JP2018053976A - Electric fusion device and electric fusion method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method capable of improving the efficiency of the fusion wort by enabling a plurality of electric fusion joints to simultaneously fuse with mainly one fusion control device.SOLUTION: An electric fusion device 3 comprises: a fusion control device 8 for supplying the electric power for fusion to an electric fusion joint 4; and an electric power supply cable 9 connectable between the fusion control device 8 and the electric fusion joint 4. The fusion control device 8 or the electric power supply cable 9 includes an addition connection 13 capable of connecting a different electric fusion joint 12 via an addition cable 11. The fusion control device 8 also includes an addition cable detector capable of detecting the addition cable 11 connected to the addition connection 13.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an electrofusion apparatus and an electrofusion method.

  An electrofusion apparatus is used to join resin pipe members together. This electric fusion apparatus includes a fusion control apparatus that supplies electric power for fusion to a short tubular electric fusion joint that can be fitted to an end of a pipe member to be joined, and the fusion control apparatus. A power supply cable that can be electrically connected to the electric fusion joint is provided (for example, see Patent Document 1).

  A coiled heating wire is embedded inside the above-mentioned electric fusion joint, and terminals for connecting connectors of a power feeding cable are provided at both ends of the heating wire.

JP 2002-243086 A

  However, since the above-mentioned electrofusion apparatus can fuse only one electrofusion joint at the same time, the efficiency of the fusion work is not good.

  Accordingly, the main object of the present invention is to solve the above-described problems.

  In order to solve the above-described problems, the present invention is capable of connecting a fusion control device that supplies electric power for fusion to an electric fusion joint, and the fusion control device and the electric fusion joint. An electric fusion apparatus comprising a power supply cable, wherein the fusion control device or the power supply cable includes an extension connection portion capable of connecting another electric fusion joint via an extension cable, and the fusion welding The control device includes an extension cable detection unit capable of detecting that the extension cable is connected to the extension connection unit.

  According to the present invention, with the above-described configuration, a plurality of electric fusion joints can be simultaneously fused with a single fusion control device, and the efficiency of fusion work can be increased.

It is sectional drawing of the electrofusion joint which shows the electrofusion apparatus concerning this Embodiment. It is a block diagram which shows an electrofusion apparatus and an electrofusion joint when the fusion control apparatus is provided with the connection part for expansion. It is a block diagram which shows an electrofusion apparatus and an electrofusion joint when the connection part for extension is provided in the electric power feeding cable. It is an internal block diagram of a fusion control apparatus. It is a block diagram which shows the example of the electrofusion apparatus which has a some display part. It is a flowchart which shows the control state of an electrofusion apparatus.

Hereinafter, the present embodiment will be described in detail with reference to the drawings.
1 to 6 are for explaining this embodiment.

  <Configuration> The configuration will be described below.

  As shown in FIG. 1, an electrofusion apparatus 3 is used to join the resin pipe members 1 and 2 together. The electric fusion device 3 supplies electric power to the electric fusion joint 4 fitted on the ends of the resin pipe members 1 and 2 to be joined. By melting the boundary surface between the tube members 1 and 2, the two tissues are fused and integrated.

  Here, the electric fusion joint 4 is obtained by embedding a coil-shaped heating wire 6 in the (thick) inside of a joint body 5 having a short tubular shape. Then, both ends of the heating wire 6 are guided from the positions near the both ends of the electric fusion joint 4 to the outside of the electric fusion joint 4 to constitute a pair of terminals 7a and 7b. The joint body 5 is made of substantially the same material as the pipe members 1 and 2.

  The electric fusion device 3 includes a fusion control device 8 (fusion fusion control device 8) that supplies electric power for fusion to the electric fusion joint 4, and the fusion control device 8 and the electric fusion device. And a feeding cable 9 that can be electrically connected to the joint 4 (the terminals 7a and 7b). The power supply cable 9 is a two-core cable having two core wires for + and − poles, and a connector 9a for connecting to the terminals 7a and 7b of the electric fusion joint 4 at its end. , 9b. The power supply cable 9 may be configured to be detachable from the fusion control device 8.

