KR20140059544A - Connection structure for hot water distributer made of engineering plastic material and hot water distributer having the same - Google Patents

Abstract

The present invention relates to a combining structure for hot heating water distributor made of engineering plastic materials, which comprises at least one distribution module used individually or by being connected with neighbors in a lengthwise direction, while being provided with multiple distribution ports; a front end connection module which is detachably connected to the front end of the distribution module to be connected with a boiler; and a rear-end finish module which shields the rear-end of the distribution module, while being connected with the rear-end of the distribution module. All of the distribution module, the front-end connection module, and the rear-end finish module are made of engineering plastic materials, and a male sleeve having a first latch is formed in one of a neighboring pair of modules for mutual connection, while a female sleeve having a second latch mutually combined with the first latch is formed on the opposite side.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot water distributing apparatus for heating plastic water,

The present invention relates to a combined structure of a hot water distribution device for heating engineering plastic materials and a hot water distribution device for heating the same. More particularly, the present invention relates to a hot water distribution device for heating, The present invention relates to a coupling structure of a hot water distribution device for heating an engineering plastic material and a hot water distribution device for heating the same.

In order to raise the floor temperature of a room or a living room, hot water heated by the boiler should be appropriately distributed and supplied to the bottom pipe of a room or a living room. At this time, a hot water distribution device for heating is used.

Such a hot water dispensing apparatus for heating is generally made of a monolithic structure made of metal such as stainless steel, brass, bronze, and the like. It can be seen that a hot water dispensing apparatus for heating a metal material is widely applied.

On the other hand, there is a growing interest in hot water distribution apparatuses made of a plastic material, due to factors such as a high price for hot water distribution apparatus for heating due to the surge in raw material values, and high heat loss.

However, in consideration of the fact that the number of spheres from 2 to 10 spheres should be applied according to the site conditions, it is necessary to provide a suitable number of hot water distributing apparatuses corresponding thereto. However, It is a reality that the utilization is low because of the difficulty of production.

In addition, in the case of a conventional hot water distribution apparatus for heating, it is generally manufactured in a fixed form to a certain bracket, so that installation is not easy and maintenance is also difficult in some cases. Is required.

Korea Patent Office Application No. 10-2006-0118783

It is an object of the present invention to provide a joining structure of a hot water distribution device for heating engineering plastic material which can be assembled and used in various ways according to the site conditions, And to provide a hot water distribution device for heating.

The object of the present invention is achieved by providing a dispensing module comprising: at least one dispensing module having a plurality of dispensing ports, the dispensing module being used alone or connected to each other along a longitudinal direction; A front end connection module detachably connected to the front end of the distribution module for connection with the boiler; And a rear end finishing module connected to the rear end of the distribution module and shielding the rear end of the distribution module, wherein the distribution module, the front end connection module and the rear end finishing module are all made of engineering plastics Wherein a male sleeve having a first latch is formed in one of a pair of adjacent modules for mutual connection and a female sleeve having a second latch which is mutually coupled with the first latch The present invention is achieved by a joining structure of a hot water distribution apparatus for heating an engineering plastic material.

The first latch may be provided as a protruding latch on a protruding portion protruding from the outer surface of the male sleeve, and the second latch may be a latch receiving hole into which the protruding latch is inserted, As shown in FIG.

The first latch may protrude in a circular shape and may be inclined to one side.

A phishing hole may be formed in the distribution module, the front end connection module, and the rear end finishing module to provide a coupling force in a region where the female sleeve is formed.

