CA1283520C - Pipe fusion machine - Google Patents
Pipe fusion machineInfo
- Publication number
- CA1283520C CA1283520C CA000538716A CA538716A CA1283520C CA 1283520 C CA1283520 C CA 1283520C CA 000538716 A CA000538716 A CA 000538716A CA 538716 A CA538716 A CA 538716A CA 1283520 C CA1283520 C CA 1283520C
- Authority
- CA
- Canada
- Prior art keywords
- pipe
- housing
- pipeline
- fusion
- sections
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 230000004927 fusion Effects 0.000 title claims abstract description 79
- 238000001816 cooling Methods 0.000 claims abstract description 32
- 238000010438 heat treatment Methods 0.000 claims abstract description 17
- 239000004033 plastic Substances 0.000 claims abstract description 10
- 229920003023 plastic Polymers 0.000 claims abstract description 10
- 230000013011 mating Effects 0.000 claims abstract description 3
- 230000008878 coupling Effects 0.000 abstract 1
- 238000010168 coupling process Methods 0.000 abstract 1
- 238000005859 coupling reaction Methods 0.000 abstract 1
- 239000012530 fluid Substances 0.000 description 11
- 238000010276 construction Methods 0.000 description 7
- 238000000034 method Methods 0.000 description 5
- 239000004698 Polyethylene Substances 0.000 description 3
- 238000007499 fusion processing Methods 0.000 description 3
- -1 polyethylene Polymers 0.000 description 3
- 229920000573 polyethylene Polymers 0.000 description 3
- 230000002411 adverse Effects 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 230000017525 heat dissipation Effects 0.000 description 2
- 150000002500 ions Chemical class 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- VNWKTOKETHGBQD-UHFFFAOYSA-N methane Chemical compound C VNWKTOKETHGBQD-UHFFFAOYSA-N 0.000 description 2
- 229920001169 thermoplastic Polymers 0.000 description 2
- 239000004416 thermosoftening plastic Substances 0.000 description 2
- 241000364021 Tulsa Species 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000007664 blowing Methods 0.000 description 1
- NEHMKBQYUWJMIP-UHFFFAOYSA-N chloromethane Chemical compound ClC NEHMKBQYUWJMIP-UHFFFAOYSA-N 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000002706 hydrostatic effect Effects 0.000 description 1
- 239000003345 natural gas Substances 0.000 description 1
- 239000013535 sea water Substances 0.000 description 1
Landscapes
- Lining Or Joining Of Plastics Or The Like (AREA)
Abstract
Self Propelled Pipe Fusion Machine ABSTRACT
A self propelled enclosed apparatus for coupling sections of plastic pipe by fusion together to form a pipe line. The apparatus comprises a housing having a forwardly extending boom or trough for receiving pipe sections. Pipe sections are loaded onto the boom and fed to a fusion machine in the housing. The fusion machine is provided with hydrauli-cally operated clamps and rollers to align and hold a section of pipe in mating relationship with a pipeline and a heating plate for forming a fused joint between the pipe section and the pipeline. Cooling apparatus is provided at the joint to reduce its temperature following fusion. Kick out rollers are provided, and the fused together pipeline exits the apparatus to a trailer towed thereby to be laid on the earth's surface or in trench. The trailer, self propelled apparatus, and boom are equipped with pipe support members to provide strain relief on the joint during fusion. The apparatus is self contained and all functions other than loading the pipe sections onto the forwardly extending boom are carried out within the machine by a driver operator.
A self propelled enclosed apparatus for coupling sections of plastic pipe by fusion together to form a pipe line. The apparatus comprises a housing having a forwardly extending boom or trough for receiving pipe sections. Pipe sections are loaded onto the boom and fed to a fusion machine in the housing. The fusion machine is provided with hydrauli-cally operated clamps and rollers to align and hold a section of pipe in mating relationship with a pipeline and a heating plate for forming a fused joint between the pipe section and the pipeline. Cooling apparatus is provided at the joint to reduce its temperature following fusion. Kick out rollers are provided, and the fused together pipeline exits the apparatus to a trailer towed thereby to be laid on the earth's surface or in trench. The trailer, self propelled apparatus, and boom are equipped with pipe support members to provide strain relief on the joint during fusion. The apparatus is self contained and all functions other than loading the pipe sections onto the forwardly extending boom are carried out within the machine by a driver operator.
Description
; ~3~z~ Docket WSR-lOOG~
SELF PROPELLED PIPE FUSION MACHINE
SELF PROPELLED PIPE FUSION MACHINE
.4 Field of the Invention and Prior Art 5This invention consists of a self propelled machine 6 designed to join sections of pipe made out of thermo plastic 7 materiais such a polyethylene together to form a pipeline.
8 Piping of this kind has been used to construct pipelines for 9 the transportation of natural gas, sea water, and other fluids. All kinds of weather conditions may be encountered 11 from extreme heat to extreme cold during the construction 12 process. Pipe used to form these lines ranges in internal 13 diameter size from four to over sixty inches (internal pipe 14 size-IPS) and it comes in various wall thickness (standard dimensional ratio-SDR).
16 Sections of the pipe are joined together end-to end lr either on the surface of the earth or in trenches to form a 18 line. In general, heat is applied to the pipe sections at 19 their ends which permits fusion. A British firm, for example, is reported to use polyethylene socket fittings incorporating 21 electrical resistance heating elements to fuse pipe sections 22 together in a trench. The pipe sections are fitted together 23 at the socket and the heating elements are connected to a 24 source of electricity such as a generator located adjacent to the trench. When energized, the heating elements cause the 26 plastic to melt at the pipe interface such tha~ pipe sections 27 fuse together. The joints are cooled naturally. Labor is 28 required to align and fit pipe sections together end-to~end, ~ ~k , . - ' . :
~33S~
1 hold them in abutting relationship, and to operate the fusion 2 equipment.
8 Piping of this kind has been used to construct pipelines for 9 the transportation of natural gas, sea water, and other fluids. All kinds of weather conditions may be encountered 11 from extreme heat to extreme cold during the construction 12 process. Pipe used to form these lines ranges in internal 13 diameter size from four to over sixty inches (internal pipe 14 size-IPS) and it comes in various wall thickness (standard dimensional ratio-SDR).
16 Sections of the pipe are joined together end-to end lr either on the surface of the earth or in trenches to form a 18 line. In general, heat is applied to the pipe sections at 19 their ends which permits fusion. A British firm, for example, is reported to use polyethylene socket fittings incorporating 21 electrical resistance heating elements to fuse pipe sections 22 together in a trench. The pipe sections are fitted together 23 at the socket and the heating elements are connected to a 24 source of electricity such as a generator located adjacent to the trench. When energized, the heating elements cause the 26 plastic to melt at the pipe interface such tha~ pipe sections 27 fuse together. The joints are cooled naturally. Labor is 28 required to align and fit pipe sections together end-to~end, ~ ~k , . - ' . :
~33S~
1 hold them in abutting relationship, and to operate the fusion 2 equipment.
