US3924562A - Apparatus for coating pipe - Google Patents
Apparatus for coating pipe Download PDFInfo
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- US3924562A US3924562A US493405A US49340574A US3924562A US 3924562 A US3924562 A US 3924562A US 493405 A US493405 A US 493405A US 49340574 A US49340574 A US 49340574A US 3924562 A US3924562 A US 3924562A
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- coating
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- conveyor
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- brake
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B3/00—Spraying or sprinkling apparatus with moving outlet elements or moving deflecting elements
- B05B3/02—Spraying or sprinkling apparatus with moving outlet elements or moving deflecting elements with rotating elements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B13/00—Machines or plants for applying liquids or other fluent materials to surfaces of objects or other work by spraying, not covered by groups B05B1/00 - B05B11/00
- B05B13/02—Means for supporting work; Arrangement or mounting of spray heads; Adaptation or arrangement of means for feeding work
- B05B13/0221—Means for supporting work; Arrangement or mounting of spray heads; Adaptation or arrangement of means for feeding work characterised by the means for moving or conveying the objects or other work, e.g. conveyor belts
- B05B13/0228—Means for supporting work; Arrangement or mounting of spray heads; Adaptation or arrangement of means for feeding work characterised by the means for moving or conveying the objects or other work, e.g. conveyor belts the movement of the objects being rotative
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S118/00—Coating apparatus
- Y10S118/11—Pipe and tube outside
Definitions
- Coating material is alternately 52 us. c1 118/320; 118/010. 11 pp to the pp applicator as different p p [51] Int. CI. B05B 13/04 sectlims are mmed at intervals first one applicator [58] Fi ld of S h 1 13 303 313 320 mg 1 1, and then the next.
- the conveyor is moved by a revers llg/ lg 1 117/94 1054 ible prime mover.
- a brake is automatically activated to slow the conveyor whenever a reversing switch is [56] References Ci d thrown.
- a holdlng hopper is also provided for receiving 3:670:696 6/1972 Findle y et ail :1:iiiiiiilli l i tilDlG. 11 prepared coatmg P to depos reclprocal 3,674,546 7/1972 Harris et al. 1 l8/DIG.
- the holdmg hopper has a capac'ty adequate Primary Examiner-Mervin Stein Assistant ExaminerSteven Hawkins Attorney, Agent, or Firm-Lowe, Kokjer, Kircher, Wharton & Bowman to allow it to continue receiving coating material for a period of time during reversal of the conveyor thus eliminating the need to stop the coating preparation apparatus.
- This invention relates generally to a method and apparatus for coating pipe and, more particularly, to a method and apparatus for coating two sections of pipe in closely spaced time intervals utilizing a single coating preparation station.
- an aim of the invention is to provide a method and apparatus for coating pipe wherein the time required for transfer of coating material from one applicator to the other is minimized by placing the two applicators in closely spaced relationship and utilizing a single relatively short reciprocal conveyor for transferring coating material between the two applicators.
- Still another corollary to the object second above is to provide a method and apparatus for coating pipe utilizing two coating applicators wherein the time required to change the direction of flow of coating material from one applicator to the other is minimized by utilizing a braking mechanism to automatically slow the conveyor whenever it is desired to change the direction of movement of the conveyor.
- Still another object of the invention is to provide a method and apparatus for coating pipe wherein two coating applicators are fed from a single coating preparation station with versatility to allow continued uninterrupted operation of the coating operation even when two pipe sections are not moving in the optimum 180 degrees out-of-phase orientation.
- FIG. I is a partially schematic top plan view showing a typical plant lay out incorporating the apparatus and utilizing the method of the present invention
- FIG. 2 is a front elevational view, on an enlarged scale, of the apparatus of the present invention showing the relationship between the two coating applicators and the coating preparation station;
- FIG. 3 is an enlarged side elevational view, with portions broken away, of the apparatus shown in FIG. 2;
- FIG. 4 is an elevational view of the drive for the reversible conveyor looking in the direction of line 4-4 in FIG. 2;
- FIG. 5 is an across the line electrical diagram showing the controls for the reversible drive motor.
- a pipe coating plant constructed according to the present invention is designated generally by the numeral and includes a coating material preparation station designated generally by the numeral 12, two coating applicators I4 and spaced apart longitudinally extending tracks 16 disposed in parallel relationship on opposite sides of preparation station 12.
- the coating preparation station 12 includes cement storage tanks 18 and 20 which are coupled with a cement surge tank 18 by a conduit 20.
- First and seocnd hoppers 22 and 24 are disposed in side-by-side relationship and hold a quantity of iron ore aggregate and/or sand (not shown) which is utilized in the coating material.
- a first conveyor 26 moves ore into the hoppers and a second conveyor 28 moves the ore from hoppers 22 and 24 to a pug mill designated generally by the numeral 30.
- a third conveyor 32 transfers cement from surge tank 18 to the pug mill.
- pug mill 30 includes an elongated, flat, open top mixing chamber 34 provided with shafts 36 (one of which is visible in FIG. 3) having paddles 38 extending radially therefrom for mixing the components of the coating material. Paddles 38 are also disposed to have an auger effect thereby advancing the coating material to one end of the chamber.
- One end of chamber 34 is free of paddles 38 and also has an opening 40 in the bottom of the chamber, thus presenting a hopper area 42 for holding a quantity of the prepared coating material prior to delivery to applicators 14.
- control gates 44 which may be manually adjusted for metering the flow of coating material as will be explained in greater detail hereinafter.
- Coating material (designated by the numeral 450) is transferred from hopper area 42 to each of the aapplicators 14 by a reversible conveyor belt 46 mounted on rollers 48 and 50.
