KR20140075179A - Apparatus for holding heat protector with preventing from vibration - Google Patents

Abstract

The present invention relates to a device for fixing a heat protector with vibration preventing function. The device can reduce costs by simplifying manufacturing processes by enabling manufacture through a minimum press process including a spring washer, a clamp, and the like, and improve durability by preventing damage due to external pressure or vibration by making the spring washer linearly contact other parts and absorbing the vibration of an exhaust manifold using elasticity.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a heat-

The present invention relates to a fixing device for a heat protector having a vibration insulation function.

Generally, an exhaust manifold of a vehicle engine is a tube for collecting exhaust gas discharged from each cylinder of an engine. The exhaust gas is extremely high at about 600 to 900 DEG C and is discharged to the outside of the vehicle through an exhaust pipe and a silencer.

Heat transfer from the exhaust manifold heated to high temperature during operation of the engine to surrounding components leads to thermal damage to surrounding components. To prevent this, a heat protector is fastened to the exhaust manifold with bolts.

The applicant of the present invention has proposed a heat protector for improving the structure of an isolator mounted for insulation in the middle of a heat protector covering an exhaust system of an engine to reduce the noise and vibration generated in the vibration system of the engine (Registration number 10-0528217).

1 and 2 are views for explaining a fixing device of a heat protector according to the patent of the present invention, and a fixing structure of the heat protector 1 will be described with reference to FIGS. 1 and 2. FIG.

In Fig. 1, the heat protector 1 is covered on the fixed portion 4 of the exhaust manifold, and three fixed portions 4 are arranged on the edge surface of the heat protector 1.

1, the holder 9 is arranged around a fixing hole formed in the heat protector 1 in order to fix the heat protector 1 with the bolt 2, A compression limiter 7 is inserted concentrically inside the holder 9 and the wire mesh 8 has a structure in which metal wires are tangled to form a disc shape, (9) and the compression limiter (7).

Fig. 2 is a cross-sectional view of the heat protector fixing device in the fixing portion of Fig. 1, wherein the bolt 2 is fastened to the fixing portion 4 of the exhaust manifold with the compression limiter 7 interposed therebetween.

The compression limiter 7 is composed of two compression rings 5 and 6 arranged at the top and the bottom, and each of the compression rings 5 and 6 has a diameter part And flange portions 5b and 6b that are formed in planes at the ends of the diameter portions 5a and 6a and are in surface contact with the upper surface of the fixing portion 4 of the bolt head and the exhaust manifold.

The compression limiter 7 receives the axial force of the bolt through the coupling structure of the upper and lower compression rings 5 and 6 to fix the heat protector 1 and to fix the diameter portions 5a and 6a The wire mesh 8 is prevented from being squeezed by the axial force of the bolt by providing the side space in which the wire mesh 8 is to be inserted between the upper and lower flange portions 5b and 6b.

The holder 9 has a S-shaped cross-sectional ring structure. The lower groove of the S-shaped ring surrounds the outer rim of the wire mesh 8, and the upper groove of the S- So that the heat protector 1 and the wire mesh 8 are fixed.

The wire mesh 8 has a structure in which a plurality of metal wires are entangled and is not completely fixed but has a structure capable of moving left and right with a predetermined gap between the upper compression ring and the upper compression ring. It is possible to prevent vibration from being transmitted to the heat protector 1 by absorbing vibration.

However, in the case of manufacturing with the above-described vibration insulation structure, the compression limiter 7 press-in process for press-fitting the lower compression ring 6 into the upper compression ring 5 and the press-fitting process for fixing the wire mesh 8 to the holder 9 A step of connecting the compression limiter 7 with the holder 9 to which the wire mesh 8 is fixed and the compression limiter 7 and the step of assembling the compression limiter 7, the wire mesh 8 and the holder 9 with heat protection 1), the manufacturing process is complicated and the cost increases.

Further, there is a problem that the wire mesh 8 is made of a very thin metal wire and is damaged by the external pressing force.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a spring washer and a clamp capable of being manufactured by a minimum pressing process, It is an object of the present invention to provide a heat-proofing device having a vibration insulation function capable of absorbing vibration of an exhaust manifold by using elasticity to prevent damages caused by external pressure or vibration to improve durability.

