CZ20004925A3 - Pre-tensioning device - Google Patents

Abstract

A gas generator (34) produces gas under predetermined condition, and supplies the generated gas to a cylinder body (24). The gas generator is installed to the edge of a generator storage unit (26) to which the cylinder body is integrally formed. One end of the generator storage unit is opened between the bottom cylinder body and a piston (20). The generator storage unit is formed a direction which orthogonalizes the axial direction of the cylinder body. The piston is pushed by the cylinder body by the increase of internal pressure. The piston rotates a paper winding shaft to a direction which winds up a webbing belt by moving to the axial direction.

Description

Technical field

The present invention relates to a pretensioner which is part of a seat belt device that restrains a passenger in a vehicle by means of a fabric belt.

Existing techniques

The fabric belt, which is designed as an elongate belt and which holds the occupant of the vehicle or the so-called seat belt device, is provided with a pretensioner. Once the vehicle accelerates rapidly or is in another predetermined condition, the pretensioner increases the holding force by rapidly rotating the winding shaft which is anchored to the longitudinal end portion of the fabric belt in the direction in which the weaving is performed.

The conventional design of the above pretensioner will be explained below.

The pretensioner is provided with a cylinder having a cylindrical shape provided with a lower part. A piston is mounted in the inner part of the cylinder. On the open side of the cylinder, a toothed rack is formed integrally with the end portion of the piston. On the toothed rack side there is a toothed pinion engaging the toothed rack. The pinion is mechanically connected to the winding shaft via a one-way clutch. The piston moves in the direction of the open end of the cylinder and the toothed rack by rotating the pinion forces the winding shaft to rotate in that direction.

On the side of the main body portion of the cylinder body where the piston is located, the generator housing portion is rigidly attached to the cylinder body portion, and the main body portion and the generator housing portion form a cylinder together. The generator housing portion is a cylindrical assembly having both ends open. One end corresponds to the inner part of the body «

body near its bottom. While the gas generator is mounted inward from the other end. The gas generator is of cylindrical shape, the outer diameter of which is slightly smaller than the inner diameter of the part adapted to the generator. In its inner part there is a gas generating means which, by combustion, instantly generates a predetermined amount of gas and an ignition device for igniting the gas generating means. Once the gas generating means is ignited, gas is immediately generated between the bottom of the cylinder (the main body portion) and the piston and is the gas pressure by which the piston is compressed.

The ignition device is connected to a separate acceleration sensor either directly or indirectly via a computer or some other control device. As soon as the acceleration sensor detects a rapid deceleration of the vehicle, the ignition device is activated.

In the known pretensioners described above, the axial direction of the cylinder-containing portion is perpendicular to the axial direction of the main body portion of the cylinder. Therefore, even if the inner diameter dimension of the main portion of the cylinder is small, the overall size of the cylinder cannot be small because of the length of the generator receiving portion in the axial direction. If, as in this case, the pretensioner is all large as soon as the cylinder is stored in the vehicle, it is possible that it will interfere with the vehicle's structural elements. The choice of position for mounting the pretensioner will thus be limited and in some cases mounting as such is very difficult.

Further, in a prior art pretensioner in which a gas generator is located in the generator housing portion, the position of the gas generator is indicated by a stop whose outer diameter is large relative to (i.e., greater than) the main portion of the gas generator housing. Correspondingly, at the second end portion a generator receiving portion is provided which has a larger large diameter that is large enough to allow the stop to be fixed. This large diameter portion has an inner diameter greater than the inner diameter in the portion where the gas generator main body is located. The stopper is located in this large diameter portion and by leaning against the lower portion of the large diameter portion (i.e., the portion designated by the large diameter portion and the portion that includes the main portion of the gas generator) determines the position of the gas generator.

In this case, it is necessary that the outer diameter dimensions of the generator receiving portion are sufficiently larger than the outer diameter dimension of the stop. This causes the generator housing portion to be large and the pretensioner bulky.

SUMMARY OF THE INVENTION

Accordingly, it is an object of the present invention to provide a compact pretensioner.