- a plurality of idler rollers 52 are disposed in spaced apart relationship beneath the upper stretch of belt 46 for supporting the belt when loaded with coating material.
- Roller 50 is coupled with a driven pulley 54 which in turn is coupled with a drive pulley 56 by drive belts 58.
- Drive pulley 56 is driven by an electric motor 60 through a reduction gear box 62 and a drive shaft 64.
- a directional plugging switch 66 is also coupled with shaft 64 for purposes to be explained more fully hereinafter.
- Applicator 14 is of the impinger type and comprises a rotatable brush 68 disposed in contact with an applicator belt 70 mounted on closely spaced rollers 72 and 74. Both brush 68 and belt 14 are driven at a high rate of speed to throw coating material 45a outwardly with substantial force in the manner illustrated in FIG. 2.
- each set of tracks 16 mounts two spaced apart vehicles in the form of buggies 76 and 78 joined together by a rigid coupling shaft 80.
- Each of the buggies 76 and 78 is provided with a pair of spaced apart roller wheels 82 (FIG. 2) which form a carriage for a section of pipe 84.
- At least one set of wheels 82 in each pair of buggies is driven for rotating the pipe about its longitudinal axis as coating material is applied.
- a reinforcing wire mesh 86 is also wrapped around the pipe during the coating operation to form an integral part of the completed pipe coating 45b.
- the arrows in FIG. 1 indicate the loading and unloading areas for incoming and outgoing pipe adjacent the respective tracks 16.
- the constituents for the coating material are fed into pug mill 30 where they are homogeneously mixed and a limited amount of watter is added through conventional apparatus which has been omitted from the drawings for clarity.
- coating material 45a passes through hopper area 42 on to the reciprocal conveyor belt 46 where it is delivered directly to applicators 14.
- coating material 450 is illustrated being directed to applicator 14 which is on the left hand side of the drawing.
- the coating material passes beneath gate 44, the height of which may be varied to control the flow of coating material. It will be appreciated that coating material 45a, once deposited on belt 46, travels along a linear path parallel to the belt until such time as it drops from the belt on to applicator belt 70. Not only is the path of travel of the coating material shortened but, by eliminating the multiple steps down through which the coating travels on its way to applicators 14, dry out and waste of the coating material is minimized.
- Section 84 is being rotated in a counterclockwise direction, when viewing FIG. 2, so as to expose the entire area of the annular pipe to the coating material while also wrapping reinforcing mesh 86 around the pipe.
- the pipe 84 is advanced longitudinally as it is rotated to cover the entire length of the pipe with coating material 450.
- hopper area 42 has been provided at the end of chamber 34 so as to accommodate a substantial build up of coating material.
- coating material may build to the height indicated -by level 8" without the need to shut down the pug mill.
- the normal operating capacity of applicator 14 is X tons per second, it is desirable for h opper area 42 to have a capacity of at least X although preferably not over i X. This permits up to a 25 second delay before operation of the second applicator 14 is commenced.
- Motor 60 is preferably a variable speed, reversing motor controlled by a forward starter relay 88 and a reversing starter relay 90.
- Plugging switch 66 is a centrifugally operated control switch having two sets of controls 92 and 94. Both sets of controls open and close in response to centrifugal forces.
- R contacts 92 are closed and F contacts 94 are open.
- F contacts 94 are open so long as the speed of rotation remains above a predetermined level.
- Starter relays 88 and 90 are connected in parallel with each other and relay 88 is connected in series with the R contacts 92 of plugging switch 66.
- relay 90 is connected in series with the F contacts 94 of the plugging switch.
- forward control relay 96 and reversing control relay 98 Connected in parallel with both of relays 88 and 90 as well as plugging switch 66 is forward control relay 96 and reversing control relay 98.
- the two relays 96 and 98 are connected in parallel with one another.
- a spring biased double pole, double throw forward control switch 100 has a first set of normally open contacts 102 and a second set of normally closed contacts 104.
- the two sets of contacts 102 and 104 are disposed in parallel with one another and also in parallel with a first set of normally open forward control relay contacts 106.
- a reversing control switch 107 is also of the double pole, double throw type having a first set of contacts 108 connected in series with contacts 102 and a second set of contacts 110 connected in series with contacts 104.
- the contacts 108 are normally closed and the contacts 110 are normally open with each being connected in parallel with the other and in parallel with a first set of normally open reverse control relay contacts 1 1 2.
- a second set of normally open forward control relay contacts are designated by the numeral 114 and are connected in series with forward starter relay 88. Also connected in series in the same circuit is a set of normally closed reversing starter relay contacts 116. Similarly, a second set of normally open reverse starter relay contacts 118 is connected in series with reversing starter relay 90 and normally closed forward starter relay contacts 120 are connected in series in the same circuit.
- a normally closed, manually operable override switch 122 is connected in series with plugging switch 66.
- brake solenoid 124 Connected in parallel with plugging switch 66 and forward and reversing starter relays 88 and 90 is brake solenoid 124.
- the brake solenoid controls a normally energized brake 126 through a braking switch 128.
- brake 126 and switch 128 are connected in parallel with the brake solenoid.
- Disposed in series with solenoid 124 are second sets of forward and reversing starter relay contacts 130 and 132, respectively. Each set of contacts 130 and 132 is normally open and the two sets are connected in parallel with each other.
- a master control switch 134 is connected in series with the power supply for the above described circuitry.