In order to accomplish the above object, according to the present invention, there is provided an apparatus for fixing a heat protector having a vibration insulation function, comprising: a bolt through a fixing hole of a heat protector and fastened to a fixing portion of an exhaust manifold, A clamp arranged to be able to contact the bottom surface of the head portion of the bolt and the fixed portion of the exhaust manifold so as to transmit the tightening force of the bolt; And a spring washer disposed between the clamps to fix the heat protector and to minimize vibration generated from the exhaust manifold in a line contact with the clamps.

Particularly, the clamp is characterized in that it is constituted by a clamp body which is arranged at the upper part and the lower part and which is formed in a circular cup or tube shape, and a flange part whose diameter is large at the end part of the clamp body.

The clamps disposed on the upper and lower sides are different in diameter and height from each other so that the lower clamp can be inserted into the upper clamp and the gap between the flange portions of the clamps is maintained by the height difference of the body, So that the line contact can be made.

The coupling state of the upper clamp and the lower clamp can be maintained by using a locking protrusion formed on the inner side surface of the upper clamp body and a locking protrusion formed on the upper side of the outer side of the lower clamp body.

A foil washer in the form of a flat plate is disposed between the spring washer and the heat protector to prevent wear of the heat protector.

Advantages of the fixing device of the heat protector having the vibration insulation function according to the present invention are as follows.

First, apply an upper spring washer and a lower spring washer between the upper clamp and the lower clamp, minimize the transmission area of vibration generated in the exhaust manifold by making each clamp and spring washer in contact with each other, By absorbing the vibration, noise and vibration radiated to the heat protector can be minimized.

Secondly, after assembling the components such as the clamp, the spring washer, the foil washer, and the like in sequence, the assembly can be completed by one operation, so that the operation is simple and easy, and the manufacturing cost can be reduced.

FIG. 1 is a perspective view of a conventional heat-
Figure 2 is a cross-sectional view of the heat-
Figure 3 is a perspective view and a bottom perspective view of a heat-
4 is a cross-sectional view of the heat-

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

The present invention relates to a fixing device for a heat protector having a vibration isolation function in which a manufacturing process is simple and costs are reduced, and a vibration insulation means is not damaged by compression.

The fixing device for a heat protector having a vibration insulation function according to the present invention includes a bolt 10, a clamp 17, a spring washer 15, and a foil washer as main components.

The bolt 10 is a fastening element and serves to fix the heat protector 1 to the exhaust manifold in the present invention.

The bolt 10 is composed of a head portion 10a and a stem portion 10b formed with a threaded portion and a screw portion formed in the stem portion 10b of the bolt 10 is fixed to the fixed portion of the exhaust manifold 4, the fastening force is generated in the downward axial direction of the stem portion 10b as it rotates along the helical thread.

The fastening force of the bolt 10 can be effectively transmitted by employing the bolt 10 with the flange bolt structure and the bottom portion of the head portion 10a is formed in the shape of a flange.

Threaded portion having no thread is formed in the stem portion 10b of the bolt 10 and a separation preventing tuck 10c is formed continuously in the circumferential direction in the non-threaded portion and a separation preventing tuck 10c is formed on the clamping body 11a So that the bolt 10 can be prevented from being easily detached from the clamp 17.

The clamp 17 has an upper clamp 11 disposed at the top to contact the bottom surface of the head portion 10a of the bolt 10 and a lower clamp 11 disposed at the bottom to contact the upper end surface of the fixing portion 4 of the exhaust manifold. (12).

The upper clamp 11 is composed of a clamp body 11a having a circular cup turned upside down and a flange portion 11b protruding outward in the radial direction from the lower end of the clamp body 11a.

A through hole is formed in the upper surface of the clamp body 11a of the upper clamp 11 so that the bolt 10 passes through the through hole and the bottom surface of the head portion 10a of the bolt 10 penetrates the upper surface of the clamp body 11a So that the fastening force of the bolt 10 is transmitted to the upper clamp 11.

The edge portion of the flange portion 11b of the upper clamp 11 is in line contact with the upper spring washer 13.

The lower clamp 12 is composed of a clamp body 12a having a circular tube shape and a flange portion 12b protruding outward radially from the lower end of the clamp body 12a.