3 Portable fusion equipment has also been used to 4 construct a pipeline. See U.S. Patent No. 4,342,708 issued October 5, l9B2 to Arthur H. McElroy. McElroy Manufacturinq, 6 Inc., o Tulsa, Oklahoma, for example, manufactures a fusion r machine mounted on wheels like a cart such that it can be 8 dragged by a tractor or other vehicle. The machine is equipped 9 with screw down clamps or jaws which are used to hold a pipe section in juxtaposition with a pipe line and with a device 11 to move the pipe section coaxially with the pipeline to perform 12 the fusion operation. A facing cutter is part of the McElroy 13 equipment and is used to trim the facing ends of the pipe 14 section and the pipeline to make them parallel. A heater plate is carried on the cart such that it may be positioned to apply 16 heat to melt the plastic and form a joint. Like the British 17 apparatus, the cart mounted fusion operation is performed in 18 the open or under tents, haulage equipment is required for the 19 fusion machine, the pipe joints are subject to the elements during the fusion operation, and joint cooling occurs naturally.
21 The prior art also discloses self propelled machines 22 used for forming metal pipelines, as represented by following:
23 U.S. Patent Number Inventor Date 24 3,744,259 Wagley July 10, 1973 3,900,146 Fowler August, 19, 1975 4,286,914 Davidson, Jr. September 1, 1981 26 Wagley, for example, discloses a crawler mounted housing within 2r which sections of metal pipe are supported and welded together 28 to form a pipeline. The Fowler apparatus is similar using a ~3~;~0 1 number of housing units connected together to form a train.
2 Both patents indicate that apparatus of the kind disclosed 3 are useful in extreme climates whether cold (such as the 4 artic) or hot (temperatures exceeding 90F). Wagley points out that extreme temperatures affect both the ef~iciency of 6 the workmen and the metalurgical properties of the welds.
7 Davidson discloses means for keeping pipe sections aligned 8 during the pipeline forming process.
9 Nothwithstanding the state of the prior art, it has been common practice to construct pipelines using sections of 11 polyethylene or poly pipe either by towing or dragging a 12 fusion apparatus such as McElroy's machine in the direction 13 of construction or by using heating elements as discussed 14 above. In either event, the job of constructing the pipe line is both labor and equipment intensive. Generators are 16 required to supply energy to the fusion apparatus and towing 17 means are necessary for hauling it and the generators.
18 Similarly, generators must be towed in the resistance heating 19 unit situation. Lifting apparatus is usually necessary for larger diameter pipe and it too must be hauled or self propel-21 led. In addition, weather conditions including extreme tempera-22 tures affect the ability or inability to perform pipeline 23 construction operations. Further, fusion joints are affected 24 by blowing dirtl dust, seeds, rain, and the like which adversely affect their integrity with potential adverse consequential 26 results to the pipeline.
2~3 -3-' , ' .
-~Z~335Z~
Summary of the Invention The present invention overcomes the disadvantages inherent in the prior art apparatus for forming a pipeline out of sections of thermo plastic pipe by making fusion joints. It does this by incorporating all the necessary apparatus and machlnery into one self-propelled machine thereby increasing the efficiency of operation, reducing the number of machines and labor used by prior art methods, while increasing the speed of the pipeline construction operation.
The invention provides a ~achine for forming a pipelina out of sections of plastic pipe comprising: a. a single self propelled housing, including an engine providing motive power for said housing; b. an electric generator mounted within said housing and driven by said en~ine; c. fusion apparatus mounted within said housing havlny at least one electric resistance heating element for euslng sections of plaskic p.tpe together inside the housing to form a ~olnt, said fusion apparatus being connected to and energized by said generator; and, d. cooling apparatus energized by said generator to supply cooling air wi~hin said housing to a join~ following fusion, said apparatus including an air conditioner carried by said housing ~o supply ~he cooling air, and a heat dissipater for applying the cooling air to the joint.
The invention also provides a machine for making a pipeline ~rom sections of plastic pipe comprising: a. a self~
propelled housing including an engine providing motive power; b.
an electric generator mounted within said housing and driven by said engine; c. fusion apparatus mounted within said housing ~;
"
- . .
, ' lX8~20i provided with a heating element energized from said generator to fuse plastic pipe sectlons togethex ~o form a joint; d a pickup trough ex~ending from said housing and supported ~hereby equipped wlth spaced apart rollers to feed pipe sections serially to said fusion apparatus; e. a plurality of power operated clamps mounted on said fusion apparatus to hold a pipe section in mating relationship with another section o-f pipe; ~. cooling apparatus connected ~o and energi~ed by said generator to apply cooling air to a fusion joint g. control means connected to operate said eooling apparatus for a sek period of time; h. power operated pipe lifting apparatus to elevate ~oined sec~ions of pipe above said fusion apparatus; i. pipeline laying apparatus connected to said housing; and ~. control apparatus driven by said engine to operate said plckup trough, pipeline laying appaxatusr said clamps, and said plpe lifting apparatus, said control apparatus comprising hydraulically powered ~ylinders connected in a system to operate each element from a station lo~ated within said housing.
Preferably a trailer is connected to the self propelled machine to be towed thereby wlth movable elements to support a pipeline and for laying same while coopexatin~ with a pipe pickup boom to assist in maintaining the pipe aligned and strain relieved inside the fusion machine. The pipe fusion apparatus may have individually controlled hydraulic clamps or ~aws to reduce operator fatigue, ~o compensate for out-of-round pipe~ and to - maintain even pressure on : 4a 1~335~
1 the pipe during the fusion process and kick o~t rollers to 2 lift the completed pipeline out of the fusion apparatus to 3 avoid damage to the pipeline.
4 Brief Description of the Drawings Figure 1 is a side elevation of the pipe fusion machine;
6 Figure 2 is a top elevation of the pipe fusion machine;
7 Figure 3 is a detail view showing the fusion apparatus 8 used with the machine;
9 Figure 4 is a wiring schematic of an electrical timing circuit; and 11 Figure 5 is a schematic diagram of the hydraulic 12 operating and propulsion circuits for the machine.
13 Detailed Description of Preferred Embodiment 14 Referring to Figures 1 and ~ of the drawing, the pipe fusion machine 10 includes a housing 12 supported on a frame 16 14 for move~ent on wheels 16. A pipe entry boom or trough 17 18 is supported for vertical movement at the front end of 18 the frame. The boom is moved with respect to the ground by 19 a hydraulically operated piston mounted in a cylinder 20 such that the pipe trough can be positioned as low as ground level, 21 if necessary, depending on the size of pipe being used to 22 form a pipeline. The boom or trough is provided with spaced 23 apart rollers 22 along its length to facilitate movement of 24 individual sections of pipe 23 into the housing 12. The rollers could be of the driven or po~ered kind.
26 The housing is provided with a pipe entry port on its 2r front wall aligned along a pipe axis 26 with the boom or trough 28 18 and a pipeline exit port 28 located in the back wall of the _5_ ~ 352(~
l housing. A modified McElroy fusion machine 30 is supported 2 within the housing 12 in alignment with the pipe entry and 3 exit ports on the pipe axis 26. The fusion apparatus 30 is 4 generally of the kind described in U.S. Patent Nos. 4,352,708 issued October 5, 1982 and 3,729,360 issued April 14, 1973 to 6 A. H. McElroy.