The present invention also relates to at least one distribution module having a plurality of distribution ports, which are used alone or connected to each other along the lengthwise direction; A front end connection module detachably connected to the front end of the distribution module for connection with the boiler; And a rear end finishing module connected to the rear end of the distribution module and shielding the rear end of the distribution module, wherein the distribution module, the front end connection module and the rear end finishing module are all made of engineering plastics Wherein a male sleeve having a first latch is formed in one of a pair of adjacent modules for mutual connection and a female sleeve having a second latch which is mutually coupled with the first latch Wherein the rear end finishing module has a closed end and an air vent connection is formed at an upper portion thereof, and a set in which the distribution module, the front end connection module, and the rear end finishing module are connected is provided by the boiler And a water supply distributor for supplying hot water to the distribution module, the front end connection module, The other one of which is connected to the sub-finishing module, forms a refill distributor to receive the refill provided to the boiler after heating, and the refill distributor and the refill distributor are provided with a pair of mounting plates The hot water dispenser is detachably coupled to the hot water dispenser.

According to the present invention, various assemblies can be selectively assembled and used according to the site conditions, and the assembly and maintenance work can be conveniently performed because the assembly is excellent.

1 is a perspective view of an installation state of a hot water distribution device for heating an engineering plastic material according to an embodiment of the present invention;
FIG. 2 is a partially exploded perspective view of FIG. 1,
Figure 3 is a perspective view of the dispensing module,
FIG. 4 is an exploded perspective view of FIG. 3,
5 is an enlarged view of the main part of Fig. 4,
Figure 6 is a view of Figure 5 from a different angle,
7 is a perspective view of a dispensing module in a hot water dispensing apparatus according to another embodiment of the present invention.

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

FIG. 3 is a perspective view of the distribution module, FIG. 4 is an exploded perspective view of FIG. 3, and FIG. 5 is an exploded perspective view of the distribution module of FIG. Fig. 4 is an enlarged view of the main part of Fig. 4, and Fig. 6 is a view of Fig. 5 from another angle.

Referring to these drawings, the hot water distribution apparatus for heating according to the present embodiment includes a pair of mounting plates 110, a water supply distributor 120 disposed in the upper rear row of the pair of mounting plates 110, And a water distributor (130) disposed in the middle front row of the plate (110).

1 and 2, the pair of mounting plates 110 is a structure for supporting the water supply distributor 120 and the water distributing distributor 130 with respect to the ground. A foot flange 111 is provided at the lower end of the mounting plate 110.

In order to install the water supply distributor 120 and the water distributor 130, mounting holes 112 are formed at different positions on the plate surface of the mounting plate 110, respectively.

The water-supply distributor 120 and the water-distributing distributor 130 differ only in their use, but their structures are substantially the same. For example, the water supply distributor 120 and the water distributing distributor 130 may be interchanged with each other, and a micro flow rate controller V2 may be installed at the upper end of the water supply distributor 120. The flow regulator (V1) may also be added to the water distributor (130) if necessary.

The water supply distributor 120 serves to supply (supply) the hot water provided from a boiler (not shown) to bottom pipes such as a room, a living room, and a kitchen, and the water distributing distributor 130 functions as a bottom pipe And sends the circulated water back to the boiler. Therefore, it is convenient that the piping work for heating can be easily completed simply by installing the hot water distribution device for heating as shown in FIG.

3 and 4, both the water supply distributor 120 and the water distributing distributor 130 are connected to the distribution module 140, the front end connection module 150 and the rear end finishing module 160 Are formed by one set.

The distribution module 140, the front end connection module 150, and the rear end finishing module 160 may all be made of plastic injection.

The distributor module 140, the front end connection module 150, and the rear end finishing module 160, which are connected to the water supply distributor 120 and the water distributor 130, The same reference numerals are given to the distribution module 140, the front end connection module 150, and the rear end finishing module 160, respectively.

The distribution module 140 refers to the remaining portions except the front end connection module 150 and the rear end finishing module 160 in FIGS.

In this embodiment, the distribution module 140 may be provided by connecting two two-unit distribution modules 141 provided with two distribution ports 141a.

In this case, since four distribution ports 141a are formed in total, four bottom pipes can be used for heating, such as two rooms, one living room, and one kitchen.