The outer diameter of the clamp body 12a of the lower clamp 12 is formed to be slightly smaller than the inner diameter of the clamp body 12a of the upper clamp 11 so that the clamp body 12a of the lower clamp 12 is pressed against the upper clamp 11 can be inserted into the inside of the clamp body 11a.

The flange portion 12b of the lower clamp 12 is seated on the upper end of the fixing portion 4 of the exhaust manifold and the edge portion of the flange portion 12b comes into line contact with the spring washer 14.

The outer side of the clamp body 11a of the upper clamp 11 is longer than the inner side of the clamp body 11a of the clamp 12 so that the upper end of the clamp body 11a of the upper clamp 11 is lower A predetermined clearance is maintained between the flange portion 11b of the upper clamp 11 and the flange portion 11b of the lower clamp 12 when the flange portion 11b is inserted into the upper end surface of the clamp body 12a of the clamp 12, , This gap should be such that the upper and lower spring washers 13, 14 are inserted opposite each other to fix the heat protector 1.

In order to maintain the state where the upper clamp 11 and the lower clamp 12 are engaged with each other, a locking protrusion is formed inside the clamp body 12a of the upper clamp 11 at intervals in the circumferential direction, And is spaced from the inner upper end of the clamp body 11a.

The upper end of the clamping body 12a of the lower clamp 12 is connected to the upper end of the clamping body 12a of the lower clamping body 12 in the clamping body 12a of the lower clamping body 12, The upper clamp 11 can be prevented from being detached from the lower clamp 12 when the upper clamp 11 is inserted into the inner clamp 11a and is brought into contact with the upper end of the inner clamp 11a.

The spring washer 15 is composed of an upper spring washer 13 and a lower spring washer 14 disposed between the upper clamp 11 and the lower clamp 12 so as to face each other.

The spring washer 15 has washer bodies 13a and 14a made of a conical plate having a relatively low height in comparison with a diameter and a center hole formed in the center of the washer bodies 13a and 14a at regular intervals in the circumferential direction And a plurality of slots 13b and 14b formed in the outer radial direction in the central hole while being arranged and tooth portions 13c and 14c formed between the slots 13b and 14b.

At this time, the outer ends of the tooth portions 13c and 14c are integrally connected to the edge portions of the washer bodies 13a and 14a.

The tooth portion 13c of the spring washer 15 is formed so as to be inclined upwardly toward the central portion and has elasticity.

The upper spring washer 13 is disposed at the lower portion of the upper clamp 11 so that the inclined direction of the tooth portion 13c (the direction in which the diameter of the washer body 13a gradually decreases) And the lower spring washer 14 is disposed on the upper side of the lower clamp 12 so that the inclined direction of the tooth 13c faces upward so as to be in contact with the flange 11b of the lower clamp 12, And is in line contact with the flange portion 12b.

The lower end of the tooth portion 14c of the spring washer 14 is connected to and supported by the washer body 14a so that the upper end of the tooth portion 14c And both end portions of the tooth portion 14c are separated by the slots 14b to absorb the vibration as they have elasticity.

The foil washer 16 is formed in the shape of a flat disk, and a circular hole is formed in the center of the disk to allow the bolt 10 to pass through the hole.

The foil washer 16 is disposed between the heat protector 1 and the spring washer 15 to prevent wear of the heat protector 1 due to the movement of the spring washer 15. [

A method of assembling the heat protector fixing device having such a structure is as follows. The lower clamp 12 is mounted on the upper end of the fixing portion 4 of the exhaust manifold, and the lower spring clamp 12 is lowered onto the clamp body 12a of the lower clamp 12, The lower foil washer 16, the heat protector 1, the upper foil washer 16, and the upper spring washer 13 in this order.

The upper clamp 11 and the lower clamp 12 are assembled so that the clamp body 12a of the lower clamp 12 is inserted into the clamp body 12a of the upper clamp 11. Then,

At this time, when the upper clamp 11 is pushed until the upper end of the clamp body 12a of the lower clamp 12 comes into contact with the inside of the clamp body 12a of the upper clamp 11, the clamping jaw 12c of the lower clamp 12, The upper clamp 11 is fixed to the lower clamp 12 by engaging the upper clamp 11 on the hooking protrusion 11c of the upper clamp 11 and the flange 12b of the lower clamp 12 and the flange 12b of the upper clamp 11, (11b).

