WO2019006790A1 - Cushioning positioning structure for drying carbon fiber cylinder - Google Patents

Abstract

A cushioning positioning structure for drying a carbon fiber cylinder, the structure comprising: a machine frame (1) and sliding rails (2) provided on the machine frame. An oven (3) is provided on the machine frame, and a moving frame (4) is provided on the machine frame at a left side of the oven. The moving frame is slidably disposed on the sliding rails via sliding wheels (5). A carbon fiber cylinder (6) is rotatably disposed on the moving frame via a first rotating shaft (7). Upper positioning pin sleeves (8) are provided around the moving frame, and lower positioning pin sleeves (9) engageable with the upper positioning pin sleeves are provided on the machine frame. Pins (10) are inserted into the upper positioning pin sleeves and pin positioning holes to connect the moving frame and the machine frame. A servo reduction gear motor (11) is provided on the machine frame on a left side of the moving frame. A drive sprocket (12) is provided on a motor shaft (111) of the servo reduction gear motor. A second rotating shaft (14) is rotatably provided within the oven on a right side of the machine frame by means of a bearing base (13). The cushioning positioning structure provides effective cushioning to a mobile transport frame and chain, and further holds the mobile transport frame in place at all times to prevent shaking on the rail.

Description

Buffer positioning structure for carbon fiber cylinder drying Technical field

The invention relates to a drying device, in particular to a buffer positioning structure for drying a carbon fiber cylinder.

Background technique

Carbon fiber cylinders are widely used in the aerospace industry. Carbon fiber is a material that is stronger than steel and lighter than aluminum. It has many advantages in mechanics, electricity and heat, and it also has excellent electrical and anti-magnetization. High temperature and chemical resistance are considered to be the best advanced materials for comprehensive performance. At present, the carbon fiber cylinder needs to be glued and dried in the production process, while the carbon fiber cylinder has a length of 14 to 15 meters and a diameter of about 5 meters. Due to the large volume, the existing drying equipment will exist during use. The following shortcomings: when the existing mobile carriage transports the carbon fiber cylinder into the oven, due to the mechanical inertia, the carriage easily collides with the inner wall of the oven, the transportation is unsafe, and the conveyor chain starts to start the stretching and mechanical inertia. Under the action, it is prone to breakage and frequent maintenance. In addition, the mobile carriage cannot be effectively fixed on the frame, and it is easy to change position on the track, which has potential safety hazards.

Summary of the invention

The technical problem to be solved by the present invention is to provide a buffer structure for drying a carbon fiber cylinder for a novel structure.

In order to solve the above technical problems, the technical solution adopted by the present invention is: drying of carbon fiber cylinders The ram positioning structure comprises: a frame and a slide rail disposed on the frame, an oven is arranged on the frame, and a moving frame is arranged on the frame at the left end of the oven, and the moving frame is arranged by sliding on a pulley On the sliding rail, the carbon fiber cylinder is disposed on the moving frame through the first rotating shaft, and an upper positioning bolt sleeve is respectively disposed around the moving frame, and the frame is provided with a plurality of matching pins on the positioning pin. a lower positioning pin sleeve, the pin is disposed in the upper positioning pin sleeve and the pin positioning hole to connect the moving frame and the frame, and a servo reduction motor is disposed on the frame at the left end of the moving frame, and the servo is decelerated a motor sprocket is disposed on the motor shaft of the motor, and a second rotating shaft is disposed on the right end of the frame in the oven through the bearing housing, and a driven sprocket is disposed on the second rotating shaft, the driven sprocket The chain is connected to the driving sprocket, and the chain buffering device is disposed on the chain. The structure of the chain buffering device comprises: a left connecting rod connected to one end of the chain and a right connected to the other end of the chain a post, the left connecting rod and the right connecting rod are connected by a first buffer spring, and the left connecting rod and the right connecting rod are respectively connected to the moving frame through a connecting frame, and the right end of the rack in the oven A stroke switch buffer device is also provided, which is configured to cooperate with the moving frame. The structure of the stroke switch buffer device comprises: a sliding sleeve support frame disposed on the frame, and a left sliding sleeve is respectively disposed at an upper end of the sliding sleeve support frame And a right sliding sleeve, a buffer sliding rod is arranged to slide in the left sliding sleeve and the right sliding sleeve, and a trip switch connected to the servo reduction motor is arranged on the left end of the buffer sliding rod extending from the left sliding sleeve, a second buffer spring is disposed on the buffer sliding bar between the travel switch and the left sliding sleeve, a left end of the second buffer spring is opposite to the travel switch, and a right end of the second buffer spring is opposite to the left sliding sleeve. A limit retaining ring is disposed on the right end of the buffer slider extending from the right sliding sleeve.

