CN209801941U

CN209801941U - Drying oven system of tentering setting machine

Info

Publication number: CN209801941U
Application number: CN201920345241.8U
Authority: CN
Inventors: 高志平
Original assignee: Jiangsu Jiusheng Printing And Dyeing Equipment Co Ltd
Current assignee: Jiangsu Jiusheng Printing And Dyeing Equipment Co Ltd
Priority date: 2019-03-18
Filing date: 2019-03-18
Publication date: 2019-12-17
Anticipated expiration: 2029-03-18

Abstract

The utility model provides a tentering setting machine oven system, including gas burning pump, combustion chamber, air inlet duct and air-out mechanism, combustion chamber one end is connected with the gas burning pump, and the other end is connected with the air inlet duct, and the air inlet duct other end is connected with the air-out mechanism, and the air-out mechanism includes upper bellows, upper fan and the upper air outlet duct that are used for fabric upper surface drying to and be used for lower bellows, lower fan and the lower air outlet duct that are used for fabric lower surface drying; the upper air box and the lower air box are mutually isolated and are communicated with the air inlet duct; the impeller of the upper fan is arranged in the upper air box, and the impeller of the lower fan is arranged in the lower air box and used for providing power for airflow circulation; the upper air box is provided with an upper air outlet connected with the upper air outlet channel, and the lower air box is provided with a lower air outlet connected with the lower air outlet channel; the upper air outlet channel and the lower air outlet channel are respectively positioned on the upper side and the lower side of the fabric, and are opposite to the fabric surface, and air outlet holes are formed in the fabric surface. The drying temperature is uniform and controllable, the formation of marks on the surface of the fabric is avoided, and the quality of the fabric is ensured.

Description

Drying oven system of tentering setting machine

Technical Field

The utility model relates to a tentering setting machine technical field especially relates to a tentering setting machine oven system.

Background

The tentering setting machine is to treat the textile article of stereotyping and send into the equipment through the ware open width that strips, and the machine is automatic to articulate cloth width both ends on the faller after finishing, and the faller both ends are drawn the stride and get into tentering setting machine's oven along with mechanical operation, heat the textile article of treating the design through the oven and dry, and the later amplitude of oscillation falls into the cloth car. The main purpose of tentering and setting is to improve the hand feeling, slippage, color, breadth, strength, appearance and the like of the textile fabric to a certain extent by means of the setting function of tentering and setting equipment.

The existing oven system has the defects that the temperature cannot be regulated and controlled, the drying temperature is uneven, marks are easily formed on the surface of the fabric and the like when the fabric is heated and dried, and the quality of the fabric is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: in order to overcome the deficiencies in the prior art, the utility model provides a tentering setting machine oven system.

The utility model provides a technical scheme that its technical problem will adopt is: a drying oven system of a tentering setting machine comprises a fuel gas pump, a combustion chamber, an air inlet duct and at least one group of air outlet mechanisms, wherein one end of the combustion chamber is connected with the fuel gas pump, the other end of the combustion chamber is connected with one end of the air inlet duct, and the other end of the air inlet duct is connected with the air outlet mechanisms; the air outlet mechanism comprises an upper air box, an upper fan and an upper air outlet channel which are used for drying the upper surface of the fabric, and a lower air box, a lower fan and a lower air outlet channel which are used for drying the lower surface of the fabric; the upper air box and the lower air box are mutually isolated and are communicated with the air inlet duct; the impeller of the upper fan is arranged in the upper air box, and the impeller of the lower fan is arranged in the lower air box and is respectively used for providing power for airflow circulation; an upper air outlet is arranged on the upper air box and connected with the upper air outlet channel, and a lower air outlet is arranged on the lower air box and connected with the lower air outlet channel; the upper air outlet channel and the lower air outlet channel are respectively positioned at the upper side and the lower side of the fabric, and air outlet holes are formed in the side faces, facing the upper air outlet channel and the lower air outlet channel of the fabric, at least. Preferably, the two groups of air outlet mechanisms are arranged above the air inlet duct in parallel, and air outlet holes are formed in the surface, facing the fabric, of the air outlet mechanisms.

Specifically, the combustion chamber comprises a box body, cold air inlets are formed in the left side and the right side of the box body, an air inlet connected with a gas pump is formed in the front end of the box body, and an impeller is arranged at the rear end of the box body; the mixing chamber is arranged between the air inlet and the impeller, the front end of the mixing chamber is communicated with the air inlet, and the outlet of the rear end of the mixing chamber is opposite to the impeller; the upper side and the lower side of the mixing chamber are both provided with air mixing inlets, and the inner wall of the box body corresponding to the air mixing inlets is provided with air deflectors for guiding cold air into the mixing chamber.

