KR20180057910A - Push-rod guide of brake chamber for vehicle - Google Patents

Abstract

The present invention relates to a push rod guide of a brake chamber for a vehicle. The push rod guide has a disk shape and a push rod opening, through which a push rod is introduced and extracted, is formed in the push rod guide. Cutaway surfaces are formed from the center of the disk radially. Steps are formed on contact surfaces of the cutaway surfaces to prevent sliding. A hinge groove is formed on an upper surface of the disk in the radial direction of the disk within an angle of not less than 120 degrees and less than 180 degrees of the center of the disk from the cutaway surface to form a small fan shape and a large fan shape with respect to the hinge groove. The small fan shape is rotated about the hinge groove with respect to the large fan shape to be inserted into a side surface of the axial direction of the push rod and the hinge groove is elastically restored so that the push rod guide is assembled. According to the present invention, the cutaway surfaces are formed on the integrally formed push rod guide and the steps are formed on the formed cutaway surfaces so that the push rod can be firmly coupled, and the productivity can be improved by maintaining the coupling strength of the push rod firmly without using a separate coupling member.

Description

[0001] The present invention relates to a push-rod guide of a brake chamber for a vehicle,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of a push rod guide of a vehicle brake chamber and relates to a structure of a push rod guide of a vehicle brake chamber that guides movement of a push rod moving in a vertical direction in a bottom housing.

BACKGROUND ART A large vehicle such as a bus, a truck, a trailer, and other heavy equipment uses a pneumatic spring brake chamber for a vehicle that is sensitive and quick in braking operation during high-speed driving or parking and has excellent braking.

For such a vehicle brake chamber, Korean Patent No. 10-1567709 discloses a brake actuator. The vehicle brake chamber includes, in order from the top, a hollow head housing, an adapter housing, and a bottom housing. On the other hand, a piston disposed between the head housing and the adapter housing is disposed, and a hollow actuator rod coupled to the piston and disposed through the through hole of the adapter housing. A diaphragm is disposed between the adapter housing and the bottom housing. Further, a pressure plate for supporting the diaphragm and a push rod for supporting the pressure plate are provided, and the push rod is disposed through the through hole formed in the bottom housing.

Through this structure, the space formed between the head housing and the piston is a spring chamber, and a spring is disposed therebetween. The space provided between the piston and the adapter housing is a pressure chamber. The space formed between the adapter housing and the diaphragm is a service chamber, and a push rod chamber is formed between the diaphragm and the bottom housing.

Thus, the vehicle brake chamber constitutes the spring chamber, the pressure chamber, the service chamber, and the push rod chamber from the upper portion to the lower portion, and the pressure plate moves up and down according to the adjustment of the elastic force of the spring and the air pressure in the service chamber, The push rod can be moved through the lower end of the push rod to enable the brake operation during running or stop of the vehicle.

At this time, when the push rod moves up and down, a push rod guide for guiding the movement of the push rod is disposed on the lower surface of the bottom housing. Conventionally, push rod guides are produced separately from each other and are formed by engaging with push rods as coupling members. The assembly of the push rod guide by the fixing member has a problem in that it is difficult to secure a firm fastening strength in the bottom housing, and a fixing for assembling the coupling member is added, which may cause a problem of deteriorating the production process.

An object of the present invention is to provide a vehicular brake push rod guide which is formed integrally with a push rod guide and which is simply fastened at the side of the push rod and which can firmly fix the push rod guide to the bottom surface of the bottom housing by using a push rod guide cover And a structure of the push rod guide.

