CN219968545U - Bottle feeding mechanism for gas bottle winding machine - Google Patents

Abstract

The utility model discloses a bottle feeding mechanism for a gas bottle winding machine, which comprises: the device comprises a daily-shaped supporting block, a pair of transverse screw rod modules and a winding machine, wherein the pair of transverse screw rod modules are arranged at the upper end and the lower end of the daily-shaped supporting block, the winding machine is arranged at the moving end of the pair of transverse screw rod modules, and the daily-shaped supporting block is arranged on an upper bottle structure; the utility model relates to the technical field of winding machines, and aims to enable a gas cylinder to be quickly inserted and fixed and disassembled and contracted through a telescopic clamping assembly, so that the gas cylinder is convenient to fix, and then the gas cylinder is fixed through a telescopic clamping jaw through a cylinder feeding structure and is carried in a turnover lifting manner, so that the gas cylinder can be automatically carried, disassembled and assembled, and errors and a large amount of workload caused by manual calibration are avoided.

Description

Bottle feeding mechanism for gas bottle winding machine

Technical Field

The utility model relates to the technical field of winding machines, in particular to a cylinder feeding mechanism for a gas cylinder winding machine.

Background

With the development of the composite industry over the years, the composite industry has undergone the transition from manual work to mechanized direction, from military national defense construction to civil field, and from severe production environment to clean materials. The main forming process of the composite material at the present stage comprises the following steps: contact low pressure molding, pultrusion, compression molding, RTM molding, winding molding, lay down molding, and the like. The research and development of the fiber winding equipment in China and the market demand have a certain gap, compared with foreign countries, the research on the fiber winding machine in China is mainly concentrated on the aspects of filament beam track planning, tension control and winding accuracy and stability, and the research on the continuous multi-shaft winding machine is less, so that the fiber winding machine with high automation degree and good production continuity is designed to have very important significance.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a cylinder winding machine is with last bottle mechanism includes: the device comprises a daily-shaped supporting block, a pair of transverse screw rod modules and a winding machine, wherein the pair of transverse screw rod modules are arranged at the upper end and the lower end of the daily-shaped supporting block, the winding machine is arranged at the moving end of the pair of transverse screw rod modules, and the daily-shaped supporting block is arranged on an upper bottle structure;

the bottle feeding structure comprises: the device comprises a pair of feeding screw rod modules, a return-shaped feeding bracket, a pair of clamping hydraulic push rods, a pair of hydraulic clamping jaws, a pair of clamping sleeve boxes, a pair of rotating clamping driving shafts, a pair of rotating clamping limiting arc sliding blocks, a pair of rotating clamping limiting arc sliding ways, a pair of rotating feeding driving machines and a telescopic clamping assembly;

the pair of feeding screw rod modules are mounted on the daily-shaped supporting blocks, the back-shaped feeding support is mounted on the moving ends of the pair of transverse screw rod modules, the pair of clamping hydraulic push rods are mounted on the inner sides of the pair of clamping sleeve boxes respectively, the pair of hydraulic clamping jaws are mounted on the pushing ends of the pair of clamping hydraulic push rods respectively, the pair of rotary clamping driving shafts are inserted on the side walls of the pair of clamping sleeve boxes respectively, the pair of rotary clamping driving shafts are movably inserted on the daily-shaped supporting blocks respectively, the pair of rotary clamping limit arc slide ways are mounted on the inner sides of the daily-shaped supporting blocks, the pair of rotary clamping limit arc slide ways are mounted on the pair of clamping sleeve boxes respectively, the pair of rotary clamping limit arc slide ways are movably inserted on the inner sides of the pair of rotary clamping limit arc slide ways respectively, the pair of rotary feeding driving machines are mounted on the pair of feeding modules respectively, and the pair of rotary feeding driving machines are connected with the pair of rotary feeding driving shafts respectively, and the rotary clamping driving shafts are mounted on the telescopic screw rod assemblies respectively;