  And with respect to the above basic or whole structure, the electrofusion apparatus 3 of this Example is provided with the following structures.

(1) The fusion control device 8 (see FIG. 2) or the power feeding cable 9 (see FIG. 3) includes an extension connecting portion 13 to which another electric fusion joint 12 can be connected via the extension cable 11. Like that.
The fusion controller 8 includes an extension cable detection unit 14 (see FIG. 4) that can detect that the extension cable 11 is connected to the extension connection unit 13.

  Here, one or a plurality of other electric fusion joints 12 can be provided.

  The extension cable 11 is, for example, a three-core cable having two core wires for + and -poles and a discrimination line (resistance wire) that becomes a pseudo resistance, like the power supply cable 9. The extension cable 11 has a plug 15 that can be attached to and detached from the extension connection portion 13 at one end side, and is inserted into the terminals 12a and 12b of another electrofusion joint 12 at the other end side. Connectors 11a and 11b are provided.

  The extension connection portion 13 can be provided for one or both of the fusion control device 8 and the feeding cable 9. When the extension connection portion 13 is provided in the power supply cable 9, for example, the extension connection portion 13 is preferably installed in the middle of the power supply cable 9. In the power supply cable 9, the fusion controller 8 is a three-core cable provided with a discrimination line (resistance wire) rather than the connection portion 13 for expansion. In this case, the power supply cable 9 can be divided into a portion on the fusion control device 8 side and a portion on the electric fusion joint 4 side at the position of the extension connection portion 13.

  For example, the extension connection unit 13 preferably has a function of preventing the extension cable 11 from coming off.

  The fusion control device 8 includes at least an input unit 21 that can be operated manually and a display unit 22 that performs display for guiding the fusion procedure. Further, the fusion control device 8 is a barcode reader 25 (external input unit) for reading the barcodes 23 and 24 installed (or attached) to the electrical fusion joint 4 or another electrical fusion joint 12. It has. The bar codes 23 and 24 are coded and displayed information (for example, shape, size, resistance value, etc.) regarding the electric fusion joint 4 or another electric fusion joint 12.

  As shown in FIG. 5, the fusion control device 8 may have a plurality of display units 22 for the electric fusion joint 4 and for another electric fusion joint 12. Then, the input unit 21 and the barcode reader 25 may be switched by the changeover switches 26a and 26b.

  Further, as shown in FIG. 4, the fusion control device 8 includes a power supply unit 27 that can supply fusion power and predetermined information based on input information from the barcode reader 25 and the input unit 21. A control unit 28 that performs processing and controls the display unit 22 and the power supply unit 27 is provided. In the case of FIG. 5, a plurality of power supply units 27 may be provided inside according to the plurality of display units 22.

  The control unit 28 includes an arithmetic device 31 such as a CPU and a storage device 32 such as a memory. Further, the control unit 28 uses the CPU and memory to control the input from the barcode reader 25 and the input unit 21 and the output to the display unit 22 and the power supply unit 27, and performs the predetermined processing described above. A program 33 is provided for execution. The program 33 is stored in advance in the memory and is executed by the CPU.

  In this embodiment, the control unit 28 includes the additional cable detection unit 14 described above. The extension cable detection unit 14 can detect the resistance of the determination line when the extension cable 11 is connected to the extension connection unit 13. The extension cable detection unit 14 can be created by the program 33.

  (2) The fusion control device 8 is connected to the expansion connection portion 13 when the expansion cable 11 is connected and no other electric fusion joint 12 is connected to the expansion cable 11. You may make it provide the electric power feeding regulation part 41 which regulates supply of the electric power by the arrival control apparatus 8. FIG.