In order to achieve the above object, a structure of a push rod guide of a vehicle brake chamber according to an embodiment of the present invention includes a head housing, a bottom housing, an adapter housing provided between the head housing and the bottom housing to connect the head housing and the bottom housing, A diaphragm fixed between the adapter housing and the bottom housing to divide a space between the adapter housing and the bottom housing; A push rod supporting the lower face of the diaphragm and moving along a push rod through hole formed in a bottom surface of the bottom housing; A yoke portion connected to the push rod end; And a return spring disposed between the push rod and the bottom housing, wherein the push rod and the yoke portion are inserted into the push rod through hole, and then the push rod guide is assembled inside the bottom housing at the side in the push rod axis direction The push rod guide is formed of a circular plate and formed with a push rod opening and out through which the push rod enters and exits. A cut surface is formed in the radial direction from the center of the circular plate. The cut surfaces are slanted with respect to each other A hinge groove is formed along the radial direction of the disk on the upper surface of the disk that is 120 degrees or more and less than 180 degrees from the center of the disk from the incision surface so as to form a small fan shape and a large fan shape around the hinge groove, And a large fan-shaped portion is relatively rotated around the hinge groove and inserted in the side of the push rod axis direction, The fan and large fan are assembled by elastic restoration.

Here, the push rod opening further includes a guide projection inserted into the push rod through-hole to fix the push rod guide.

The push rod guide of the vehicle brake chamber according to the present invention has a cut-off surface formed in an integrally formed push-rod guide, and a step is formed on the cut-away surface formed so that the push rod can be firmly fastened, So that the production efficiency can be improved.

1 is a view showing a configuration of a pneumatic spring brake chamber for a vehicle according to an embodiment of the present invention.
2 is an exploded perspective view of a push rod guide coupled to a bottom housing according to an embodiment of the present invention.
3 is a plan view of a push rod guide according to an embodiment of the present invention.
4 is a side view showing a state in which a small fan-shaped portion of a push rod guide is rotated according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

Also, throughout the specification, when an element is referred to as " including " an element, it is understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise. Also, throughout the specification, the term " on " means located above or below a target portion, and does not necessarily mean that the target portion is located on the upper side with respect to the gravitational direction.

1 is a view showing a configuration of a pneumatic spring brake chamber for a vehicle according to an embodiment of the present invention.

First, a vehicle brake chamber will be described with reference to Fig. The pneumatic spring brake chamber for a vehicle is configured such that the air flow between the spring chamber 150 and the service chamber 310 is transmitted to the actuator chamber 120 via the hollow actuator rod 120 and the actuator rod 120 disposed between the spring chamber 150 and the service chamber 310 And an actuator rod valve 121 coupled to the lower end.

The pneumatic spring brake chamber for a vehicle includes a head housing 100, an adapter housing 200 and a bottom housing 300 in order from the top, and a piston 110 is interposed between the head housing 100 and the adapter housing 200. And a diaphragm 400 is disposed between the adapter housing 200 and the bottom housing 300.

An actuator rod 120 having a through hole arranged to penetrate the adapter housing 200 in a downward direction of the piston through hole formed in the piston 110 is disposed and the rod valve 121 is connected to an end of the actuator rod 120, . The rod valve 121 may allow the spring chamber 150 and the service chamber 310 to communicate with each other to allow an air flow to be established. In this embodiment, the piston 110 and the actuator rod 120 are separately formed, but they may be integrally formed with each other.

The pneumatic spring brake chamber for a vehicle thus formed has a spring chamber 150 formed between the head housing 100 and the piston 110 and a pressure chamber 160 formed between the piston 110 and the adapter housing 200 . A service chamber 310 is formed between the adapter housing 200 and the diaphragm 400 and a push rod chamber 320 is formed between the diaphragm 400 and the bottom housing 300.

The compression spring 130 disposed in the spring chamber 150 is a coil spring, and the outer diameter of the coil can be reduced toward the both ends from the center of the coil. At this time, one end of the compression spring 130 is held in contact with the piston 110, and the other end of the compression spring 130 is held in contact with the bent portion of the head housing 100.

The curved portion of the head housing 100 is formed at the upper end of the head housing 100 so that the curved portion prevents the compression spring 130 from moving in the upper position, Keeping the axis compressed.

The piston 110 is in close contact with the inside of the head housing 100 to separate the internal space of the head housing 100 into the spring chamber 150 and the pressure chamber 160. The hollow actuator rod 120 is disposed in one direction along the piston through-hole. Accordingly, one end of the actuator rod 120 is connected to and supported by the piston 110, and the other end of the actuator rod 120 can be supported by the diaphragm 400 through the through-hole of the adapter housing 200.