in the above description, the pair of horizontal screw modules are driven to run, the pair of feeding screw modules on the movable end of the pair of horizontal screw modules are driven by the pair of horizontal screw modules, the pair of feeding screw modules on the pair of horizontal screw modules are driven by the pair of feeding screw modules to respectively drive the pair of rotating clamping driving shafts on the pair of feeding screw modules, the pair of rotating clamping driving shafts respectively drive the clamping sleeve boxes on the pair of rotating clamping driving shafts, the rotating clamping driving shafts on the driving end of the rotating feeding driving machine are driven to rotate by the rotating clamping driving shafts, the clamping sleeve boxes on the rotating clamping driving shafts are driven to rotate by the rotating clamping driving shafts, the clamping hydraulic push rods on the clamping driving shafts are driven by the clamping sleeve boxes, so that the angle of the clamping hydraulic push rods in the vertical direction is changed, the winding gas cylinders on the daily support block are clamped and fixed, and then the rotating in the opposite direction is realized, the suction gas cylinder is disassembled, and meanwhile, the rotating clamping limiting arc sliding blocks and the rotating limiting arc sliding blocks are matched with the rotating limiting arc sliding ways are rotated, so that the stable rotating limiting is realized.

Preferably, the telescopic clamping assembly comprises: the hydraulic telescopic shaft tube comprises a plurality of hydraulic telescopic shaft tubes, a plurality of hydraulic extrusion circular rings, a plurality of limiting sleeve shaft tubes, a plurality of limiting telescopic convex cylindrical blocks, a plurality of rotary auxiliary balls, a plurality of telescopic hydraulic chucks, a plurality of rotary driving machines, a hydraulic box, a hydraulic pump, a hydraulic shunt tube and a plurality of hydraulic valves;

the hydraulic telescopic shaft pipes are respectively and uniformly inserted on the daily-shaped supporting blocks, the limiting telescopic shaft pipes are respectively inserted on the inner sides of the limiting telescopic shaft pipes, the hydraulic extrusion rings are respectively arranged on the outer sides of the limiting telescopic shaft pipes, the limiting telescopic convex cylindrical blocks are respectively and movably inserted on the inner sides of the limiting telescopic shaft pipes, the limiting telescopic convex cylindrical blocks are respectively provided with ball grooves, the rotating auxiliary balls are respectively and movably inserted on the inner sides of the ball grooves, the telescopic hydraulic chucks are respectively arranged on the limiting telescopic convex cylindrical blocks, the hydraulic boxes are respectively arranged on the daily-shaped supporting blocks, the hydraulic boxes are respectively arranged on the hydraulic boxes, the hydraulic splitting pipes are respectively arranged on the hydraulic splitting pipes, the hydraulic splitting pipes are respectively connected to the hydraulic valves, the rotating machines are respectively arranged on the inner sides of the limiting telescopic cylindrical shaft pipes, and the rotating machine driving ends are respectively connected to the driving ends of the limiting telescopic cylindrical shaft pipes;

it should be noted that, in the above-mentioned, through the hydraulic pump with the inboard hydraulic drainage of hydraulic pressure case to the hydraulic pressure shunt tube, a plurality of hydraulic valve through on the hydraulic pressure shunt tube opens one by one, thereby reach the inboard pressure of a plurality of hydraulic pressure telescopic shaft pipe, promote hydraulic extrusion ring through the inboard hydraulic pressure of hydraulic pressure telescopic shaft pipe, drive the spacing suit central siphon on it through hydraulic extrusion ring, through the inboard rotation driving machine operation of spacing suit central siphon, drive the spacing flexible protruding type cylinder piece on the rotation driving machine driving end, drive the flexible hydraulic chuck on it through spacing flexible protruding type cylinder piece, rotate through flexible hydraulic chuck, thereby reach according to different spacing with a pair of relative parallel flexible hydraulic chuck shrink, thereby reach and loosen the gas cylinder, thereby make things convenient for the installation dismantlement of gas cylinder.

Preferably, a positioning scanner is arranged on the loop-shaped feeding support.

Preferably, the inner sides of the hydraulic telescopic shaft tubes are respectively provided with a limiting shaft, and the limiting shafts are respectively movably inserted on the hydraulic extrusion rings.

Preferably, a plurality of angle grooves are formed in the rotary clamping limiting arc slide ways, and angle wheels are arranged on the inner sides of the angle grooves.

Preferably, a liquid level meter is arranged on the inner side of the hydraulic tank.