A first embodiment of the present invention is a wide-area pretensioner with a winding shaft and a woven belt having an end anchored to the winding shaft, the pretensioner being subjected to rotational force during predetermined conditions for winding the shaft in the winding direction for winding the woven web of the present invention, in that it contains:

(a) a master cylinder body having an interior space with a movably disposed piston therein, wherein the gas pressure in the main cylinder body causes the piston to move in the direction of rotational force applied to the winding shaft in the winding direction to wind the woven belt; substantially as a cylinder and integrally protruding from the main cylinder body, the main cylinder body has a lower portion having an aperture disposed between the piston and the lower portion of the main cylinder housing, the aperture being fluidly coupled to the cylinder of the generator receiving portion; a generator attachable to the housing for generating the gas under predetermined conditions and supplying pressurized gas causing movement of the piston.

In the pretensioner of the above construction, under predetermined conditions, gas is generated in the gas generator and when gas is introduced into the main body of the cylinder, the gas pressure (internal pressure) increases in the main body of the cylinder thereby pushing the piston and causing the piston to move to its one axial end. This movement of the piston causes the winding shaft to rotate in the winding direction. Therefore, the force with which the passenger in the vehicle is held by the woven belt is increased.

Further, when comparing this pretensioner with a structure in which the axial direction of the generator support portion lies in a direction perpendicular to the axial direction of the main body portion of the cylinder body, since the axial direction of its generator support portion is inclined on the axial side of the cylinder body. axial direction (axial perpendicular direction) and if the dimensions in the axial direction are the same in both cases, the second axial end portion of the generator support portion (i.e., the end portion on the opposite side of the main cylinder body) is positioned closer to the main cylinder body. For this reason, the dimensions of the pretensioner, which is mounted in a direction perpendicular to the axial direction of the main body of the cylinder, are smaller and allow the pretensioner to be compact.

In the pretensioner of the present invention, a space is also provided in the lower wall portion of the main cylinder body, in the axial direction of the main cylinder body, from which the generator housing portion is inclined. Therefore, the pretensioner is also much more compact in this respect. Thus, even when a vehicle component is located in this part, there will be no harmful effects when the pretensioner is attached to the vehicle. Therefore, mounting is facilitated and the choice of position for mounting the pretensioner is increased.

Further, the present invention is characterized in that the generator housing portion comprises an end, and when the gas generator is housed in the generator housing portion, the gas generator comprises a projecting portion having an outer circumference provided with a stop formed thereon that abuts the end of the generator portion. storing the generator.

According to this embodiment, the stop is provided on the gas generator so as to rest against the generator receiving portion and thereby limit the displacement of the gas generator. Due to this design, the dimension of the outer diameter of the stop may be smaller than the dimension of the outer diameter of the gas generator, with the dimension of the outer diameter of the stop being larger than the dimension of the inner diameter of the gas generator. Further, since the stop is not housed within the generator housing portion, the thickness of the generator housing portion may be reduced. Since, in the pretensioner based on this feature of the invention, the generator receiving portion is much more compact and the pretensioner is therefore lighter and densified.

According to a third feature of the present invention, both the generator bearing portion and the main cylinder body have center axes that are inclined relative to each other. In the pretensioner based on this feature, the center axis of the generator housing portion when extended is not coaxial with the center axis of the main body of the cylinder. Therefore, since the radial direction of the opening of the portion connecting the main body of the cylinder and the generator housing portion is inclined relative to the radial direction of the opening of the generator housing portion, the opening radius of the coupling portion is greater than the opening radius of the generator housing portion. That is, the opening area of the connecting portion is large. Therefore, it is possible to provide a sufficient area of the opening for the coupling portion without having to position the outer periphery of the generator bearing portion downward, towards the bottom of the main body of the cylinder. I.e. the pretensioner is much more compact.

According to a fourth feature of the present invention, the main cylinder body has an open end wall thickness less than that of the lower portion of the main cylinder body.

Due to this design, the main body of the cylinder becomes compact and light, and this gives the pre-tensioner as a whole compactness and lightness.

