavity 15 of the drying box 1 from the belt inlet 13, then the woven belt is sequentially wound on the lower guide belt shaft assembly 7 and the upper guide belt shaft assembly 6, and the woven belt moves from the belt inlet 13 to the belt outlet 14 under the driving of the lower guide belt shaft assembly 7 and the upper guide belt shaft assembly 6. Simultaneously, combustor 4 work and heat the inside air of hot air duct inner bag 3, forced draught blower 5 work and with the hot air of hot air duct inner bag 3 through hot air duct case air outlet 22 and stoving case air intake 11 input stoving case 1's holding chamber 15, the hot-blast meshbelt of holding intracavity 15 carries out stoving fixation processing to holding intracavity 15, then the hot-blast of holding intracavity 15 gets into in the hot air duct case 2 through stoving case air outlet 12 and hot air duct case air intake 21 again, realize carrying out recycle to the hot-blast of holding intracavity 15, reduce the loss of heat, reduce the consumption of energy, thereby reduce the manufacturing cost of meshbelt. After the fixation of the woven belt by drying is completed, the woven belt is discharged from the drying box 1 through the belt outlet 14. The hot air duct liner 3 is made of ceramic materials or metal plates wrapped with glass wool, and the hot air duct liner 3 has a good heat preservation effect, so that heat loss is reduced.

The heat energy consumption of the meshbelt drying device is low, so that the consumption of energy sources is reduced, and the production cost of meshbelt is reduced.

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 spaced apart from each other and are disposed on the bottom plate 110, the front plate 18 and the rear plate 19 are spaced apart from each other and are disposed 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 a receiving cavity 15; one end of the top plate 111 is rotatably connected to the rear plate 19, and the left plate 16 and the right plate 17 are provided with a cylinder 112 for driving the top plate 111 to rotate, and the top plate 111 is used for opening or closing the accommodating chamber 15.

In actual operation, 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 into 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 and drives the top plate 111 to rotate, and the rotating top plate 111 opens the accommodating cavity 15, so that the accommodating cavity 15 is communicated with the outside air, and the hot air in the accommodating cavity 15 can be discharged into the outside air. When the webbing drying device works normally, the top plate 111 closes the accommodating cavity 15, so that the accommodating cavity 15 is isolated from the outside atmosphere, and the hot air in the accommodating cavity 15 is prevented from leaking. Specifically, the left plate 16 and the right plate 17 are provided with support rods 117 for supporting the top plate 111, the air cylinder 112 works and drives the top plate 111 to rotate, then the top plate 111 is supported by the support rods 117, and then the air cylinder 112 stops working, so that the purpose of saving energy is achieved.

As shown in fig. 1 to 4, in the present embodiment, each of the left panel 16, the right panel 17, the front panel 18, the rear panel 19, the bottom panel 110 and the top panel 111 includes an inner sealing plate 113, a bracket 114, an outer panel 115 and an insulation 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 mounted on one side of the bracket 114, the outer plate 115 is mounted on the other side of the bracket 114, and the heat insulating layer 116 is mounted 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 effect, and can reduce the heat loss of hot air in the accommodating cavity 15 and the consumption of energy sources, thereby reducing the production cost of the woven belt. 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 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 operation of the webbing drying device, the first opening 181 is opened through the two first heat-insulating doors 182, an operator winds the webbing through the first opening 181 to the upper conduction band shaft assembly 6 and the lower conduction band shaft assembly 7, and meanwhile, the webbing drying device can also install or maintain parts in the accommodating cavity 15 through the first opening 181, so that the webbing drying device meets the production requirement. Specifically, the two first heat-insulating doors 182 are respectively connected with the left plate 16 and the right plate 17 in a rotating manner through hinges, sealing strips are respectively arranged on the two first heat-insulating doors 182 and the front plate 18, and when the two first heat-insulating doors 182 close the first opening 181, the sealing strips of the two first heat-insulating doors 182 are abutted against the sealing strips of the front plate 18, so that the sealing effect of the two first heat-insulating doors 182 is improved. Specifically, there are a plurality of first openings 181.

Specifically, the rear plate 19 is provided with a second opening 191 and two second heat-insulating doors 192, the second opening 191 penetrates the rear plate 19, the two second heat-insulating doors 192 are respectively rotatably connected to the left plate 16 and the right plate 17, and the two second heat-insulating doors 192 are used for opening or closing the second opening 191. Specifically, there are a plurality of second openings 191. The second insulated door 192 has the same structure and function as the first insulated door 182, and will not be described in detail herein.