A lip chamber 122 is disposed at a portion where the outer circumferential surface of the actuator rod 120 contacts the inner circumferential surface of the adapter housing 200 to prevent fluid from leaking.

One end of the hollow actuator rod 120 is fixed to the head housing through hole of the head housing 100 and the casing bolt 140 is disposed along the penetration of the adapter housing 300 and the other end is fixed to the casing bolt 140. [ A casing nut 142 that is screwed on is disposed.

An adapter housing 200 is disposed between the head housing 100 and the bottom housing 300 to interconnect the head housing 100 and the bottom housing 300. The adapter housing 200 has a through hole at its center, and the actuator rod 120 passes through the through hole and is held in contact with the diaphragm 400. A valve structure 210 capable of introducing air pressure is provided on one side surface of the adapter housing 200 to allow air to flow in operation of the parking brake in the traveling state of the vehicle.

A diaphragm 400 is disposed in the bottom housing 300 to support the bottom housing 300 by the push rod plate 510 and divide the bottom housing 300 into the service chamber 310 and the push rod chamber 320. At this time, the push rod plate 510 is supported by the push rod 500 and serves to transmit the movement of the diaphragm 400 according to the air pressure to the push rod 500. A push rod spring 520 is disposed between the push rod plate 510 and the bottom housing 300 along the axial direction of the push rod 500 and is compressed and restored according to the movement of the push rod plate 510.

The diaphragm 400 moves the push rod plate 510 and the push rod up and down in accordance with the elastic force of the compression spring 130 in the spring chamber 150 and the air pressure in the pressure chamber 160, The operation of the brake (not shown) connected to the lower end of the brake pedal 500 is controlled.

At this time, a push rod guide 600 for guiding the movement of the push rod 500 moving along the push rod through hole 330 is provided on the bottom surface of the bottom housing 300. The shape of the bottom housing 300, And the shape of the yoke may be variously formed, and the shape of the yoke is not limited to the present invention, and the push rod guide 600 will be described in detail below.

FIG. 2 is an exploded perspective view of a push rod guide coupled to a bottom housing according to an embodiment of the present invention, FIG. 3 is a plan view of a push rod guide according to an embodiment of the present invention, and FIG. Side view showing a state in which a small fan-shaped portion of the push rod guide is rotated.

The push rod guide according to the embodiment of the present invention will be described more specifically with reference to Figs. 2 to 4. Fig.

The push rod 500 is inserted into the push rod through hole 330 with a yoke 530 at its end. Since the yoke portion 530 is larger in diameter than the push rod 500, when the push rod 500 is inserted into the push rod through hole 330, the outer circumferential surface of the push rod 500 and the push rod through hole 330 A gap is formed.

The push rod guide 600 guides the movement of the push rod 500 while sealing the gap. The push rod guide 600 is formed in a circular plate shape to form a push rod opening 650 through which the push rod can enter and exit.

That is, the push rod guide 600 is fixed to the lower surface of the bottom housing 300 to guide the movement of the push rod 500 while surrounding the outer circumferential surface of the push rod 500 inserted along the push rod through- It plays a role.

The push rod guide 600 is formed with a cut surface 610 in the radial direction from the center of the original plate. At this time, a hinge groove 640 is formed along the radial direction of the disk on the upper surface of the disk so as to be 120 degrees or more and less than 180 from the cut surface 610. A small fan-shaped portion 620 and a large fan- (630). The hinge grooves 640 are formed as grooves of a " V " shape, and serve as hinges through a drive in which the " V " grooves are folded. Therefore, the small sector 620 and the large sector 630 can relatively rotate about the hinge groove 640 along the arrow direction.

The push rod guide 600 is inserted in the axial direction side of the push rod 500 with the small sector 620 and the large sector 630 being rotated relative to each other and the small sector 620 and the large sector 630 are hinged, And can be easily assembled to the push rod 500 by elastic restoration around the groove 640. At this time, it is preferable that the " V " -shaped hinge groove 640 is folded with respect to the large sector 630 having a small sector 620.