When the pressure of the gas supplied to the main body of the cylinder is at its maximum, since the piston is in the initial position, the high pressure of the gas only acts essentially on the vicinity of the lower part of the main body of the cylinder. However, when the piston is raised due to increased internal pressure, the space in the inner portion of the main body of the cylinder will increase relative to the volume of gas produced, causing the internal pressure to decrease. As a result, the pressure of the gas acting on the open end wall of the main body of the cylinder is not as great as the 4 4 4 4 4 • 4 4 4

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The pressure of the gas acts on the bottom wall where the initial phase of gas formation occurs.

Therefore, according to this feature of the present invention, the thickness and mechanical strength are provided around the lower part of the cylinder, where a large amount of gas pressure is applied. While on the wall of the portion of the open end where relatively low gas pressure is applied, the thickness is reduced. Therefore, the pretensioner is compact and at the same time provides the necessary mechanical strength.

According to a fifth feature of the present invention, the above pretensioner further comprises a rack and pinion engaging with each other and the pinion being coupled to the winding shaft and the rack extending from the piston, the rack moving with the piston thereby rotating the pinion and transmitting rotational force to a winding shaft in the winding direction for winding the woven belt.

In the pretensioner of the above construction, when the piston moves due to increased internal pressure in the main body of the cylinder, the toothed rack, which is formed at one end of the piston in the axial direction, rotates the pinion engaging the toothed rack. The pinion rotation in this state is transmitted to the winding shaft and rotates the winding shaft in the direction in which the belt is woven.

Overview of the drawings

An exemplary embodiment of a pretensioner according to the present invention is shown in the accompanying drawings, wherein Fig. 1 is a vertical section through a pretensioner according to one embodiment of the present invention; Fig. 2 is a section 2-2 of Fig. 1.

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DETAILED DESCRIPTION OF THE INVENTION

Fig. 1 is a cross-sectional view of the structure of the pretensioner 10 according to one embodiment of the present invention. As shown in this figure, the pretensioner 10 includes a housing 12. The housing 12 is made of metal or a hard synthetic resin and attached to a foot plate (not shown) of the strap retractor frame. A housing portion 14 is formed in the housing 12 and a one-way clutch 16 is disposed on the inside thereof. The outer shape of the one-way clutch 16 is disc-shaped or a cylinder whose dimension in the axial direction is relatively short.

The one-way clutch 16 does not transmit the rotational force from its first end in the axial direction (side of the bottom of the housing 12) to the second end in the axial direction. However, it transmits axial force from the second end in the axial direction to the first end in the axial direction.

The first end in the axial direction of the unidirectional clutch 16 is mechanically connected to a winding shaft (not shown) which penetrates a cylindrical bore formed at the bottom of the housing portion 14 of the housing 12. The base end portion of the woven belt (not shown), anchored to the outer circumference of the winding shaft and rotating in the winding direction, the winding shaft v winds the woven strip onto its outer peripheral portion.

Further, the pinion 18 is mounted coaxially to the other end of the one-way clutch 16 in the axial direction.

On the pinion 18 side there is a toothed rack 22 which has the shape of a square rod. The disk-shaped piston 20 is integrally formed with one elongated end portion of the rack 22. On the rack 22, at one end thereof in the transverse direction, a toothing is formed which can engage the pinion 18. By displacement of the rack 22 in the longitudinal direction towards the pinion 18, the toothing engages with the pinion 18.

Further, as shown in FIG. 1, the pretensioner 10 comprises a cylinder 28 that is formed by the main body 24 of the cylinder 28 and the generator receiving portion 26. The main body 24 of the cylinder 28 is formed as a cylinder having a lower portion. The inner side of the main body 24 of the cylinder 28 is the portion 30 in which the piston 20 is received. This portion 30 for receiving the piston 20 has an inner diameter dimension substantially the same as (precisely slightly larger than) the outer diameter dimension of the piston 20. In the piston receiving portion 30, the piston 20 and part or all of the cylinder 28 are received. A space 40 that is connected to the generator receiving portion 26 is formed between the lower surface of the piston 20 and the lower portion of the main body 24 of the cylinder 28. As As shown in FIG. 1, the thickness on the side of the lower portion of the main body 24 of the cylinder 28 is greater than the thickness on the open end side.

