JPH0684865B2 - Curing oven - Google Patents

Description

TECHNICAL FIELD The present invention relates to a curing furnace used for heating and curing an object to be heated such as reinforcing fiber impregnated with plastics.

[Prior Art] For example, when a reinforcing fiber impregnated with plastics is heated and cured to produce a fiber-reinforced plastic, a pressure vessel equipped with a pressurizing / heating device called a curing furnace is used. A furnace is used.

FIG. 4 shows a conventional curing furnace of this type. Reference numeral 1 in the drawing is a cylindrical pressure vessel (container) having an inner peripheral surface lined with a heat insulating material 2.

The pressure vessel 1 has one end closed by an end plate 3 and the other end openable by a lid 4 attached via a hinge (not shown). Inside the pressure vessel 1, a steel plate-shaped cylindrical pine cone 5 is provided, and an end face opening on the opposite side of the lid 4 of the pine cone 5 from this side toward the end plate 3 is a water-cooled cooler. 6, electric heater 7, connection duct 8 and circulation fan 9
Are formed in series to form a flow path. An electric motor 10 attached to the end plate 3 is connected to the circulation fan 9. A fastening tool 11 for the lid 4 is provided between the lid 4 and the pressure vessel 1.

On the other hand, a pair of rails 12 are provided at the bottom of the pine flesh 5, and a carriage 13 is movably provided on the rails 12 via wheels 14. A mandrel 16 is supported and bridged between supporting members 15 and 15 provided upright on the front and rear of the carriage 13 while supporting shafts 17 and 17 extending from both ends thereof.

The mandrel 16 has a substantially cylindrical appearance, and the outer peripheral surface of the mandrel 16 is impregnated with plastics.
18 are wound.

In the above-mentioned conventional curing furnace having the above-mentioned configuration, first, the mandrel 16 having the object to be heated wound around the outer peripheral surface is bridged between the support members 15, 15 on the carriage 13 outside the pressure vessel 1, and then this carriage is used. 13 is carried into the pressure vessel 1 with the lid 4 opened. Then, the carriage 13 is moved on the rail 12 and fed into the pineapple 5, the lid 4 is closed and the fastener 11 is tightened.

Next, a high-pressure atmosphere gas such as nitrogen gas is supplied into the pressure vessel 1, and the electrothermal heater 7 and the circulation fan 9 are operated. Then, the atmospheric gas heated by the electric heater 7 is discharged from the circulation fan 9 and passes between the heat insulating material 2 and the outer periphery of the pine cone 5 and flows into the opening of the pine cone 5 on the lid 4 side or inside thereof. Then, the atmospheric gas flows through the outer periphery of the object to be heated 18 inside the pineapple 5 to heat it, and then is heated again by the electric heater 7, and further sucked into the circulation fan 9. Then, the atmospheric gas is heated to about 200 ° C. and circulates through the above flow path, whereby the object to be heated 18 is gradually heated and hardened.

Then, after the object to be heated 18 is hardened, the power supply to the electric heater 7 is stopped, and then the cooling water is supplied to the water-cooled cooler 6. As a result, the atmospheric gas circulating inside the pressure vessel 1 is cooled, and the inside of the pressure vessel 1 and the object to be heated 18 are further cooled via this atmospheric gas. After the cooling of the pressure vessel 1 and the object to be heated 18 is completed, the water supply to the water-cooled cooler 6 is stopped, the atmospheric gas in the pressure vessel 1 is diffused, and the internal pressure is reduced to atmospheric pressure.

Next, after the circulation fan 9 is stopped, the lid 4 is opened, and the carriage 13 is pulled out from the inside of the pine cone 5 along the rail 12 to the outside of the pressure vessel 1 to complete a series of hardening work of the object to be heated 18.

[Problems to be Solved by the Invention] However, in the above-mentioned conventional curing furnace, the plastics impregnated into the reinforcing material fibers that are the objects to be heated 18 have fluidity before curing. Because of this, the mandrel 16
The plastics hang down along the outer peripheral surface of the mandrel 16 between the time when the mandrel 16 is wound and stored in the pressure vessel 1 and the time when the mandrel 16 is cured. There is a problem in that the amount of impregnated plastics differs between the upper part and the lower part of the outer peripheral surface.

[Object of the Invention] The present invention has been made in consideration of the above circumstances, and an object of the present invention is to provide a curing furnace capable of reliably molding a cured product having a uniform structure along the outer peripheral surface of a mandrel. To do.

[Means for Solving the Problems] In the curing furnace of the present invention, a mandrel having an object to be heated wound is provided on the outer peripheral surface to be housed in a container rotatably around its supporting shaft, and the supporting shaft of the supporting shaft is covered. The first connector is provided at the end of
In addition, a drive shaft having a second connecting member attached to one end on the lid side and the other end connected to a drive device is rotatably provided inside the container, and the movable table is movable to the lid side position of the mandrel. A mandrel drive shaft, on which a first movable connector that is detachable from the first connector is attached, and a second movable connector that is detachable from the second connector are provided on the movable table. The driven shafts are rotatably provided, and the mandrel drive shaft and the driven shafts are connected to each other via a rotation transmission mechanism.