- the circuitry is shown as it would appear when motor 60 is operating in its reverse direction. Swtiches 100 and 107 are spring biased into the positions illustrated. Contacts 104 are closed as are contacts 112, the latter having been closed when reversing control switch 107 was closed to energize control relay 98. F contacts 94 of plugging switch 66 are also closed by virtue of the fact that the shaft to which this switch is coupled is traveling in the reverse direction. Manifestly, contacts 118 and 120 are also closed and reversing relay 90 is energized. Contacts 132 are closed and brake solenoid 124 is energized so as to hold brake 126 in a releasing position.
- control switch 100 When it is desired to reverse the direction of belt 46, forward control switch 100 is pushed. This closes contacts 102 while opening contacts 104. Thus, control relay 98 is de-energized while control relay 96 is energized. Contacts 106 will close to maintain the closed circuit after switch 100 is released. De-energizing of control relay 98 opens contacts 118 thereby de-energizing relay 90 and opening contacts 132 to de-energize solenoid 124. This immediately applies brake 126 to commence slowing of the drive pulley 56.
- R contacts 92 will close thereby energizing relay 88 by virtue of the fact that contacts 114 have already been closed upon energizing of relay 96. This closes contacts 130 to energize solenoid 124 and release the brake while simultaneously starting the motor 60 in the opposite direction.
- a particular advantage of the improved method and apparatus of the present invention is the versatility with which it may be employed for coating pipe.
- the system is designed for optimum efficiency in operation when two pipe sections are moving along parallel tracks 16 approximately 180 out of phase with each other. This allows time for one pipe section to be coated and moved back to the unloading area while a second pipe section is moved into position to begin the coating operation.
- the circuitry above described provides for a change over in the direction of flow of coating material from one applicator to the other of approximately I second.
- our improved method allows for a time lapse of approximately half of a minute without requiring shut down of the coating preparation station. This is of considerable advantage in minimizing the disturbances resulting from the minor difficulties which inevitably are encountered, however infrequently, in any coating operation.
- Pipe coating apparatus comprising:
- first and second coating applicators disposed adjacent to the respective paths of travel
- a coating preparation station disposed intermediate said paths of travel;
- reciprocal conveyor means disposed for receiving coating material from said station and transferring the material to each of said applicators; power means coupled with said conveyor means for moving the latter in opposite directions;
- brake means coupled with said power means and operable to slow said power means when moving said conveyor means in one direction prior to movement of said conveyor means in the opposite direction.
- said power means comprising a reversible electric motor and including electrical control means for said brake means, circuit means coupling said control means with said motor, and switching means in the circuit means for reversing said motor, said brake means being activated to slow said motor whenever said switch means is thrown.
- switching means comprises a directional plugging switch having two sets of centrifugally activated parallel contacts operable at a predetermined speed of rotation to release said brake means and reverse said motor.
- switching means comprises forward and reversing control relays, and circuit means coupling each of said control relays with one set of contacts of said plugging switch whereby when power to one of said control relays is interrupted power to a corresponding set of plugging switch contacts is interrupted.
- a brake solenoid for controlling said brake means, forward and reversing starter relays for said motor, said forward and reversing starter relays connected in series with said forward and reversing control relays, respectively, and circuit means connecting said brake solenoid with said forward and reversing starter relays whereby said brake solenoid releases said brake means whenever one of said starter relays is energized.
- said switching means comprises:
- each of said switches having normally closed and normally open contacts with the closed contacts of one switch connected in series with the open contacts of the other switch for simultaneously opening one circuit as the other circuit is closed;
- forward and reversing control relays one of which is connected in series with one set of contacts of each of the first and second switches
- said plugging switch connected in parallel with each of said first and second switches
- each of said relay contacts being normally open, closed by energizing the corresponding relay, and connected in parallel with the other relay contacts and in series with one set of contacts of the plugging switch;
- forward and reversing starter relays for said motor, said forward and reversing starter relays connected in series with said forward and reversing control relay contacts, respectively;
- each of said starter relay contacts being normally closed, opened by energizing the corresponding starter relay and connected in series with the opposite starter relay to open a relay circuit when the opposite relay is energized;
- a brake solenoid for controlling said brake means
- each of said applicators has a capacity for delivery of a quantity of X tons per second of coating material and wherein said coating preparation means comprises hopper means for holding a quantity of said coating material in position for delivery to said conveyor means, said hopper means having a capacity for coating material of up to X whereby said conveyor means may remain stationary for up to 25 seconds while coating material continues to be delivered to said conveyor means.
- said coating preparation means comprises a pug mill for mixing components of said coating material and.
- said hopper means comprises an open end of said pug mill having an open bottom positioned above said conveyor means.
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Abstract
Method and apparatus for coating pipe utilizes a central coating station to coat pipe joints moving on two parallel spaced apart coating lines. Two coating applicators disposed in opposed relationship adjacent the respective coating lines both receive coating material from a single central coating preparation station by a reciprocal conveyor. Coating material is alternately supplied to the opposite applicator as different pipe sections are moved at intervals to first one applicator and then the next. The conveyor is moved by a reversible prime mover. A brake is automatically activated to slow the conveyor whenever a reversing switch is thrown. This assures that the coating operation at the opposite applicator will begin in a minimal amount of time. A holding hopper is also provided for receiving prepared coating prior to deposit on the reciprocal conveyor. The holding hopper has a capacity adequate to allow it to continue receiving coating material for a period of time during reversal of the conveyor thus eliminating the need to stop the coating preparation apparatus.