The invention has the advantages that the buffer positioning structure for drying the carbon fiber cylinder can effectively buffer the moving conveyor frame and the chain, thereby reducing the negative influence of the mechanical inertia, and at the same time, the moving carriage can be positioned at any time by the bolt to prevent the track from being in the track. Inciting on the ground to eliminate potential safety hazards.

DRAWINGS

1 is a schematic view showing the structure of a buffer positioning structure for drying a carbon fiber cylinder according to the present invention.

2 is a schematic enlarged view of a portion A in FIG. 1.

FIG. 3 is a perspective enlarged structural view of the portion B in FIG. 1. FIG.

4 is a perspective enlarged structural view of the portion C in FIG. 1.

FIG. 5 is a schematic enlarged view of the structure of D in FIG. 1. FIG.

FIG. 6 is an enlarged schematic structural view of the stroke switch buffer device of FIG. 1. FIG.

In the figure: 1, rack, 2, slide rails, 3, oven, 4, mobile rack, 5, pulley, 6, carbon fiber cylinder, 7, first shaft, 8, upper positioning bolt sleeve, 9, lower positioning bolt Set, 10, latch, 11, servo motor, 111, motor shaft, 12, drive sprocket, 13, bearing housing, 14, second shaft, 15, driven sprocket, 16, chain, 17, chain buffer , 171, left connecting rod, 172, right connecting rod, 173, first buffer spring, 18, connecting frame, 19, stroke switch buffer device, 191, sliding sleeve support frame, 192, left sliding sleeve, 193, right sliding sleeve , 194, buffer slide, 195, travel switch, 196, second buffer spring, 197, limit snap ring.

Detailed ways

The details of the present invention are described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in FIG. 1 , FIG. 2 , FIG. 3 , FIG. 4 , FIG. 5 and FIG. 6 , the buffer positioning structure for the carbon fiber cylinder drying comprises: a frame 1 and a slide rail 2 disposed on the frame 1 . The rack 1 is provided with an oven 3, and the frame 1 at the left end of the oven 3 is provided with a moving frame 4, the moving frame 4 is slidably disposed on the slide rail 2 through the pulley 5, and the carbon fiber cylinder 6 passes through the first The rotating shaft 7 is rotatably disposed on the moving frame 4, and an upper positioning latch sleeve 8 is disposed around the moving frame 4, and a plurality of lower positioning latch sleeves that cooperate with the upper positioning latch sleeve 8 are disposed on the frame 1 9. The latch 10 is disposed in the upper positioning latch sleeve 8 and the latch positioning hole 9 to connect the movable frame 4 with the frame 1. The servo motor 11 is disposed on the frame 1 at the left end of the moving frame 4, A driving sprocket 12 is disposed on the motor shaft 111 of the servo reduction motor 11 , and a second rotating shaft 14 is disposed on the right end of the frame 1 in the oven 3 through the bearing housing 13 , and is disposed on the second rotating shaft 14 . There is a driven sprocket 15 which is connected to the drive sprocket 12 via a chain 16 on which a chain is arranged The punching device 17, the structure of the chain buffering device 17 comprises: a left connecting rod 171 connected to one end of the chain 16 and a right connecting rod 172 connected to the other end of the chain 16, the left connecting rod 171 and the right connecting rod 172 The first connecting rod 171 and the right connecting rod 172 are respectively connected to the moving frame 4 through the connecting frame 18, and the right end of the frame 1 in the oven 3 is also disposed and moved. The travel switch buffer device 19 of the rack 4 is configured to include a sliding sleeve support frame 191 disposed on the frame 1 , and a left slide is disposed at an upper end of the slide sleeve support frame 191 The sleeve 192 and the right sliding sleeve 193 are slidably disposed in the left sliding sleeve 192 and the right sliding sleeve 193, and a buffer sliding rod 194 is disposed on the left end of the buffer sliding rod 194 extending from the left sliding sleeve 192. a trip switch 195 to which the motor 10 is connected, A second buffer spring 196 is disposed on the buffer sliding rod 194 between the travel switch 195 and the left sliding sleeve 192. The left end of the second buffer spring 196 is opposite to the stroke switch 195, and the second buffer spring 196 is abutted. The right end is opposite to the left sliding sleeve 192, and a limit retaining ring 197 is disposed on the right end of the buffer sliding rod 194 extending from the right sliding sleeve 193.

