CN217577875U - Carbon fiber filament wound carbon-carbon crucible preform device - Google Patents

Abstract

The utility model relates to a carbon-carbon crucible preform device for winding carbon fiber filaments, which comprises a rotating mechanism and a moving mechanism; the rotating mechanism comprises a bracket, a rotating motor and a crucible prefabricated body; the rotating motor is connected with the crucible prefabricated body through a main shaft; the main shaft is arranged on the bracket through the bearing box; the rotating motor is arranged on the bracket; the moving mechanism comprises a workbench and a moving module arranged on the workbench; the moving module comprises a transverse translation module and a longitudinal translation module; the transverse translation module is provided with a transverse sliding plate; the longitudinal translation module is arranged on the transverse sliding plate; a longitudinal sliding plate is arranged on the longitudinal translation module; a wire winding arm is arranged on the longitudinal sliding plate; one end of the winding arm is provided with a yarn spindle seat, and the other end is provided with a yarn outlet nozzle; the yarn outlet nozzle corresponds to the crucible prefabricated body; the wire winding arm is provided with a plurality of tensioners; and a plurality of nails are uniformly arranged on the horizontal surface of the crucible preform along the periphery.

Description

Carbon fiber filament winding carbon-carbon crucible preform device

Technical Field

The utility model discloses a wind, especially a carbon crucible preform device of winding carbon fiber filament.

Background

The carbon-carbon composite material crucible is a carbon protective pot with strong designability and excellent performance, and the carbon-carbon crucible preform is a blank for manufacturing the carbon-carbon composite material crucible, which directly influences the service life of a carbon-carbon product. In the preparation process of the carbon-carbon crucible preform, the winding process of the carbon fiber filament is finished manually, but the manual winding operation is high in strength, low in working efficiency, time-consuming and labor-consuming. Therefore, a winding apparatus is required to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model aims at providing a carbon crucible preform device of winding carbon fiber filament, slewing mechanism can make the yarn winding on the crucible preform, and moving mechanism can make the yarn according to the route winding, has reduced manual work's intensity, has improved work efficiency, has solved manual work's the problem that wastes time and energy.

The utility model relates to a carbon-carbon crucible preform device for winding carbon fiber filaments, which comprises a rotating mechanism and a moving mechanism;

the rotating mechanism comprises a bracket, a rotating motor and a crucible prefabricated body; the rotating motor is connected with the crucible prefabricated body through a main shaft; the main shaft is arranged on the bracket through the bearing box; the rotating motor is arranged on the bracket;

the moving mechanism comprises a workbench and a moving module arranged on the workbench;

the moving module comprises a transverse translation module and a longitudinal translation module; the transverse translation module is provided with a transverse sliding plate; the longitudinal translation module is arranged on the transverse sliding plate; a longitudinal sliding plate is arranged on the longitudinal translation module; a wire winding arm is arranged on the longitudinal sliding plate; one end of the winding arm is provided with a yarn spindle seat, and the other end is provided with a yarn outlet nozzle; the yarn outlet nozzle corresponds to the crucible prefabricated body;

the wire winding arm is provided with a plurality of tensioners; and a plurality of nails are uniformly arranged on the horizontal plane of the crucible preform along the periphery.

Further, the workbench is provided with a transverse guide rail; the transverse sliding plate is sleeved on the transverse guide rail; the transverse translation module is a transverse synchronous belt linear module; the transverse synchronous belt linear module comprises two transverse driving shafts, a transverse synchronous belt and a transverse motor; two transverse driving shafts are arranged at two ends of the workbench; the transverse synchronous belt is sleeved between the two transverse driving shafts; one of the two transverse driving shafts is connected with a transverse motor; the transverse sliding plate is connected with the transverse synchronous belt, so that the transverse synchronous belt drives the transverse sliding plate to slide back and forth along the transverse guide rail.

Further, a longitudinal guide rail is arranged on the transverse sliding plate; the longitudinal sliding plate is arranged on the longitudinal guide rail; the longitudinal translation module is a longitudinal synchronous belt linear module; the longitudinal synchronous belt linear module comprises two longitudinal driving shafts, a longitudinal synchronous belt and a longitudinal motor; two longitudinal driving shafts are arranged at two ends of the transverse sliding plate; the longitudinal synchronous belt is sleeved between the two longitudinal driving shafts; one of the two longitudinal driving shafts is connected with a longitudinal motor; the longitudinal sliding plate is connected with the longitudinal synchronous belt, so that the longitudinal synchronous belt drives the longitudinal sliding plate to slide back and forth along the longitudinal guide rail.