Description
United States Patent Harris et al. [4 Dec. 9, 1975 APPARATUS FOR COATING PIPE [75] Inventors: Robert J. Harris, Marrero; Irvin J. [57] ABSTRACT L Gretna, b h f L Method and apparatus for coating pipe utilizes a central coatin station to coat i e joints movin on two [73] Asslgnee: Pr'ce parallel sp ced apart coating l ines. Two coatiig appli- [22] Fil d; J l 31, 1974 cators disposed in opposed relationship adjacent the res ective coatin lines both receive coating material [211 App! 493405 fIOIQ'l a single cen tral coating preparation station by a reciprocal conveyor. Coating material is alternately 52 us. c1 118/320; 118/010. 11 pp to the pp applicator as different p p [51] Int. CI. B05B 13/04 sectlims are mmed at intervals first one applicator [58] Fi ld of S h 1 13 303 313 320 mg 1 1, and then the next. The conveyor is moved by a revers llg/ lg 1 117/94 1054 ible prime mover. A brake is automatically activated to slow the conveyor whenever a reversing switch is [56] References Ci d thrown. This assures that the coating operation at the UNITED STATES PATENTS opposite applicator will begin in a minimal amount of 3 526 525 9H9) verso et al 117/94 time. A holdlng hopper is also provided for receiving 3:670:696 6/1972 Findle y et ail :1:iiiiiiilli l i tilDlG. 11 prepared coatmg P to depos reclprocal 3,674,546 7/1972 Harris et al. 1 l8/DIG. ll conveyor' The holdmg hopper has a capac'ty adequate Primary Examiner-Mervin Stein Assistant ExaminerSteven Hawkins Attorney, Agent, or Firm-Lowe, Kokjer, Kircher, Wharton & Bowman to allow it to continue receiving coating material for a period of time during reversal of the conveyor thus eliminating the need to stop the coating preparation apparatus.
11 Claims, 5 Drawing Figures US. Patent Dec. 9, 1975 Sheet 1 of2 3,924,562
MQU A U sh Qn $1 Eu l1 mm Mtu v3 0 O l MS G Qm fu i g r a U.S. Patent Dec. 9, 1975 Sheet 2 of2 3,924,562
a k Mm APPARATUS FOR COATING PIPE This invention relates generally to a method and apparatus for coating pipe and, more particularly, to a method and apparatus for coating two sections of pipe in closely spaced time intervals utilizing a single coating preparation station.
Whenever pipe is to be placed in the ground, and for some above ground installations, a protective coating is always applied to the pipe. In marsh country or for marine applications, it is usually necessary to also apply a concrete aggregate material to the pipe for weight purposes.
An improved method and apparatus for applying coating material to pipe is disclosed in our earlier US Pat. Nos. 3,674,546 issued July 4, 1972 and 3,777,705, issued Dec. 1 l, 1973. The present invention relates to improvements in the method and apparatus disclosed in the foregoing issued patents.
It is an object of the present invention to provide a method and apparatus for coating pipe sections wherein two sections of pipe are coated in close time intervals at two spaced apart coating applicators which receive coating material from a common coating preparation station and wherein the time required to change the flow of material from one coating applicator to the other is minimized by having the applicators positioned in closely spaced relationship.
As a corollary to the above object, an aim of the invention is to provide a method and apparatus for coating pipe wherein the time required for transfer of coating material from one applicator to the other is minimized by placing the two applicators in closely spaced relationship and utilizing a single relatively short reciprocal conveyor for transferring coating material between the two applicators.
Still another corollary to the object second above is to provide a method and apparatus for coating pipe utilizing two coating applicators wherein the time required to change the direction of flow of coating material from one applicator to the other is minimized by utilizing a braking mechanism to automatically slow the conveyor whenever it is desired to change the direction of movement of the conveyor.
It is also an objective of this invention to provide a method and apparatus for coating pipe utilizing a single coating preparation station to supply two applicators and wherein it is possible to continuously supply coating material from the preparation station, without interruption, as a result of a holding hopper having a ca pacity to receive coating material for a period of time even if neither of the coating applicators are in operation.
Still another object of the invention is to provide a method and apparatus for coating pipe wherein two coating applicators are fed from a single coating preparation station with versatility to allow continued uninterrupted operation of the coating operation even when two pipe sections are not moving in the optimum 180 degrees out-of-phase orientation.
It is also an aim of the present invention to provide a method and apparatus for coating pipe utilizing a single coating preparation station to supply two coating applicators wherein the coating from the preparation station is moved along a single unitary linear path of travel to each applicator thereby minimizing waste and dry out of the coating.
Other objects of the invention will be made clear or become apparent from the following description and claims when read in light of the accompanying drawing wherein:
FIG. I is a partially schematic top plan view showing a typical plant lay out incorporating the apparatus and utilizing the method of the present invention;
FIG. 2 is a front elevational view, on an enlarged scale, of the apparatus of the present invention showing the relationship between the two coating applicators and the coating preparation station;
FIG. 3 is an enlarged side elevational view, with portions broken away, of the apparatus shown in FIG. 2;
FIG. 4 is an elevational view of the drive for the reversible conveyor looking in the direction of line 4-4 in FIG. 2; and
FIG. 5 is an across the line electrical diagram showing the controls for the reversible drive motor.
Referring initially to FIG. 1 of the drawings, a pipe coating plant constructed according to the present invention is designated generally by the numeral and includes a coating material preparation station designated generally by the numeral 12, two coating applicators I4 and spaced apart longitudinally extending tracks 16 disposed in parallel relationship on opposite sides of preparation station 12.
The coating preparation station 12 includes cement storage tanks 18 and 20 which are coupled with a cement surge tank 18 by a conduit 20. First and seocnd hoppers 22 and 24 are disposed in side-by-side relationship and hold a quantity of iron ore aggregate and/or sand (not shown) which is utilized in the coating material. A first conveyor 26 moves ore into the hoppers and a second conveyor 28 moves the ore from hoppers 22 and 24 to a pug mill designated generally by the numeral 30. A third conveyor 32 transfers cement from surge tank 18 to the pug mill.
