CN211233499U - A cooling device for dyestuff production - Google Patents

Abstract

The utility model discloses a cooling device for dyestuff production, include crossbeam, transmission roller, motor, transmission band, cold water pipe, bear frame, pneumatic cylinder, exhaust chamber, fan and baffle, a serial communication port, the crossbeam setting on the support, the support on be provided with the backing plate, the transmission roller pass through the connecting axle and set up between crossbeam and crossbeam, the motor setting on the backing plate to be provided with the action wheel on the motor, the transmission band setting between transmission roller and transmission roller, the cold water pipe pass the crossbeam in turn, bear the setting on the crossbeam, the pneumatic cylinder setting bear the frame on, the chamber of airing exhaust set up on the piston rod. The utility model discloses be provided with ventilative hole on the conveyer belt, can pass the transmission band with the air current of transmission band below through ventilative hole, to the dyestuff granule cooling treatment that cools down on the conveyer belt, improved the cooling efficiency and the cooling effect of dyestuff granule.

Description

A cooling device for dyestuff production

Technical Field

The utility model relates to a dyestuff processing technology field specifically is a cooling device for dyestuff production.

Background

Dyes are organic compounds that give other materials a vivid and strong hue, and are also called synthetic dyes because pigments used at present are artificially synthesized. In the production process of weaving dyestuff, the dyestuff temperature that has just produced is higher relatively, need just can pack after the dyestuff cooling, but the dyestuff generally is solid powdered, when utilizing the fan cooling, makes the dyestuff diffuse in the workshop air very easily, and the dyestuff in the air has great injury to the human body, has reduced staff's security, has still had the poor problem of cooling effect simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cooling device for dyestuff production that structural design is reasonable, work efficiency is high, the cooling effect is good, the staff security is good to the problem that work efficiency is low, cooling effect is poor, influence staff's security exists for the dyestuff production to current cooling device for dyestuff production.

The utility model provides a technical scheme that technical problem taken does:

a cooling device for dye production comprises a cross beam, a transmission roller, a motor, a transmission belt, a cold water pipe, a bearing frame, a hydraulic cylinder, an exhaust cavity, a fan and a baffle plate, and is characterized in that the cross beam is arranged on a support, a bearing is arranged on the cross beam, the cross beam is connected with the support through welding, the connection strength between the cross beam and the support is improved, the structural strength of the cooling device is enhanced, a backing plate is arranged on the support, the transmission roller is arranged between the cross beam and the cross beam through a connecting shaft, the connecting shaft penetrates through the bearing, a driven wheel is arranged on the connecting shaft, the motor is arranged on the backing plate, a driving wheel is arranged on the motor, the motor is arranged on the backing plate through bolts, the mounting efficiency of the motor and the stability after mounting are improved, the transmission belt is arranged between the transmission roller and the transmission roller, the cooling water pipe alternately penetrates through the cross beam, the two ends of the cooling water pipe are provided with the water inlets and the water outlets, cooling water with lower temperature is injected into the cooling water pipe through the water inlets, the air flow temperature at the periphery of the cooling water pipe can be reduced, the dye particles moving along with the conveying belt are cooled and cooled by air flow with lower temperature, the cooling efficiency and the cooling effect of the dye particles are improved, the bearing frame is arranged on the cross beam, the bearing frame is connected with the cross beam through welding, the connection strength between the bearing frame and the cross beam is improved, the structural strength of the cooling device is further enhanced, the hydraulic cylinder is arranged on the bearing frame, the hydraulic cylinder is provided with the piston rod, the piston rod vertically penetrates out from the lower part of the bearing frame, the hydraulic cylinder is arranged on the bearing frame through bolts, the installation efficiency and the stability after installation of the hydraulic cylinder are improved, and, exhaust pipes are arranged on two opposite sides of the exhaust cavity, an air inlet pipe is arranged at the bottom of the exhaust cavity, the fan is arranged in the exhaust pipe, air flow in the inner cavity is discharged from the exhaust pipe under the action of the fan, negative pressure is generated in the inner cavity, external air flow enters the inner cavity through the air inlet pipe, the air flow carries heat emitted by dye particles to enter the inner cavity and is discharged from the exhaust pipe through the fan, the cooling effect of the dye particles is improved, the hydraulic cylinder and the piston rod push the exhaust cavity to descend, the exhaust cavity drives the air inlet pipe to descend, the air inlet pipe is inserted into the dye particles moving along with a conveyor belt, the air flow carries the heat emitted by the dye particles to enter the air inlet pipe through an air inlet hole, the air flow carries the heat to enter the inner cavity and is discharged from the exhaust pipe, the cooling efficiency and the cooling effect of the dye particles are improved, the baffle plate is provided with, and be provided with fastening nut on the connecting rod, can play the effect of blockking to the dyestuff granule that removes along with the transmission band through the baffle, avoid the dyestuff granule in the cooling process of cooling down to fall from the edge of transmission band, reduced the waste of dyestuff granule.