[Operation] In the curing furnace configured as described above, after the mandrel is housed in the container, the movable table is carried between the mandrel and the container lid, and the first movable connecting member and the mandrel are supported on the movable table. The first connecting member on the shaft end and the second moving connecting member are connected to the second connecting member on the drive shaft inside the container, respectively.

Next, after the lid is closed, the drive shaft is rotated by operating the drive device until the object to be heated in the container is completely hardened, and the driven shaft and the mandrel drive shaft on the movable table connected to the drive shaft are rotated. Rotate in sequence. As a result, the mandrel is rotated around the support shaft, and the object to be heated on the outer peripheral surface of the mandrel is prevented from moving in a biased direction.

[Embodiment] FIGS. 1 to 3 show an example of the curing furnace of the present invention. The parts common to those shown in FIG. 4 are designated by the same reference numerals and the description thereof will be omitted.

1 to 3, in this curing furnace, a mandrel 16 is rotatably provided on a carriage 13 by bearings 20 and 20 attached to supporting members 15 and 15, respectively. And
A fixed side (first coupling tool) 21 of the pawl clutch is attached to an end of the support shaft 17 located on the lid 4 side.

On the other hand, a support base 22 is fixed to the lower part of one side of the pressure vessel 1, and a drive shaft is mounted on the support base 22 via bearings 23, 23.
24 is rotatably provided.

Further, on the side wall surface of the pressure vessel 1 located on the side of the drive shaft 24, a storage vessel 25 in which a speed reducer (drive device) 26 with an electric motor is attached is provided. Here, a water-cooling type heat shield plate 27 is provided between the inside of the storage container 25 and the inside of the pressure container 1. And the drive shaft
24 sprocket 28 and reducer 26 output sprocket 29
An endless roller chain 31 passed through the small holes 30, 30 of the heat shield plate 27 is provided between and. A fixed side (second connecting member) 32 of the pawl clutch is attached to the end of the drive shaft 24 on the lid 4 side.

On the rail 12 on the lid 4 side of the mandrel 16, a movable table 33 is movably provided via wheels 34. At the center of the movable table 33, a supporting table 35 having substantially the same height as the supporting member 15 on the carriage 13 is erected, and a mandrel drive having a sprockett 36 fixed on the supporting table 35. A shaft 37 is rotatably provided by bearings 38, 38 with its axis aligned with the support shaft 17 of the mandrel 16. Then, at the end of the mandrel drive shaft 37 facing the support shaft 17, the fixed side 21 of the pawl clutch fixed to the support shaft 17 is fixed.
A moving side (first moving connecting tool) 39 of the pawl clutch that is detachably connected to the claw is attached.

On the other hand, a driven shaft 41 to which the sprockett 40 is fixed is rotatably mounted on the movable table 33 at a position facing the drive shaft 24 by bearings 42 and 42 whose axes are aligned with the drive shaft 24. There is. The end of the driven shaft 41 facing the fixed side 32 of the claw clutch at the end of the drive shaft 24 is connected to the fixed side 32 of the claw clutch so as to be detachably connected to the moving side of the claw clutch (second moving connection). Tool) 43 is attached. Further, an idler sprockett 44 is provided below the support table 35.
An idler shaft 45 to which is fixed is rotatably attached by bearings 46 and 46.

An endless roller chain (rotation transmission mechanism) 47 is stretched between the sprockets 36, 40 and the idler sprockets 44 of the mandrel drive shaft 37, the driven shaft 41 and the idler shaft 45, respectively.

Next, the operation of the curing furnace having the above configuration will be described.

In this curing furnace, the mandrel around which the object to be heated is wound
After the 16 is housed in the pine cone 5 of the pressure vessel 1, the moving table 33 is carried on the rail 12 between the mandrel 16 and the lid 4. Then, next, the mandrel drive shaft 37 on the movable table 33.
The moving side 39 of the pawl clutch is connected to the fixed side 21 of the pawl clutch on the support shaft 17 side of the mandrel 16. In addition, the moving side 43 of the pawl clutch of the driven shaft 41 on the moving base 33 is connected to the drive shaft 24.
It is connected to the fixed side (second connecting member) of the side claw clutch.

Then, in parallel with closing the lid 4, the speed reducer 26 with an electric motor is operated. Then, through the output sprockett 29 and roller chain 31 of the reduction gear 26, the drive shaft
24 rotates. Then, the driven shaft 41 rotates via the fixed side 32 of the pawl clutch of the drive shaft 24 and the moving side 43 connected thereto, and this rotation is transmitted to the mandrel drive shaft 37 via the roller chain 47. To be When the mandrel drive shaft 37 rotates, the moving side 39 of the pawl clutch and the fixed side 21 connected to the moving side 39.
The mandrel 16 is rotated around the support shaft 17 at a predetermined rotation speed via the.

