CN116174274B - Flat-plate type illumination machine - Google Patents

Abstract

The invention discloses a flat-plate type illumination machine, which is provided with a frame, wherein a material channel adjusting device, a material feeding channel, a material taking frame, a flat-plate material channel, a light source and a material receiving tray are respectively arranged on the frame; the tail end of the feeding channel is provided with a plate material channel, a plurality of push rods matched with the plate material channel are arranged above the plate material channel, the push rods push the workpiece reaching the plate material channel forwards, and finally the workpiece is sent out from a receiving tray at the other end of the plate material channel. According to the invention, the leather roller automatically and orderly passes through the illumination area through the novel mechanical structure, so that the mechanical structure is simplified, a better illumination effect is realized, the problems of uneven local illumination and the like are avoided, and the illumination uniformity is good.

Description

Flat-plate type illumination machine

Technical Field

The invention relates to the field of textile machinery equipment, in particular to a flat-plate type illumination machine.

Background

The ultraviolet irradiation machine irradiates ultraviolet rays with certain wavelength to the surface of the textile leather roller, so that the leather roller absorbs the ultraviolet rays to excite the activity of molecules of an irradiated object, and the molecules on the surface of the leather roller are decomposed, crosslinked and polymerized. The principle can change the rubber molecular structure of the rubber roller, improve the anti-winding and antistatic properties of the rubber roller, reduce the difference of rubber roller spindles, effectively solve the problem of uneven absorption during chemical treatment of paint, reduce the treatment cost of the rubber roller, and is a novel non-toxic and environment-friendly surface treatment method of the rubber roller. The leather roller is one of important parts of a traction device of a textile machine, and is characterized in that the middle of the leather roller is an iron core with bearings at two ends, and the bearings at two ends are respectively provided with a rubber roller which can rotate and has an outer diameter larger than that of the iron core.

The traditional illumination machine used in the textile industry at present has old structure, relatively complex transmission mechanism and easy mechanical failure; in order to increase the number of the irradiation leather rollers, the stacked leather rollers are arranged, so that the irradiation is uneven, and particularly the irradiation of the leather rollers with large shaft diameters is more uneven, so that the irradiation period is long and the efficiency is low. The prior art has difficulty in achieving ideal effects in energy saving effect, temperature control and operation control.

Disclosure of Invention

Aiming at the defects of complex structure, easiness in causing mechanical faults, uneven irradiation and the like of the conventional roller illumination machine, the inventor provides a flat plate type illumination machine with reasonable structure, the roller can automatically and orderly pass through an illumination area through a novel mechanical structure, the mechanical structure is simplified, better illumination effect is realized, the problems of uneven local illumination and the like are avoided, and the illumination uniformity is good.

The technical scheme adopted by the invention is as follows:

The flat plate type illumination machine comprises a frame, wherein a material channel adjusting device, a material feeding channel, a material taking frame, a flat plate material channel, a light source and a material receiving disc are respectively arranged on the frame; the tail end of the feeding channel is provided with a plate material channel, a plurality of push rods matched with the plate material channel are arranged above the plate material channel, the push rods push the workpiece reaching the plate material channel forwards, and finally the workpiece is sent out from a receiving tray at the other end of the plate material channel.

As a further improvement of the above technical scheme:

The material channel adjusting device comprises a guide rail and a sliding seat arranged on the guide rail, and the material channel is arranged on the sliding seat and locked by a fastener.

The feeding channel consists of two parallel and opposite single plates, and the single plates of the feeding channel are fixed on the channel adjusting device to form an inclined downward rollaway nest.

The material taking frame is provided with a material taking shaft, the material taking shaft is positioned below the feeding channel or in a notch of the downward opening of the feeding channel, a material taking assembly matched with the feeding channel is arranged on the material taking shaft, the material taking assembly lifts and moves the workpieces one by one, and the material taking shaft is erected in a table top of the frame through a bearing.