Preferably, the action wheel on the motor pass through the belt and be connected from the driving wheel, the action wheel on the motor passes through the belt and drives from the driving wheel rotation to drive the transmission band rotation between transmission roller and the transmission roller, make the transmission band drive the dyestuff granule and remove, cool down the cooling treatment to the dyestuff granule that removes the in-process, improved the cooling efficiency of dyestuff granule, reduced operating personnel's intensity of labour.

Preferably, the conveyer belt on be provided with ventilative hole, can pass the conveyer belt with the air current of conveyer belt below through ventilative hole, carry out cooling treatment to the dyestuff granule on the conveyer belt, improved the cooling efficiency and the cooling effect of cooling of dyestuff granule.

Preferably, the cold water pipe set up to any one structure in spiral, wave, arc, fan-shaped or the coiled pipe, set up the cold water pipe into curved surface structure, can improve the area of contact of cold water pipe and air current, and then improve the cooling effect to the air current, make the lower air current of temperature carry out cooling treatment to the dyestuff granule in the transmission course, improved the cooling efficiency and the cooling effect of cooling of dyestuff granule.

Preferably, the exhaust cavity is internally provided with an inner cavity, the inner cavity is connected with the exhaust pipe and the air inlet pipe, and an air inlet hole is formed in the bottom of the air inlet pipe, the fan discharges air flow in the inner cavity from the exhaust pipe, the inner cavity generates negative pressure, so that external air flow enters the inner cavity through the air inlet pipe, the air flow carries heat emitted by dye particles to enter the inner cavity and is discharged from the exhaust pipe through the fan, the cooling effect of the dye particles is improved, the hydraulic cylinder and the piston rod push the exhaust cavity to descend, the exhaust cavity drives the air inlet pipe to descend, the air inlet pipe is inserted into the dye particles moving along with a transmission belt, the air flow carries the heat emitted by the dye particles to enter the air inlet pipe through the air inlet hole, the air flow carries the heat to enter the inner cavity and is discharged from the exhaust pipe, and the cooling efficiency and the cooling.

Preferably, the baffle pass through connecting rod, fastening nut set up to the structure that can adjust the position on the carrier, can play the effect of blockking to the dyestuff granule that removes along with the transmission band through the baffle, avoid the dyestuff granule in the cooling process of cooling down to fall from the edge of transmission band, reduced the waste of dyestuff granule.

Has the advantages that: the utility model discloses be provided with the inner chamber at the intracavity of airing exhaust, with inner chamber and exhaust pipe, the air-supply line is connected, and be provided with the fresh air inlet bottom the air-supply line, the air current in the effect of fan is with the inner chamber is discharged from the exhaust pipe, the inner chamber produces the negative pressure, make outside air current in the air-supply line gets into the inner chamber, the air current carries during the heat that the dyestuff granule gived off gets into the inner chamber, and discharge from the exhaust pipe through the fan, the cooling effect of dyestuff granule has been improved, the pneumatic cylinder, the piston rod promotes the exhaust chamber and descends, the chamber of airing exhaust drives the air-supply line and descends, make the air-supply line insert in the dyestuff granule along with the transmission band removal, it is intraductal to make the air current carry the heat that the dyestuff granule gived off to get into the air inlet through.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a part of the structure of the present invention, illustrating the connection structure of the cross beam and the bearing frame.