7 Referring to Figures 1 and 3, the fusion apparatus is 8 provided with three or more pipe clamps 32 and 33 which are ; 9 described as ~jaws~ in U.S. Patent No. 4,352,708. The clamps are spaced apart along the pipe axis 26 and at least one clamp ll is mounted for coaxial movement along the axis. A section of 12 pipe 23 may be clamped by the jaws 32 and moved along the axis 13 26 such that its facing end may be juxtaposed with the facing 14 end of a pipeline 34 held in the jaws 33 of the fusion apparatus.
In the preferred embodiment, each of the clamps 32 and 16 33 is provided with a hydraulically powered closure operator 17 36 which is used in lieu of the hand operated screws or knobs 18 provided with the McElroy appartus. Each closure operator 36 l9 consists of piston operable within a cylinder 37 ~Figure 5) between fully closed and fully open positions by a valve 39 21 controlled by an electrical actuator coil. Accordingly, the 22 same pressure is applied to the pipe section and pipeline for each fusion operation thereby assuring proper alignment for 24 each joint made. The hand knobs or screws provided with the 2~ McElroy appartus by co~trast permit variable pressure on the 26 pipe section and pipeline as may occur from operator fatigue, 27 out-of-round pipe, and other variables. Such variables may 28 affect the integrity of pipe joints. The hand knob operation :
.
~2~3352~3 1 is also materially slower.
2 The fusion apparatus 30 as supplied by McElroy is 3 provided with a facer element or shaver for shaving the facing 4 ends of the pipe 23 and the pipeline 34 to make them parallel, ~ and it is provided with a resistance heating ele~ent from 6 which heat is applied to the facing ends to melt them such r that they can be fused together to form a joint. All fusion 8 methods and machines that I am aware of allow the joint to 9 cool naturally. In the preferred embodiment cooling air is 10 supplied to the fused joint from an adjustable heat dissipator 11 collar or band 38 attached by a ho~e 40 to a blower fan 42.
12 The blower fan is attached to receive cooling air from an air 13 conditioner 44 supported on the roof 46 of the housing 12.
14 The heat dissipator band comprises two hollow semi circular lS channel elements pivotally joined together at one end so that 16 they may be brought together and closed around a fusion joint 17 so as to form a collar such that cooling air can be applied when 18 the blower is actuated. The band is provided with an opening 19 t the end opposite the hinge to allow the cooling air to exit.
ifferent sized bands may be used with the hose for different 21 sizes of pipe.
22 In the preferred embodiment, the motor for blower fan 23 42 is connected in an electrical timing circuit which is mounted 24 in a timer box 48 located on the rear inside wall of the housing 2 at an operator's station 49.
26 As shown in Figure 2, an alternator 50 is driven by the 27 ngine 52 through a belt 54 operating off a drive shaft 56 28 through a c ifugal clutch 57; The alternator is the princi-, ', , l~B35ZO
1 pal source of electricity for the machine and is used to operate 2 the air conditioner, the heating element for the fusion appara-3 tus, lighting, the blower fan, and other purposes.
4 Referring now to Figure 4, a timing circuit of the kind which may be employed is shown connected to be energized 6 from the alternator. Essentially, a first timer mechanism is 7 used for the heating or pipe fusing operation and it is also 8 used to initiate the cooling operation while a second timer 9 mechanism is employed to control the length of time for the cooling cycle~ As will be appreciated, various kinds of timing 11 devices may be used to achieve the desired result.
12 In the circuit shown in Figure 4 a push to start 13 button 60 is connected to energize a first timer 62 which can 14 be set for the combined fusing and cooling operations. When timer 62 energizes its switch contacts 63 and 63a close to 16 supply line voltage to a second timer 64 and relay 66. Relay 17 66 has a pair of contacts 68 which make to apply power to a 18 light 70 to indicate a fusion operation. The second timer is 19 set to operate at the end of the heating or fusion cycle so as to switch line power from xelay 66 to cooling relay 69. Contacts 21 69a for the cooling relay are connected to supply power to the 22 blower fan 42 and an indicator lamp 71, and this circuit is 23 deenergized when timer 62 times out. In the preferred embodi-24 ment, a bell and counter are connected to be operated when timer 62 times out. The bell and counter both perform single 26 operations, i.e.~ the bell sounds for a predetermined interval 27 and shuts off while the counter may be of any kind which can 28 advance o tep each time it i operated, i.e., operation oE
,. . : .
'' ' . , ,:
: ' ' , ': ' - ~ .
~33S2~
1 timer 62, and it is used to count joints made.
2 The pipe fusion-laying machine is, of course, held 3 stationary during the pipe fusion or joint making operations.
4 Referring again to Figures 1 through 3, once the fusion operatisn is completed the closure operators 36 are actuated to open the 6 clamps or jaws 32 and 33 thus releasing the completed section 7 of pipeline. In the preferred embodiment, kickout rollers 8 80 and 82 are provided at the front and rear of the McElroy 9 appara~us 30. These rollers are supported by hydraulically operated pistons and during the fusion operation are in the 11 down position. Once the fusion operation is completed0 the 12 machine operator can actuate the pistons by operating electrically 13 controlled actuators to cause the rollers ~o rise and kick the 14 pipeline out of the apparatus 30.
16 During the construction operation the pipeline 34, as 16 shown in Figure 1, is supported by a roller 90 mounted on a 17 slide supported, for example, by a hollow member such as a pipe 18 92, fixedly mounted at the rear of the frame 14. The roller 19 may be adjusted and locked in place in the vertical direction to allow for different sizes of pipe which may be used in 21 constructing pipeline 34. It will be appreciated that the 22 mechanical support provided by roller 90 and its support assembly 23 cooperates with that provided by the rollers used on the boom 24 or trough 18 to relieve strain tension on the pipe and pipeline at the joint while the fusion operation is performed.
26 In the preferred embodiment additional strain relief 27 is obtained by using a trailer 94 to support the pipeline 34.
28 The trai1e s connected by a chain 96 or similar tow to the ~,' ' . ' :
~ 3~%~
1 frame 14 and is pulled by the machine 10 as the latter moves 2 forward along the right of way for the pipeline. The trailer 3 is provided with a V roller 98 to support the pipeline 34 and 4 assist in laying it on the right of way or in a trench. The roller 98 may be moved vertically under the control of the 6 fusion machine operator by support member 99 attached to a 7 piston mounted in a hydraulically operated cylinder 100. It 8 will be appreciated that the height of the roller 98 may be 9 adjusted relative to the height of the boom or trough 18 at the front of the pipe fusion machine 10 and the roller 90 mounted 11 at the rear of the frame to allow for changes in ground elevation, 12 e.g., while moving the machine down or up a hill, along the 13 right of way for pipeline. A trailer is used in the preferred 14 embodiment to provide flexibility for horizontal changes in the direction of the pipeline as well as vertical changes.