Further, in order to realize the mixing of cold and hot air, the mixing chamber includes two division boards and width adjustment mechanism, be equipped with a plurality of fresh air inlets on the division board, and two division boards set up relatively, are equipped with the opening and form the air intake that mixes in upper and lower both sides, width adjustment mechanism supports the upper and lower both ends at the division board and is used for adjusting the distance between two division boards. The cold air entering the combustion chamber can be more uniform through the air inlet hole.

further, because the stoving temperature of different fabrics is different, consequently, can be through adjusting the regulation and control of cold wind and hot-blast intake realization temperature, width adjustment mechanism includes two piece at least upper adjusting rods, two piece at least lower adjusting rods and sets up at the last slip cap of division board upper end and set up the slip cap down in the division board below, upper adjusting rod and lower adjusting rod are along width adjustment direction parallel arrangement, go up the slip cap and establish on upper adjusting rod, and go up slip cap both ends and pass through set nut locking on upper adjusting rod, the slip cap cover is established on lower adjusting rod down, slip cap both ends are passed through set nut locking down on lower adjusting rod down. When the width is increased, the cold air inlet is enlarged, and the air inlet amount of cold air is increased at the moment, so that the fabric is suitable for fabrics with lower temperature; when the required temperature is higher, the width can be reduced, the cold air inlet is reduced, and cold air is reduced, so that the fabric is suitable for fabrics with higher temperature.

Furthermore, cold air enters from two sides of the combustion chamber, and opposite air flow can be formed above the cold air inlet, so that the air flow is opposite and cannot enter the combustion chamber, and the air deflector extends into the air inlet for a certain distance. Cold air can be guided into the combustion chamber through the air guide plate, and opposite impact of air flows on two sides is avoided.

Furthermore, in order to avoid the entering of foreign matters and a large amount of dust, the cold air inlet is covered with a protective net cover.

When the drying is finished, the system needs to be cooled, so that the fan can continuously work for a period of time to blow out hot air in the drying oven, an air door of the existing air outlet mechanism is not closed or is not closed tightly, the hot air can be directly blown out from an air duct, marks can be formed at positions right opposite to air outlet holes in the upper surface and the lower surface of the fabric, and the quality of the fabric is unqualified. Therefore, further, still set up air door closing mechanism on the air-out mechanism, air door closing mechanism is including setting up two wind door boards on last air outlet and lower air outlet respectively and being used for driving the door plant actuating mechanism that the wind door board opened and shut, all be equipped with upper shield and lower baffle that extends to the middle part on the upper and lower both ends of going up air outlet and lower air outlet, the opening width between upper shield and the lower baffle is less than the width of wind door board, restricts the rotation of wind door board to make the air outlet close. When the drying is finished, the air door is closed, so that hot air in the air box does not enter the air channel and is discharged from other places, the phenomenon that marks are formed due to overheating is avoided, and the quality of the fabric is guaranteed.

furthermore, in order to make the branch more even, be equipped with the wind-guiding strip on the side of wind door plant, through the hot-blast of wind-guiding strip guide entering, make hot-blast evenly distributed on the fabric to guarantee the stoving effect.

Specifically, the door plate driving mechanism comprises a driving cylinder, a first connecting rod, a second connecting rod, a connecting arm, a third connecting rod, an upper fulcrum and a lower fulcrum, the end parts of a push rod of the driving cylinder, the first connecting rod, the second connecting rod, a U-shaped arm and the third connecting rod are sequentially connected in a rotating mode through shaft pins, the upper fulcrum is arranged in the middle of the second connecting rod, the second connecting rod is supported on a shell of the air outlet mechanism through the upper fulcrum, the upper fulcrum and the lower fulcrum are respectively overlapped with rotating shafts of an upper air door plate and a lower air door plate, the tail end of the third connecting rod is supported on the lower fulcrum in a rotating mode, the upper fulcrum is located right above the lower fulcrum, and the driving cylinder and the connecting arm are respectively located on two sides of a connecting line of.

Preferably, the upper fan and the lower fan are both variable frequency fans, and the heating range is from normal temperature to 300 ℃.