Referring additionally to FIGS. 2 and 3, pug mill 30 includes an elongated, flat, open top mixing chamber 34 provided with shafts 36 (one of which is visible in FIG. 3) having paddles 38 extending radially therefrom for mixing the components of the coating material. Paddles 38 are also disposed to have an auger effect thereby advancing the coating material to one end of the chamber. One end of chamber 34 is free of paddles 38 and also has an opening 40 in the bottom of the chamber, thus presenting a hopper area 42 for holding a quantity of the prepared coating material prior to delivery to applicators 14.
Referring additionally to FIG. 2, it is seen that disposed on opposite sides of chamber 34 in closely spaced relationship to the hopper area 42 are control gates 44 which may be manually adjusted for metering the flow of coating material as will be explained in greater detail hereinafter.
Coating material (designated by the numeral 450) is transferred from hopper area 42 to each of the aapplicators 14 by a reversible conveyor belt 46 mounted on rollers 48 and 50. A plurality of idler rollers 52 are disposed in spaced apart relationship beneath the upper stretch of belt 46 for supporting the belt when loaded with coating material. Roller 50 is coupled with a driven pulley 54 which in turn is coupled with a drive pulley 56 by drive belts 58. Drive pulley 56, in turn, is driven by an electric motor 60 through a reduction gear box 62 and a drive shaft 64. A directional plugging switch 66 is also coupled with shaft 64 for purposes to be explained more fully hereinafter.
Each of the applicators 14 is identical and only one of the same will be described in detail. Applicator 14 is of the impinger type and comprises a rotatable brush 68 disposed in contact with an applicator belt 70 mounted on closely spaced rollers 72 and 74. Both brush 68 and belt 14 are driven at a high rate of speed to throw coating material 45a outwardly with substantial force in the manner illustrated in FIG. 2.
Referring again to FIG. 1, each set of tracks 16 mounts two spaced apart vehicles in the form of buggies 76 and 78 joined together by a rigid coupling shaft 80. Each of the buggies 76 and 78 is provided with a pair of spaced apart roller wheels 82 (FIG. 2) which form a carriage for a section of pipe 84. At least one set of wheels 82 in each pair of buggies is driven for rotating the pipe about its longitudinal axis as coating material is applied. Normally, a reinforcing wire mesh 86 is also wrapped around the pipe during the coating operation to form an integral part of the completed pipe coating 45b. The arrows in FIG. 1 indicate the loading and unloading areas for incoming and outgoing pipe adjacent the respective tracks 16.
In operation, the constituents for the coating material are fed into pug mill 30 where they are homogeneously mixed and a limited amount of watter is added through conventional apparatus which has been omitted from the drawings for clarity. in the method and apparatus described in our original patents, it was thought to be preferred to utilize a total of three conveyor belts to transfer coating material 45g from pug mill 30 to applicators 14. While it is possible to utilize the three belt arrangement shown in the earlier patents, it has been found that substantial advantages result when a single belt rather than a three belt system is utilized.
Thus, coating material 45a passes through hopper area 42 on to the reciprocal conveyor belt 46 where it is delivered directly to applicators 14. in FlG. 2, coating material 450 is illustrated being directed to applicator 14 which is on the left hand side of the drawing. The coating material passes beneath gate 44, the height of which may be varied to control the flow of coating material. It will be appreciated that coating material 45a, once deposited on belt 46, travels along a linear path parallel to the belt until such time as it drops from the belt on to applicator belt 70. Not only is the path of travel of the coating material shortened but, by eliminating the multiple steps down through which the coating travels on its way to applicators 14, dry out and waste of the coating material is minimized.
As the coating material drops on to applicator belt 74, it is picked up by brush 68 and thrown at a high rate of speed on to the pipe section 84. Section 84 is being rotated in a counterclockwise direction, when viewing FIG. 2, so as to expose the entire area of the annular pipe to the coating material while also wrapping reinforcing mesh 86 around the pipe. The pipe 84 is advanced longitudinally as it is rotated to cover the entire length of the pipe with coating material 450.
When pipe section 84 is covered with a completed coating 45b, applicator 14 on the left side in FIG. 2 is stopped and reciprocal conveyor 46 which is moving in a counterclockwise direction is also stopped. As the stop switch for the conveyor belt 46 is throw, a brake is actuated to slow drive pulley 56 and hence belt 46, in the shortest possible time period. As the speed of rotation of the shaft mounting pulley 56 slows down, plugging switch 66 is closed to release the brake and energize the reversing starter relay. Thus, the direction of rotation of belt 46 in the opposite direction is commenced.
While it is possible to complete the change over in the directional flow of coating material 45a from one applicator to the other in a time period of only slightly more than one second, in some cases if problems are encountered in loading a section of pipe 84, the pipe will not be at the opposite applicator 14 in this minimal time period.
While it would be possible to stop the flow of coating material 45a from pug mill 30 to await the arrival of the next pipe section 84, this is obviously undesirable. Accordingly, hopper area 42 has been provided at the end of chamber 34 so as to accommodate a substantial build up of coating material. Thus, although the normal depth of material 450 in chamber 34 will be approximately at the level A indicated in FIG. 3, coating material may build to the height indicated -by level 8" without the need to shut down the pug mill. If the normal operating capacity of applicator 14 is X tons per second, it is desirable for h opper area 42 to have a capacity of at least X although preferably not over i X. This permits up to a 25 second delay before operation of the second applicator 14 is commenced.