Furthermore, a transverse limit switch is arranged on the workbench and is positioned at two ends of the transverse guide rail; and the transverse sliding plate is provided with longitudinal limit switches which are positioned at two ends of the longitudinal guide rail.

Further, the rotating motor, the transverse motor and the longitudinal motor are speed reducing motors.

Furthermore, the wire winding arm is provided with a plurality of threaded holes, and the tensioner is in threaded connection with the wire winding arm through screws matched with the threaded holes.

Furthermore, the workbench is provided with universal wheels and ground feet.

The utility model has the advantages that:

the utility model discloses a device includes slewing mechanism and moving mechanism, and slewing mechanism can make the crucible preform rotate, and moving mechanism can change angle and the route of yarn winding on the crucible preform, and both cooperate the use and can make the yarn winding on the crucible preform, have saved artifical winding loaded down with trivial details, have improved work efficiency, have reduced intensity of labour.

The utility model discloses an universal wheel can wholly remove moving mechanism, adjusts the relative position with slewing mechanism. The utility model discloses a lower margin can ensure at the during operation, moving mechanism's stability.

Drawings

Fig. 1 is a top view of the present invention;

fig. 2 is a schematic view of another aspect of the present invention;

fig. 3 is a schematic view of the mobile module according to the present invention.

Description of the reference numerals

1. A crucible preform, 2, a bracket, 3, a rotating motor, 4, a workbench, 5 and a moving module,

5-1 parts of transverse sliding plate, 5-2 parts of transverse synchronous belt, 5-3 parts of transverse motor, 5-4 parts of longitudinal sliding plate, 5-5 parts of longitudinal synchronous belt, 5-6 parts of longitudinal motor, 6 parts of winding arm, 7 parts of yarn outlet nozzle, 8 parts of tensioner, 9 parts of ground margin, 10 parts of yarn spindle seat.

Detailed Description

In the present invention, the directions or similar terms thereof, such as "front", "back", "left", "right", "up (top)", "down (bottom)", "inner", "outer", "side", etc., refer to the directions of the attached drawings, and the directions or similar terms thereof are only used for assisting the explanation and understanding of the embodiments of the present invention, but not for limiting the present invention.

The use of the terms "a" or "an" for elements and components described throughout this disclosure is for convenience and to provide a general sense of the scope of the invention; in the present invention, it is to be understood that one or at least one is included, and a single concept also includes a plurality unless it is obvious that other meanings are included.

The utility model aims at providing a carbon crucible preform device of winding carbon fiber filament, slewing mechanism can make the yarn winding on the crucible preform, and moving mechanism can make the yarn according to the route winding, has solved the wasting time and energy of manual work.

Example 1:

the utility model relates to a carbon crucible preform device of winding carbon fiber filament, including slewing mechanism and moving mechanism, as shown in figure 1, figure 2, figure 3.

The rotating mechanism is a mechanism for winding the carbon fiber filament. The rotating mechanism comprises a bracket 2, a rotating motor 3 and a crucible preform 1. The rotating electric machine 3 is provided on the stand 2. The rotating motor 3 is connected with the crucible preform 1 through a main shaft. The main shaft is arranged on the bracket 2 through a bearing seat; the crucible preform 1 is erected on the support 2, so that the rotating motor 3 can drive the crucible preform 1 to rotate. The crucible preform 1 is detachably arranged on the main shaft. The crucible preform 1 has a horizontal surface and an arc surface, and a plurality of nails (not shown in the drawing) are uniformly arranged on one side of the horizontal surface along the periphery thereof.

The moving mechanism is a mechanism for moving the spindle frame 10, so that the carbon fiber filament can be wound on the crucible preform 1 as required; the moving mechanism includes a table 4 and a moving module 5. The worktable 3 is used for carrying the moving module 5.