16 It will also be appreciated that all operations asso-17 ciated with the fusion process with the exception of the opera-18 tion of feeding sections of pipe 23 into the pipe boom or lg trough 18 can be performed by one person working in the vicinity of the control console 58 inside the housing 12. That is 21 because the engine 56 provides the power source to operate all 22 systems associated with the pipe fusion-laying machine. This 2~ in turn means the operational controls for the fusion apparatus, 24 boom, rollers and trailer, may be located adjacent to the con-trols for propelling and steering the machine. The preferred 26 embodiment uses a hydrostatic drive to propel the machine and 27 the hydraulic system associated therewith is also used to 28 provide operational control for the fusion process.
, ~2~3352~
1 The hydraulic propulsion and operational circuit is 2 shown in schematic form in Figure 5 of the drawings. Referring to Figure 5, the propulsion system is driven by the engine 56 4 which, eOg., may be a commercially available diesel engine rated at 60 hp, to drive a variable volume hydraulic pump 102.
6 The engine also drives a second hydraulic pump 104 used for the 7 operational system. A single reservoir 106 supplies hydraulic 8 fluid to operate an exciter or charge pump 108 for pump 102 and 9 to supply fluid to pump 104.
The propulsion system is conventional, and in the pre-11 ferred embodiment each wheel 16 is driven by a hydraulic motor 12 110. Two speed ranges are provided, a high range for highway 13 travel and a low range for pipe fusing operations, using speed 14 selectors 112 to control the range for each motor 110. Speed selection for the four wheel motors may be obtained from an 16 electrically operated ran~e selector valve 114 located in the 17 hydraulic operational circuit.
18 The steering is hydraulically controlled using a 19 priority valve 116 located in the operationq circuit which valve is connected through the usual steering control 118 to 21 provide fluid to a power steering operating cylinder 120, The 22 rear wheels are supplied with hydraulic fluid from the propulsion circuit through a control valve 122 which valve operates automati-24 cally to brake the machine in the event of loss of fluid.
The operational hydraulic circuit includes the pump 104 26 which supplys fluid to priority valve 116. In the preferred 27 embodiment, priority valve 116 is operated by an electrically 28 powered coil actuator with the operating switch located at the ~2~35;~C~
1 control panel 58. In the preferred embodiment, the electrically 2 powered coil actuators are connected to the machine's 12 VDC
3 battery supply system which is also used in the conventional sense 4 to obtain power for the machine, although 110 VAC valve actuators energized from the generator could be used in place of the 12 6 volt actuators. This system permits centralization of the 7 controls at the control panel 58.
8 Parallel connected hydraulic operational circuits are 9 on the output side of the priority valve 116 and include all hydraulically operated elements for the pipe fusion machine.
11 The circuit 124 is shown branched in Figure 5, at junction 126, 12 to provide fluid to an operating valve 12B for the pipe trough 13 operating cylinder 20, to a valve 130 supplying fluid to cylinder 14 100 to adjust the height of the roller on trailer 94, and to valves 132 and 134 connected to cylinders 136 and 137 respec-16 tively for operating the kickout rollers 80 and 82 at the front 17 and rear of the McElroy fusion apparatus. In the preferred 18 embodiment valves 128 for operating the pipe trough and 130 for 19 controlling the height of pipe roller 98 on the trailer are of the standard return type, and levers located at or adjacent to 21 the machine operator's console S8 are used to give continuous 22 control over the amount of fluid supplied to the cylinders 23 20 and 100 respectively.
24 The pipe positioning members provided on the trough and trailer are in addition to pipe position and axial force 26 alignment members 138 provided on the Mc21roy apparatus. The 27 members 138 are controlled through valve 140 which is also 28 provided with the McElroy apparatus. Valve 140 is shown connected '~
, ' , . ~Z1~3520 1¦ to receive ~luid at junction 126. Also connected to the junction 21 is valve 142 which is provided in the McElroy apparat~s and is 51 used to supply fluid to a hydraulic motor 144 used to drive the 4 ¦ pipe shaving wheel 146 on that apparatus. Similarly, the 5 ¦ operating cylinders 37 for the clamps or jaws 32 and 33 on the 6 ¦ McElroy are operated by coil activated valves 39 connected to 7 ¦ junction 126.
81 Best Mode of Operation 9 ¦ The pipe fusion laying machine of the preferred embodi-10 ¦ ment uses only two men, a machine operator and a laborer, to 11 I fuse sections of pipe into a pipeline using pipe sections of up 12 ¦ to 10 inch IPS, SDR 17 in size. The self propelled fusion 13 ¦ machine is capable of fusing larger pipe sizes although addi-14 ¦ tional labor may be necessary to feed sections of pipe into 15 ¦ trough. Referring to figures 1 and 5, the machine operator 16 ¦ positions the boom or pipe trough 18 vertically relative to the 17 ¦ ground by operating valve 128 using the valve operating lever 18 ¦ so that a laborer can load a section of pipe 23 thereon and 19 ¦ move it on rollers 22 into the housing 12 through entry port 24 and into the fusion apparatus 30.
21 Prior to positioniny the boom, the machine operator 2~ moved the fusion machine forward along the pipeline such that a 23 previously joined section of pipeline 34 is propelled on rollers 24 90 and 98 rearwardly of the machine. The use of individual hydraulic motors to drive the wheels 16 permits the machine 26 operator to position the machine 10 precisely thereby allowing 27 a pipe section 23 to be positioned precisely relative to the Z8 ~ pipeline 34 the fusion apparatus 30. As those skilled in ., :, , '' :
' ' ~ 52~
1 the art will appreciate, coaxial movement of clamps 32 relative 2 to jaws 33 alonq the pipeline axis 26 is constrained by the 3 size and members used in the construction of the fusion apparatus 4 30.
After pipe section 23 is moved into the self propelled 6 pipe fusion housing the machine o~perator positions same relative 7 to the pipeline 34 in and the closes the clamps 32 by operating 8 valves 39. The pipe and face shaving operation i5 performed 9 using the shaving wheel 146. One beneficial result of my invention is that shavings from the pipe are collected within 11 the housing. In the past, pipeline construction workers had to 12 pick the shavings up from the right of way to avoid pollution.
13 After face shaving, the operator applies the heating element to 14 the end faces and presses the push to start button 60 (Figure 4) causing the heating lamp to go on. When it times out, the 16 operator removes the heating element, brings the end of pipe 17 section 23 into contact with the facing end of the pipeline 34 18 allowing fusion, and he applies the heat dissipator band 38 to 19 the joint to apply cooling air.
The cooling cycle is controlled automatically by the 2~ timers as previously described. In general, the application 22 of cooling air reduces the amount of waiting time following a 23 fusion operation by about one half. That is, natural cooling 24 given an ambient of about 75F for eight inch pipe takes about ~5 three minutes whereas this time is reduced to about one and a 26 half minutes using the heat dissipation band. ~ccordingly, 27 the number of fusion joints which can be made using the self 28 I prope1led ion mochine durin g a ten-hour working day is .
~Z9~3~;Z~
increased considerably over that produced by prior art apparatus and methods.
Af~er the cooling cycle is completed the timer bell sounds and the operator removes the heat dissipation band 38 from the completed joint. The operator then energizes valves 132 and 134 to effect ~ickout of the pipeline 34 by rollers 30 and 82 from the fusion apparatus. The self propelled housing may then be moved along the right of way to receive ano~her section of pipe 23.
