KR100535372B1 - Connecting device for angle variableness type - Google Patents

Abstract

The first feature of the present invention,

An inclined flange having a ring-shaped inclined flange with respect to one of the front and rear surfaces; A plurality of first fastening ribs integrally formed on an outer circumferential surface of the inclined flange and bolted to an insert plate of a manhole; A plurality of second fastening ribs positioned between the first fastening ribs and fastened to the first fastening ribs of another inclined flange.

The second feature of the present invention is that

A ring-shaped flange portion having an insert plate of a manhole or a fastening rib bolted to the second fastening rib of the inclined flange according to claim 1; It is integrally formed on the rear of the flange portion, is formed to be inclined by a predetermined angle with respect to the flange portion, a cylindrical socket portion having an inner diameter larger than the inner diameter of the flange portion;

Description

Connecting device for angle variableness type

The present invention relates to an angle adjusting connector used to interconnect a manhole and a connection pipe which are shifted from each other.

In general, a manhole is a structure made of concrete, metal, or non-metal buried underground for human access to inspect or clean underground water pipes, underground cables, and pavement. It is installed in the direction of a change of direction, a starting point or intersection, or a long straight part, and the bottom may be the same as the bottom of a pipeline or may be able to receive sediment.

In the normal structure of the manhole 1, as shown in Figs. 1 and 2, a connection hole 1a for connecting the connection pipe 2 is formed. When connecting the connection pipe to the connection hole, it is most preferable to connect the connection hole and the connection pipe on the same axis, but when the connection hole and the connection pipe are displaced for obstacles or other reasons, as shown in FIG. The connection hole and the connection pipe are connected by using the angle tube 3 bent to the shifted angle.

However, since these angle tubes are not variable in angle, if the angle between the connection hole and the connection tube is larger or smaller than the expected angle, a new angle tube must be prepared. .

In another example, as shown in FIG. 2, the connection hole 1a of the manhole 1 is made larger than the outer diameter of the connection pipe 2 connected thereto, and the connection pipe is inserted into the connection hole at a desired angle. In order to maintain it, there is a method of closing the gap between the connection hole and the connection pipe 3 with mortar (M).

However, this method is difficult to maintain watertightness because the finish of the manhole wall and mortar are not integrated, and there is no space for elasticity at the connection part of the connection pipe even after a slight manhole settlement after the manhole installation. It opens and causes a leak.

Therefore, the present invention has been made to solve the conventional problems as described above, the main object of the present invention even if the manhole and the connection pipe is in a state of mutually shifted angles to adjust the angle to fit the state, the angle can be easily connected to each other To provide an adjustable connector.

The first feature of the present invention for achieving the above object,

An inclined flange in which the other surface is inclined with respect to any one of the front and rear surfaces; A plurality of first fastening ribs integrally formed on an outer circumferential surface of the inclined flange and bolted to an insert plate of a manhole; A plurality of second fastening ribs positioned between the first fastening ribs and fastened to the first fastening ribs of another inclined flange.

The second feature of the present invention is that

A ring-shaped flange portion having an insert plate of a manhole or a fastening rib bolted to the second fastening rib of the inclined flange according to claim 1; It is integrally formed on the rear of the flange portion, is formed to be inclined by a predetermined angle with respect to the flange portion, a cylindrical socket portion having an inner diameter larger than the inner diameter of the flange portion;

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Angle adjusting connector of the present invention is divided into a flange type and a socket type.

Flanged End Connections: See FIGS. 3-8A, B, C

Flange-shaped connector 10 for adjusting the angle of the first embodiment is the inclined flange 11, the other end surface is formed to be inclined with respect to any one of the cross section of one side and the other side, the inner diameter of both sides (garden); A plurality of first fastening ribs 12 integrally formed on the outer circumferential surface of the inclined flange and fastened to the insert plate 2 of the manhole 1 as bolts B; It is composed of a plurality of second fastening ribs 13 which are positioned between the first fastening ribs and fastened to the first fastening ribs of other inclined flanges.

In addition, a protruding annular portion 11a having a packing groove 11b into which the annular packing P is press-fitted is formed at one end surface of the inclined flange 11, and a protruding annular portion of another inclined flange is inserted into the other end surface. The depression ring portion 11c is formed.