Then, a high-pressure atmosphere gas such as nitrogen gas is supplied into the pressure vessel 1, and the electrically heated heater 7 and the circulation fan 9 are operated to circulate the heated atmosphere gas to heat the object to be heated 18. The mandrel 16 is rotated until the curing is completed.

Then, after the object 18 to be heated is cured, the electric heater 7
To the water-cooled cooler 6 to supply cooling water to cool the inside of the pressure vessel 1 and the object to be heated 18 and then stop supplying water to the water-cooled cooler 6 to increase the pressure in the pressure vessel 1. While reducing the pressure to atmospheric pressure, the speed reducer 26 is stopped to stop the rotation of the mandrel 16.

Next, the lid 4 is opened, and the movable table 33 and the carriage 13 are sequentially drawn out of the pressure vessel 1 along the rails 12 from the inside of the pine cone 5 to complete a series of curing operations for the article to be heated 18.

Therefore, in such a curing furnace, the mandrel 16 is supported by operating the speed reducer (driving device) 26 until the lid 4 is closed and the object 18 to be heated in the pressure vessel 1 is completely cured. It can be rotated around axis 17. Therefore, the object to be heated on the outer peripheral surface of the mandrel 16
It is possible to reliably prevent the 18 from moving in a biased direction, and thus it is possible to easily and reliably form a cured product having a uniform structure at all times.

Further, since the movable table 33 can be carried out to the outside of the pressure vessel 1, the maintenance thereof is simple, and when the mandrel 16 does not need to be rotated, it can be removed from the pressure vessel 1 so that it is unnecessary. It is possible to prevent thermal strain. Therefore, it is possible to obtain an effect that the service life is long and economical.

Further, since the water-cooling type heat shield plate 27 is provided between the speed reducer (drive device) 26 having the electric motor and the inside of the pressure vessel 1, even when the inside of the pressure vessel 1 becomes high in temperature. The speed reducer 26 is not likely to be damaged by the heat.

[Effect of the Invention] As described above, in the curing furnace of the present invention, the mandrel is rotatably provided around its supporting shaft, the first connecting tool is provided at the end portion of the supporting shaft on the lid side, and A drive shaft having a second connector attached to one end on the lid side and the other end connected to a drive device is rotatably provided inside, and a movable table is movably provided at a lid side position of the mandrel. A mandrel drive shaft on which a first movable connecting member which is detachable from the first connecting member is mounted on a moving base, and a second movable connecting member which is detachable from the second connecting member is attached to a mandrel drive shaft. The mandrel drive shaft and the driven shaft are connected to each other via a rotation transmission mechanism.

Therefore, according to this curing furnace, the mandrel can be rotated inside the container until the lid is closed and the curing of the object to be heated in the container is completed. It is possible to prevent the material from moving in a certain direction, and thus it is possible to easily and reliably form a cured product having a uniform structure at all times. Further, since the movable table can be carried out to the outside of the container, its maintenance is simple, and when the mandrel does not need to be rotated, unnecessary thermal strain does not occur, so that its service life is long and economical. The effect of being present can also be obtained.

[Brief description of drawings]

1 to 3 show an embodiment of a curing furnace of the present invention. FIG. 1 is a side view showing a cross section, FIG. 2 is a plan view showing a cross section of a main part, and FIG. 4 is a front view showing a section of a section,
The figure is a side sectional view showing a conventional curing furnace. 1 ... Pressure vessel (vessel), 4 ... Lid, 5 ... Matsufuru, 7 ... Electrothermal heater, 12 ... Rail, 13 ... Truck, 15 ... Support material, 17 ... Support shaft, 18 ... … Heated object, 20 …… Bearing, 21 …… Claw clutch fixed side (first coupling), 22 …… Support stand, 24 …… Drive shaft, 26 …… Reducer with electric motor (drive unit), 27 …… Heat shield plate, 31 …… Roller chain, 32 …… Claw clutch fixed side (second connecting tool), 33 …… Moving base, 37 …… Mandrel drive shaft, 39 …… Claw clutch moving side (No. 1) moving coupling), 41 ... driven shaft, 43 ... claw clutch moving side (second moving coupling), 47 ... roller chain (rotation transmission mechanism).

Claims (1)

[Claims] 1. A hardening furnace for heating and hardening an object to be heated, which is wound around an outer peripheral surface of a mandrel housed from its lid, inside a container, wherein the mandrel is rotatably provided around its supporting shaft. At the same time, a first connector is provided at the end of the support shaft on the lid side, and a second connector is attached to one end of the container on the lid side and the other end is connected to the drive device. The movable drive shaft is rotatably provided, and the movable table is movably provided at the lid side position of the mandrel, and the first movable connecting tool which is detachable from the first connecting tool is mounted on the movable base. The mandrel drive shaft and the driven shaft to which the second connecting member and the detachable second moving connecting device are attached are rotatably provided, and the mandrel drive shaft and the driven shaft are provided with a rotation transmission mechanism. Connected to each other via Curing oven, wherein the door.