In the vicinity of the lower part of the main body 24 of the cylinder 28, a generator bearing portion 26 is formed. In particular, the generator bearing portion 26 is formed as a cylinder whose axial direction is slightly diverted towards the main body 24 of the cylinder 28 from a direction perpendicular to the axial direction of the main body 24 of the cylinder 28 (i.e., the radial mesh of the piston receiving portion 30). I.e. In Fig. 1, the axial direction of the generator bearing portion 26 is not in a direction perpendicular to the axis of the main body 24 of the cylinder 28 (referred to herein as the axial perpendicular direction). The axial direction of the generator bearing portion 26 is inclined at a predetermined angle toward the axial direction of the main body 24 of the cylinder 28 with respect to its axial perpendicular direction.

Further, one end portion in the axial direction of the generator housing portion 26 is rigidly coupled to the main body 24 of the cylinder 28 near its lower portion, and the inner portion of the generator housing portion 26 and the inner portion 26 are coupled through the open portion 32 (see FIG. a portion of the main body 24 of the cylinder 28 (i.e. a portion 30 for receiving the piston 20).

As shown in FIG. 2 (top view), the central axis of the generator receiving portion 26 is inclined relative to the central axis of the main body 24 of the roller 28. That is, FIG. the generator support portion 26 is connected to the main portion 24 of the cylinder 28 such that the center axis of the generator support portion 26 is offset relative to the axis of the main body 24 of the cylinder 28 and does not intersect the central axis of the main body 24 of the cylinder 28.

As shown in Fig. 1, the generator 34 is housed in the interior of the generator housing portion 26. The gas generator 34 is cylindrical in shape with an overall outer diameter dimension that is slightly smaller than the inner diameter dimension of the generator housing portion 26. In FIG. internal parts of the gas generator 34 are provided with a gas generating means and a device for igniting the gas generating means (also not shown). When the gas generating means is combusted, a predetermined amount of gas is instantly generated.

The ignition device is connected to an acceleration sensor which is either directly or indirectly connected to a computer or other control device (also not shown). When the acceleration sensor detects a rapid deceleration of the vehicle speed, the ignition device is actuated and the gas generating means is combusted and immediately generates gas. The gas supplied from one axial end portion of the gas generator 34 (sides of the end portion of the main body 24 of the cylinder 28) through the open portion 32 to the interior of the main body 24 of the cylinder 28, i.e. the space 40.

Further, the second axial end of the gas generator 34 protrudes from the end portion in the second axial direction of the generator receiving portion 26 and forms a stop 36. the stop 36 is formed integrally with the projecting portion of the end portion in the second axial direction of the gas generator 34. The outer diameter dimension of the stop 36 is smaller than the outer diameter dimension of the generator receiving portion 26, but larger than its inner diameter. The stop 36 rests against the second end portion of the housing 34 of the generator 34 and thereby limits the movement of the gas generator 34 within the housing 26 of the gas generator 34.

Further, a cover 38 is attached to the other end of the housing 34 of the generator 34. The cover 38 is formed as a cylinder having a bottom. An internal thread is formed on the inner periphery of its open end side. Correspondingly, an external thread is formed on the outer periphery of the second end portion of the generator receiving portion 26. The male thread and female thread are screwed together, the bottom of the housing 38 prevents the gas generator 34 from falling out.

The outer thread of the generator housing portion 26 and the inner thread of the housing 38 together form a left screw connection.

Further, a cable (not shown) or other connection means exits from the gas generator 34. These coupling means are connected to the vehicle acceleration sensor either directly or indirectly by means of a computer or other control means. If a signal is sent from the acceleration sensor or control means by the connecting means to the ignition device within the gas generator 34, the ignition device is actuated.

Further operation and effects of embodiments of the present invention will be described below.