Of course, the structures of Figs. 3 and 4 are only one example. Therefore, it is possible to use only one of the two-sphere-based distribution modules 141, three or more of the two-sphere-based distribution modules 141, or to connect them to each other.

As a result, the present embodiment can provide various advantageous effects because it can be assembled and used in various ways according to the field conditions. Of course, in the case where such a structure is applied, it is necessary to be able to easily carry out installation or maintenance work with excellent assemblability, which will be described later.

A plurality of valve mounting holes 141b for mounting the flow rate regulators V1 and V2 are formed on the two-sided unit distribution module 141 constituting the distribution module 140 as shown in FIGS. The shape and structure of the valve mounting hole 141b may be changed according to the type of the flow rate regulator V1 or V2.

The front end connection module 150 is a kind of nipple detachably connected to the front end of the distribution module 140 for connection with the heating pipe. And a threaded pipe formed on the outer surface.

One end of the front end connection module 150 is connected to the front end portion of the distribution module 140 and the remaining portion is inserted into the installation through hole 112 of the mounting plate 110 until the flange 151 contacts, And is fixed by an assembling nut N1. Various nuts (N3) and nipples (N4) are connected to the front end of the front end connection module (150).

The rear end finishing module 160 is, for example, a side " nipple " nipple that is connected to the rear end of the distribution module 140 and has an end closure to shield the rear end of the distribution module 140.

One end of the rear end finishing module 160 is also connected to the rear end of the distribution module 140 and the remaining portion of the rear end finishing module 160 is inserted into the mounting hole 112 of the mounting plate 110 until the flange 152 contacts, And is fixed on the opposite side by an assembling nut (N2).

An air vent connector 162 is formed on the upper portion of the rear end finishing module 160. An air vent valve (V3) is connected to the air vent connection port (162), but may be selectively used for connection to a boiler pipe. Also, although not shown, the end of the portion where the assembly nut N2 is fastened is shielded.

As a result, after the front end connection module 150 and the rear end finishing module 160 are assembled on both sides of the distribution module 140, the front end connection module 150 and the rear end finishing module 160 (160) can be fixed to the mounting plate (110) while being mounted thereon. Therefore, the mounting structure can be easily assembled and maintenance work can be performed conveniently.

In the present embodiment, as described above, both the water supply distributor 120 and the water distributing distributor 130 are connected to the distribution module 140 (FIG. 1) formed by connecting the front end connection module 150 and the two- And the rear end finishing module 160 are connected to each other along the longitudinal direction thereof. In order to easily connect the four parts, the following assembly structure is used.

An assembly structure between the front end connection module 150 and the two-sided unit distribution module 141, an assembly structure between the two-sided unit distribution modules 141, an assembly structure between the two-sided unit distribution module 141 and the rear end finishing module 160 The bonding structures are all the same.

Therefore, the following description will be made with reference to FIG. 5 and FIG. 6 by selecting the two-sided unit distribution module 141 and the rear end finishing module 160, which are arranged adjacent to each other and are assembled to each other, .

5 and 6, a male sleeve 171 having a first latch 172 is formed at one end of the two-point unit distribution module 141 and a male sleeve 171 having one end 172 of the rear end finishing module 160 A female sleeve 181 having a second latch 182 coupled to the first latch 172 is formed.

At this time, the first latch 172 is provided as a protruding latch on the protruding portion 172a protruding from the outer surface of the male sleeve 171, and the second latch 182 is a latch accommodating hole into which the protruding latch is inserted. Is provided on a depression (182a) that is recessed from the inner surface of the base (181).

Only the male sleeves 171 and the female sleeves 181 may be combined, but they may not be aligned horizontally, that is, the sleeves may be misaligned because all the joining portions are circular. In other words, it is not easy to simply assemble the female / male, and if such a rigid coupling is not achieved, there is a risk of breakage or leakage of water due to the internal pressure of the distributor.