Fig. 3 is a schematic view of a part of the structure of the present invention, illustrating the connection structure of the exhaust cavity and the inner cavity.

Fig. 4 is a schematic view of a part of the structure of the present invention, illustrating the connection structure of the bearing frame and the hydraulic cylinder.

Fig. 5 is a schematic diagram of another embodiment of the present invention.

In the figure: 1. the device comprises a beam, 2. a transmission roller, 3. a motor, 4. a transmission belt, 5. a cold water pipe, 6. a bearing frame, 7. a hydraulic cylinder, 8. an exhaust cavity, 9. a fan, 10. a baffle, 11. a bracket, 12. a backing plate, 13. a bearing, 14. a connecting shaft, 15. a driven wheel, 16. a driving wheel, 17. a belt, 18. a water inlet, 19. a water outlet, 20. a piston rod, 21. an exhaust pipe, 22. an air inlet pipe, 23. an inner cavity, 24. an air inlet hole, 25. a connecting rod, 26. a fastening nut, 27. an air permeable hole and 28. a rubber strip.

Detailed Description

The present invention will be described in more detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in the attached figures 1-4, a cooling device for dye production comprises a beam 1, a transmission roller 2, a motor 3, a transmission belt 4, a cold water pipe 5, a bearing frame 6, a hydraulic cylinder 7, an exhaust cavity 8, a fan 9 and a baffle 10, and is characterized in that the beam 1 is arranged on a support 11, a bearing 13 is arranged on the beam 1, the beam 1 is connected with the support 11 by welding, the connection strength between the beam 1 and the support 11 is improved, the structural strength of the cooling device is enhanced, a backing plate 12 is arranged on the support 11, the transmission roller 2 is arranged between the beam 1 and the beam 1 through a connecting shaft 14, the connecting shaft 14 penetrates through the bearing 13, a driven wheel 15 is arranged on the connecting shaft 14, the motor 3 is arranged on the backing plate 12, a driving wheel 16 is arranged on the motor 3, the motor 3 is arranged on the backing plate 12 through bolts, the installation efficiency of the motor 3 and the stability after installation are improved, the transmission belt 4 is arranged between the transmission roller 2 and the transmission roller 2, the cold water pipe 5 alternately penetrates through the cross beam 1, the water inlet 18 and the water outlet 19 are arranged at the two ends of the cold water pipe 5, cold water with lower temperature is injected into the cold water pipe 5 through the water inlet 18, the temperature of air flow at the periphery of the cold water pipe 5 can be reduced, dye particles moving along with the transmission belt 4 are cooled and treated by the air flow with lower temperature, the cooling efficiency and the cooling effect of the dye particles are improved, the bearing frame 6 is arranged on the cross beam 1, the bearing frame 6 is connected with the cross beam 1 through welding, the connection strength between the bearing frame 6 and the cross beam 1 is improved, the structural strength of the cooling device is further enhanced, the hydraulic cylinder 7 is arranged on the bearing frame 6, and the piston rod 20 is arranged on the hydraulic cylinder 7, the piston rod 20 vertically penetrates out of the lower part of the bearing frame 6, the hydraulic cylinder 7 is installed on the bearing frame 6 through bolts, the installation efficiency and the stability after installation of the hydraulic cylinder 7 are improved, the exhaust cavity 8 is arranged on the piston rod 20, exhaust pipes 21 are arranged on two opposite sides of the exhaust cavity 8, an air inlet pipe 22 is arranged at the bottom of the exhaust cavity 8, the fan 9 is arranged in the exhaust pipe 21, air flow in the inner cavity 23 is exhausted from the exhaust pipe 21 under the action of the fan 9, the inner cavity 23 generates negative pressure, so that external air flow enters the inner cavity 23 through the air inlet pipe 22, the air flow carries heat emitted by dye particles to enter the inner cavity 23 and is exhausted from the exhaust pipe 21 through the fan 9, the cooling effect of the dye particles is improved, the hydraulic cylinder 7 and the piston rod 20 push the exhaust cavity 8 to descend, the exhaust cavity 8 drives the air inlet pipe 22 to descend, so that the air inlet pipe 22 is inserted into the dye particles moving along with the, make the air current carry the heat that the dyestuff granule gived off through fresh air inlet 24 and get into in the air-supply line 22, the air current carries heat and gets into inner chamber 23 and discharge from exhaust pipe 21, has improved the cooling efficiency of dyestuff granule and cooling effect, baffle 10 on be provided with connecting rod 25, pass connecting rod 25 and bear frame 6 to be provided with fastening nut 26 on connecting rod 25, can play the effect of blockking to the dyestuff granule along with the removal of transmission band 4 through baffle 10, avoid the dyestuff granule among the cooling process to fall from the edge of transmission band 4, reduced the waste of dyestuff granule.