By utilizing the single short reciprocal conveyor belt 46, as opposed to a multiple belt system, the presence of dead material on the conveyor belt during change over from one applicator to the other is completely eliminated. This assures that fresh coating material is always supplied to applicators 14 for placement on the pipe sections. Thus, the quality of the coating material is enhanced while the equipment necessary to convey the coating is substantially reduced.
The circuitry for carrying out the operation of motor 60 is shown in detail in FIG. 5 and will now be described. Motor 60 is preferably a variable speed, reversing motor controlled by a forward starter relay 88 and a reversing starter relay 90. Plugging switch 66 is a centrifugally operated control switch having two sets of controls 92 and 94. Both sets of controls open and close in response to centrifugal forces. When the shaft 64 is rotating in a forward direction, at or above a predetermined speed, R contacts 92 are closed and F contacts 94 are open. When the shaft is rotating in re verse F contacts 94 are closed and R contacts 92 are open so long as the speed of rotation remains above a predetermined level. Starter relays 88 and 90 are connected in parallel with each other and relay 88 is connected in series with the R contacts 92 of plugging switch 66. Similarly, relay 90 is connected in series with the F contacts 94 of the plugging switch.
Connected in parallel with both of relays 88 and 90 as well as plugging switch 66 is forward control relay 96 and reversing control relay 98. The two relays 96 and 98 are connected in parallel with one another. A spring biased double pole, double throw forward control switch 100 has a first set of normally open contacts 102 and a second set of normally closed contacts 104. The two sets of contacts 102 and 104 are disposed in parallel with one another and also in parallel with a first set of normally open forward control relay contacts 106.
A reversing control switch 107 is also of the double pole, double throw type having a first set of contacts 108 connected in series with contacts 102 and a second set of contacts 110 connected in series with contacts 104. The contacts 108 are normally closed and the contacts 110 are normally open with each being connected in parallel with the other and in parallel with a first set of normally open reverse control relay contacts 1 1 2.
A second set of normally open forward control relay contacts are designated by the numeral 114 and are connected in series with forward starter relay 88. Also connected in series in the same circuit is a set of normally closed reversing starter relay contacts 116. Similarly, a second set of normally open reverse starter relay contacts 118 is connected in series with reversing starter relay 90 and normally closed forward starter relay contacts 120 are connected in series in the same circuit. A normally closed, manually operable override switch 122 is connected in series with plugging switch 66.
Connected in parallel with plugging switch 66 and forward and reversing starter relays 88 and 90 is brake solenoid 124. The brake solenoid controls a normally energized brake 126 through a braking switch 128. Manifestly, brake 126 and switch 128 are connected in parallel with the brake solenoid. Disposed in series with solenoid 124 are second sets of forward and reversing starter relay contacts 130 and 132, respectively. Each set of contacts 130 and 132 is normally open and the two sets are connected in parallel with each other. Finally, a master control switch 134 is connected in series with the power supply for the above described circuitry.
The circuitry is shown as it would appear when motor 60 is operating in its reverse direction. Swtiches 100 and 107 are spring biased into the positions illustrated. Contacts 104 are closed as are contacts 112, the latter having been closed when reversing control switch 107 was closed to energize control relay 98. F contacts 94 of plugging switch 66 are also closed by virtue of the fact that the shaft to which this switch is coupled is traveling in the reverse direction. Manifestly, contacts 118 and 120 are also closed and reversing relay 90 is energized. Contacts 132 are closed and brake solenoid 124 is energized so as to hold brake 126 in a releasing position.
When it is desired to reverse the direction of belt 46, forward control switch 100 is pushed. This closes contacts 102 while opening contacts 104. Thus, control relay 98 is de-energized while control relay 96 is energized. Contacts 106 will close to maintain the closed circuit after switch 100 is released. De-energizing of control relay 98 opens contacts 118 thereby de-energizing relay 90 and opening contacts 132 to de-energize solenoid 124. This immediately applies brake 126 to commence slowing of the drive pulley 56.
As the drive shaft for pulley 56 slows to a predetermined speed, R contacts 92 will close thereby energizing relay 88 by virtue of the fact that contacts 114 have already been closed upon energizing of relay 96. This closes contacts 130 to energize solenoid 124 and release the brake while simultaneously starting the motor 60 in the opposite direction.
A particular advantage of the improved method and apparatus of the present invention is the versatility with which it may be employed for coating pipe. The system is designed for optimum efficiency in operation when two pipe sections are moving along parallel tracks 16 approximately 180 out of phase with each other. This allows time for one pipe section to be coated and moved back to the unloading area while a second pipe section is moved into position to begin the coating operation. To this end, the circuitry above described provides for a change over in the direction of flow of coating material from one applicator to the other of approximately I second. On the other hand, if minor problems are encountered in the loading, unloading or coating steps, our improved method allows for a time lapse of approximately half of a minute without requiring shut down of the coating preparation station. This is of considerable advantage in minimizing the disturbances resulting from the minor difficulties which inevitably are encountered, however infrequently, in any coating operation.
Having thus described the invention, we claim:
1. Pipe coating apparatus comprising:
means for moving first and second pipe sections along spaced apart fore and aft extending paths of travel;
first and second coating applicators disposed adjacent to the respective paths of travel;
a coating preparation station disposed intermediate said paths of travel;
reciprocal conveyor means disposed for receiving coating material from said station and transferring the material to each of said applicators; power means coupled with said conveyor means for moving the latter in opposite directions; and
brake means coupled with said power means and operable to slow said power means when moving said conveyor means in one direction prior to movement of said conveyor means in the opposite direction.