The utility model has the advantages that: the utility model provides a pair of tentering setting machine oven system has the advantage that drying temperature is even and the temperature height can be regulated and control, simultaneously, has also avoided forming the trace on the fabric surface, has guaranteed the fabric quality.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic top view of the preferred embodiment of the present invention.

Fig. 2 is a left side view schematically showing the structure of the preferred embodiment of the present invention (arrows on the upper and lower sides of the fabric in the figure indicate the wind direction).

Fig. 3 is a schematic structural view of the single-side air outlet mechanism.

Fig. 4 is a schematic view of the structure of the combustion chamber.

FIG. 5 is a schematic view of the air flow from the cold air inlet of the combustion chamber without air deflectors.

FIG. 6 is a schematic view of the direction of combustion chamber flow.

FIG. 7 is a schematic view of the direction of airflow in the combustion chamber.

Fig. 8 is a schematic structural view of the air outlet mechanism of the present invention.

Fig. 9 is a schematic view of the structure of the damper closing mechanism.

In the figure: 100. a combustion chamber, 200 parts of an air inlet duct, 300 parts of an air outlet mechanism, 400 parts of fabric,

11. A box body 12, a cold air inlet 13, an air inlet 14, an impeller 15, a mixing chamber 151, a partition plate 152, an air inlet hole 153, an upper adjusting rod 154, a lower adjusting rod 155, an upper sliding sleeve 156, a lower sliding sleeve 157, a positioning nut lock 16, a mixed air inlet 17 and an air deflector,

31. The air guide device comprises an upper air box, 32, an upper fan, 33, an upper air outlet channel, 34, a lower air box, 35, a lower fan, 36, a lower air outlet channel, 37, an air outlet hole, 301, an air door plate, 302, an upper baffle plate, 303, a lower baffle plate, 304, an air guide strip, 305, a driving cylinder, 306, a first connecting rod, 307, a second connecting rod, 308, a connecting arm, 309, a third connecting rod, 310, an upper supporting point, 311, a lower supporting point, 312, an upper air outlet, 313 and a lower air outlet.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

As shown in fig. 1-3, the utility model discloses a tentering setting machine oven system, including combustion chamber, combustion chamber 100, air inlet duct 200 and at least a set of air-out mechanism 300, combustion chamber 100 one end is connected combustion chamber, the other end is connected with air inlet duct 200 one end, the air inlet duct 200 the other end with air-out mechanism 300 is connected.

As shown in fig. 4, the combustion chamber 100 includes a box 11, the left and right sides of the box 11 are provided with cold air inlets 12, the front end of the box 11 is provided with an air inlet 13 connected with a gas pump, and the rear end of the box 11 is provided with an impeller 14; the mixing chamber 15 is arranged between the air inlet 13 and the impeller 14, the front end of the mixing chamber is communicated with the air inlet 13, and the outlet of the rear end of the mixing chamber is opposite to the impeller 14; the upper side and the lower side of the mixing chamber 15 are both provided with air mixing inlets 16, and the inner wall of the box body 11 corresponding to the air mixing inlets 16 is provided with air deflectors 17 for guiding cold air into the mixing chamber 15.

In order to realize the mixing of cold and hot air, the mixing chamber 15 includes two partition plates 151 and a width adjusting mechanism, be equipped with a plurality of fresh air inlets 152 on the partition plate 151, and two partition plates 151 set up relatively, are equipped with the opening in upper and lower both sides and form and mix wind intake 16, the width adjusting mechanism supports the upper and lower both ends at partition plate 151 and is used for adjusting the distance between two partition plates 151. The cool air introduced into the combustion chamber 100 can be more uniformly supplied through the air inlet holes 152.

Because the drying temperatures of different fabrics 400 are different, the temperature can be adjusted and controlled by adjusting the intake of cold air and hot air, the width adjusting mechanism comprises at least two upper adjusting rods 153, at least two lower adjusting rods 154, an upper sliding sleeve 155 arranged at the upper end of the separation plate 151 and a lower sliding sleeve 156 arranged below the separation plate 151, the upper adjusting rods 153 and the lower adjusting rods 154 are arranged in parallel along the width adjusting direction, the upper sliding sleeve 155 is sleeved on the upper adjusting rods 153, two ends of the upper sliding sleeve 155 are locked on the upper adjusting rods 153 by positioning nut locks 157, the lower sliding sleeve 156 is sleeved on the lower adjusting rods 154, and two ends of the lower sliding sleeve 156 are locked on the lower adjusting rods 154 by positioning nut locks 157. When the width is increased, the cold air inlet 12 is enlarged, and the air inlet amount of cold air is increased at the moment, so that the fabric is suitable for the fabric 400 with lower temperature; when the required temperature is high, the width can be reduced, the cold air inlet 12 is reduced, and cold air is reduced, so that the fabric cooling device is suitable for the fabric 400 with high temperature.