Preferably, the driving wheel 16 on the motor 3 is connected with the driven wheel 15 through a belt 17, the driving wheel 16 on the motor 3 drives the driven wheel 15 to rotate through the belt 17, so that the transmission roller 2 and the transmission belt 4 between the transmission roller 2 are driven to rotate, the transmission belt 4 drives the dye particles to move, the dye particles in the moving process are cooled, the cooling efficiency of the dye particles is improved, and the labor intensity of operators is reduced.

Preferably, the transmission band 4 on be provided with ventilative hole 27, can pass the air current of transmission band 4 below through ventilative hole 27 transmission band 4, carry out cooling treatment to the dyestuff granule on the transmission band 4, improved the cooling efficiency and the cooling effect of cooling of dyestuff granule.

Preferably, cold water pipe 5 set up to any one of spiral, wave, arc, fan-shaped or coiled pipe structure, set up cold water pipe 5 to the curved surface structure, can improve the area of contact of cold water pipe 5 and air current, and then improve the cooling effect to the air current, make the lower air current of temperature cool down the cooling process to the dyestuff granule in the transmission course, improved the cooling efficiency and the cooling effect of cooling down of dyestuff granule.

Preferably, an inner cavity 23 is arranged in the exhaust cavity 8, the inner cavity 23 is connected with an exhaust duct 21 and an air inlet duct 22, an air inlet hole 24 is arranged at the bottom of the air inlet pipe 22, the air flow in the inner cavity 23 is discharged from the exhaust pipe 21 under the action of the fan 9, the inner cavity 23 generates negative pressure, so that the external air flow enters the inner cavity 23 through the air inlet pipe 22, the air flow carries the heat emitted by the dye particles to enter the inner cavity 23, and is discharged from the exhaust pipe 21 through the fan 9, the cooling effect of the dye particles is improved, the hydraulic cylinder 7 and the piston rod 20 push the exhaust cavity 8 to descend, the exhaust cavity 8 drives the air inlet pipe 22 to descend, so that the air inlet pipe 22 is inserted into the dye particles moving along with the conveyor belt 4, the air flow carries the heat emitted by the dye particles into the air inlet pipe 22 through the air inlet holes 24, and the air flow carries the heat into the inner cavity 23 and is discharged from the exhaust pipe 21, so that the cooling efficiency and the cooling effect of the dye particles are improved.

Preferably, the baffle 10 is arranged to be a structure capable of adjusting the position on the bearing frame 6 through the connecting rod 25 and the fastening nut 26, and the baffle 10 can block dye particles moving along with the conveying belt 4, so that the dye particles in the cooling process are prevented from falling from the edge of the conveying belt 4, and the waste of the dye particles is reduced.

Example two:

as shown in fig. 5, a cooling device for dye production comprises a beam 1, a transmission roller 2, a motor 3, a transmission belt 4, a cold water pipe 5, a bearing frame 6, a hydraulic cylinder 7, an exhaust cavity 8, a fan 9 and a baffle 10, and is characterized in that the beam 1 is arranged on a support 11, the beam 1 is provided with a bearing 13, the beam 1 is connected with the support 11 by welding, the connection strength between the beam 1 and the support 11 is improved, the structural strength of the cooling device is enhanced, the support 11 is provided with a backing plate 12, the transmission roller 2 is arranged between the beam 1 and the beam 1 by a connecting shaft 14, the connecting shaft 14 penetrates through the bearing 13, a driven wheel 15 is arranged on the connecting shaft 14, the motor 3 is arranged on the backing plate 12, a driving wheel 16 is arranged on the motor 3, the motor 3 is arranged on the backing plate 12 by bolts, the installation efficiency of the motor 3 and the stability after installation are improved, the transmission belt 4 is arranged between the transmission roller 2 and the transmission roller 2, the cold water pipe 5 alternately penetrates through the cross beam 1, the water inlet 18 and the water outlet 19 are arranged at the two ends of the cold water pipe 5, cold water with lower temperature is injected into the cold water pipe 5 through the water inlet 18, the temperature of air flow at the periphery of the cold water pipe 5 can be reduced, dye particles moving along with the transmission belt 4 are cooled and treated by the air flow with lower temperature, the cooling efficiency and the cooling effect of the dye particles are improved, the bearing frame 6 is arranged on the cross beam 1, the bearing frame 6 is connected with the cross beam 1 through welding, the connection strength between the bearing frame 6 and the cross beam 1 is improved, the structural strength of the cooling device is further enhanced, the hydraulic cylinder 7 is arranged on the bearing frame 6, and the piston rod 20 is arranged on the hydraulic cylinder 7, the piston rod 20 vertically penetrates out of the lower part of the bearing frame 6, the hydraulic cylinder 7 is installed on the bearing frame 6 through bolts, the installation efficiency and the stability after installation of the hydraulic cylinder 7 are improved, the exhaust cavity 8 is arranged on the piston rod 20, exhaust pipes 21 are arranged on two opposite sides of the exhaust cavity 8, an air inlet pipe 22 is arranged at the bottom of the exhaust cavity 8, the fan 9 is arranged in the exhaust pipe 21, air flow in the inner cavity 23 is exhausted from the exhaust pipe 21 under the action of the fan 9, the inner cavity 23 generates negative pressure, so that external air flow enters the inner cavity 23 through the air inlet pipe 22, the air flow carries heat emitted by dye particles to enter the inner cavity 23 and is exhausted from the exhaust pipe 21 through the fan 9, the cooling effect of the dye particles is improved, the hydraulic cylinder 7 and the piston rod 20 push the exhaust cavity 8 to descend, the exhaust cavity 8 drives the air inlet pipe 22 to descend, so that the air inlet pipe 22 is inserted into the dye particles moving along with the, make the air current carry the heat that the dyestuff granule gived off through fresh air inlet 24 and get into in the air-supply line 22, the air current carries heat and gets into inner chamber 23 and discharge from exhaust pipe 21, has improved the cooling efficiency of dyestuff granule and cooling effect, baffle 10 on be provided with connecting rod 25, pass connecting rod 25 and bear frame 6 to be provided with fastening nut 26 on connecting rod 25, can play the effect of blockking to the dyestuff granule along with the removal of transmission band 4 through baffle 10, avoid the dyestuff granule among the cooling process to fall from the edge of transmission band 4, reduced the waste of dyestuff granule.

Preferably, the driving wheel 16 on the motor 3 is connected with the driven wheel 15 through a belt 17, the driving wheel 16 on the motor 3 drives the driven wheel 15 to rotate through the belt 17, so that the transmission roller 2 and the transmission belt 4 between the transmission roller 2 are driven to rotate, the transmission belt 4 drives the dye particles to move, the dye particles in the moving process are cooled, the cooling efficiency of the dye particles is improved, and the labor intensity of operators is reduced.

Preferably, the transmission band 4 on be provided with ventilative hole 27, can pass the air current of transmission band 4 below through ventilative hole 27 transmission band 4, carry out cooling treatment to the dyestuff granule on the transmission band 4, improved the cooling efficiency and the cooling effect of cooling of dyestuff granule.

Preferably, cold water pipe 5 set up to any one of spiral, wave, arc, fan-shaped or coiled pipe structure, set up cold water pipe 5 to the curved surface structure, can improve the area of contact of cold water pipe 5 and air current, and then improve the cooling effect to the air current, make the lower air current of temperature cool down the cooling process to the dyestuff granule in the transmission course, improved the cooling efficiency and the cooling effect of cooling down of dyestuff granule.