The material taking assembly consists of two circular plates which are arranged in parallel and opposite to each other, circular grooves distributed in an array are formed in the circular plates, and iron cores of workpieces are clamped into the circular grooves and lifted and moved along with the circular grooves; the material taking component is positioned between the two single plates of the feeding channel, part of the material taking component protrudes out of the two single plates, and a workpiece placed on the feeding channel is blocked by the material taking component when the workpiece rolls downwards.

The left side and the right side of the push rod are provided with conveyor belts, and the two ends of the push rod are respectively arranged on the corresponding conveyor belts and are driven by the conveyor belts to carry out reciprocating turnover; the front and rear ends of the conveyor belt are provided with a conveying driving wheel and a conveying driven wheel, and the conveying driving wheel and the conveying driven wheel support the conveyor belt and drive the conveyor belt to carry out reciprocating transmission.

The transmission driving wheel is coaxially arranged on the transmission driving shaft, the transmission driving shaft is erected in the table top of the machine frame through a bearing, the transmission driven wheel is coaxially arranged on the transmission driven shaft, and the transmission driven shaft is erected in the table top of the machine frame through a bearing.

One end of the transmission driving shaft is coaxially connected with an output shaft of the electric driving device, and the electric driving device drives the transmission driving shaft to rotate so as to provide the rotation power of the transmission belt.

One end of the conveying driven shaft is further provided with a material taking driving wheel, one end of the material taking shaft is provided with a material taking driven wheel, the material taking driving wheel and the material taking driven wheel are connected with each other through a material taking driving belt, and the material taking driving wheel drives the material taking driven wheel to rotate through the material taking driving belt.

And a light source is arranged right above the flat plate material channel, the light source emits illumination to the flat plate material channel, and the light source adopts an LED light source.

The beneficial effects of the invention are as follows:

According to the invention, the material taking frame is vertically arranged in the length direction of the material feeding channel, the material taking shaft of the material taking frame is provided with the material taking assembly matched with the material feeding channel, the workpieces enter the circular grooves of the material taking assembly on the material taking frame one by one, and the workpieces roll down onto the flat plate material channel along the rollaway path and are positioned between the two push rods, so that the automatic passage of the workpieces through the illumination area is realized, the structure is novel, the design is flexible, the mechanical structure is simplified, and the better illumination effect is realized.

The invention adopts the work piece to be pushed by the push rod on the flat material channel, so that the work piece horizontally rolls along the flat material channel, the two ends of the push rod are respectively arranged on the corresponding conveyor belts, and the reciprocating turnover is carried out under the drive of the conveyor belts, the free rolling of the work piece naturally occurs, the problems of interference caused by other contact, uneven local illumination and the like are avoided, and the illumination uniformity is good.

The electric driving device drives the transmission driving shaft to rotate clockwise, the transmission driving wheel arranged on the transmission driving shaft drives the transmission driven wheel arranged on the transmission driven shaft through the transmission belt, the material taking driving wheel arranged on the transmission driven shaft drives the material taking driven wheel, the material taking shaft and the material taking assembly to rotate clockwise through the material taking driving wheel, so that the overall linkage control of one driving device is realized, and the reasonable and orderly automatic operation of workpieces is realized through adjusting the transmission ratio.

The invention adopts a plurality of feeding channels, so that a plurality of workpieces can be taken at the same time each time, and the working efficiency is increased. The invention adopts the LED light source to replace the traditional sodium lamp light source, thereby greatly improving the pollution to people and the environment.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a left side view of the present invention.

Fig. 4 is a schematic view of the steps of the material taking rack of the present invention in operation.

In the figure: 1.a material channel adjusting device; 2.a feed channel; 3. a material taking frame; 4. a slab material channel; 5. a light source; 6. a receiving tray; 7. a frame; 8. a workpiece; 9. a conveyor belt; 10. an electric drive device; 11. a conveying driving wheel; 12. a driving shaft is transmitted; 13. conveying a driven wheel; 14. conveying a driven shaft; 15. a push rod; 16. a material taking shaft; 17. a material taking driving wheel; 18. a material taking driving belt; 19. and taking out a driven wheel.