21 The prior art also discloses self propelled machines 22 used for forming metal pipelines, as represented by following:
23 U.S. Patent Number Inventor Date 24 3,744,259 Wagley July 10, 1973 3,900,146 Fowler August, 19, 1975 4,286,914 Davidson, Jr. September 1, 1981 26 Wagley, for example, discloses a crawler mounted housing within 2r which sections of metal pipe are supported and welded together 28 to form a pipeline. The Fowler apparatus is similar using a ~3~;~0 1 number of housing units connected together to form a train.
2 Both patents indicate that apparatus of the kind disclosed 3 are useful in extreme climates whether cold (such as the 4 artic) or hot (temperatures exceeding 90F). Wagley points out that extreme temperatures affect both the ef~iciency of 6 the workmen and the metalurgical properties of the welds.
7 Davidson discloses means for keeping pipe sections aligned 8 during the pipeline forming process.
9 Nothwithstanding the state of the prior art, it has been common practice to construct pipelines using sections of 11 polyethylene or poly pipe either by towing or dragging a 12 fusion apparatus such as McElroy's machine in the direction 13 of construction or by using heating elements as discussed 14 above. In either event, the job of constructing the pipe line is both labor and equipment intensive. Generators are 16 required to supply energy to the fusion apparatus and towing 17 means are necessary for hauling it and the generators.
18 Similarly, generators must be towed in the resistance heating 19 unit situation. Lifting apparatus is usually necessary for larger diameter pipe and it too must be hauled or self propel-21 led. In addition, weather conditions including extreme tempera-22 tures affect the ability or inability to perform pipeline 23 construction operations. Further, fusion joints are affected 24 by blowing dirtl dust, seeds, rain, and the like which adversely affect their integrity with potential adverse consequential 26 results to the pipeline.
2~3 -3-' , ' .
-~Z~335Z~
Summary of the Invention The present invention overcomes the disadvantages inherent in the prior art apparatus for forming a pipeline out of sections of thermo plastic pipe by making fusion joints. It does this by incorporating all the necessary apparatus and machlnery into one self-propelled machine thereby increasing the efficiency of operation, reducing the number of machines and labor used by prior art methods, while increasing the speed of the pipeline construction operation.
The invention provides a ~achine for forming a pipelina out of sections of plastic pipe comprising: a. a single self propelled housing, including an engine providing motive power for said housing; b. an electric generator mounted within said housing and driven by said en~ine; c. fusion apparatus mounted within said housing havlny at least one electric resistance heating element for euslng sections of plaskic p.tpe together inside the housing to form a ~olnt, said fusion apparatus being connected to and energized by said generator; and, d. cooling apparatus energized by said generator to supply cooling air wi~hin said housing to a join~ following fusion, said apparatus including an air conditioner carried by said housing ~o supply ~he cooling air, and a heat dissipater for applying the cooling air to the joint.
The invention also provides a machine for making a pipeline ~rom sections of plastic pipe comprising: a. a self~
propelled housing including an engine providing motive power; b.
an electric generator mounted within said housing and driven by said engine; c. fusion apparatus mounted within said housing ~;
"
- . .
, ' lX8~20i provided with a heating element energized from said generator to fuse plastic pipe sectlons togethex ~o form a joint; d a pickup trough ex~ending from said housing and supported ~hereby equipped wlth spaced apart rollers to feed pipe sections serially to said fusion apparatus; e. a plurality of power operated clamps mounted on said fusion apparatus to hold a pipe section in mating relationship with another section o-f pipe; ~. cooling apparatus connected ~o and energi~ed by said generator to apply cooling air to a fusion joint g. control means connected to operate said eooling apparatus for a sek period of time; h. power operated pipe lifting apparatus to elevate ~oined sec~ions of pipe above said fusion apparatus; i. pipeline laying apparatus connected to said housing; and ~. control apparatus driven by said engine to operate said plckup trough, pipeline laying appaxatusr said clamps, and said plpe lifting apparatus, said control apparatus comprising hydraulically powered ~ylinders connected in a system to operate each element from a station lo~ated within said housing.
Preferably a trailer is connected to the self propelled machine to be towed thereby wlth movable elements to support a pipeline and for laying same while coopexatin~ with a pipe pickup boom to assist in maintaining the pipe aligned and strain relieved inside the fusion machine. The pipe fusion apparatus may have individually controlled hydraulic clamps or ~aws to reduce operator fatigue, ~o compensate for out-of-round pipe~ and to - maintain even pressure on : 4a 1~335~
1 the pipe during the fusion process and kick o~t rollers to 2 lift the completed pipeline out of the fusion apparatus to 3 avoid damage to the pipeline.
4 Brief Description of the Drawings Figure 1 is a side elevation of the pipe fusion machine;
6 Figure 2 is a top elevation of the pipe fusion machine;
7 Figure 3 is a detail view showing the fusion apparatus 8 used with the machine;
9 Figure 4 is a wiring schematic of an electrical timing circuit; and 11 Figure 5 is a schematic diagram of the hydraulic 12 operating and propulsion circuits for the machine.
13 Detailed Description of Preferred Embodiment 14 Referring to Figures 1 and ~ of the drawing, the pipe fusion machine 10 includes a housing 12 supported on a frame 16 14 for move~ent on wheels 16. A pipe entry boom or trough 17 18 is supported for vertical movement at the front end of 18 the frame. The boom is moved with respect to the ground by 19 a hydraulically operated piston mounted in a cylinder 20 such that the pipe trough can be positioned as low as ground level, 21 if necessary, depending on the size of pipe being used to 22 form a pipeline. The boom or trough is provided with spaced 23 apart rollers 22 along its length to facilitate movement of 24 individual sections of pipe 23 into the housing 12. The rollers could be of the driven or po~ered kind.
26 The housing is provided with a pipe entry port on its 2r front wall aligned along a pipe axis 26 with the boom or trough 28 18 and a pipeline exit port 28 located in the back wall of the _5_ ~ 352(~
l housing. A modified McElroy fusion machine 30 is supported 2 within the housing 12 in alignment with the pipe entry and 3 exit ports on the pipe axis 26. The fusion apparatus 30 is 4 generally of the kind described in U.S. Patent Nos. 4,352,708 issued October 5, 1982 and 3,729,360 issued April 14, 1973 to 6 A. H. McElroy.
7 Referring to Figures 1 and 3, the fusion apparatus is 8 provided with three or more pipe clamps 32 and 33 which are ; 9 described as ~jaws~ in U.S. Patent No. 4,352,708. The clamps are spaced apart along the pipe axis 26 and at least one clamp ll is mounted for coaxial movement along the axis. A section of 12 pipe 23 may be clamped by the jaws 32 and moved along the axis 13 26 such that its facing end may be juxtaposed with the facing 14 end of a pipeline 34 held in the jaws 33 of the fusion apparatus.