As shown in fig. 1 and 5, in this 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 air inlet 21 of the hot air duct box; the first air volume adjusting component 23 comprises a first air duct 231, a first end cover 232 and a first handle 233, the first air duct 231 is communicated with the hot air duct box 2 and the outside air, the outside air enters the inside of the hot air duct box 2 through the first air duct 231, the first end cover 232 is arranged in the first air duct 231, the first handle 233 is arranged in the first air duct 231 and used for driving the first end cover 232 to rotate, and the first end cover 232 is used for adjusting the size of an air outlet of the first air duct 231.

In actual operation, the blower 5 is used for inputting 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, and the blower 5 can generate negative pressure for the hot air duct box 2 in the working process, so that air is required to be introduced into the hot air duct box 2 through the first air duct 231, the normal air pressure value of the inside of the hot air duct box 2 is ensured, and the woven belt drying device works 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 as to meet the production requirement.

As shown in fig. 1 and 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 comprises a second air duct 241, a second end cover 242 and a second handle 243, one end of the second air duct 241 is communicated with the hot air duct liner 3, the other end of the second air duct 241 protrudes out of the hot air duct box 2, the second end cover 242 is arranged in the second air duct 241, the second handle 243 is arranged in the second air duct 241 and used for driving the second end cover 242 to rotate, and the second end cover 242 is used for adjusting the size of an air outlet of the second air duct 241.

In the webbing production process, a plurality of drying devices can be used, the temperature set by hot air of each drying device is different, the drying device with higher hot air temperature can convey hot air after webbing baking to the inside of the drying device with lower hot air temperature through an air pipe, recycling of the hot air is achieved, heat loss is reduced, energy consumption is reduced, and accordingly production cost of webbing is reduced. Specifically, the air pipe is communicated with one end of the second air duct 241 protruding 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 combustor 4 heats the hot air in the hot air duct liner 3, and as the hot air in the hot air duct liner 3 has heat, the flame spraying amount of the combustor 4 can be properly reduced, so that the consumption of fuel gas is reduced, and the purpose of reducing energy consumption is achieved. Specifically, the second end cover 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; the third air volume adjusting component 9 comprises a third air duct 91, a third end cover 92 and a third handle 93, one end of the third air duct 91 is communicated with the drying box 1, the other end of the third air duct 91 protrudes out of the drying box 1, the third end cover 92 is arranged inside the third air duct 91, the third handle 93 is arranged on the third air duct 91 and used for driving the third end cover 92 to rotate, and the third end cover 92 is used for adjusting the size of an air outlet of the third air duct 91.

In the webbing production process, a plurality of drying devices can be used, the temperature set by hot air of each drying device is different, the drying device with higher hot air temperature can convey hot air after webbing baking to the inside of the drying device with lower hot air temperature through an air pipe, recycling of the hot air is achieved, heat loss is reduced, energy consumption is reduced, and accordingly production cost of webbing is reduced. Specifically, the air pipe is communicated with one end of the third air duct 91 protruding 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, thereby meeting the production requirement.

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

the drying box 1 is further provided with two groups of inclined conduction band assemblies 72 and a plurality of groups of straight separation band assemblies 73, the two groups of inclined conduction band assemblies 72 and the plurality of groups of straight separation band assemblies 73 are both positioned in the accommodating cavity 15, and a group of straight separation band assemblies 73 are arranged between every two second conduction band shafts 71; the vertical separator assembly 73 comprises a vertical separator support 731, a separator stop 732, and a plurality of separator shafts 733, wherein the vertical separator support 731 is mounted on the drying box 1, one ends of the plurality of separator shafts 733 are connected to the vertical separator support 731 at intervals, and the other ends of the plurality of separator shafts 733 are connected to the separator stop 732; the guide belt assembly 72 includes a guide belt support 721 and a plurality of guide belt shafts 722, the guide belt support 721 is installed in the drying box 1, the guide belt shafts 722 are connected to the guide belt support 721 at intervals, and the guide belt shafts 722 and the guide belt support 721 form an included angle of 30-90 degrees.