Detailed Description

The following describes specific embodiments of the present invention with reference to the drawings.

As shown in fig. 1 to 4, the flat-plate type illumination machine of the present invention has a frame 7, a material channel adjusting device 1, a material channel 2, a material taking frame 3, a flat material channel 4, a light source 5, and a material receiving tray 6 are respectively disposed on the front and rear sides of the frame 7, the material channel adjusting device 1 is disposed on a front table surface of the frame 7, and the material channel 2 is disposed on the material channel adjusting device 1 and is adjusted in installation position by the material channel adjusting device 1. The lane adjustment apparatus 1 preferably includes a rail and a carriage mounted on the rail, on which the lane 2 is disposed and locked by fasteners such as bolts. The feeding channel 2 is composed of two parallel and opposite single plates, and the single plates of the feeding channel 2 are fixed on the channel adjusting device 1 to form an inclined downward rollaway nest. The workpiece 8 is placed on the raceway of the feed channel 2 to roll from front to back and down, the workpiece 8 preferably being a leather roller. The feed channels 2 are preferably arranged in several groups. And a material taking frame 3 is vertically arranged in the length direction of the feeding channel 2, and the material taking frame 3 is positioned in the travel range of the feeding channel 2 and is matched with the feeding channel 2 to realize the material taking of the workpieces 8 one by one. The material taking frame 3 is provided with a material taking shaft 16, the material taking shaft 16 is positioned below the material feeding channel 2 or in a notch of the material feeding channel 2, which is downwards opened, a material taking component matched with the material feeding channel 2 is arranged on the material taking shaft 16, the material taking component consists of two circular plates which are oppositely arranged in parallel, circular grooves distributed in an array are formed in the circular plates, and an iron core of a workpiece 8 can be clamped into the circular grooves and lifted and moved along with the circular grooves. The material taking component is positioned between two single plates of the feeding channel 2 and partially protrudes out of the two single plates, and a workpiece 8 placed on the feeding channel 2 is blocked by the material taking component when the workpiece rolls downwards. The material taking shaft 16 is arranged in the table top of the frame 7 through a bearing.

The tail end of the feeding channel 2 is provided with a plate channel 4, the plate channel 4 is arranged on the main body of the frame 7, a plurality of push rods 15 matched with the plate channel 4 are arranged above the plate channel 4, the push rods 15 push the workpieces 8 reaching the plate channel 4 forwards, and finally the workpieces are sent out from a receiving tray 6 at the other end of the plate channel 4. The conveyer belts 9 are arranged on the left side and the right side of the push rod 15, and the two ends of the push rod 15 are respectively arranged on the corresponding conveyer belts 9 and are driven by the conveyer belts 9 to carry out reciprocating turnover. The front and back two positions of the conveyor belt 9 are provided with a conveying driving wheel 11 and a conveying driven wheel 13, the conveying driving wheel 11 and the conveying driven wheel 13 support the conveyor belt 9 and drive the conveyor belt 9 to carry out reciprocating transmission, the conveying driving wheel 11 is coaxially arranged on a conveying driving shaft 12, the conveying driving shaft 12 is erected in a table top of the machine frame 7 through a bearing, the conveying driven wheel 13 is coaxially arranged on a conveying driven wheel 14, and the conveying driven wheel 14 is erected in the table top of the machine frame 7 through the bearing. One end of the transmission driving shaft 12 is coaxially connected with an output shaft of the electric driving device 10, and the electric driving device 10 drives the transmission driving shaft 12 to rotate so as to provide the rotation power of the transmission belt 9.

One end of the conveying driven shaft 14 is further provided with a material taking driving wheel 17, one end of the material taking shaft 16 is provided with a material taking driven wheel 19, the material taking driving wheel 17 and the material taking driven wheel 19 are connected with each other through a material taking driving belt 18, and the material taking driving wheel 17 drives the material taking driven wheel 19 to rotate through the material taking driving belt 18. A light source 5 is arranged right above the flat plate material channel 4, the light source 5 emits illumination to the flat plate material channel 4, and the light source 5 is preferably an ultraviolet light source 5.