  Here, whether or not another electric fusion joint 12 is actually connected is determined by conducting preliminary energization to the power supply cable 9 and the extension cable 11 before starting the electric fusion, and the resistance value of the circuit. It can be detected by measuring. If another electric fusion joint 12 is connected to the extension cable 11, the electric fusion joint 4 and the other electric fusion joint 12 are connected in parallel, so that the measured resistance value is reduced and another electric fusion joint 12 is connected. If the fusion joint 12 is not connected, only the electric fusion joint 4 is connected, so that the measured resistance value is increased. The power supply regulation unit 41 can be created by the program 33.

(3) Hereinafter, the electrofusion method will be described.
In this electrical fusion method, fusion power is supplied from the fusion control device 8 to the electrical fusion joint 4 via the power supply cable 9, thereby causing the electrical fusion joint 4 to perform fusion.
At this time, the extension cable 11 is connected to the extension connecting portion 13 provided in the fusion control device 8 or the feeding cable 9.
Connecting the feeding cable 9 to the electric fusion joint 4;
In a state where the extension cable 11 is connected to another electric fusion joint 12,
When the extension cable detection unit 14 provided in the fusion control device 8 detects that the extension cable 11 is connected to the extension connection unit 13 (only),
At the same time as supplying the fusion power from the fusion control device 8 to the electric fusion joint 4 via the power supply cable 9, another electric fusion joint 12 is provided from the fusion control device 8 via the additional cable 11. By supplying electric power for fusing, fusion by another electric fusion joint 12 is performed simultaneously with fusion by the electric fusion joint 4.

  That is, when performing the simultaneous fusion, if the extension cable detection unit 14 does not detect that the extension cable 11 is connected to the extension connection unit 13, the extension cable 11 is correctly connected. Therefore, the power supply regulation unit 41 prevents energization. Further, when only one electric fusion joint 4 is fused, the extension cable detection unit 14 also detects that the extension cable 11 is connected to the extension connection unit 13, and unnecessary extension is required. Since the cable 11 is connected and the connectors 11a and 11b become vacant terminals, the power supply restricting unit 41 prevents energization.

  <Operation> The operation of this embodiment is as follows.

  First, as shown in the flowchart of FIG. 6, the control by the control unit 28 is started by turning on the power of the fusion control device 8.

  Then, an initial display is displayed on the display unit 22 of the fusion controller 8 in step S1. In the initial display, for example, an order number, a contractor, an application, and the like are displayed, and characters for prompting input such as “Please enter a construction information number” are displayed, and the process proceeds to step S2.

  In step S2, a selection screen for “gas” or “water distribution” is displayed on the display unit 22, and input is awaited. Hereinafter, a case where “water distribution” is selected will be described. Note that the case where “gas” is selected is substantially the same as the case of “water distribution”, and thus the description thereof is omitted.

  When “Distribution” is selected in step S2, the process proceeds to step S3, where characters “fusion location: 1 location / 2 locations” and characters that prompt input such as “select a fusion location” are displayed. It is displayed on the part 22 and proceeds to step S4.

  In step S4, a selection screen of “1 place” or “2 places” is displayed on the display unit 22 and waits for input.

  When “one place” is selected in step S4, the process proceeds to step S5, where the extension cable detection unit 14 detects whether the extension cable 11 is connected to the extension connection unit 13, and when it is not connected (NO) , The process proceeds to step S6 to perform fusion, and if connected (YES), the process proceeds to step S7, and the power supply regulation unit 41 forcibly ends the fusion. In addition, in the case of NO in step S6 (in the case of “one place”), the description is omitted because it is as it is.

  When “2 places” is selected in step S4, the process proceeds to step S9, and the characters “Please connect the joint” are displayed on the display unit 22 in step S9, waiting for input.