When the carbon fiber cylinder drying buffer positioning structure is used, the carbon fiber cylinder 6 is hoisted to the moving frame 4 by the crane, and the servo reduction motor 11 is started. The motor shaft 111 of the servo reduction motor 11 drives the driving sprocket 12 to rotate, and the active chain The wheel 12 drives the driven sprocket 15 to rotate by the chain 16. The upper end of the chain 16 drives the chain buffer device 17 to move to the right. The left connecting rod 171 and the right connecting rod 172 in the chain buffering device 17 drive the moving frame 4 through the connecting frame 18. Moving to the right, the first buffer spring 173 has a buffering effect on the chain 16, and the moving frame 4 slides to the right on the sliding rail 2 through the pulley 5 to feed the carbon fiber cylinder 6 into the oven 3, and the travel switch in the oven 3 of the moving frame 4 When the buffer device 19 is in contact, the travel switch 195 controls the servo motor 11 to stop working. At this time, the moving frame 4 stops moving to the right. Due to the mechanical inertia, the moving frame 4 continues to move to the right, and the travel switch 195 is forced to slide. The rod 194 slides to the right in the left sliding sleeve 192 and the right sliding sleeve 193 and compresses the second buffer spring 196, and the second buffer spring 196 has a reaction force to the moving frame 4 through the stroke switch 195, thereby preventing movement. 4 slides further to the right cushion and, when the moving frame 4 stops moving the positioning pin is inserted into the sleeve 8 and the lower positioning pin 10 through the pin 9 sets the moving frame 4 is positioned on the frame to prevent the occurrence of a ran.

The above-mentioned carbon fiber cylinder drying buffer positioning structure can effectively buffer the moving conveyor frame and the chain, reduce the negative influence of the mechanical inertia, and at the same time, the moving carriage can be fixed at any time through the bolt. Position to prevent turbulence in the track and eliminate security risks.

Claims (1)

1. The carbon fiber cylinder drying buffer positioning structure is characterized in that it comprises: a frame (1) and a slide rail (2) disposed on the frame (1), and an oven is arranged on the frame (1) ( 3), a moving frame (4) is arranged on the frame (1) at the left end of the oven (3), and the moving frame (4) is slidably disposed on the sliding rail (2) through the pulley (5), the carbon fiber tube The body (6) is disposed on the moving frame (4) by being rotated by the first rotating shaft (7), and an upper positioning pin sleeve (8) is disposed around the moving frame (4), respectively, in the frame (1) The upper positioning pin sleeve (9) is matched with the upper positioning pin sleeve (8), and the bolt (10) is disposed in the upper positioning pin sleeve (8) and the pin positioning hole (9) to move the frame (4) Connected to the frame (1), a servo reduction motor (11) is disposed on the frame (1) at the left end of the moving frame (4), and a motor shaft (111) of the servo reduction motor (11) is disposed. a driving sprocket (12) is disposed on the right end of the frame (1) in the oven (3), and a second rotating shaft (14) is disposed through the bearing housing (13), and the second rotating shaft (14) is disposed on the second rotating shaft (14) A driven sprocket (15) is disposed on the drive sprocket (15) through the chain (16) and the drive sprocket (12) Connected, a chain buffering device (17) is disposed on the chain (16), and the structure of the chain buffering device (17) includes: a left connecting rod (171) connected to one end of the chain (16) and a chain ( 16) The right connecting rod (172) connected at the other end, the left connecting rod (171) and the right connecting rod (172) are connected by a first buffer spring (173), the left connecting rod (171) And the right connecting rod (172) is respectively connected to the moving frame (4) through the connecting frame (18), and the right end of the frame (1) in the oven (3) is further provided with the moving frame (4). a stroke switch buffer device (19), the structure of the stroke switch buffer device (19) comprising: a sliding sleeve support frame (191) disposed on the frame (1), A left sliding sleeve (192) and a right sliding sleeve (193) are respectively disposed at upper ends of the sliding sleeve support frame (19), and buffering is arranged in the left sliding sleeve (192) and the right sliding sleeve (193). a slide bar (194), on the left end of the buffer slide bar (194) extending from the left sliding sleeve (192), a travel switch (195) connected to the servo reduction motor (10) is disposed at the travel switch ( 195) a buffer spring (194) is disposed between the left sliding sleeve (192) and a second buffer spring (196), and the left end of the second buffer spring (196) is opposite to the travel switch (195). The right end of the second buffer spring (196) abuts the left sliding sleeve (192), and a limit retaining ring (197) is disposed on the right end of the buffer sliding rod (194) extending from the right sliding sleeve (193).

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