In the preferred embodiment, each of the clamps 32 and 16 33 is provided with a hydraulically powered closure operator 17 36 which is used in lieu of the hand operated screws or knobs 18 provided with the McElroy appartus. Each closure operator 36 l9 consists of piston operable within a cylinder 37 ~Figure 5) between fully closed and fully open positions by a valve 39 21 controlled by an electrical actuator coil. Accordingly, the 22 same pressure is applied to the pipe section and pipeline for each fusion operation thereby assuring proper alignment for 24 each joint made. The hand knobs or screws provided with the 2~ McElroy appartus by co~trast permit variable pressure on the 26 pipe section and pipeline as may occur from operator fatigue, 27 out-of-round pipe, and other variables. Such variables may 28 affect the integrity of pipe joints. The hand knob operation :
.
~2~3352~3 1 is also materially slower.
2 The fusion apparatus 30 as supplied by McElroy is 3 provided with a facer element or shaver for shaving the facing 4 ends of the pipe 23 and the pipeline 34 to make them parallel, ~ and it is provided with a resistance heating ele~ent from 6 which heat is applied to the facing ends to melt them such r that they can be fused together to form a joint. All fusion 8 methods and machines that I am aware of allow the joint to 9 cool naturally. In the preferred embodiment cooling air is 10 supplied to the fused joint from an adjustable heat dissipator 11 collar or band 38 attached by a ho~e 40 to a blower fan 42.
12 The blower fan is attached to receive cooling air from an air 13 conditioner 44 supported on the roof 46 of the housing 12.
14 The heat dissipator band comprises two hollow semi circular lS channel elements pivotally joined together at one end so that 16 they may be brought together and closed around a fusion joint 17 so as to form a collar such that cooling air can be applied when 18 the blower is actuated. The band is provided with an opening 19 t the end opposite the hinge to allow the cooling air to exit.
ifferent sized bands may be used with the hose for different 21 sizes of pipe.
22 In the preferred embodiment, the motor for blower fan 23 42 is connected in an electrical timing circuit which is mounted 24 in a timer box 48 located on the rear inside wall of the housing 2 at an operator's station 49.
26 As shown in Figure 2, an alternator 50 is driven by the 27 ngine 52 through a belt 54 operating off a drive shaft 56 28 through a c ifugal clutch 57; The alternator is the princi-, ', , l~B35ZO
1 pal source of electricity for the machine and is used to operate 2 the air conditioner, the heating element for the fusion appara-3 tus, lighting, the blower fan, and other purposes.
4 Referring now to Figure 4, a timing circuit of the kind which may be employed is shown connected to be energized 6 from the alternator. Essentially, a first timer mechanism is 7 used for the heating or pipe fusing operation and it is also 8 used to initiate the cooling operation while a second timer 9 mechanism is employed to control the length of time for the cooling cycle~ As will be appreciated, various kinds of timing 11 devices may be used to achieve the desired result.
12 In the circuit shown in Figure 4 a push to start 13 button 60 is connected to energize a first timer 62 which can 14 be set for the combined fusing and cooling operations. When timer 62 energizes its switch contacts 63 and 63a close to 16 supply line voltage to a second timer 64 and relay 66. Relay 17 66 has a pair of contacts 68 which make to apply power to a 18 light 70 to indicate a fusion operation. The second timer is 19 set to operate at the end of the heating or fusion cycle so as to switch line power from xelay 66 to cooling relay 69. Contacts 21 69a for the cooling relay are connected to supply power to the 22 blower fan 42 and an indicator lamp 71, and this circuit is 23 deenergized when timer 62 times out. In the preferred embodi-24 ment, a bell and counter are connected to be operated when timer 62 times out. The bell and counter both perform single 26 operations, i.e.~ the bell sounds for a predetermined interval 27 and shuts off while the counter may be of any kind which can 28 advance o tep each time it i operated, i.e., operation oE
,. . : .
'' ' . , ,:
: ' ' , ': ' - ~ .
~33S2~
1 timer 62, and it is used to count joints made.
2 The pipe fusion-laying machine is, of course, held 3 stationary during the pipe fusion or joint making operations.
4 Referring again to Figures 1 through 3, once the fusion operatisn is completed the closure operators 36 are actuated to open the 6 clamps or jaws 32 and 33 thus releasing the completed section 7 of pipeline. In the preferred embodiment, kickout rollers 8 80 and 82 are provided at the front and rear of the McElroy 9 appara~us 30. These rollers are supported by hydraulically operated pistons and during the fusion operation are in the 11 down position. Once the fusion operation is completed0 the 12 machine operator can actuate the pistons by operating electrically 13 controlled actuators to cause the rollers ~o rise and kick the 14 pipeline out of the apparatus 30.
16 During the construction operation the pipeline 34, as 16 shown in Figure 1, is supported by a roller 90 mounted on a 17 slide supported, for example, by a hollow member such as a pipe 18 92, fixedly mounted at the rear of the frame 14. The roller 19 may be adjusted and locked in place in the vertical direction to allow for different sizes of pipe which may be used in 21 constructing pipeline 34. It will be appreciated that the 22 mechanical support provided by roller 90 and its support assembly 23 cooperates with that provided by the rollers used on the boom 24 or trough 18 to relieve strain tension on the pipe and pipeline at the joint while the fusion operation is performed.
26 In the preferred embodiment additional strain relief 27 is obtained by using a trailer 94 to support the pipeline 34.
28 The trai1e s connected by a chain 96 or similar tow to the ~,' ' . ' :
~ 3~%~
1 frame 14 and is pulled by the machine 10 as the latter moves 2 forward along the right of way for the pipeline. The trailer 3 is provided with a V roller 98 to support the pipeline 34 and 4 assist in laying it on the right of way or in a trench. The roller 98 may be moved vertically under the control of the 6 fusion machine operator by support member 99 attached to a 7 piston mounted in a hydraulically operated cylinder 100. It 8 will be appreciated that the height of the roller 98 may be 9 adjusted relative to the height of the boom or trough 18 at the front of the pipe fusion machine 10 and the roller 90 mounted 11 at the rear of the frame to allow for changes in ground elevation, 12 e.g., while moving the machine down or up a hill, along the 13 right of way for pipeline. A trailer is used in the preferred 14 embodiment to provide flexibility for horizontal changes in the direction of the pipeline as well as vertical changes.
16 It will also be appreciated that all operations asso-17 ciated with the fusion process with the exception of the opera-18 tion of feeding sections of pipe 23 into the pipe boom or lg trough 18 can be performed by one person working in the vicinity of the control console 58 inside the housing 12. That is 21 because the engine 56 provides the power source to operate all 22 systems associated with the pipe fusion-laying machine. This 2~ in turn means the operational controls for the fusion apparatus, 24 boom, rollers and trailer, may be located adjacent to the con-trols for propelling and steering the machine. The preferred 26 embodiment uses a hydrostatic drive to propel the machine and 27 the hydraulic system associated therewith is also used to 28 provide operational control for the fusion process.
, ~2~3352~
1 The hydraulic propulsion and operational circuit is 2 shown in schematic form in Figure 5 of the drawings. Referring to Figure 5, the propulsion system is driven by the engine 56 4 which, eOg., may be a commercially available diesel engine rated at 60 hp, to drive a variable volume hydraulic pump 102.
6 The engine also drives a second hydraulic pump 104 used for the 7 operational system. A single reservoir 106 supplies hydraulic 8 fluid to operate an exciter or charge pump 108 for pump 102 and 9 to supply fluid to pump 104.