In actual operation, after the dyeing process of the webbing is completed, the webbing enters the accommodating chamber 15 of the drying box 1 from the webbing inlet 13, then the webbing is wound around the second guide belt shaft 71, then the webbing passes between the two spacer belt shafts 733, then the webbing is wound around the first guide belt shaft 61, then the webbing passes between the two spacer belt shafts 733 of the other group of straight spacer belt assemblies 73, then the other second guide belt shaft 71 is wound around, and the webbing is wound circularly as such. One group of oblique conduction band components 72 are arranged above the last second conduction band shaft 71, the other group of oblique conduction band components 72 are arranged below the first conduction band shaft 61, when the braid is wound to the last second conduction band shaft 71 or the first conduction band shaft 61, the braid passes through the space between the two oblique conduction band shafts 722, the angle of the braid can be changed by the oblique conduction band shaft 722, the braid circulates one more circle from the last second conduction band shaft 71 to the first conduction band shaft 61, or the braid circulates one more circle from the first conduction band shaft 61 to the last second conduction band shaft 71, the travel of the braid in the accommodating cavity 15 is increased, the drying fixation time of the braid in the accommodating cavity 15 is increased, the drying fixation effect of the braid drying device on the braid is enhanced, and the braid comes out of the drying box 1 from the tape outlet 14 after the drying fixation is completed. The two sets of bias 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 multiple times within the receiving chamber 15. The plurality of sets of straight spacer assemblies 73 serve to space adjacent webbing apart from one another and prevent webbing from shifting or adjacent webbing from interfering with one another.

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

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

In actual operation, the tape inlet 13 is arranged in the middle of the drying box 1, the tape outlet 14 is arranged at the upper end of the drying box 1, and the tape inlet 13 and the tape outlet 14 are arranged opposite to each other. As shown in fig. 10, a winding path of a webbing has been shown for the sake of easy understanding. After the dyeing process of the webbing is completed, the webbing enters the accommodating cavity 15 of the drying box 1 from the webbing inlet 13, then the webbing is wound around the feeding guide belt shaft 74, then the webbing is wound around the fourth guide belt shaft 622, then the webbing is wound around the fifth guide belt shaft 76 downwards, then the webbing is wound around the third guide belt shaft 621 upwards, then the webbing is wound around the fifth guide belt shaft 76, then the webbing is wound around the fourth guide belt shaft 622 of the next set of guide belt shaft mechanisms 62 upwards, the webbing is wound around the discharging guide belt shaft 75 in a circulating manner, and finally the webbing is wound around the discharging guide belt shaft 75 and comes out of the drying box 1 through the webbing outlet 14. Specifically, the tape inlet 13 may be capable of simultaneously feeding a plurality of webbing, each webbing being adapted for use with a fifth guide belt shaft 76. Compare with conduction band axle subassembly 6 and lower conduction band axle subassembly 7 parallel arrangement, third conduction band axle 621, fourth conduction band axle 622, feeding conduction band axle 74 and ejection of compact conduction band axle 75 of this embodiment all set up with fifth conduction band axle 76 are alternately, increase the winding number of times of meshbelt in holding chamber 15, and then increase the stroke of meshbelt in holding chamber 15 to increase the stoving fixation time of meshbelt in holding chamber 15, strengthen meshbelt drying device and to the stoving fixation effect of meshbelt. Meanwhile, the braid does not deviate and can not influence the adjacent braid mutually, and a braid spacing mechanism is not required to be arranged in the drying box 1, so that the cost is saved.

As shown in fig. 4, 11 and 12, in this embodiment, the drying oven 1 is further provided with a hot air uniform dispersing assembly 10, the hot air uniform dispersing assembly 10 is located in the accommodating cavity 15, and the hot air uniform dispersing assembly 10 is located between the upper conduction band shaft assembly 6 and the lower conduction band 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 on the drying box 1, the air guide box air inlet 1011 is communicated with the drying box air inlet 11, the plurality of air guide box air outlets 1012 are respectively communicated with the plurality of air guide box air outlet 102, the plurality of air guide box air outlets 102 are respectively provided with a plurality of ventilation holes 1021, and the plurality of ventilation holes 1021 penetrate through the air guide box air inlet 11; the hollow board 102 of polylith hot-blast even dispersion all is provided with air guide box air regulation subassembly 103, air guide box air regulation subassembly 103 includes air guide box air regulation board 1031, pivot 1032 and adjust knob 1033, air guide box air regulation board 1031 and pivot 1032 all rotate and set up in the inside of hollow board 102 of hot-blast even dispersion, adjust knob 1033 rotates and sets up in the lateral wall of hollow board 102 of hot-blast even dispersion, air guide box air regulation board 1031 connects in pivot 1032, the pivot 1032 is connected in adjust knob 1033, adjust knob 1033 is used for driving pivot 1032 rotation, air guide box air regulation board 1031 is used for adjusting the size of air guide box air outlet 1012.