Accordingly, the push rod guide 600 is fixed to the lower surface of the bottom housing 300, and can easily guide the movement of the push rod 500.

On the other hand, the small sector 620 and the large sector 630 form steps 621 and 631, respectively, to prevent slippage on the surfaces contacting with each other. The steps 621 and 631 increase the shear resistance of the surfaces where the small sector 620 and the large sector 630 are in contact with each other so that the cut surfaces 610 of the push rod guide 600 are separated from each other .

The steps 621 and 631 may further include projections 622 and 632 and projecting grooves 623 and 633 coupled to the projections 622 and 632, respectively. The protrusions 622 and 632 and the protrusions 623 and 633 increase the shear resistance of the cut surface 610 to prevent the cut surface 610 from being separated so as to maintain a firm fastening of the push rod guide 600 .

The push rod guide 600 may have a guide protrusion 660 inserted and fixed in the push rod through hole 330 toward the downward direction of the push rod opening 650. The guide protrusion 660 serves to securely fix the push rod guide 600 to the bottom surface of the bottom housing 300 so that the push rod guide 600 does not move.

The push rod guide 600 may further include a fixed blade portion 670 protruding from the outer circumferential surface at a radial distance of at least 90 degrees. The outer circumferential surface of the fixed blade portion 670 is fixed to the return spring 520, thereby fixing the push rod guide 600 on the lower surface of the bottom housing 300.

As described above, the push rod guide 600 can be easily fitted and assembled from the side of the push rod 500 by allowing the small fan-shaped portion 620 and the large fan-shaped portion 630 to rotate about the hinge groove 640 . In addition, the engagement surface of the small fan-shaped portion 610 and the large fan-shaped portion 620 has a feature that the cut-off surface 610 is prevented from being stepped and separated to maintain a firm fastening strength.

The conventional push rod guides are formed separately from each other, and each separated member uses a coupling member such as a bolt for fastening. This has a problem that it is difficult to maintain a firm clamping strength in a bottom housing having a narrow working space, and the manufacturing process is complicated, which causes a problem of delaying the process time. Further, there is a problem that the coupling member may be separated due to the vibration generated during the operation of the brake. The present invention has the features that can solve the conventional problems through the above-described structural features.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate description of the present invention and to facilitate understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

00: head housing 110: piston
120: actuator rod 130: compression spring
140: casing bolt 150: spring chamber
160: pressure chamber 200: adapter housing
300: bottom housing 310: service chamber
320: push rod chamber 400: diaphragm
500: push rod 510: push rod plate
520: return soup 530: yoke part
600: push rod guide 610: small sector
620: large sector 630: protrusion
640: Hinge groove 650: Push rod opening
660: guide protrusion 670: fixed wing

Claims (2)

An adapter housing which is provided between the head housing and the bottom housing and connects the head housing and the bottom housing to each other; a space between the adapter housing and the bottom housing, which is fixed between the adapter housing and the bottom housing, A diaphragm for dividing the image; A push rod that supports a bottom surface of the diaphragm and moves along a push rod through hole formed in a bottom surface of the bottom housing; A yoke portion connected to the push rod end; And a return spring disposed between the push rod and the bottom housing,
And a push rod guide which is assembled in the push rod axial direction side from the inside of the bottom housing after the push rod and the yoke portion are inserted into the push rod through hole,
The push rod guide
A cut-off surface is formed in a radial direction from the center of the circular plate, and the cut-off surfaces are formed with stepped portions to prevent slippage on the surfaces contacting with each other, And,
A hinge groove is formed in the radial direction of the circular plate on the upper surface of the circular plate which is 120 degrees or more and less than 180 degrees from the center of the circular plate from the cut surface so as to form a small fan shape and a large fan shape around the hinge groove, Wherein the large fan-shaped portion is relatively rotated about the hinge groove and inserted at a side of the push rod axis direction, and the small fan-shaped portion and the large fan-shaped portion are elastically restored and assembled around the hinge groove. Structure of push rod guide. The method according to claim 1,
Wherein the push rod opening
And a guide protrusion inserted into the push rod through-hole to fix the push rod guide.

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