Advantageous effects

The utility model provides a bottle feeding mechanism for a gas bottle winding machine. The beneficial effects are as follows: this gas cylinder winding machine is with last bottle mechanism, through flexible clamping assembly to make the gas cylinder can be fast cartridge fixed and dismantle the shrink, thereby make things convenient for the fixed of gas cylinder, afterwards carry out flexible clamping jaw with the gas cylinder through last bottle structure and fix and later upset lift transport, thereby can automize and carry the dismouting with the gas cylinder, avoided the manual calibration to appear error and a large amount of workloads.

Drawings

Fig. 1 is a schematic diagram of a trapezoid cross section of a bottle feeding mechanism for a gas cylinder winding machine according to the present utility model.

Fig. 2 is a schematic side sectional view of a bottle feeding mechanism for a gas cylinder winding machine according to the present utility model.

In the figure: 1. a daily-shaped supporting block; 2. a transverse screw module; 3. a feeding screw module; 4. a feeding bracket in a shape of a loop; 5. clamping a hydraulic push rod; 6. a hydraulic clamping jaw; 7. clamping and sleeving the box; 8. rotating the clamping driving shaft; 9. rotating and clamping the limiting arc slide block; 10. rotating and clamping the limiting arc slideway; 11. a rotary feeding driving machine; 12. a hydraulic telescopic shaft tube; 13. hydraulically extruding the circular ring; 14. limiting sleeve axle tube; 15. limiting the telescopic convex cylindrical block; 16. rotating the auxiliary ball; 17. and a telescopic hydraulic chuck.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

The present utility model will be described in detail below with reference to the accompanying drawings, as shown in fig. 1-2, a pair of the transverse screw modules 2 are mounted on the upper and lower ends of the daily-shaped supporting block 1, the winding machine is mounted on the moving ends of the pair of the transverse screw modules 2, and the daily-shaped supporting block 1 is mounted on an upper bottle structure; the bottle feeding structure comprises: the device comprises a pair of feeding screw rod modules 3, a return-type feeding bracket 4, a pair of clamping hydraulic push rods 5, a pair of hydraulic clamping jaws 6, a pair of clamping sleeve boxes 7, a pair of rotary clamping driving shafts 8, a pair of rotary clamping limiting arc sliding blocks 9, a pair of rotary clamping limiting arc sliding ways 10, a pair of rotary feeding driving machines 11 and a telescopic clamping assembly; the pair of feeding screw modules 3 are mounted on the daily-shaped supporting blocks 1, the rectangular feeding support 4 is mounted on the moving ends of the pair of transverse screw modules 2, the pair of clamping hydraulic push rods 5 are respectively mounted on the inner sides of the pair of clamping sleeve boxes 7, the pair of hydraulic clamping jaws 6 are respectively mounted on the pushing ends of the pair of clamping hydraulic push rods 5, the pair of rotary clamping driving shafts 8 are respectively inserted on the side walls of the pair of clamping sleeve boxes 7, the pair of rotary clamping driving shafts 8 are respectively movably inserted on the daily-shaped supporting blocks 1, the pair of rotary clamping limiting arc sliding ways 10 are mounted on the inner sides of the daily-shaped supporting blocks 1, the pair of rotary clamping limiting arc sliding blocks 9 are respectively mounted on the pair of clamping sleeve boxes 7, the pair of rotary clamping limiting arc sliding blocks 9 are respectively movably inserted on the inner sides of the pair of rotary clamping limiting sliding ways 10, the pair of rotary feeding machines 11 are respectively mounted on the pair of feeding driving shafts 3 and are respectively connected with the rotary clamping driving ends of the rotary clamping driving shafts 11 on the daily-shaped supporting blocks 1; the telescopic clamping assembly comprises: the hydraulic telescopic shaft tube (12), the hydraulic extrusion circular ring (13), the limiting sleeve shaft tube (14), the limiting telescopic convex cylindrical block (15), the rotary auxiliary ball (16), the telescopic hydraulic chuck (17), the rotary driving machine, the hydraulic box, the hydraulic pump, the hydraulic shunt tube and the hydraulic valve; the hydraulic telescopic shaft pipes 12 are respectively and uniformly inserted on the daily-shaped supporting blocks 1, the limiting telescopic shaft pipes 14 are respectively inserted on the inner sides of the limiting telescopic shaft pipes 12, the hydraulic extrusion rings 13 are respectively arranged on the outer sides of the limiting telescopic shaft pipes 14, the limiting telescopic convex cylindrical blocks 15 are respectively and movably inserted on the inner sides of the limiting telescopic shaft pipes 14, ball grooves are respectively formed in the limiting telescopic convex cylindrical blocks 15, the rotary auxiliary balls 16 are respectively and movably inserted on the inner sides of the ball grooves, the telescopic hydraulic chucks 17 are respectively arranged on the limiting telescopic convex cylindrical blocks 15, the hydraulic boxes are arranged on the daily-shaped supporting blocks 1, the hydraulic pumps are arranged on the hydraulic boxes, the hydraulic split pipes are arranged on the hydraulic valves, the hydraulic valves are respectively connected to the inner sides of the limiting telescopic shaft pipes 12, the hydraulic cylinders are respectively connected to the driving ends of the telescopic shaft pipes 14, and the driving ends of the telescopic shaft pipes are respectively; a positioning scanner is arranged on the loop-shaped feeding bracket 4; limiting shafts are respectively arranged on the inner sides of the hydraulic telescopic shaft tubes 12, and are respectively movably inserted on the hydraulic extrusion circular rings 13; a plurality of angle grooves are formed in the rotary clamping limiting arc slide ways 10, and angle wheels are arranged on the inner sides of the plurality of angle grooves; the inner side of the hydraulic tank is provided with a liquid level meter.