2. The invention of claim 1, wherein said reciprocal conveyor means defines a unitary linear path of travel for the coating material after the latter is received from said station and until the material is discharged from the conveyor for deposit at said applicators.
3. The invention of claim 2, said power means comprising a reversible electric motor and including electrical control means for said brake means, circuit means coupling said control means with said motor, and switching means in the circuit means for reversing said motor, said brake means being activated to slow said motor whenever said switch means is thrown.
4. The invention of claim 3, wherein said switching means comprises a directional plugging switch having two sets of centrifugally activated parallel contacts operable at a predetermined speed of rotation to release said brake means and reverse said motor.
5. The invention of claim 4, wherein said switching means comprises forward and reversing control relays, and circuit means coupling each of said control relays with one set of contacts of said plugging switch whereby when power to one of said control relays is interrupted power to a corresponding set of plugging switch contacts is interrupted.
6. The invention of claim 5, wherein is included a brake solenoid for controlling said brake means, forward and reversing starter relays for said motor, said forward and reversing starter relays connected in series with said forward and reversing control relays, respectively, and circuit means connecting said brake solenoid with said forward and reversing starter relays whereby said brake solenoid releases said brake means whenever one of said starter relays is energized.
7. The invention of claim 3 wherein said switching means comprises:
first and second double pole double throw switches,
each of said switches having normally closed and normally open contacts with the closed contacts of one switch connected in series with the open contacts of the other switch for simultaneously opening one circuit as the other circuit is closed;
forward and reversing control relays one of which is connected in series with one set of contacts of each of the first and second switches,
said plugging switch connected in parallel with each of said first and second switches;
forward and reversing control relay contacts corresponding to said forward and reversing control relays,
each of said relay contacts being normally open, closed by energizing the corresponding relay, and connected in parallel with the other relay contacts and in series with one set of contacts of the plugging switch;
forward and reversing starter relays for said motor, said forward and reversing starter relays connected in series with said forward and reversing control relay contacts, respectively;
forward and reversing starter relay contacts corresponding to said forward and reversing starter re lays, respectively,
each of said starter relay contacts being normally closed, opened by energizing the corresponding starter relay and connected in series with the opposite starter relay to open a relay circuit when the opposite relay is energized;
a brake solenoid for controlling said brake means;
and
8 circuit means connecting said brake solenoid with said forward and reversing starter relays for releasing said brake means whenever either of said starter relays is energized.
8. The invention of claim 1, wherein each of said applicators has a capacity for delivery of a quantity of X tons per second of coating material and wherein said coating preparation means comprises hopper means for holding a quantity of said coating material in position for delivery to said conveyor means, said hopper means having a capacity for coating material of up to X whereby said conveyor means may remain stationary for up to 25 seconds while coating material continues to be delivered to said conveyor means.
9. The invention of claim 8, wherein said coating preparation means comprises a pug mill for mixing components of said coating material and. said hopper means comprises an open end of said pug mill having an open bottom positioned above said conveyor means.
10. The invention of claim 9, wherein is included means for rotating said pipe sections during application of said coating.
Claims (11)
1. Pipe coating apparatus comprising: means for moving first and second pipe sections along spaced apart fore and aft extEnding paths of travel; first and second coating applicators disposed adjacent to the respective paths of travel; a coating preparation station disposed intermediate said paths of travel; reciprocal conveyor means disposed for receiving coating material from said station and transferring the material to each of said applicators; power means coupled with said conveyor means for moving the latter in opposite directions; and brake means coupled with said power means and operable to slow said power means when moving said conveyor means in one direction prior to movement of said conveyor means in the opposite direction.
2. The invention of claim 1, wherein said reciprocal conveyor means defines a unitary linear path of travel for the coating material after the latter is received from said station and until the material is discharged from the conveyor for deposit at said applicators.
3. The invention of claim 2, said power means comprising a reversible electric motor and including electrical control means for said brake means, circuit means coupling said control means with said motor, and switching means in the circuit means for reversing said motor, said brake means being activated to slow said motor whenever said switch means is thrown.
4. The invention of claim 3, wherein said switching means comprises a directional plugging switch having two sets of centrifugally activated parallel contacts operable at a predetermined speed of rotation to release said brake means and reverse said motor.
5. The invention of claim 4, wherein said switching means comprises forward and reversing control relays, and circuit means coupling each of said control relays with one set of contacts of said plugging switch whereby when power to one of said control relays is interrupted power to a corresponding set of plugging switch contacts is interrupted.
6. The invention of claim 5, wherein is included a brake solenoid for controlling said brake means, forward and reversing starter relays for said motor, said forward and reversing starter relays connected in series with said forward and reversing control relays, respectively, and circuit means connecting said brake solenoid with said forward and reversing starter relays whereby said brake solenoid releases said brake means whenever one of said starter relays is energized.
7. The invention of claim 3 wherein said switching means comprises: first and second double pole double throw switches, each of said switches having normally closed and normally open contacts with the closed contacts of one switch connected in series with the open contacts of the other switch for simultaneously opening one circuit as the other circuit is closed; forward and reversing control relays one of which is connected in series with one set of contacts of each of the first and second switches, said plugging switch connected in parallel with each of said first and second switches; forward and reversing control relay contacts corresponding to said forward and reversing control relays, each of said relay contacts being normally open, closed by energizing the corresponding relay, and connected in parallel with the other relay contacts and in series with one set of contacts of the plugging switch; forward and reversing starter relays for said motor, said forward and reversing starter relays connected in series with said forward and reversing control relay contacts, respectively; forward and reversing starter relay contacts corresponding to said forward and reversing starter relays, respectively, each of said starter relay contacts being normally closed, opened by energizing the corresponding starter relay and connected in series with the opposite starter relay to open a relay circuit when the opposite relay is energized; a brake solenoid for controlling said brake means; and circuit means connecting said brake solenoid with said forward and reversing starter relays for releasing said brake means whenever either of said starter relays is energized.