The upper spring washer 13 and the lower spring washer 14 are opposed to each other through the gap and each spring washer 15 is in close contact with the clamp and the foil washer 16 in line contact.

After the upper clamp 11 and the lower clamp 12 are assembled together, the stem portion 10b of the bolt 10 is passed through the through-holes of the upper clamp 11 and the lower clamp 12, And is fastened to the fastening portion 4 of the fastener.

The operation of the fixing device of the heat protector assembled by the above method will be described below.

When the bolt 10 is fastened, the axial force (fastening force) of the bolt 10 is transmitted to the upper clamp 11 and the lower clamp 12, and the flange portion 11b of the upper clamp 11 and the lower clamp 12 And the flange portion 12b of the flange portion 12b.

Of course, even if the fastening force of the bolt 10 is loosened, the fastening protrusion 11c of the upper clamp 11 and the fastening protrusion 12c of the lower clamp 12 are caught by each other, so that the upper clamp 11 and the lower clamp 12 can be maintained as they are.

Here, the vibration generated from the exhaust manifold is divided into two paths, that is, a path (first path) that is transmitted from the fixed portion 4 of the exhaust manifold to the lower clamp 12, Is transmitted to the upper and lower clamps 11 and 12 through the stem portion 10b of the bolt 10, the head portion 10a of the bolt 10, and the upper clamp 11 (second path) The upper spring washer 13 and the lower spring washer 14 disposed between the lower clamp 11 and the lower clamp 12 are brought into line contact with the respective clamps 17 to thereby be transmitted from the clamp 17 to the spring washer 15 It is possible to minimize noise and vibration radiated to the heat protector 1 by absorbing the vibration using the elasticity of the tooth portion 13c of the spring washer 15. [

Further, since the assembling of the clamp 17, the spring washer 15, the foil washer 16, and the like can be completed in a single operation, the operation is simple and easy, Can be saved.

1: Heat Protector
4: Exhaust manifold fixing portion
10: Bolt
10a: head portion
10b:
10c:
11: Upper clamp
11a: Clamp body
11b: flange portion
11c:
12: Lower Clamp
12a: Clamp body
12b: flange portion
12c:
13: Upper spring washer
13a: Washer body
13b: Slot
13c:
14: Lower spring washer
14a: Washer body
14b: Slot
14c:
15: Spring washer
16: Foil washers
17: Clamp

Claims (5)

A bolt 10 which passes through the fixing hole of the heat protector 1 and is fastened to the fixing part 4 of the exhaust manifold so as to fix the heat protector 1;
A clamp 17 arranged to be able to contact the bottom face of the head portion 10a of the bolt 10 and the fixed portion 4 of the exhaust manifold so as to transmit the tightening force of the bolt 10; And
A spring washer 15 disposed between the clamps 17 for fixing the heat protector 1 and making contact with each clamp 17 in order to minimize vibration generated from the exhaust manifold;
And a vibration isolating function for fixing the heat protector.
The method according to claim 1,
The clamp 17 has clamp bodies 11a and 12a which are respectively disposed at upper and lower parts and are formed in the shape of a circular cup or tube and flange portions 11b and 11b having a large diameter at the end portions of the clamp bodies 11a and 12a. 12b). ≪ RTI ID = 0.0 > 11. < / RTI >
The method of claim 2,
The clamps 17 disposed at the upper portion and the lower portion are different in diameter and height from each other so that the lower clamp 12 can be inserted into the upper clamp 11 and the flange of each clamp 17 Wherein a line contact is made between the spring washer (15) and the clamp (17) by maintaining a gap between the spring portions (11b, 12b).
The method of claim 2,
The upper clamp body 11a and the lower clamp body 12a are fixed to each other by using a locking protrusion 11c formed on the inner side of the upper clamp body 11a and a locking protrusion 12c formed on the upper end of the outer side of the lower clamp body 12a. Wherein the first and second fixing portions are formed to be able to maintain a coupled state.
The method according to claim 1,
And a foil washer (16) disposed between the spring washer (15) and the heat protector (1) to prevent wear of the heat protector (1) Fixing device of heat protector.

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