Further, as shown in fig. 5, since the cold air enters from two sides of the combustion chamber 100, an opposite air flow is formed above the cold air inlet 12, so that the air flow is reversed and cannot enter the combustion chamber 100, and therefore, as shown in fig. 6 and 7, the air deflector 17 extends into the air inlet for a certain distance. The air deflector 17 can guide cold air into the combustion chamber 100, and prevent the opposite impact of air flow on two sides. In the figure, arrow a indicates a cold air intake direction, arrow B indicates a hot air intake direction, and arrow C indicates an air outlet direction on the impeller 14 side.

Further, in order to avoid the entry of foreign matters and a large amount of dust, the cold air inlet 12 is covered with a protective mesh enclosure.

As shown in fig. 8, the air outlet mechanism 300 includes an upper air box 31, an upper air blower 32 and an upper air outlet channel 33 for drying the upper surface of the fabric 400, and a lower air box 34, a lower air blower 35 and a lower air outlet channel 36 for drying the lower surface of the fabric 400; the upper air box 31 and the lower air box 34 are mutually isolated and are communicated with the air inlet duct 200; the impeller of the upper fan 32 is arranged inside the upper air box 31, and the impeller of the lower fan 35 is arranged inside the lower air box 34 and is respectively used for providing power for air circulation; an upper air outlet 312 arranged on the upper air box 31 is connected with the upper air outlet channel 33, and a lower air outlet 313 arranged on the lower air box 34 is connected with the lower air outlet channel 36; the upper air outlet channel 33 and the lower air outlet channel 36 are respectively positioned at the upper side and the lower side of the fabric 400, and at least air outlet holes 37 are formed in the side faces, facing the upper air outlet channel 33 and the lower air outlet channel 36 of the fabric 400. Preferably, the air outlet mechanisms 300 are arranged in two groups and are arranged above the air inlet duct 200 in parallel.

As shown in fig. 9, an air door closing mechanism is further disposed on the air outlet mechanism 300, the air door closing mechanism includes two air door panels 301 respectively disposed on the upper air outlet 312 and the lower air outlet 313 and a door panel driving mechanism for driving the air door panels 301 to open and close, an upper baffle 302 and a lower baffle 303 extending to the middle are disposed at the upper end and the lower end of the upper air outlet 312 and the lower air outlet 313, and the opening width between the upper baffle 302 and the lower baffle 303 is smaller than the width of the air door panels 301 to limit the rotation of the air door panels 301, so that the air outlets are closed. When the drying is finished, the air door is closed, so that the hot air in the air box does not enter the air channel and is discharged from other places, the mark formed by overheating is avoided, and the quality of the fabric 400 is ensured.

Further, in order to make the distribution more uniform, the air guide strips 304 are arranged on the side surfaces of the air door plates 301, and the entering hot air is guided by the air guide strips 304 to be uniformly distributed on the fabric 400, so that the drying effect is ensured.

Specifically, the door panel driving mechanism comprises a driving cylinder 305, a first connecting rod 306, a second connecting rod 307, a connecting arm 308, a third connecting rod 309, an upper supporting point 310 and a lower supporting point 311, the ends of a push rod of the driving cylinder 305, the first connecting rod 306, the second connecting rod 307, a U-shaped arm and the third connecting rod 309 are sequentially connected in a rotating manner through a shaft pin, the upper supporting point 310 is arranged in the middle of the second connecting rod 307, the second connecting rod 307 is supported on a shell of the air outlet mechanism 300 through the upper supporting point 310, the upper supporting point 310 and the lower supporting point 311 are respectively overlapped with rotating shafts of the upper and lower door panels 301, the tail end of the third connecting rod 309 is supported on the lower supporting point 311 in a rotating manner, the upper supporting point 310 is positioned right above the lower supporting point 311, and the driving cylinder 305 and the connecting arm 308 are respectively positioned on two sides of a connecting.