At the pretensioner 10, as soon as the acceleration sensor detects a rapid deceleration of the vehicle, a signal is sent to the ignition device in the gas generator 34 either directly or indirectly by the control means. The gas generating means in the gas generator is combusted and gas is immediately formed. The gas formed in the gas generator 34 is supplied from the interior of the portion 30 which houses the piston 20 (space 40) in the main body 24 of the cylinder 28. When the gas is introduced into the space 40, the internal pressure of the open space 40 increases and this pressure increase causes the piston 20 to be pushed inside the portion 30 in which the piston 20 is received toward the open end of the main body 24 of the cylinder 28.

Thus, due to the movement of the piston 20, the rack 22, which is integrally formed with the piston 20, engages the pinion 18 and causes the pinion 18 to rotate. The rotation of the pinion 18 is transmitted to the winding shaft by means of a one-way clutch 16 and the winding shaft is thereby rotated. By rotating the winding shaft, the woven belt is wound on the winding shaft and therefore the force with which the passenger in the vehicle is retained is increased and thus the passenger in the vehicle is increased. held much stronger than before.

As described above, in the main body 24 of the cylinder 28 of the pretensioner 10, the thickness of the main body 24 of the cylinder 28 is smaller on the open end side than the thickness on the bottom side. In terms of strength, the main body 24 of the cylinder 28, which is exposed to high gas pressure, must have adequate mechanical strength. However, the open end of the main body 24 of the cylinder 28, where the gas pressure is applied after the piston 20 has moved and causes the internal pressure in the piston receiving portion 30 to decrease, does not require such high mechanical strength as the lower part. In the present embodiment, since the thickness at the open end is less than at the bottom, the cylinder 28 can be made light and compact.

Since the axial direction of the generator bearing portion 26 is inclined relative to the axial perpendicular direction of the main body 24 of the cylinder 28 towards the main body 24 of the cylinder 28, the overall design of the pretensioner 10 is compact. I.e. for example, the directional dimensions of the generator support portion 26 and the cylinder main body 24 are the same if the cylinder support portion 24 is inclined to the axial perpendicular direction of the cylinder main body 24 towards the main cylinder body 24, the second end portion of the portion The generator support portion 26 (i.e., the end portion on the side opposite to the main body 24 of the cylinder 28) is closer to the main body 24 of the cylinder 28 than when the generator support portion 26 is configured such that its axial direction is along the axial perpendicular direction. As a result, the overall dimension of the pretensioner 10 as viewed along the axial perpendicular direction of the main body 24 of the cylinder 28 is smaller, making the pretensioner 10 generally compact.

Further, as described above, since the axial direction of the generator bearing portion 26 is inclined relative to the perpendicular direction of the cylinder main body 24 toward the cylinder main body 24, space may be provided lower on the side of the generator bearing portion 26 (this the space may be occupied by the generator bearing portion 26 if its axial direction is positioned in the axial perpendicular direction of the main body 24 of the cylinder 28). Therefore, even if the structural part of the vehicle body is in this space, it will not interfere with the pretensioner assembly 10. Therefore, the assembly is improved and with this improved assembly the assembly process can be much more efficient and therefore cost less.

Further, at the pretensioner 10, the central axis of the generator bearing portion 26 is positioned so as to be inclined relative to the central axis of the main body 24 of the cylinder 28. The generator bearing portion 26 is connected to the main body 24 of the cylinder 28 so that the central axis of the portion 26 to accommodate the generator 34 has been offset relative to the main body 24 of the cylinder 28 and has not overhung the central axis of the main body 24 of the cylinder 28.

Therefore, the radius of the open portion 32 may be greater than the inner diameter dimension of the generator housing portion 34.

In the case where the central axis of the generator housing portion extends through the center of the main body of the cylinder, the radius of the open portion is at most equal to the radius of the generator housing portion. Also, since the gas formed in the gas cylinder must be supplied between the piston and the lower part of the main body of the cylinder in order to push the piston up by gas pressure, so that the open portion opens at the lower part of the main body of the cylinder and not at the piston. In this situation, if the outer periphery of the generator housing portion is located in the same position as the outer side of the lower portion of the cylinder main body, it is not possible to provide an open area for the open portion. In order to provide sufficient surface for the open portion, the generator housing portion must be positioned lower relative to the outside of the lower portion of the main cylinder body (i.e., the inclination towards the side opposite the open end of the main cylinder body) bulky.