Therefore, in the present invention, a protruding latch which is the first latch 172 is formed in the male sleeve 171 and a latch receiving hole corresponding to the first latch 172, that is, a second latch 182 is formed in the female sleeve 181 So that it is not easy to disengage due to external force or pressure and it is possible to adjust the horizontal position easily. As shown in the figure, the first latch 172 has a circular shape and is inclined to one side so that the height of one side of the first latch 172 is increased. Accordingly, when the first latch 172 is coupled to the latch receiving hole, which is the second latch 182, the first latch 172 is strongly engaged with the second latch 182, So that the releasing becomes difficult. The second latch 182 is also formed to be inclined corresponding to the first latch 172.

In addition, a phishing hole 185 may be additionally formed in the female sleeve 181 so that the phishing operation can be performed later. Accordingly, since the plastic adhesive is basically applied to the joint portion, the bonding strength according to the latching method can be increased, and further, the additional bonding force can be secured by phishing, so that even if the assembly component is used, do.

According to the present embodiment having the structure as described above, various assemblies can be selectively assembled and used according to the site conditions, and assembly and maintenance work can be conveniently performed because the assemblage is excellent.

7 is a perspective view of a dispensing module in a hot water dispensing apparatus according to another embodiment of the present invention.

In this embodiment, the distribution module 240 may be provided by connecting the two-sided unit distribution module 141 and the three-sided unit distribution module 142.

In this case, since the total of five distribution ports 141a are formed, it is suitable to be used for heating the four bottom pipes in total, such as three rooms, one living room, and one kitchen.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

110: mounting plate 111: flange for foot
112: mounting hole 120: water supply distributor
130: Water distributing distributor 140: Distribution module
141: 2-unit distribution module 141a:
141b: valve installation port 150: front end connection module
160: rear end finishing module 171: male sleeve
172: first latch 181: female sleeve
182: second latch 183: phishing hole

Claims (5)

At least one distribution module having a plurality of distribution ports, which are used alone or connected to each other along a longitudinal direction; A front end connection module detachably connected to the front end of the distribution module for connection with the boiler; And a rear end finishing module connected to the rear end of the distribution module and shielding the rear end of the distribution module,
The distribution module, the front end connection module, and the rear end finishing module are all made of engineering plastic, and a male sleeve having a first latch is formed on one of a pair of adjacent modules for interconnecting, And a female sleeve having a second latch coupled to the first latch is formed on the opposite side of the first latch.
The method according to claim 1,
The first latch is provided as a protruding latch on a ridge protruding from the outer surface of the male sleeve,
Wherein the second latch is provided on a depression on the inner surface of the female sleeve as a latching hole into which the protruding latch is inserted.
3. The method of claim 2,
Wherein the first latch is protruded in a circular shape and is formed to be inclined to one side of the joining structure of the hot water distribution device for heating engineering plastic material.
The method according to claim 1,
Wherein a phishing hole for doubling a coupling force is further formed in a region of the distribution module, the front end connection module, and the rear end finishing module where the female sleeve is formed.
At least one distribution module having a plurality of distribution ports, which are used alone or connected to each other along a longitudinal direction; A front end connection module detachably connected to the front end of the distribution module for connection with the boiler; And a rear end finishing module connected to the rear end of the distribution module and shielding the rear end of the distribution module,
The distribution module, the front end connection module, and the rear end finishing module are all made of engineering plastic, and a male sleeve having a first latch is formed on one of a pair of adjacent modules for interconnecting, And a female sleeve having a second latch which is mutually coupled with the first latch,
The rear end finishing module may have an end closure and an air vent connection at an upper portion thereof,
A set connected to the distribution module, the front end connection module and the rear end finishing module forms a water supply distributor for supplying hot water provided from the boiler,
The other set to which the distribution module, the front end connection module and the rear end finishing module are connected forms a refill distributor for receiving the refill provided to the boiler after heating,
Wherein the water supply distributor and the water distributing unit are detachably coupled to a pair of mounting plates spaced apart from each other.

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