  In step S10, the connectors 9a and 9b of the power feeding cable 9 are connected to the terminals 7a and 7b of the electric fusion joint 4, the extension cable 11 is connected to the extension connection part 13, and the terminal of another electric fusion joint 12 is connected. When it is detected that the connectors 11a and 11b of the extension cable 11 are connected to 12a and 12b, the process proceeds to step S11 and the resistance value of the circuit is measured. Since the electric fusion joint 4 and another electric fusion joint 12 are connected in parallel, the circuit resistance value is halved when they have the same resistance value.

  Next, the process proceeds to step S12, and characters such as “Please input the information of the barcode (barcode 23 or barcode 24)” are displayed on the display unit 22, and the input is waited for.

  When the barcode 23 or the barcode 24 is read in step S13, and the information of the barcodes 23 and 24 is input, the process proceeds to step S14 and the resistance value in the read barcodes 23 and 24 is reduced to 1/2. Then, the process proceeds to step S15.

  Next, it is determined whether or not the resistance value of the circuit measured in step S15 is equal to ½ of the resistance value read from the barcodes 23 and 24.

  If these resistance values do not match, the process proceeds to step S16 to display an error (such as “abnormal joint resistance value”) on the display unit 22, and the power supply regulation unit 41 regulates the supply of power.

  If the resistance values coincide with each other, the process proceeds to step S17 to display a character “start energization at start” on the display unit 22 and wait for the start button operation.

  When the operation of the start button is confirmed in step S18, the process proceeds to step S19 to start fusing by energization. After energization for a required time, the process proceeds to step S20 to automatically end the energization and end the fusing.

  Then, in step S21, the characters “Please remove the clamp after cooling” are displayed on the display unit 22, and a standby state is entered.

  Thereafter, when the connectors 9a and 9b are removed from the terminals 7a and 7b of the electric fusion joint 4 in step S22, one fusion operation is completed, so the process returns to step S3 and the above can be repeated. Become.

  And control is complete | finished when the power supply of the fusion | melting control apparatus 8 is turned off.

  <Effect> According to this embodiment, the following effects can be obtained.

  (Effect 1) The fusion control device 8 or the power supply cable 9 is provided with the extension connecting portion 13. This makes it possible to connect another electrical fusion joint 12 to the extension connection portion 13 via the extension cable 11. As a result, one fusion control device 8 can simultaneously and appropriately perform fusion by the electric fusion joint 4 and fusion by another electric fusion joint 12. Thereby, the efficiency of the fusion work can be improved. In addition, since welding to the plurality of electric fusion joints 4 can be performed with only one fusion control device 8, the cost can be suppressed. Furthermore, since the extension connection unit 13 can be provided by improving the existing fusion control device 8 or the power supply cable 9, the existing fusion control device 8 or the power supply cable 9 can be effectively used.

  At this time, the extension cable detection unit 14 can detect whether or not the extension cable 11 is connected to the extension connection unit 13. Thereby, it is possible to confirm a connection error or disconnection of the extension cable 11 with respect to the extension connection section 13. As a result, when the extension cable 11 is not correctly connected, it becomes impossible to energize, so that it is possible to improve work reliability and safety.

  On the other hand, for example, another forked cable is attached to the connectors 9a and 9b of the feeding cable 9 with respect to the existing electrofusion apparatus 3 that is not provided with the connecting portion 13 for expansion, and is connected via another forked cable. Thus, an unexpected usage method is conceivable in which, for example, fusion by a plurality of electric fusion joints 4 is performed simultaneously. However, in this case, since the resistance value of the circuit is halved by connecting the plurality of electric fusion joints 4 in parallel, it is necessary to correct the setting of the fusion controller 8.

  Therefore, in order to facilitate the correction of the setting of the fusion control device 8, for example, a plurality of barcodes 23 on which the resistance value in the case of performing fusion on the electric fusion joint 4 alone and a plurality of barcodes are fused simultaneously. In this case, it may be possible to change the setting by using the two types of barcodes 23 and different barcodes by pasting another barcode in which the resistance value is recorded. However, if this is done, the cost will be increased by that amount, and human error such as misreading of the barcode 23 and another barcode is likely to occur.