Preferably, an inner cavity 23 is arranged in the exhaust cavity 8, the inner cavity 23 is connected with an exhaust duct 21 and an air inlet duct 22, an air inlet hole 24 is arranged at the bottom of the air inlet pipe 22, the air flow in the inner cavity 23 is discharged from the exhaust pipe 21 under the action of the fan 9, the inner cavity 23 generates negative pressure, so that the external air flow enters the inner cavity 23 through the air inlet pipe 22, the air flow carries the heat emitted by the dye particles to enter the inner cavity 23, and is discharged from the exhaust pipe 21 through the fan 9, the cooling effect of the dye particles is improved, the hydraulic cylinder 7 and the piston rod 20 push the exhaust cavity 8 to descend, the exhaust cavity 8 drives the air inlet pipe 22 to descend, so that the air inlet pipe 22 is inserted into the dye particles moving along with the conveyor belt 4, the air flow carries the heat emitted by the dye particles into the air inlet pipe 22 through the air inlet holes 24, and the air flow carries the heat into the inner cavity 23 and is discharged from the exhaust pipe 21, so that the cooling efficiency and the cooling effect of the dye particles are improved.

Preferably, the baffle 10 is arranged to be a structure capable of adjusting the position on the bearing frame 6 through the connecting rod 25 and the fastening nut 26, and the baffle 10 can block dye particles moving along with the conveying belt 4, so that the dye particles in the cooling process are prevented from falling from the edge of the conveying belt 4, and the waste of the dye particles is reduced.

Preferably, baffle 10 bottom be provided with rubber strip 28, can play the effect of blockking to the dyestuff granule in the cooling process through rubber strip 28, further reduce the waste of dyestuff granule in the cooling process of cooling.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

The utility model discloses the part that does not relate to all is the same with prior art or can adopt prior art to realize.

Claims (6)

1. A cooling device for dye production comprises a cross beam, a transmission roller, a motor, a transmission belt, a cold water pipe, a bearing frame, a hydraulic cylinder, an exhaust cavity, a fan and a baffle plate, and is characterized in that the cross beam is arranged on a support, a bearing is arranged on the cross beam, a backing plate is arranged on the support, the transmission roller is arranged between the cross beam and the cross beam through a connecting shaft, the connecting shaft penetrates through the bearing, a driven wheel is arranged on the connecting shaft, the motor is arranged on the backing plate, a driving wheel is arranged on the motor, the transmission belt is arranged between the transmission roller and the transmission roller, the cold water pipe alternately penetrates through the cross beam, a water inlet and a water outlet are arranged at two ends of the cold water pipe, the hydraulic cylinder is arranged on the bearing frame, a piston rod is arranged on the hydraulic cylinder, and the piston rod vertically penetrates out of the lower part of the bearing frame, the exhaust cavity is arranged on the piston rod, exhaust pipes are arranged on two opposite sides of the exhaust cavity, an air inlet pipe is arranged at the bottom of the exhaust cavity, the fan is arranged in the exhaust pipes, the baffle is provided with a connecting rod, the connecting rod penetrates through the bearing frame, and a fastening nut is arranged on the connecting rod.

2. The cooling device for dye production according to claim 1, wherein: the driving wheel on the motor is connected with the driven wheel through a belt.

3. The cooling device for dye production according to claim 1, wherein: the transmission belt is provided with ventilation holes.

4. The cooling device for dye production according to claim 1, wherein: the cold water pipe is set to be any one structure of a spiral pipe, a wave-shaped pipe, an arc-shaped pipe, a fan-shaped pipe or a coiled pipe.

5. The cooling device for dye production according to claim 1, wherein: the exhaust cavity is internally provided with an inner cavity which is connected with an exhaust pipe and an air inlet pipe, and the bottom of the air inlet pipe is provided with an air inlet hole.

6. The cooling device for dye production according to claim 1, wherein: the baffle is arranged into a structure capable of adjusting the position on the bearing frame through a connecting rod and a fastening nut.

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