8. The invention of claim 1, wherein each of said applicators has a capacity for delivery of a quantity of X tons per second of coating material and wherein said coating preparation means comprises hopper means for holding a quantity of said coating material in position for delivery to said conveyor means, said hopper means having a capacity for coating material of up to 25 X whereby said conveyor means may remain stationary for up to 25 seconds while coating material continues to be delivered to said conveyor means.
9. The invention of claim 8, wherein said coating preparation means comprises a pug mill for mixing components of said coating material and said hopper means comprises an open end of said pug mill having an open bottom positioned above said conveyor means.
10. The invention of claim 9, wherein is included means for rotating said pipe sections during application of said coating.
11. The invention of claim 10, wherein is provided first and second spaced apart vehicles for moving each of said sections along said spaced apart fore and aft extending paths of travel and for rotating each section during application of the coating.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US493405A US3924562A (en) | 1974-07-31 | 1974-07-31 | Apparatus for coating pipe |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US493405A US3924562A (en) | 1974-07-31 | 1974-07-31 | Apparatus for coating pipe |
Publications (1)
Publication Number | Publication Date |
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US3924562A true US3924562A (en) | 1975-12-09 |
Family
ID=23960098
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US493405A Expired - Lifetime US3924562A (en) | 1974-07-31 | 1974-07-31 | Apparatus for coating pipe |
Country Status (1)
Country | Link |
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US (1) | US3924562A (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4164597A (en) * | 1976-07-27 | 1979-08-14 | Midcon Pipeline Equipment Co. | Method of mixing and spraying concrete onto pipe |
EP0016836A4 (en) * | 1978-03-10 | 1980-08-08 | Asahi Glass Co Ltd | Method and apparatus for spraying material onto a moving receiving surface. |
US4630777A (en) * | 1984-02-27 | 1986-12-23 | Nordson Corporation | Powder spray gun |
US6238545B1 (en) | 1999-08-02 | 2001-05-29 | Carl I. Allebach | Composite anode, electrolyte pipe section, and method of making and forming a pipeline, and applying cathodic protection to the pipeline |
CN108580098A (en) * | 2018-05-11 | 2018-09-28 | 合肥鼎鑫模具有限公司 | A kind of workpiece spraying frock |
CN108906411A (en) * | 2018-09-10 | 2018-11-30 | 东莞市松研智达工业设计有限公司 | Asepsis environment-protecting portable supersonic spray robot platform |
US10978978B2 (en) * | 2018-10-30 | 2021-04-13 | Roche Diagnostics Operations, Inc. | Method of estimating an operating state of a drive system and drive system |
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Publication number | Priority date | Publication date | Assignee | Title |
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US3526525A (en) * | 1967-01-03 | 1970-09-01 | Price Co H C | Method and apparatus for coating pipe |
US3670696A (en) * | 1971-02-22 | 1972-06-20 | Anchor Wate Co | Coating apparatus for tubular objects |
US3674546A (en) * | 1971-01-06 | 1972-07-04 | Price Co H C | Method for coating pipe |
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3526525A (en) * | 1967-01-03 | 1970-09-01 | Price Co H C | Method and apparatus for coating pipe |
US3674546A (en) * | 1971-01-06 | 1972-07-04 | Price Co H C | Method for coating pipe |
US3670696A (en) * | 1971-02-22 | 1972-06-20 | Anchor Wate Co | Coating apparatus for tubular objects |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4164597A (en) * | 1976-07-27 | 1979-08-14 | Midcon Pipeline Equipment Co. | Method of mixing and spraying concrete onto pipe |
EP0016836A4 (en) * | 1978-03-10 | 1980-08-08 | Asahi Glass Co Ltd | Method and apparatus for spraying material onto a moving receiving surface. |
EP0016836A1 (en) * | 1978-03-10 | 1980-10-15 | Asahi Glass Company Ltd. | Method and apparatus for spraying material onto a moving receiving surface |
US4630777A (en) * | 1984-02-27 | 1986-12-23 | Nordson Corporation | Powder spray gun |
US6238545B1 (en) | 1999-08-02 | 2001-05-29 | Carl I. Allebach | Composite anode, electrolyte pipe section, and method of making and forming a pipeline, and applying cathodic protection to the pipeline |
CN108580098A (en) * | 2018-05-11 | 2018-09-28 | 合肥鼎鑫模具有限公司 | A kind of workpiece spraying frock |
CN108906411A (en) * | 2018-09-10 | 2018-11-30 | 东莞市松研智达工业设计有限公司 | Asepsis environment-protecting portable supersonic spray robot platform |
CN108906411B (en) * | 2018-09-10 | 2020-05-15 | 无锡市锡山港口起重机械有限公司 | Nontoxic environment-friendly portable ultrasonic spraying robot platform |
US10978978B2 (en) * | 2018-10-30 | 2021-04-13 | Roche Diagnostics Operations, Inc. | Method of estimating an operating state of a drive system and drive system |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
AS | Assignment |
Owner name: BREDERO PRICE, INC., PRICE TOWER ANNEX, BARTLESVIL Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:H.C. PRICE CO., A CORP. OF DE.;REEL/FRAME:003854/0629 Effective date: 19810109 |