The propulsion system is conventional, and in the pre-11 ferred embodiment each wheel 16 is driven by a hydraulic motor 12 110. Two speed ranges are provided, a high range for highway 13 travel and a low range for pipe fusing operations, using speed 14 selectors 112 to control the range for each motor 110. Speed selection for the four wheel motors may be obtained from an 16 electrically operated ran~e selector valve 114 located in the 17 hydraulic operational circuit.
18 The steering is hydraulically controlled using a 19 priority valve 116 located in the operationq circuit which valve is connected through the usual steering control 118 to 21 provide fluid to a power steering operating cylinder 120, The 22 rear wheels are supplied with hydraulic fluid from the propulsion circuit through a control valve 122 which valve operates automati-24 cally to brake the machine in the event of loss of fluid.
The operational hydraulic circuit includes the pump 104 26 which supplys fluid to priority valve 116. In the preferred 27 embodiment, priority valve 116 is operated by an electrically 28 powered coil actuator with the operating switch located at the ~2~35;~C~
1 control panel 58. In the preferred embodiment, the electrically 2 powered coil actuators are connected to the machine's 12 VDC
3 battery supply system which is also used in the conventional sense 4 to obtain power for the machine, although 110 VAC valve actuators energized from the generator could be used in place of the 12 6 volt actuators. This system permits centralization of the 7 controls at the control panel 58.
8 Parallel connected hydraulic operational circuits are 9 on the output side of the priority valve 116 and include all hydraulically operated elements for the pipe fusion machine.
11 The circuit 124 is shown branched in Figure 5, at junction 126, 12 to provide fluid to an operating valve 12B for the pipe trough 13 operating cylinder 20, to a valve 130 supplying fluid to cylinder 14 100 to adjust the height of the roller on trailer 94, and to valves 132 and 134 connected to cylinders 136 and 137 respec-16 tively for operating the kickout rollers 80 and 82 at the front 17 and rear of the McElroy fusion apparatus. In the preferred 18 embodiment valves 128 for operating the pipe trough and 130 for 19 controlling the height of pipe roller 98 on the trailer are of the standard return type, and levers located at or adjacent to 21 the machine operator's console S8 are used to give continuous 22 control over the amount of fluid supplied to the cylinders 23 20 and 100 respectively.
24 The pipe positioning members provided on the trough and trailer are in addition to pipe position and axial force 26 alignment members 138 provided on the Mc21roy apparatus. The 27 members 138 are controlled through valve 140 which is also 28 provided with the McElroy apparatus. Valve 140 is shown connected '~
, ' , . ~Z1~3520 1¦ to receive ~luid at junction 126. Also connected to the junction 21 is valve 142 which is provided in the McElroy apparat~s and is 51 used to supply fluid to a hydraulic motor 144 used to drive the 4 ¦ pipe shaving wheel 146 on that apparatus. Similarly, the 5 ¦ operating cylinders 37 for the clamps or jaws 32 and 33 on the 6 ¦ McElroy are operated by coil activated valves 39 connected to 7 ¦ junction 126.
81 Best Mode of Operation 9 ¦ The pipe fusion laying machine of the preferred embodi-10 ¦ ment uses only two men, a machine operator and a laborer, to 11 I fuse sections of pipe into a pipeline using pipe sections of up 12 ¦ to 10 inch IPS, SDR 17 in size. The self propelled fusion 13 ¦ machine is capable of fusing larger pipe sizes although addi-14 ¦ tional labor may be necessary to feed sections of pipe into 15 ¦ trough. Referring to figures 1 and 5, the machine operator 16 ¦ positions the boom or pipe trough 18 vertically relative to the 17 ¦ ground by operating valve 128 using the valve operating lever 18 ¦ so that a laborer can load a section of pipe 23 thereon and 19 ¦ move it on rollers 22 into the housing 12 through entry port 24 and into the fusion apparatus 30.
21 Prior to positioniny the boom, the machine operator 2~ moved the fusion machine forward along the pipeline such that a 23 previously joined section of pipeline 34 is propelled on rollers 24 90 and 98 rearwardly of the machine. The use of individual hydraulic motors to drive the wheels 16 permits the machine 26 operator to position the machine 10 precisely thereby allowing 27 a pipe section 23 to be positioned precisely relative to the Z8 ~ pipeline 34 the fusion apparatus 30. As those skilled in ., :, , '' :
' ' ~ 52~
1 the art will appreciate, coaxial movement of clamps 32 relative 2 to jaws 33 alonq the pipeline axis 26 is constrained by the 3 size and members used in the construction of the fusion apparatus 4 30.
After pipe section 23 is moved into the self propelled 6 pipe fusion housing the machine o~perator positions same relative 7 to the pipeline 34 in and the closes the clamps 32 by operating 8 valves 39. The pipe and face shaving operation i5 performed 9 using the shaving wheel 146. One beneficial result of my invention is that shavings from the pipe are collected within 11 the housing. In the past, pipeline construction workers had to 12 pick the shavings up from the right of way to avoid pollution.
13 After face shaving, the operator applies the heating element to 14 the end faces and presses the push to start button 60 (Figure 4) causing the heating lamp to go on. When it times out, the 16 operator removes the heating element, brings the end of pipe 17 section 23 into contact with the facing end of the pipeline 34 18 allowing fusion, and he applies the heat dissipator band 38 to 19 the joint to apply cooling air.
The cooling cycle is controlled automatically by the 2~ timers as previously described. In general, the application 22 of cooling air reduces the amount of waiting time following a 23 fusion operation by about one half. That is, natural cooling 24 given an ambient of about 75F for eight inch pipe takes about ~5 three minutes whereas this time is reduced to about one and a 26 half minutes using the heat dissipation band. ~ccordingly, 27 the number of fusion joints which can be made using the self 28 I prope1led ion mochine durin g a ten-hour working day is .
~Z9~3~;Z~
increased considerably over that produced by prior art apparatus and methods.
Af~er the cooling cycle is completed the timer bell sounds and the operator removes the heat dissipation band 38 from the completed joint. The operator then energizes valves 132 and 134 to effect ~ickout of the pipeline 34 by rollers 30 and 82 from the fusion apparatus. The self propelled housing may then be moved along the right of way to receive ano~her section of pipe 23.
Claims (13)
1. A machine for forming a pipeline out of sections of plastic pipe comprising:
a. a single self propelled housing, including an engine providing motive power for said housing;
b. an electric generator mounted within said housing and driven by said engine;
c. fusion apparatus mounted within said housing having at least one electric resistance heating element for fusing sections of plastic pipe together inside the housing to form a joint, said fusion apparatus being connected to and energized by said generator;
and, d. cooling apparatus energized by said generator to supply cooling air within said housing to a joint following fusion, said apparatus including an air conditioner carried by said housing to supply the cooling air, and a heat dissipater for applying the cooling air to the joint.
a. a single self propelled housing, including an engine providing motive power for said housing;
b. an electric generator mounted within said housing and driven by said engine;
c. fusion apparatus mounted within said housing having at least one electric resistance heating element for fusing sections of plastic pipe together inside the housing to form a joint, said fusion apparatus being connected to and energized by said generator;
and, d. cooling apparatus energized by said generator to supply cooling air within said housing to a joint following fusion, said apparatus including an air conditioner carried by said housing to supply the cooling air, and a heat dissipater for applying the cooling air to the joint.