The feeding channel 2 is fixed on the channel adjusting device 1, and can be adjusted according to the workpieces 8 with different specifications, so that the workpieces 8 roll on the feeding channel 2 flexibly by self weight. The electric driving device 10 is coaxially connected with a transmission driving shaft 12 with transmission driving wheels 11 at two ends, power is transmitted to a transmission driven shaft 14 with transmission driven wheels 13 at two ends through a transmission belt 9, and the transmission driven shaft 14 transmits power to a material taking shaft 16 with a material taking driven wheel 19 and a material taking frame 3 through a material taking driving wheel 17 arranged on the transmission driven shaft 14 through a material taking driving belt 18.

When the invention works, a plurality of workpieces 8 are firstly placed on the feeding channel 2, and the channel adjusting device 1 is adjusted to ensure that the workpieces 8 are reliably positioned on the feeding channel 2 and can slide along the rollaway nest flexibly by the dead weight of the workpieces 8. Before the machine starts to work, the workpiece 8 on the feeding channel 2 is blocked on the roller path by the material taking frame 3.

The machine starts to work, the material taking frame 3 rotates clockwise, the workpieces 8 enter the circular grooves of the material taking assembly on the material taking frame 3 one by one, the material taking frame 3 lifts the workpieces 8 from the front rollaway path through the circular grooves and then brings the rollaway path to the rear, other workpieces 8 on the rollaway path are still blocked by the circular arcs on the outer sides of the material taking frame 3, so that only one workpiece 8 is taken every time, the workpieces 8 continuously roll down along the rollaway path to the sheet material path 4 under the driving of the material taking frame 3 and are positioned between the two push rods 15, and then the next workpiece 8 on the rollaway path of the material feeding path 2 gradually enters the next circular groove on the material taking frame 3.

When the machine works, the electric driving device 10 drives the conveying driving shaft 12 to rotate clockwise, the conveying driving wheel 11 arranged on the conveying driving shaft 12 drives the conveying driven wheel 13 arranged on the conveying driven shaft 14 through the conveying belt 9 to rotate clockwise together, and the material taking driving wheel 17 arranged on the conveying driven shaft 14 drives the material taking driven wheel 19, the material taking shaft 16 and the material taking assembly to rotate clockwise through the material taking driving wheel 17 arranged on the conveying driven shaft 14. The proper transmission ratio is selected between the material taking driving wheel 17 and the material taking driven wheel 19, so that the workpiece 8 can fall between the two corresponding push rods 15 every time the material taking frame 3 takes the workpiece 8, and the workpiece 8 is prevented from overlapping, and the illumination quality is prevented from being influenced.

The workpiece 8 is pushed by the push rod 15 on the flat plate material channel 4, so that the workpiece 8 horizontally rolls along the flat plate material channel 4, the workpiece 8 is illuminated when passing through the area covered by the ultraviolet light source 5, and the installation height of the ultraviolet light source 5 and the horizontal rolling speed of the workpiece 8 can be adjusted to meet the illumination requirements of different workpieces 8. The illuminated workpiece 8 falls into the workpiece box through the arc roller and the receiving tray 6 on the plate material channel 4.

Preferably, the invention adopts 3 feeding channels, so that 3 workpieces can be simultaneously taken each time, the working efficiency is improved, the LED light source is adopted to replace the traditional sodium lamp light source, and the pollution to people and the environment is greatly improved.

The above description is illustrative of the invention and is not intended to be limiting, and the invention may be modified in any form without departing from the spirit of the invention.

