PEDERSEN PETER (SE)
| WO2009143497A2 | 2009-11-26 |
| US2679061A | 1954-05-25 | |||
| GB199459A | 1923-06-21 | |||
| US20100005603A1 | 2010-01-14 | |||
| EP0542212A1 | 1993-05-19 | |||
| US20100263140A1 | 2010-10-21 |
| Claims 1. A method to safely become a skilled operator during use of an interactive pipe cleaning equipment (1) comprising one in a surrounding cover (9) rotating flexible shaft (12) carrying a suitable cutting front part to clean pipes or channels and to register parameters regarding time, and/or type of ongoing type of work performed by the tool, characterized in that working parameters as revolutions direction of rotation, torque load on the shaft (12) and type of used front part(7tool head are chosen on a display (4), that information regarding the working parameters are registered and stored in an experience memory unit (EMU), that torque performed on the flexible shaft (12) is registered during use and that this information is treated and compared with information in the experience memory unit (EMU) in a comparing search after earlier similar working cases and that the result will continuously be transferred to the user giving a support and a confirmation on the proceeding of the work. 2. A method according to claim 1, characterized in that a GPS receiver at the pipe cleaning equipment collects and registers the present position in the experience memory unit (EMU). 3. A method according to claim 1, characterized in that the result from the treated information is given as a judgement concerning degree of suitability (skilfulness) in handling of the tool, the quickness in performing, and as suggestions to possible improvements when a comparison has been done with earlier performed and into the experience memory unit (EMU) stored working cases, also from other users. 4. An interactive pipe cleaning equipment (1) comprising one in a covering shield (9) rotating flexible shaft (12) carrying a suitable cutting front part for cleaning pipes or channels and to register parameters concerning time and/or type of work carried out by the tool and to perform the method according to claim 1 , characterized in that a wheel carried (2) main drive unit (1) having handle (3), interactive display (4), emergency stop (5), flash light (6), resetting button (7) and a quick coupling device (8) to connect to a flexible shaft (12) in front carrying a cutting tool head and an experience memory unit (EMU) to store working parameters as rpm, direction of rotation, torque load on the shaft (12) and type of used front part/tool head, and in a remote control module also transferring working information to the user giving a support and a confirmation of the proceeding of the work. 5. A coupling mechanism between main drive unit (1) of the pipe cleaning equipment and the flexible shaft (12), comprising a bayonet coupling mechanism (1), a clamping ring mechanism (11), characterized in that the shield (9) of the flexible shaft (12) is locked in axial direction to the main drive unit (1) by a foldable protecting socket (14). 6. A coupling mechanism according to claim 5, characterized in that the front part (14a) of the protecting socket (14) is folded down over a socket (13) fixed on the shield of the shaft (12). 7. A coupling mechanism according to claim 6, characterized in that the socket (13) is winded threaded to lock to the shield (9) of the shaft (12). |
When a company make itself responsible for a contract there is a big need to have control of the procedures at the working place. The working staff sent need to have a skill to manage the working tasks needed to fulfil the mission. As the present invention is restricted to treat channels, as channels for ventilation and drain in buildings, several of the tasks will be similar and should by this reason be handled by inexperienced staff members. Against this use are the risks involved in a cutting procedure of 40 to 50 years old drain pipes in dwelling-houses It is difficult to make prior decisions of which type of cutting front parts or working tools being most suitable as the real reason for drain pipes being blocked as one example is not known. Of course there are rust deposits but also fat and limestone formations may be the reason for blocked drain pipes, which may cause flooding, especially if the blockings exist in a main pipe drain. This is most likely in houses having several floors.
WO 2009/143497 discloses a tool machine to clean channels. This machine have a"naked" spiral shaft being winded on a drum on the machine. From this drum the naked spiral shaft is fed into a channel to be cleaned. This machine is very awkward in handling and not very hygienic to an operator. An advantage may be that spiral shaft not used remains wound onto the drum. Thus it must be rotated also when a short channel length is to be cleaned, that is it uses power to be driven.
The main object of the present invention is to obtain an interactive machine being easy to handle and comprising a rotating flexible shaft in a fixed cover and carrying a cutting front part/tool head for an efficient cleaning of channels and where the machine also can be handled by an inexperienced operator, e.g. an operator being trained or educated.