However, in the present embodiment described above, since the generator support portion 26 is connected to the main body 24 of the cylinder 28 such that the center axis of the generator support portion 26 is offset relative to the axis of the main body 24 of the cylinder 28 and does not intersect the center axis of the main body. 24 of the cylinder 28, the radial direction of the open portion 32 is inclined with respect to the radial direction of the generator receiving portion 26.

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Thus, the radius of the open portion 32 is greater than the inner diameter of the portion 26 for receiving the generator 34, and therefore the area of the open portion 32 is increased. Therefore, a sufficient open area for the open portion 32 can be provided without having to position the outer periphery of the generator bearing portion 26 below the outer side of the lower portion of the main body 24 of the cylinder 28. As a result, the pretensioner 10 is generally compact.

Further, the embodiment of the present invention is designed such that the stop 36 provided with the gas generator 34 rests against the second end portion of the housing 34 of the generator 34 and therefore causes the displacement of the gas generator 34 to be limited. Due to this design, it is sufficient that the housing 26 of the generator 34 has an inner diameter dimension equal to the diameter of the gas generator 34 and a wall thickness that can support this inner diameter dimension.

Further, in the present embodiment, the housing 38 and the housing 26 for the generator 34 are connected to each other by screwing with a left-hand thread formed by an internal and external thread. Since all average users assume that the screw is screwed to the right, they cannot remove the cover and this is another advantage of this embodiment.

As described above, the pretensioner of the present invention is all compact.

Claims (21)