In actual operation, the blower 5 works and enters the hot air in the hot air duct liner 3 into 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, and the hot air in the air guide box 101 enters the plurality of hot air uniformly dispersed hollow plates 102 through the plurality of air guide box air outlets 1012, and then enters the accommodating cavity 15 of the drying box 1 through the plurality of ventilation holes 1021 of the plurality of hot air uniformly dispersed hollow plates 102. The plurality of ventilation holes 1021 of the hollow plate 102 with the plurality of hot air evenly dispersed are used for evenly dispersing the hot air, so that the temperature in the accommodating cavity 15 is even, and the braid can be 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 rotating air guide box air quantity adjusting plate 1031 can adjust the size of the air guide box air outlet 1012, so that the air quantity of the plurality of ventilation holes 1021 of the plurality of hot air uniformly dispersed hollow plates 102 is controlled.

Preferably, the air guide box 101 is provided with a plurality of air quantity adjusting boxes 104, the plurality of air quantity adjusting boxes 104 are communicated with a plurality of air guide box air outlets 1012, and air quantity adjusting box air outlets 1041 of the plurality of air quantity adjusting boxes 104 are communicated with the accommodating cavity 15; the plurality of air volume adjusting boxes 104 are provided with air guide box air volume adjusting assemblies 103. In actual operation, because the temperature in the middle of the accommodating cavity 15 is high, the temperatures at two sides of the accommodating cavity 15 are low, the hot air output is regulated by the plurality of air regulating boxes 104, so that the hot air quantity in the middle of the accommodating cavity 15 is smaller, the hot air quantity at two sides of the accommodating cavity 15 is larger, the temperature in the accommodating cavity 15 is uniform, and the woven belt is better in drying and fixation effect. Specifically, an operator can rotate the rotating shaft 1032 via the adjusting knob 1033, the rotating shaft 1032 drives the air guide box air volume adjusting plate 1031 to rotate, and the rotating air guide box air volume adjusting plate 1031 can adjust the size of the air guide box air outlet 1012, so that the air outlet of the air volume adjusting box air outlets 1041 of the air volume adjusting boxes 104 is controlled.

The foregoing embodiments are preferred embodiments of the present invention, and in addition, the present invention may be implemented in other ways, and any obvious substitution is within the scope of the present invention without departing from the concept of the present invention.

Claims (8)

1. The utility model provides a meshbelt drying device which characterized in that: the device comprises a drying box, a hot air duct liner, a burner, a blower, an upper conduction band shaft assembly, a lower conduction band 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 a containing cavity, and the drying box air inlet, the drying box air outlet, the belt inlet and the belt outlet are all communicated with the containing cavity; the hot air channel box is provided with a hot air channel box air inlet and a hot air channel box air outlet, the drying box air inlet is communicated with the hot air channel box air outlet, and the drying box air outlet is communicated with the hot air channel box air inlet; the hot air duct inner container and the air feeder are both arranged in the hot air duct box, the burner is arranged in the hot air duct box, the flame outlet end of the burner is positioned in the hot air duct inner container, the gas connection end of the burner is exposed in the hot air duct box, and the burner is used for heating air in the hot air duct inner container; the air feeder is used for inputting hot air of 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 conduction band shaft assembly and the lower conduction band shaft assembly are both positioned in the accommodating cavity, the upper conduction band shaft assembly is rotatably arranged at the upper end of the drying box, the lower conduction band shaft assembly is rotatably arranged at the lower end of the drying box, and the driving device is arranged in the drying box and is used for driving the lower conduction band shaft assembly to rotate; the braid enters the accommodating cavity of the drying box through the tape inlet, the braid is wound on the upper conduction band shaft assembly and the lower conduction band shaft assembly, the upper conduction band shaft assembly and the lower conduction band shaft assembly are used for driving the braid to move, and the braid comes out of the drying box through the tape outlet; the hot air channel box is provided with a second air quantity adjusting component, and the second air quantity adjusting component is positioned below an air outlet of the air feeder; the second air quantity 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 liner, 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; the air pipe is communicated with one end of the second air duct protruding out of the hot air duct box, hot air of the drying device with higher hot air temperature is input into the hot air duct liner through the air pipe and the second air duct, and then the combustor heats the hot air in the hot air duct liner; the drying box is provided with a third air quantity adjusting component, and the third air quantity adjusting component is positioned at the upper end of the drying box; the third air quantity adjusting component 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 protrudes 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; the air pipe is communicated with one end of the third air duct protruding out of the drying box, 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 and the air pipe.

2. A 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 front plate and the rear plate are arranged on the bottom plate at intervals, two ends of the left plate are respectively connected with the front plate and the rear plate, two ends of the right plate are respectively connected with the front plate and the rear plate, and the left plate, the right plate, the front plate, the rear plate and the bottom plate are enclosed to form a containing cavity; one end of the top plate is rotationally connected to the rear plate, and the left plate and the right plate are respectively provided with a cylinder for driving the top plate to rotate, and the top plate is used for opening or closing the accommodating cavity.