In addition, on the surface on which the protruding annular portion 11a of the inclined flange 11 is formed, several assembling jaws 11d are formed, and on the opposite end, an assembling jaw insertion groove 11e into which the assembling jaws of another inclined flange is inserted. It is. The use of the assembly jaw (11d) and the assembly jaw insertion groove (11e) is in the appropriate range as the assembly jaw is inserted into the assembly jaw insertion groove when rotating any of the inclined flange for the angle conversion in the state of the two inclined flanges It limits the rotation angle of the inclined flange. In addition, it also plays a role in preventing the infinite rotation of the inclined flange, that is, rotation slip and departure.

A nut N is inserted into the second fastening rib 13 for bolting with the first fastening rib of another inclined flange.

In addition, the serial numbers 12a and 13a are sequentially marked on the surfaces of the first fastening ribs 12 and the second fastening ribs 13 by painting or stamping or other methods.

Hereinafter, the coupling process and action for the angle-adjustable flange connector.

When coupling the connector 10 to the manhole 1, each of the first fastening ribs 12 and the insert plate 2 are bolted (B) while the front projection 11a is in close contact with the insert plate 2. Fasten as). At this time, the packing (P) is pressed into the packing groove (11b) of the protruding annular portion (11a) in close contact with the insert plate 2 it is possible to maintain the watertight between the insert plate and the inclined flange (11).

If one connector can be combined with the connection pipe 3 only in the state of being coupled to the manhole, as shown in FIG. 6, it is connected with the second fastening rib 13 of the connector that is already coupled without using any more connectors. The binding flange 4 coupled to the pipe 3 and the bolt B may be coupled.

On the other hand, if it is impossible to combine the connector with only one connector, as shown in Figure 7 may be used by additionally stacking several (n) of the connector to the connector already coupled. For convenience of explanation, a case in which two connectors are connected to each other will be described as an example. When the connector located at the manhole side is referred to as a first connector, and the connector laminated at the rear is referred to as a second connector, the first connector is stacked. As the rotation angle of the second connector is changed in the state, the angle combined by the first and second connectors can be adjusted in various ways.

For example, as shown in FIG. 8A, if the connector located at the manhole side is called the first connector, and the connector located at the connector side is called the second connector, when the two connectors are connected, the maximum thickness of the first and second connectors is This method is applied when the inclination angle of the connection pipe 3 is large because the rear end surface of the second connector 10a is deformed at a large angle θ ₁ based on the front surface of the first connector 10 when the layers are stacked in accordance with each other. Are utilized.

If the inclination angle of the connection pipe is smaller than this, as shown in FIG. 8B, the angle combined by the first connector and the second connector is compared with 8a while rotating the second connector 10a based on the first connector 10. It can be changed slightly smaller (θ ₂ ). In addition, depending on the rotation angle, as shown in FIG. 8C, the angle combined by the first connector and the second connector may be 0 ° (θ ₃ ). The latter case is an example used when the installation angles of the connection holes of the manholes and the connection pipes coincide.

On the other hand, the serial number (12a, 13a) formed on the surface of the first fastening ribs 12 and the second fastening ribs 13 when adjusting the combination angle of the two laminated connectors, for example 1 and 2 combinations If the combination angle is a few degrees, or when the third and the fifth meets the role of displaying the combination angle is how easy it is to be recognized by the eye, the same applies to the embodiments described below.

On the surfaces of the first fastening ribs 12 and the second fastening ribs 13, serial numbers 12a and 13a are sequentially marked or painted or stamped.

Socket type connector: see FIGS. 9, 10 and 11

The socket-shaped connector 30 for adjusting the angle includes a fastening rib 32 which is bolted to the insert plate 2 of the manhole 1 or the second fastening rib 13 of the inclined flange 10 according to the first embodiment. A ring-shaped flange portion 31 having; It is formed integrally on the rear of the flange portion, is formed to be inclined by a predetermined angle with respect to the flange portion, a cylindrical socket portion 33 having an inner diameter larger than the inner diameter of the flange portion;

At this time, a protruding annular portion 31a having a recess 31b into which the annular packing P is press-fitted is formed on the front surface of the flange portion 31, and a protruding annular portion of the flange portion 31 is formed. On the surface on which 31a) is formed, several assembling jaws 31c are formed which are inserted into the assembling jaw insertion grooves 11e formed at the rear of the angle adjusting flange type connector mentioned in the first embodiment. Since the role of this assembly jaw has been described above will be omitted.