The moving module 5 includes a transverse translation module and a longitudinal translation module. The lateral translation module may cause lateral movement thereof and the longitudinal translation module may cause longitudinal movement thereof. The longitudinal translation module is arranged on the transverse translation module, so that the transverse translation module can move transversely and longitudinally. Furthermore, a transverse sliding plate 5-1 is arranged at the moving end of the transverse translation module, a longitudinal translation module is arranged on the transverse sliding plate 5-1, and a longitudinal sliding plate 5-4 is arranged at the moving end of the longitudinal translation module; a yarn winding arm 6 is arranged on the longitudinal sliding plate 5-4, one end of the yarn winding arm 6 is provided with a yarn outlet nozzle 7, and the other end is provided with a yarn spindle seat 10; the spindle base 10 is a base body for placing a bobbin around which a yarn is wound. A plurality of tensioners 8 are arranged on the filament winding arm 6 between the yarn outlet nozzle 7 and the spindle seat 10.

The moving mechanism and the rotating mechanism are correspondingly arranged, so that the yarn on the spindle seat 10 passes through the tension device 8, then comes out of the yarn outlet nozzle 7 and is hung on one nail of the crucible preform 1. The rotating motor 3 rotates and the transverse translation mechanism and the longitudinal translation mechanism move, so that the yarn can be wound on the crucible preform 1.

The working process of the device is as follows: the yarn on the yarn spindle seat 10 is bound on the nail after passing through the tensioner 8 and then coming out from the yarn outlet nozzle 7, the rotating motor 3 rotates, the moving mechanism moves transversely and longitudinally to enable the yarn to be wound on the crucible preform 1, then the moving mechanism moves back, the yarn is wound on the nail again, and the yarn can be wound on the crucible preform as required after being repeated for multiple times.

Example 2:

the structure of embodiment 2 is substantially the same as that of embodiment 1, and only the differences will be described in detail below.

In the present embodiment, the table 4 is provided with a lateral guide rail; the transverse sliding plate 5-1 is sleeved on the transverse guide rail; the transverse translation module is a transverse synchronous belt linear module; the transverse synchronous belt linear module comprises two transverse driving shafts, a transverse synchronous belt 5-2 and a transverse motor 5-3; two transverse driving shafts are arranged at two ends of the workbench 4; the transverse synchronous belt 5-2 is sleeved between the two transverse driving shafts; one of the two transverse drive shafts is connected to a transverse motor 5-3. The transverse sliding plate 5-1 is connected with a transverse synchronous belt 5-2, so that the transverse synchronous belt 5-2 drives the transverse sliding plate 5-1 to slide back and forth along a transverse guide rail, as shown in figure 2.

A longitudinal guide rail is arranged on the transverse sliding plate 5-1; the longitudinal sliding plate 5-4 is arranged on the longitudinal guide rail; the longitudinal translation module is a longitudinal synchronous belt linear module; the longitudinal synchronous belt linear module comprises two longitudinal driving shafts, a longitudinal synchronous belt 5-5 and a longitudinal motor 5-6. Two longitudinal driving shafts are arranged at two ends of the transverse sliding plate 5-1; the longitudinal synchronous belt 5-5 is sleeved between the two longitudinal driving shafts; one of the two longitudinal driving shafts is connected with a longitudinal motor 5-6; the longitudinal sliding plate 5-4 is connected with a longitudinal synchronous belt 5-5, so that the longitudinal synchronous belt 5-5 drives the longitudinal sliding plate 5-4 to slide back and forth along the longitudinal guide rail.

The worktable 4 is further provided with a controller for controlling the rotating speed of the rotating mechanism, the transverse and longitudinal moving positions of the moving mechanism and the like, so that the carbon fiber filaments can be wound according to a set path. Such as: a grid winding or a radial winding. The controller can change the winding angle and the path more conveniently. The controller can be an existing controller, and is not described in detail because the controller is not a key point of the present invention.

The further improvement of the embodiment is that the rotating motor 3, the transverse motor 5-3 and the longitudinal motor 5-6 are speed reducing motors.

A further development of the embodiment is that the table 4 is provided with universal wheels and ground feet 10. The utility model discloses an universal wheel can wholly remove moving mechanism, adjusts the relative position with slewing mechanism. The utility model discloses a lower margin 10 can ensure at the during operation, moving mechanism's stability.

The utility model discloses a further improvement still lies in, sets up horizontal limit switch on workstation 4, and horizontal limit switch is located transverse guide's both ends. The transverse limit switch can ensure that the stroke of the transverse sliding plate 5-1 does not exceed the transverse guide rail. The transverse sliding plate 5-1 is provided with longitudinal limit switches which are positioned at two ends of the longitudinal guide rail. The longitudinal limit switch can ensure that the stroke of the longitudinal sliding plate 5-4 does not exceed the longitudinal guide rail.