This object is obtained by providing the machine with a central control unit having an experience memory unit (EMU) having stored typical working parameters for different tool heads to be chosen. There is an ongoing summarization against this EMU of current real time working parameters. EMU has a capacity to suggest different strategic choice of tool heads, e.g. by suggesting choice of one type of cutting tool heads for heavily blocked pipes having a given dimension. If use of a suggested working head means that it is very easily fed through the channel EMU suggests use of a working head having a greater working diameter. When this happens a bigger resistance will probably occur being a sign of an increased performed cleaning process.
Stored parameter information in the EMU for different tool heads are compared with ongoing real time information for different types of blocked pipes. Of course the reasons for blocked channels can vary in the one and same channel in that flushed down items of varied shape and properties may be obstacles. Plant roots may be the reason for fluid blocked channels. By registering changing torque on the rotating flexible shaft and by knowing exactly how the changes in torque starts to show up for the tool head used it is possible to give a pretty safe judgement of the reasons to blocking channels and to suggest change of the front part/tool head not to over load the flexible shaft.
Another object of the present invention is to obtain a safe and interactive tool having EMU where limits for parameter and/or parameter constellations are stored for different running conditions with different used tool heads and which, when exceeded, the tools may be emergency stopped.
Yet another object of the invention is to make a meaningful use of the tool possible also handled by an inexperienced operator out on the working site in that the tool for an ordered task will put pre-programmed questions
demanding correct answers by interaction by a display prior starting the task. Preferably the tool according to the invention is set not to be able to exceed such working parameters which might damage the channels during treatment, the tool itself with completing equipment or damage on the operator. Still another object with the invention is to obtain a tool having a clear interface/control panel being possible to take over and control remotely of an experienced operator, e.g. by a communication link. During a productive learning procedure the tool may all the time be connectable by said link to, when needed, inform a responsible education instructor that support out on the field is needed. Then the education instructor may log in and remotely control an ongoing working process and at the same time perform an explanative dialog with the adept.
Necessary steps taking care of a drain pipe in a building may be
rebuild/relining or change of complete main drain pipes. To make
economically correct decisions all channels must first be cleaned and prepared prior to a choice of a further step suitable. In some cases the result may be a need to change the whole channel or just parts of it. Thus the tool according to the invention has a capacity for handling
parameters using a suitable soft ware registering different type of proceedings and decide working running conditions from a data bank and inform the user about this and suggests a suitable method to treat in combination with suitable tools. This computing power will also be able to "tell" the user about the tool if it is used in a wrong way and then suggest a more constructive use, or, as mentioned above, simply stop a preceding working process.
A GPS function will allow traction of the tool, which besides confirming that the tool is at a stated certain working place also essentially may contribute to limit the damage at not authorized removal of the tools from said working site out on the field.
A channel to be relined often needs a treatment with different types of working heads. Deposits on the channel walls may have different hardness and need special cutting tools. Also the lay out of channels means that they have bends of different readies. From this it is necessary to have a
combination of a flexible, propelling shaft and cutting tools functioning at different bending readies. Therefore, e.g. prior to passing a bend, it is important that a tool change may be performed quick and easily, especially as there is clogging developed in the channel areas at such places.
The invention will now be described in connection to the shown embodiments on the drawings, where
Fig. 1 is an end view of the main propelling unit of the pipe cleaning
equipment according to the invention
Fig. 2 is a side view of the main propelling unit of a pipe cleaning equipment according to fig. 1,
Fig. 3 is an enlarged view of the coupling mechanism between the flexible shaft and the main propelling unit of the pipe cleaning equipment, and where Fig. 4 - 12 are views of different information shown on an interactive display unit.