According to the drawing 1-2, a pair of horizontal screw rod modules 2 are operated to drive a pair of rotary feeding brackets 4 on the moving end of the horizontal screw rod modules 2, a pair of vertical feeding screw rod modules 3 on the rotary feeding screw modules are driven by the rotary feeding screw rod modules 4, a pair of rotary clamping driving shafts 8 on the rotary feeding screw modules are respectively driven by the rotary feeding screw rod modules 3, a clamping sleeving box 7 on the rotary clamping driving shafts 8 is respectively driven by the rotary feeding driving shafts 8, the rotary clamping driving shafts 8 on the driving end of the rotary feeding driving machines 11 are driven to rotate, the clamping sleeving box 7 on the rotary feeding driving shafts 8 are driven to rotate by the rotation of the rotary clamping driving shafts 8, a clamping hydraulic push rod 5 on the rotary clamping driving shafts 7 is driven by the clamping hydraulic push rod 5, so that the angle of the clamping hydraulic push rod 5 in the vertical direction is changed, the winding gas cylinders on a day-type supporting block are clamped and fixed, and then the rotary clamping limiting arc sliding blocks 9 and a pair of rotary limiting arc sliding blocks 10 are reversely rotated, and the rotary limiting slide rail is disassembled simultaneously, and the rotary limiting slide rail is stably rotated; the hydraulic pressure inside the hydraulic tank is led to the hydraulic split pipe through the hydraulic pump, a plurality of hydraulic valves on the hydraulic split pipe are opened one by one, so that the pressure inside a plurality of hydraulic telescopic shaft pipes 12 is controlled, the hydraulic extrusion circular ring 13 is pushed by the hydraulic pressure inside the hydraulic telescopic shaft pipes 12, the limiting sleeve shaft pipe 14 is driven by the hydraulic extrusion circular ring 13, the rotary driving machine inside the limiting sleeve shaft pipe 14 is driven to operate, the limiting telescopic convex cylinder block 15 on the driving end of the rotary driving machine is driven, the telescopic hydraulic chuck 17 on the rotary driving machine is driven by the limiting telescopic convex cylinder block 15, and the telescopic hydraulic chuck 17 is rotated, so that a pair of relatively parallel telescopic hydraulic chucks 17 are contracted according to different limits, and the air cylinders are loosened, so that the air cylinders are convenient to install and detach.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A cylinder winding machine is with last bottle mechanism includes: the device is characterized in that the pair of transverse screw rod modules are arranged on the upper end and the lower end of the daily-shaped supporting block, the winding machine is arranged on the moving end of the pair of transverse screw rod modules, and the daily-shaped supporting block is arranged on an upper bottle structure;