Claims (7)

1. A flat-plate type illumination machine, which is characterized in that: the feeding device is provided with a frame (7), a material channel adjusting device (1), a feeding channel (2), a material taking frame (3), a plate material channel (4), a light source (5) and a material receiving disc (6) are respectively arranged on the frame (7), the material channel adjusting device (1) is arranged on the front table top of the frame (7), the feeding channel (2) is arranged on the material channel adjusting device (1), the feeding channel (2) is composed of two parallel and opposite single plates, and the single plates of the feeding channel (2) are fixed on the material channel adjusting device (1) to form an inclined downward rollaway; a material taking frame (3) is vertically arranged in the length direction of a feeding channel (2), the material taking frame (3) is provided with a material taking shaft (16), the material taking shaft (16) is positioned below the feeding channel (2) or in a notch of a downward opening of the feeding channel (2), a material taking component matched with the feeding channel (2) is arranged on the material taking shaft (16), the material taking component lifts and moves workpieces (8) one by one, the material taking shaft (16) is erected in a table top of a frame (7) through a bearing, the material taking component consists of two circular plates which are arranged in parallel and opposite, circular grooves distributed in an array are formed in the circular plates, and an iron core of the workpieces (8) is clamped into the circular grooves and lifted and moved along with the circular grooves; the material taking assembly is positioned between two single plates of the feeding channel (2) and partially protrudes out of the two single plates, a workpiece (8) placed on the feeding channel (2) is blocked by the material taking assembly when rolling downwards, and the material taking frame (3) is positioned in the travel range of the feeding channel (2) and is matched with the feeding channel (2) to realize the material taking of the workpieces (8) one by one; a flat plate material channel (4) is arranged at the tail end of the feeding channel (2), a plurality of push rods (15) matched with the flat plate material channel (4) are arranged above the flat plate material channel (4), the push rods (15) push the workpiece (8) reaching the flat plate material channel (4) forwards, the workpiece is finally sent out from a receiving disc (6) at the other end of the flat plate material channel (4), and the moving direction of the workpiece (8) on the feeding channel (2) is parallel to the moving direction of the workpiece (8) on the flat plate material channel (4); the axis of the workpiece (8) is perpendicular to the moving direction of the workpiece (8) on the plate material channel (4) and the feeding channel (2), and the workpiece (8) is a leather roller.

2. The flat panel lighting machine according to claim 1, wherein: the material channel adjusting device (1) comprises a guide rail and a sliding seat arranged on the guide rail, and the material inlet channel (2) is arranged on the sliding seat and locked by a fastener.

3. The flat panel lighting machine according to claim 1, wherein: the left side and the right side of the push rod (15) are provided with conveyor belts (9), and the two ends of the push rod (15) are respectively arranged on the corresponding conveyor belts (9) and are driven by the conveyor belts (9) to carry out reciprocating turnover; the front and back two ends of the conveyor belt (9) are provided with a conveying driving wheel (11) and a conveying driven wheel (13), and the conveying driving wheel (11) and the conveying driven wheel (13) support the conveyor belt (9) and drive the conveyor belt (9) to carry out reciprocating transmission.

4. A flat panel lighting machine as claimed in claim 3, wherein: the transmission driving wheel (11) is coaxially arranged on the transmission driving shaft (12), the transmission driving shaft (12) is erected in the table top of the frame (7) through a bearing, the transmission driven wheel (13) is coaxially arranged on the transmission driven shaft (14), and the transmission driven shaft (14) is erected in the table top of the frame (7) through a bearing.

5. The flat panel lighting machine according to claim 4, wherein: one end of the transmission driving shaft (12) is coaxially connected with an output shaft of the electric driving device (10), and the electric driving device (10) drives the transmission driving shaft (12) to rotate so as to provide the rotation power of the transmission belt (9).

6. The flat panel lighting machine according to claim 4, wherein: one end of the conveying driven shaft (14) is further provided with a material taking driving wheel (17), one end of the material taking shaft (16) is provided with a material taking driven wheel (19), the material taking driving wheel (17) and the material taking driven wheel (19) are connected with each other through a material taking driving belt (18), and the material taking driving wheel (17) drives the material taking driven wheel (19) to rotate through the material taking driving belt (18).

7. The flat panel lighting machine according to claim 1, wherein: a light source (5) is arranged right above the flat plate material channel (4), the light source (5) emits illumination to the flat plate material channel (4), and the light source (5) adopts an LED light source.