PATENT CLAIMS A pretensioner for use with a take-up shaft and a woven belt, the end of which is anchored to a take-up shaft, the pretensioner exerting a rotational force on the take-up shaft in a take-up direction under predetermined conditions for winding the woven belt. a cylinder main body within which a piston is movably mounted, the gas pressure in the main cylinder body acting on the piston to move in the direction of the rotational force applied to the winding shaft in the winding direction for winding the woven web, substantially a cylinder integrally protruding from the main cylinder body and the main cylinder body having a bottom portion provided with an aperture disposed between the piston and the bottom portion of the main cylinder body, the aperture being fluidly coupled to the cylinder of the generator housing portion; a generator for generating gas under predetermined conditions and supplying gas pressure to cause movement of the piston. The pretensioner of claim 1, wherein both the generator bearing portion and the main cylinder body comprise an axis, wherein the axis of the generator bearing portion is inclined relative to a direction perpendicular to the axis of the main cylinder body and towards the main cylinder body. The pretensioner of claim 1, wherein the generator receiving portion includes an end, and when the generator is housed in the generator receiving portion, the gas generator includes a projecting portion having an outer periphery on which the stop is formed, the stop being supported by the stop. the end of the generator housing portion. The pretensioner of claim 1, wherein the generator receiving portion and the main body of the cylinder have center axes that are inclined relative to each other. The pretensioner of claim 1, further comprising a meshing gear rack and a pinion, wherein the pinion is coupled to the winding shaft and the rack protrudes from the piston so as to move the piston and thereby rotate the pinion and exert a rotational force on the pinion. a winding shaft in the winding direction for winding the woven belt. The pretensioner of claim 1, wherein the main body of the cylinder has an open end side with a thickness less than the thickness of the lower portion of the main body of the cylinder. The pretensioner of claim 3, wherein the stopper has an outer diameter and the generator housing portion has an outer and an inner diameter of such dimensions that the outer diameter of the stopper is less than the outer diameter of the generator housing portion and greater than the inner diameter of the generator portion. storing the generator. The pretensioner of claim 4, wherein the opening connecting the main body of the cylinder and the generator receiving portion is disposed in a radial opening direction and the radial opening direction is inclined relative to the radial direction of the cylinder of the generator receiving portion. A pretensioner for use with a take-up shaft and a woven belt, the end of which is anchored to a take-up shaft, wherein the pretensioner acts on the take-up shaft with rotational force in a take-up direction under predetermined conditions for winding the woven belt. a main body of the cylinder within which a piston is movably mounted, wherein the gas pressure in the cylinder acts on the piston to move in the direction of the rotational force applied to the winding shaft in the winding direction for winding the woven belt; protruding from the main cylinder body, wherein the generator bearing part and the main cylinder body have central axes which are inclined relative to each other and the main cylinder body is inclined towards the generator bearing part, and the main cylinder body has a bottom portion provided with an aperture; between the piston and the bottom of the main body of the cylinder, the aperture being fluidly connected to the cylinder of the housing of the generator, and a gas generator for generating gas at predetermined conditions and supplying gas pressure causing movement of the piston. The pretensioner of claim 9, wherein the generator receiving portion has an end, and when the gas generator is housed in the generator receiving portion, the gas generator includes a projecting portion having an outer periphery on which a stop is formed that abuts the end. parts for storing the generator. The pretensioner of claim 9, wherein the aperture is connected to the main body of the cylinder and the generator receiving portion is disposed in a radial direction of the aperture that is inclined relative to the radial direction of the cylinder of the generator receiving portion. 12. The pretensioner of claim 9, further comprising a rack and pinion engaging with each other, the pinion coupled to the winding shaft, and a rack extending from the piston, the rack moving with the piston to rotate the pinion and operate. rotating force on the winding shaft in the winding direction to wind the woven belt. The pretensioner of claim 9, wherein the open end wall of the main body of the cylinder has a smaller thickness than the thickness of the lower portion of the main body of the cylinder. The pretensioner of claim 10, wherein the stopper has an outer diameter and the generator receiving portion has an outer and an inner diameter of such dimensions that the outer diameter of the stopper is smaller than the outer diameter of the generator receiving portion and greater than the inner diameter of the generator portion. storing the generator. A pretensioner for use with a take-up shaft and a woven belt, the end of which is anchored to the take-up shaft, wherein the pretensioner acts on the take-up shaft with a rotating force in • ♦♦ ♦ ♦ · · · · ·· · • · ·· • · · · ·· ··· · «·· a winding direction under predetermined conditions for winding a woven belt, characterized in that it comprises: a main body of the cylinder in which the piston is movably mounted within the interior, wherein the gas pressure in the cylinder acts on the piston to move in the direction of the rotational force applied to the winding shaft in the winding direction to wind the woven web; protruding from the main body of the cylinder, wherein the generator receiving portion and the main body of the cylinder have central axes inclined and inclined to each other, the main body of the cylinder has a bottom portion having an aperture disposed between the piston and the lower portion with the cylinder of the generator housing portion, the gas generator having opposing ends, one end mountable to the generator housing portion to generate gas at predetermined conditions and supplying pressurized gas to cause the piston to move, and a housing attachable to the other end of the gases the generator, wherein when one end of the gas generator is mounted to the generator housing portion, the gas generator comprises a portion housed within the generator housing portion and a projecting portion projecting from the generator housing portion, wherein the projecting portion has an outer circumference forming a stop abutting o part for storing the generator. 16. The pretensioner of claim 15, wherein the housing is essentially a cylinder having a lower portion and an open end wall that includes a threaded inner surface, the other end of the gas generator having a threaded outer periphery to secure the housing by screwing on. The pretensioner of claim 15, wherein the generator receiving portion and the cylinder main body are inclined relative to each other. The pretensioner of claim 18, wherein the generator receiving portion and the main body of the cylinder have central axes that are inclined relative to each other. 19. The pretensioner of claim 15, further comprising a toothed rack and a pinion engaged, a pinion coupled to a take-up shaft, and a rack coupled to the piston, wherein the movement of the piston causes movement of the rack and thereby rotation of the pinion. for applying a rotational force to the winding shaft in the winding direction for winding the woven belt. The pretensioner of claim 15, wherein the stopper has an outer diameter and the generator receiving portion has an outer and an inner diameter of such dimensions that the outer diameter of the stopper is smaller than the outer diameter of the generator receiving portion and greater than the inner diameter of the generator portion. storing the generator. The pretensioner of claim 18, wherein the aperture connecting the main body of the cylinder and the generator housing portion is disposed in the radial direction of the aperture and the radial direction of the aperture is inclined relative to the radial direction of the generator housing portion.