  In addition, in the state where another bifurcated cable is attached to the feeding cable 9, the reverse usage is such that only one electric fusion joint 4 is connected to one connector of another bifurcated cable to perform fusion. It is also possible to end up. However, if this is done, the other connector of another bifurcated cable becomes a vacant terminal and becomes a bare terminal, which may cause leakage or electric shock from the vacant terminal, and safety cannot be ensured. .

  However, as in this embodiment, by providing the extension connecting portion 13 so that the extension cable 11 can be properly connected, the above-mentioned problems such as cost, human error and safety can be eliminated. it can.

  (Function and Effect 2) In addition to the above, the fusion control device 8 may include the power supply regulation unit 41. As a result, when the extension cable 11 is connected to the extension connection section 13 and another electrical fusion joint 12 is not connected to the extension cable 11, the fusion controller 8 supplies power. It can be forcibly regulated. This eliminates energization of the vacant terminals, making it possible to improve work safety and the like.

  (Effect 3) Moreover, according to the above-mentioned electrofusion method, the same effect as the above can be obtained.

  As mentioned above, although embodiment of this invention has been explained in full detail with drawing, embodiment is only an illustration of this invention. Therefore, the present invention is not limited only to the configuration of the embodiment, and it goes without saying that design changes and the like within a scope not departing from the gist of the present invention are included in the present invention. Further, for example, when each embodiment includes a plurality of configurations, it is a matter of course that possible combinations of these configurations are included even if not specifically described. In addition, in the case where a plurality of examples and modifications are disclosed in the embodiment as those of the present invention, possible combinations of combinations extending over these are included even if not specifically described. Of course. Further, the configuration depicted in the drawings is of course included even if not particularly described. Further, when there is a term of “etc.”, it is used in the sense that the equivalent is included. In addition, when there are terms such as “almost”, “about”, “degree”, etc., they are used in the sense that they include those in the range and accuracy recognized by common sense.

3 Electric Fusion Device 4 Electric Fusion Joint 8 Fusion Control Device 9 Power Supply Cable 11 Additional Cable 12 Another Electric Fusion Joint 13 Additional Connection 14 Additional Cable Detection Unit 41 Power Supply Restriction Unit

Claims (3)

An electric fusion apparatus comprising: a fusion control device that supplies electric power for fusion to an electric fusion joint; and a power supply cable that can connect the fusion control device and the electric fusion joint. ,
The fusion control device or the power feeding cable includes an extension connecting portion that can connect another electric fusion joint via an extension cable,
The electrofusion apparatus according to claim 1, wherein the fusion controller includes an extension cable detection unit capable of detecting that the extension cable is connected to the extension connection unit. The electrofusion apparatus according to claim 1,
The fusion control device uses the fusion control device when the additional cable is connected to the extension connection portion and the additional electric fusion joint is not connected to the extension cable. An electrofusion apparatus comprising a power supply regulating unit for regulating power supply. In the electric fusion method for performing fusion by the electric fusion joint by supplying electric power for fusion from the fusion control device to the electric fusion joint through the power supply cable,
Connect the extension cable to the extension connection provided in the fusion controller or the power supply cable,
Connecting the power supply cable to the electric fusion joint,
With the extension cable connected to another electrical fusion joint,
When it is detected by the extension cable detection unit provided in the fusion control device that the extension cable is connected to the extension connection unit,
At the same time as supplying fusion power from the fusion control device to the electrical fusion joint via the power supply cable, fusion power is supplied from the fusion control device to the other electrical fusion joint via the additional cable. An electric fusion method comprising: supplying electric power for wearing to cause fusion by the another electric fusion joint simultaneously with fusion by the electric fusion joint.