The utility model discloses a further improvement still lies in, and wire winding arm 6 sets up a plurality of screw hole, and tensioner 8 is through with screw hole assorted screw and 6 threaded connection of wire winding arm. This allows the position of the tensioner 8 to be adjusted.

The utility model discloses a device includes slewing mechanism and moving mechanism, and slewing mechanism can make the crucible preform rotate, and moving mechanism can change angle and route of yarn winding on the crucible preform, and both cooperate the use and can make the yarn winding on the crucible preform, have saved artifical winding loaded down with trivial details, have improved work efficiency, have reduced intensity of labour.

The utility model discloses an universal wheel can wholly remove moving mechanism, adjusts the relative position with slewing mechanism. The utility model discloses a lower margin can ensure at the during operation, moving mechanism's stability.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (7)

1. A carbon-carbon crucible preform device for winding carbon fiber filaments is characterized by comprising a rotating mechanism and a moving mechanism;

the rotating mechanism comprises a bracket, a rotating motor and a crucible prefabricated body; the rotating motor is connected with the crucible prefabricated body through a main shaft; the main shaft is arranged on the bracket through a bearing box; the rotating motor frame is arranged on the bracket;

the moving mechanism comprises a workbench and a moving module arranged on the workbench;

the moving module comprises a transverse translation module and a longitudinal translation module; the transverse translation module is provided with a transverse sliding plate; the longitudinal translation module is arranged on the transverse sliding plate; a longitudinal sliding plate is arranged on the longitudinal translation module; a wire winding arm is arranged on the longitudinal sliding plate; one end of the winding arm is provided with a yarn spindle seat, and the other end is provided with a yarn outlet nozzle; the yarn outlet nozzle corresponds to the crucible preform of the rotating mechanism;

the wire winding arm is provided with a plurality of tensioners; and a plurality of nails are uniformly arranged on the horizontal plane of the crucible preform along the periphery.

2. A carbon fiber filament-wound carbon crucible preform device as claimed in claim 1, wherein said table is provided with a cross guide; the transverse sliding plate is sleeved on the transverse guide rail; the transverse translation module is a transverse synchronous belt linear module; the transverse synchronous belt linear module comprises two transverse driving shafts, a transverse synchronous belt and a transverse motor; two transverse driving shafts are arranged at two ends of the workbench; the transverse synchronous belt is sleeved between the two transverse driving shafts; one of the two transverse driving shafts is connected with a transverse motor; the transverse sliding plate is connected with the transverse synchronous belt, so that the transverse synchronous belt drives the transverse sliding plate to slide back and forth along the transverse guide rail.

3. A carbon fiber filament-wound carbon crucible preform device as claimed in claim 2, wherein said transverse slide plate is provided with a longitudinal guide rail; the longitudinal sliding plate is arranged on the longitudinal guide rail; the longitudinal translation module is a longitudinal synchronous belt linear module; the longitudinal synchronous belt linear module comprises two longitudinal driving shafts, a longitudinal synchronous belt and a longitudinal motor; two longitudinal driving shafts are arranged at two ends of the transverse sliding plate; the longitudinal synchronous belt is sleeved between the two longitudinal driving shafts; one of the two longitudinal driving shafts is connected with a longitudinal motor; the longitudinal sliding plate is connected with the longitudinal synchronous belt, so that the longitudinal synchronous belt drives the longitudinal sliding plate to slide back and forth along the longitudinal guide rail.

4. A carbon-carbon crucible preform device for winding carbon fiber filaments as claimed in claim 2, wherein the worktable is provided with transverse limit switches at both ends of the transverse guide rail; and the transverse sliding plate is provided with longitudinal limit switches which are positioned at two ends of the longitudinal guide rail.

5. A carbon-carbon crucible preform device for winding a carbon fiber filament as claimed in claim 3, wherein said rotating motor, transverse motor and longitudinal motor are speed reducing motors.

6. A carbon-carbon crucible preform assembly of claim 1, wherein the table is provided with universal wheels and ground feet.

7. A carbon fiber filament-wound carbon crucible preform assembly according to any one of claims 1 to 6, wherein the winding arm is provided with a plurality of threaded holes, and the tensioner is screwed to the winding arm by screws fitted to the threaded holes.

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