the bottle feeding structure comprises: the device comprises a pair of feeding screw rod modules, a return-shaped feeding bracket, a pair of clamping hydraulic push rods, a pair of hydraulic clamping jaws, a pair of clamping sleeve boxes, a pair of rotating clamping driving shafts, a pair of rotating clamping limiting arc sliding blocks, a pair of rotating clamping limiting arc sliding ways, a pair of rotating feeding driving machines and a telescopic clamping assembly;

the pair of feeding screw modules are installed on the daily-shaped supporting blocks, the back-shaped feeding support is installed on the moving ends of the pair of transverse screw modules, the pair of clamping hydraulic pushing rods are installed on the inner sides of the pair of clamping sleeve boxes respectively, the pair of hydraulic clamping jaws are installed on the pushing ends of the pair of clamping hydraulic pushing rods respectively, the pair of rotary clamping driving shafts are inserted on the side walls of the pair of clamping sleeve boxes respectively, the pair of rotary clamping driving shafts are movably inserted on the daily-shaped supporting blocks respectively, the pair of rotary clamping limiting arc sliding ways are installed on the inner sides of the daily-shaped supporting blocks, the pair of rotary clamping limiting arc sliding ways are installed on the pair of clamping sleeve boxes respectively, the pair of rotary clamping limiting arc sliding ways are movably inserted on the inner sides of the pair of rotary clamping limiting arc sliding ways respectively, the pair of rotary feeding driving machines are installed on the pair of feeding modules respectively, and the pair of rotary feeding driving machines are connected with the pair of rotary feeding driving shafts respectively, and the rotary clamping driving shafts are installed on the telescopic supporting screw assemblies.

2. The cylinder winding machine cylinder feeding mechanism according to claim 1, wherein the telescopic clamping assembly comprises: the hydraulic telescopic shaft tube comprises a plurality of hydraulic telescopic shaft tubes, a plurality of hydraulic extrusion circular rings, a plurality of limiting sleeve shaft tubes, a plurality of limiting telescopic convex cylindrical blocks, a plurality of rotary auxiliary balls, a plurality of telescopic hydraulic chucks, a plurality of rotary driving machines, a hydraulic box, a hydraulic pump, a hydraulic shunt tube and a plurality of hydraulic valves;

the hydraulic telescopic shaft tube is respectively and evenly inserted on the daily-shaped supporting block, the limiting telescopic shaft tube is respectively inserted on the inner side of the limiting telescopic shaft tube, the hydraulic extrusion circular ring is respectively installed on the outer side of the limiting telescopic shaft tube, the limiting telescopic cylindrical block is respectively and movably inserted on the inner side of the limiting telescopic shaft tube, the limiting telescopic cylindrical block is respectively provided with a ball groove, the rotating auxiliary ball is respectively and movably inserted on the inner side of the ball groove, the telescopic hydraulic chuck is respectively installed on the limiting telescopic cylindrical block, the hydraulic box is installed on the daily-shaped supporting block, the hydraulic pump is installed on the hydraulic box, the hydraulic split-flow tube is installed on the hydraulic pump, the hydraulic split-flow tube is connected on the hydraulic valve, the hydraulic valve is respectively connected on the hydraulic telescopic cylindrical block, and the rotating machine is respectively installed on the driving end of the limiting telescopic cylindrical shaft tube.

3. The cylinder feeding mechanism for a cylinder winding machine according to claim 2, wherein the loop-shaped feeding bracket is provided with a positioning scanner.

4. The bottle feeding mechanism for a gas cylinder winding machine according to claim 3, wherein a plurality of limiting shafts are respectively arranged on the inner sides of the hydraulic telescopic shaft tubes, and the limiting shafts are respectively movably inserted on the hydraulic extrusion rings.

5. The bottle feeding mechanism for a gas bottle winding machine according to claim 4, wherein a plurality of angle grooves are formed in the rotary clamping limiting circular arc slide ways, and angle wheels are arranged on the inner sides of the angle grooves.

6. The cylinder feeding mechanism for a cylinder wrapping machine according to claim 5, wherein a level gauge is provided inside the hydraulic tank.