Preferably, the upper fan 32 and the lower fan 35 both use high temperature fans.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a tentering setting machine oven system which characterized in that: comprises a fuel gas pump, a combustion chamber, an air inlet duct and at least one group of air outlet mechanisms, wherein one end of the combustion chamber is connected with the fuel gas pump, the other end of the combustion chamber is connected with one end of the air inlet duct, the other end of the air inlet duct is connected with the air outlet mechanisms,

The air outlet mechanism comprises an upper air box, an upper fan and an upper air outlet channel which are used for drying the upper surface of the fabric, and a lower air box, a lower fan and a lower air outlet channel which are used for drying the lower surface of the fabric; the upper air box and the lower air box are mutually isolated and are communicated with the air inlet duct; the impeller of the upper fan is arranged in the upper air box, and the impeller of the lower fan is arranged in the lower air box and is respectively used for providing power for airflow circulation; an upper air outlet is arranged on the upper air box and connected with the upper air outlet channel, and a lower air outlet is arranged on the lower air box and connected with the lower air outlet channel; the upper air outlet channel and the lower air outlet channel are respectively positioned on the upper side and the lower side of the fabric, and air outlet holes are formed in the surface opposite to the fabric.

2. The tenter oven system as claimed in claim 1, characterized in that: the combustion chamber comprises a box body, cold air inlets are formed in the left side and the right side of the box body, an air inlet connected with a gas pump is formed in the front end of the box body, and an impeller is arranged at the rear end of the box body; the mixing chamber is arranged between the air inlet and the impeller, the front end of the mixing chamber is communicated with the air inlet, and the outlet of the rear end of the mixing chamber is opposite to the impeller; the upper side and the lower side of the mixing chamber are both provided with air mixing inlets, and the inner wall of the box body corresponding to the air mixing inlets is provided with air deflectors for guiding cold air into the mixing chamber.

3. the tenter oven system as claimed in claim 2, characterized in that: the mixing chamber comprises two partition plates and a width adjusting mechanism, wherein the partition plates are provided with a plurality of air inlet holes and are arranged oppositely, openings are formed in the upper side and the lower side of each partition plate to form air mixing inlets, and the width adjusting mechanism is supported at the upper end and the lower end of each partition plate and is used for adjusting the distance between the two partition plates.

4. The tenter oven system as claimed in claim 3, characterized in that: the width adjustment mechanism includes two piece at least upper adjusting rods, two piece at least lower adjusting rods and sets up at the last slip cap of division board upper end and sets up the slip cap down in the division board below, upper adjusting rod and lower adjusting rod are along width adjustment direction parallel arrangement, go up the slip cap cover and establish on upper adjusting rod, and go up the slip cap both ends and pass through set nut locking on upper adjusting rod, the slip cap cover is established under on adjusting the pole down, the slip cap both ends are passed through set nut locking under and are adjusted the pole.

5. The tenter oven system as claimed in claim 2, characterized in that: the air deflector extends into the air inlet for a certain distance.

6. The tenter oven system as claimed in claim 2, characterized in that: and a protective mesh enclosure is covered on the cold air inlet.

7. Tenter setter oven system as claimed in claim 1 or 2, characterized by: the air outlet mechanism is further provided with an air door closing mechanism, the air door closing mechanism comprises two air door plates arranged on the upper air outlet and the lower air outlet respectively and a door plate driving mechanism used for driving the air door plates to open and close, an upper baffle and a lower baffle extending to the middle are arranged at the upper end and the lower end of the upper air outlet and the lower air outlet respectively, and the opening width between the upper baffle and the lower baffle is smaller than the width of the air door plates.

8. The tenter oven system as claimed in claim 7, characterized in that: and the side surface of the air door plate is provided with an air guide strip.

9. The tenter oven system as claimed in claim 7, characterized in that: the door plate driving mechanism comprises a driving cylinder, a first connecting rod, a second connecting rod, a connecting arm, a third connecting rod, an upper fulcrum and a lower fulcrum, the end parts of a push rod of the driving cylinder, the first connecting rod, the second connecting rod, a U-shaped arm and the third connecting rod are sequentially connected in a rotating mode through shaft pins, the upper fulcrum is arranged in the middle of the second connecting rod, the second connecting rod is supported on a shell of the air outlet mechanism through the upper fulcrum, the upper fulcrum and the lower fulcrum are respectively overlapped with rotating shafts of an upper air door plate and a lower air door plate, the tail end of the third connecting rod is supported on the lower fulcrum in a rotating mode, the upper fulcrum is located right above the lower fulcrum, and the driving cylinder and the connecting arm are respectively located on two sides of a connecting line.

10. The tenter oven system as claimed in claim 3, characterized in that: the upper fan and the lower fan are both high-temperature fans.