Hereinafter, the coupling process and action for the above-described angle adjustment socket-type connector.

The socket-shaped connector 30 for angle adjustment is directly connected to the insert plate 2 of the manhole 1 or the flange-shaped connector 10 for angle adjustment to the manhole 1 is fastened by a bolt B. The connector 30 is coupled to the angle adjustable flange on the rear. At this time, the number of connectors and the installation angle of the connector should be adjusted according to the inclination angle of the connection pipe (3). When the connector 30 of the third embodiment is engaged, the inclined connection pipe 3 fitted with the packing P on the outer circumferential surface is press-fitted into the inside of the socket 33.

Such a socket type is simpler than the fastening type because the connection pipe (3) just plug in.

As described above, the connector of the present invention

Even if the installation angle between the connection pipe and the manhole is shifted, there is an advantage that it is possible to connect the manhole and the connection pipe precisely and simply by freely adjusting the angle of the connection section. The combination state is good because there is no rotation slip phenomenon when the angle can be adjusted accurately.

In addition, in order to connect the manhole and the connection pipe in the field only need to prepare a plurality of connectors so that the connection between the manhole and the connection pipe without additional preparation can be shortened construction period.

1 is a connection state diagram of a conventional manhole and inclined connector 1

Figure 2 is a connection state of the conventional manhole and inclined connection pipe 2

Figure 3 is a perspective view of the flange type connector for angle adjustment according to the present invention

4 is a cross-sectional view taken along line II of FIG. 3.

5 is a cross-sectional view taken along the line II-II of FIG. 3.

Figure 6 is an installation example 1 of the flange type connector for angle adjustment

Figure 7 is an installation example 2 of the flange type connector for angle adjustment

8a to 8c is an illustration of the angle adjustment using the flange-shaped connector for angle adjustment

9 is a perspective view of the socket-shaped connector for angle adjustment according to the present invention

10 is a longitudinal cross-sectional view of FIG.

11 is an installation state of the socket-shaped connector for angle adjustment

<Explanation of symbols for main parts of the drawings>

10: Flange type connector for angle adjustment

11: inclined flange 12: first tightening rib

13: 2nd fastening rib

30: socket type connector for angle adjustment

31 Flange 32 Tightening rib

33: socket portion

Claims (8)

An inclined flange 11 in which the other surface is inclined with respect to any one of the front and rear surfaces; A plurality of first fastening ribs 12 integrally formed on an outer circumferential surface of the inclined flange and bolted to the insert plate 2 of the manhole; Flange-type connector for angle adjustment, characterized in that consisting of; a plurality of second fastening ribs (13) positioned between the first fastening ribs, and fastened to the first fastening ribs of the other inclined flange. According to claim 1, The front of the inclined flange 11 is formed with a protruding annular portion (11a) is provided with a packing groove (11b) in which the annular packing (P) is press-fitted, the back of the recessed annular portion (11c) protruding annular portion of the other inclined flange Flange type connector for angle adjustment, characterized in that formed. The method according to claim 1 or 2, An assembly jaw (11d) is formed on one side end surface of the inclined flange, the other end flange flange connector characterized in that the assembly jaw insertion groove (11e) is formed is inserted into the other assembly of the inclined flange. According to claim 1, Flange type connector for angle adjustment, characterized in that the nut (N) is inserted in the second fastening rib (13). The method according to claim 1 or 4, Flange type connector for angle adjustment, characterized in that the serial number (12a, 13a) is sequentially painted or stamped on the surface of the first fastening rib 12 and the second fastening rib (13). (correction) Ring type having fastening ribs 32 bolted to the second fastening ribs 12 of the inclined flange 11, the other of which is inclined with respect to either the insert plate 2 or the front and rear surfaces of the manhole 1 Flange portion 31; It is formed integrally on the rear of the flange portion, is formed to be inclined by a predetermined angle with respect to the flange portion, a cylindrical socket portion 33 having an inner diameter larger than the inner diameter of the flange portion; socket type connector for angle adjustment characterized in that consisting of . The method of claim 6, Angled socket-type connector, characterized in that the protruding annular portion (31a) having a groove (31b) in which the annular packing is pressed in the front surface of the flange portion. The method according to claim 6 or 7, Socket type connector for angle adjustment, characterized in that the projection jaw (31c) is formed on the outer circumference of the protruding annular portion (31a).