2. A machine for forming a pipeline according to claim 1 further comprising powered apparatus to facilitate movement of sections of pipe into said self-propelled housing and into said fusion apparatus.
3. A machine according to claim 1 further comprising apparatus to facilitate movement of completed pipeline rearwardly out of said housing, said apparatus including a pipeline laying device connected to be moved by and operated from said housing, said device being provided with adjustable means for laying the pipeline.
4. A machine according to claims 2 or 3 in which position control means are attached to said apparatus and operated from within said self propelled housing to adjust the apparatus for changes in the terrain in which the pipeline is laid.
5. A machine according to claim 4 wherein said position control means comprises a hydraulic system operated from a station located within said housing including hydraulically powered operating member attached to said apparatus.
6. A machine according to claim 2 in which said apparatus comprises a pickup boom or trough extending forwardly from said housing, and boom operator mechanism controlled from within said housing to adjust the position of said boom or trough to accept different sizes of pipe, said pickup boom being equipped with rollers to facilitate movement of pipe sections into said fusion apparatus.
7. A machine according to claim 6 in which said rollers are hydraulically powered.
8. A machine according to claim 3 in which said apparatus to facilitate movement of completed sections of pipeline out of said housing further comprises powered kickup rollers to lift the pipeline out of said fusion apparatus.
9. A machine according to claim 3 wherein said pipe laying device comprises a trailer connected by a flexible member to be towed by said machine, and means connected between said machine and said trailer to provide power to said adjustable means.
10. A machine according to claim 1 further comprising adjustable means located forwardly of said housing and supported thereby to feed sections of pipe to said fusion apparatus, a pipeline laying device connected to said housing to be moved thereby, said pipeline laying device including means for laying a completed pipeline, and power control means to operate said adjustable means relative to said pipe laying device to adjust for changes in the terrain in which the pipeline is constructed.
11. A machine according to claim 10 wherein said cooling apparatus is provided with control means to automatically cut the supply of cooling air to said heat dissipater after a predetermined period.
12. A machine according to claim 1 wherein the heat dissipater comprises a hollow pair of channels hinged on one end and connected to receive cooling air from a fan.
13. A machine for making a pipeline from sections of plastic pipe comprising:
a. a self-propelled housing including an engine providing motive power;
b. an electric generator mounted within said housing and driven by said engine;
c. fusion apparatus mounted within said housing provided with a heating element energized from said generator to fuse plastic pipe sections together to form a joint;
d. a pickup trough extending from said housing and supported thereby equipped with spaced apart rollers to feed pipe sections serially to said fusion apparatus:
e. a plurality of power operated clamps mounted on said fusion apparatus to hold a pipe section in mating relationship with another section of pipe;
f. cooling apparatus connected to and energized by said generator to apply cooling air to a fusion joint;
g. control means connected to operate said cooling apparatus for a set period of time;
h. power operated pipe lifting apparatus to elevate joined sections of pipe above said fusion apparatus;
i. pipeline laying apparatus connected to said housing; and j. control apparatus driven by said engine to operate said pickup trough, pipeline laying apparatus, said clamps, and said pipe lifting apparatus, said control apparatus comprising hydraulically powered cylinders connected in a system to operate each element from a station located within said housing.
a. a self-propelled housing including an engine providing motive power;
b. an electric generator mounted within said housing and driven by said engine;
c. fusion apparatus mounted within said housing provided with a heating element energized from said generator to fuse plastic pipe sections together to form a joint;
d. a pickup trough extending from said housing and supported thereby equipped with spaced apart rollers to feed pipe sections serially to said fusion apparatus:
e. a plurality of power operated clamps mounted on said fusion apparatus to hold a pipe section in mating relationship with another section of pipe;
f. cooling apparatus connected to and energized by said generator to apply cooling air to a fusion joint;
g. control means connected to operate said cooling apparatus for a set period of time;
h. power operated pipe lifting apparatus to elevate joined sections of pipe above said fusion apparatus;
i. pipeline laying apparatus connected to said housing; and j. control apparatus driven by said engine to operate said pickup trough, pipeline laying apparatus, said clamps, and said pipe lifting apparatus, said control apparatus comprising hydraulically powered cylinders connected in a system to operate each element from a station located within said housing.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US87958986A | 1986-06-27 | 1986-06-27 | |
US06/879,589 | 1986-06-27 |
Publications (1)
Publication Number | Publication Date |
---|---|
CA1283520C true CA1283520C (en) | 1991-04-30 |
Family
ID=25374449
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA000538716A Expired - Lifetime CA1283520C (en) | 1986-06-27 | 1987-06-03 | Pipe fusion machine |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA1283520C (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7726909B2 (en) | 2007-10-10 | 2010-06-01 | Hi-Pointe Management Services, Inc | Apparatus, system, and method for concurrently laying multiple pipelines |
-
1987
- 1987-06-03 CA CA000538716A patent/CA1283520C/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7726909B2 (en) | 2007-10-10 | 2010-06-01 | Hi-Pointe Management Services, Inc | Apparatus, system, and method for concurrently laying multiple pipelines |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US4990209A (en) | Self propelled pipe fusion machine | |
US3729360A (en) | Portable thermoplastic pipe fusion apparatus | |
US6212748B1 (en) | Self-contained and self-propelled machine for heat fusing polyolefin pipes | |
US4310198A (en) | Hydraulic power supply vehicle for concrete cutting and boring tools | |
US4325580A (en) | Roadway planing apparatus | |
US4504352A (en) | Heat sealing apparatus | |
US20050104600A1 (en) | Vehicle for inspecting a pipe | |
US7544253B2 (en) | Method and apparatus for flushing asphalt feeding devices | |
US8562248B2 (en) | Method and apparatus for repairing potholes and the like | |
US7270201B1 (en) | Trailer moving vehicle | |
US5540292A (en) | Pneumatically actuated horizontal drilling apparatus having a plurality of drills | |
CA2511390A1 (en) | A modular device for simultaneously spreading cut fibers and binders and a spreading machine | |
US5125460A (en) | Pneumatically actuated horizontal drilling apparatus having a plurality of drills | |
EP0489969B2 (en) | Finisher | |
EP0029343A2 (en) | Lining cutter and cutting method | |
CA1283520C (en) | Pipe fusion machine | |
US3000277A (en) | Asphalt paving machine | |
US10480132B1 (en) | Fixed screed power take-off for improved performance | |
CA1210033A (en) | Adaptable material spreading vehicle | |
US3197195A (en) | Internal expanding line-up pipe clamp | |
CN116388104A (en) | Automatic towing device of coal mining machine | |
US3608322A (en) | Front mounted cable laying assembly | |
CA2676126A1 (en) | Trailer for carrying a welding unit for butt-welding pipe portions | |
US3969905A (en) | Method and apparatus for laying pipelines | |
US4244447A (en) | Mobile power crane-excavator with open gear greasing |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
MKLA | Lapsed |