The main drive unit 1 of the pipe cleaning equipment according to the present invention is carried by wheels 2. It has a handle 3 stretching in over the centre of gravity to make it possible to carry this part in balance. A display 4 being of the interactive type discloses the control symbols and which can be activated by the user to set wanted drive conditions for the main drive unit. An emergency stop 5 is placed easy accessible on top of the main drive unit 1. A flashing warning light and a reset button is shown at 6 and 7 respectively. A connection mechanism for the flexible shaft 12 is shown diagrammatically at 8 in fig. 1 and 2. In fig. 3 the interacting parts of the coupling mechanism 8 are shown as the quick release coupling 10 of bayonet type is locked to the flexible shaft 12 by a clamp ring coupling 11. A cover 9 surrounds the shaft 12 and is hold against axial movement by a socket locking into the periphery of said cover 9 - here shown as a threaded connection. The socket will be retained in an arc interconnection by a foldable arc 14 being articulately connected to the main drive unit 1.
At the free end of the flexible shaft there is preferably a cutting tool suited for cutting channels having a smaller area, that is a so called chain cutter commonly used for cutting channels having a greater area, or a tip drilling tool having very good cutting properties. Also special tools especially suited for lead, roots, concrete or collapsed insert stocks from failed relining procedures are to chose from.
The parameters being handled by the soft ware in the drive unit of the equipment are voltage and amperes (torque) and the revolutions per minute. A memory unit in connection to the soft ware will register how the torque (amperes) will change during time, which is if the ongoing work cycle tends to be too heavy for the drive unit and/or for the chosen tool using the actual shaft length. A logic unit connected to the soft ware and to a memory bank including preceding working cases may suggest a change of tool for the ongoing work after the parameters have been calculated during an ongoing activity. It is also possible to have a continuous information of ongoing activities by light bulbs on the control panel which will light green for an ok work, yellow for a work to be controlled and red for working conditions needing an immediate attention. Thus if in the latter case a manually initiated change of working conditions does not take place the equipment and the tool will be immediately stopped.
In the following an example of safety routines and a dialog using an active display to handle the equipment are shown.
1. Safety routines to use the machine
The invention has an advanced emergency stop system. The machine has two buttons for emergency stop. The first is in the chassis left of a display; the other is on the remote control. The emergency stop loop will
disconnect and stop the engine without delay.
There are two different positions for use/safety modes for the machine. 1. When operating from the display the remote control is inactive. In this case the emergency stop button on the machine is active.
2. When using the remote control both of the emergency buttons are active and operation from the display is not possible.
2. Resetting of safety loop
Emergency stop activated on the machine
1. Display is shown in fig. 4.
2. Reset the emergency stop button on the machine (no red light)
3. Accept and reset using the OK button.
4. Now the operating display is shown and the machine is ready to use.
If the remote control was connected at the moment of emergency stop an informative text is shown on the working display as in fig. 5 and then the remote control has to be disconnected and reconnected to reset the security loop.
Released emergency stop on the remote control
1. Display is shown as in fig. 4.
Sign with OK button on display to go back to control by the display as alternative - Reconnect the remote control and use it for containment.
3. To get the machine started
1. Connect the plug to a grounded socket of 230 V
2. The machine starts and the display is charged with soft ware
3. PCT Logotype is shown in 5 sec - fig. 6.
4. After that the start display with the current set ups for speed, torque, sound and flash lightning is shown as in fig. 7.
5. To reset the security loop and go further on to the drive menu confirm by ticking off by the button (green hook).
6. For a detailed explanation press the question mark.
7. Now the drive menu is shown in fig. 8. 4. To control the machine from the display 1. Show clockwise or anti clockwise in the drive menu.
2. Set the wanted speed and torque as in fig. 9 using the (+) button and (-) button respectively.
3. Press the big round drive button with an arrow to start.
4. If and when reaching and exceeding the set torque the machine will stop and a big red cross will show up as in fig. 10.
5. Press the cross to return to an operative mode.
5. To control the machine from the remote control.
1. Connect the remote control by pressing button 1 for one sec, button 2 for one sec and again the button 1 for one sec.
2. The display 10 is shown and the remote control is connected.
3. Press button 2 to reset the security loop.
4. Now as is shown in fig. 1 1 the machine can be used.
Clockwise driving occurs when pressing the button X and is stopped by one more pressure on said button.
Anti clockwise driving occurs by keeping the button X pressed down, the machine will start when the button is released.
To adjust the speed one button in fig. 12 is used to decrease and to increase the speed and the other to decrease and increase the torque.
The invention is not restricted to the shown embodiments but modifications can be done within the scope of the following claims.
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