3. A 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 an inner sealing plate, a bracket, an outer plate and a heat preservation layer; the support of left plate, the support of right plate, the support of front 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. A 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. A webbing drying apparatus according to claim 1, wherein: the hot air duct box is provided with a first air quantity adjusting component, and the first air quantity adjusting component is positioned at one side of an air inlet of the hot air duct box; the first air quantity adjusting component comprises a first air duct, a first end cover and a first handle, the first air duct is communicated with the hot air duct box and the outside atmosphere, outside air enters the inside of the hot air duct box through the first air duct, the first end cover is arranged in the inside of the first air duct, the first handle is arranged on the first air duct and used for driving the first end cover to rotate, and the first end cover is used for adjusting the size of an air outlet of the first air duct.

6. A webbing drying apparatus according to claim 1, wherein: the upper conduction band shaft assembly comprises a plurality of first conduction band shafts which are rotatably arranged at the upper end of the drying box, and the first conduction band shafts are spaced from each other and are arranged in parallel; the lower conduction band shaft assembly comprises a plurality of second conduction band shafts which are rotatably arranged at the lower end of the drying box, and the second conduction band shafts are spaced from each other and are arranged in parallel; the first conduction band shaft and the second conduction band shaft are arranged in parallel;

the drying box is also provided with two groups of inclined conduction band assemblies and a plurality of groups of straight separation band assemblies, the two groups of inclined conduction band assemblies and the plurality of groups of straight separation band assemblies are positioned in the accommodating cavity, and a group of straight separation band assemblies are arranged between every two second conduction band shafts; the straight belt separating assembly comprises a straight belt separating support, a belt separating baffle rod and a plurality of belt separating shafts, wherein the straight belt separating support is arranged on the drying box;

the inclined conduction band assembly comprises an inclined conduction band support and a plurality of inclined conduction band shafts, the inclined conduction band support is arranged in the drying box, the plurality of inclined conduction band shafts are connected to the inclined conduction band support at intervals, and the included angle between the inclined conduction band shafts and the inclined conduction band support is 30-90 degrees.

7. A webbing drying apparatus according to claim 1, wherein: the upper conduction band shaft assembly comprises a plurality of groups of conduction band shaft mechanisms which are spaced from each other and are arranged in parallel; the conduction band shaft mechanism comprises a third conduction band shaft and a fourth conduction band shaft, the third conduction band shaft and the fourth conduction band shaft are both rotatably arranged at the upper end of the drying box, the third conduction band shaft and the fourth conduction band shaft are spaced and arranged in parallel, and the fourth conduction band shaft is positioned below the third conduction band shaft;

the lower conduction band shaft assembly comprises a feeding conduction band shaft, a discharging conduction band shaft and a plurality of fifth conduction band shafts, the feeding conduction band shaft is rotatably arranged on the drying box and positioned on one side of the belt inlet, the discharging conduction band shaft is rotatably arranged on the drying box and positioned on one side of the belt outlet, the plurality of fifth conduction band shafts are rotatably arranged at the lower end of the drying box, and the plurality of fifth conduction band shafts are spaced from each other and are arranged in parallel; the third conduction band axis and the fifth conduction band axis are arranged in a crossing manner, the fourth conduction band axis and the fifth conduction band axis are arranged in a crossing manner, the feeding conduction band axis and the fifth conduction band axis are arranged in a crossing manner, and the discharging conduction band axis and the fifth conduction band axis are arranged in a crossing manner.

8. A webbing drying apparatus according to claim 1, wherein: the drying box is also provided with a hot air uniform dispersing component which is positioned in the accommodating cavity, and the hot air uniform dispersing component is positioned between the upper conduction band shaft component and the lower conduction band shaft component;

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 on the drying box, the air inlet of the air guide box is communicated with the air inlet of the drying box, the plurality of air guide box air outlets are respectively communicated with the plurality of air guide box air outlets, the plurality of air guide box air outlets are respectively provided with a plurality of ventilation holes, and the plurality of ventilation holes penetrate through the air guide box air outlets; the hot-blast evenly distributed cavity board of polylith all is provided with air guide box air regulation subassembly, and air guide box air regulation subassembly includes air guide box air regulation board, pivot and adjust knob, and air guide box air regulation board and pivot all rotate and set up in the inside of hot-blast evenly distributed cavity board, and adjust knob rotates the lateral wall that sets up in hot-blast evenly distributed cavity board, and air guide box air regulation board is connected in the pivot, and the pivot is connected in adjust knob, and adjust knob is used for driving the pivot and rotates, and air guide box air regulation board is used for adjusting the size of air guide box air outlet.