The present invention relates to an arrangement for automated paint mixing in a customer-operated and enclosed arrangement in which a container, for example a tin, with colour base component(s) is inserted and is provided with a hole, one or more doses (quantities) of colour pigment are added via the hole, the hole is closed and shaking is carried out, and in which making the hole, dosing, closing and shaking are carried out by means of devices that are controlled by computer equipment, preferably microcomputer equipment, that is arranged to work interactively with the customer. The invention also relates to a device for such automated colour mixing.
Methods and arrangements for automated paint mixing are previously known, among other things through equipment provided by the same applicant. In connection with making holes, it has been previously proposed that the holes should be made by means of a punch device. Arrangements for dosing colour pigment into the tin's base component or base component mixture via the hole that has been made in the tin are also known. For automated paint mixing that works well, it is, however, important that all the functions can be carried out in an optimal way. The proposed punching method is not an optimal way of making holes for all types of tin and all types of material for tins. There is also a desire to be able to make holes in currently available materials for tins such as plastic, cardboard, sheet metal, etc. Concerning the function for dosing of colour pigment, it is important to be able to meet a requirement for more possibilities for colour mixing by means of control functions associated with the utilized microcomputer function.
The object of the present invention is to solve the problems described above.
In a method according to the invention, the hole is made by means of a knife edge that is pushed through the lid of the container or tin and caused to follow or achieve a path that creates the shape of a hole and thereafter the dosing of the colour pigments is carried out by means of a pump and valve arrangement in which one or more valves are opened and closed. The dosing is initiated in a first state of the respective valve; for example the valve's opened state, while in a second state of the respective valve, for example the valve's closed state, recirculation of the colour pigment or pigments in the canisters allocated to the pigment or pigments takes place. One or more injection devices can also be used for making the hole and for adding the colour pigment, with a needle-shaped device that penetrates through the material of the container in a place where this is completely or partially of a softer type, for example cardboard, plastic (for example Ecolean), etc. The addition of the colour pigment is achieved by means of a piston function and/or pressure function in the respective injection device.
The principle characteristics of the new method are apparent from the following Claim 1.
In further developments of the concept of the invention, the device that makes the hole is arranged with a clamping or fixing device that prevents the tin from moving with the knife edge or knife blade while the hole is being made. The knife or the knife edge can be arranged in a rotating unit that is rotated with the knife or knife edge penetrating the lid while the tin is clamped against a base comprised in the arrangement. Alternatively, the knife blade can be stationary and the tin can be arranged to rotate. In one embodiment, the knife blade and the tin are moved in opposite directions. The number of canisters that are provided with colour pigment of various types, for example colour pigment in paste form, and dosing quantities and/or dosing times are selected by the customer working interactively with the computer equipment or its operating devices (keypad, speech recognition equipment, etc). After each mixing of base component or base components and colour pigment, the canister or canisters, connecting pipes and valve or valves involved can be cleaned, preferably by means of a pump operating at high speed and a cleaning agent.
In an arrangement according to the invention, among other things the hole-making device is provided with a knife or knife edge that is arranged to be able to be pressed through the container or tin, preferably through its lid. The hole-making device is arranged to follow a path that creates a hole. The dosing device comprises a pump and valve arrangement with one or more valves that can be opened or closed and dosing is carried out in a first state, for example an open state, of the valve or valves. Recirculation in the canister or canisters concerned is carried out in a second state, for example a closed state, of the valve or valves. A set of canisters that are allocated colour pigments, comprising for example 24 canisters, can preferably be arranged to be included in the arrangement or can be connected to the arrangement. Alternatively, one or more injection devices can be utilized that are arranged to penetrate the material of the container and that are arranged to contribute to the carrying out of the addition of the colour pigment by means of their piston functions or pressure functions.
The principle characteristics of a device according to the invention are apparent from Claim 8.
In further developments of the concept of the invention, the hole-making device can comprise a clamping or fixing device that interacts with the tin to prevent the tin following the movements of the knife or the knife edge when the hole is being made. The hole-making device can have a rotating part that supports the knife or knife edge. Similarly, the clamping or fixing device can extend centrally through the rotating part in its longitudinal direction. The clamping or fixing device can be arranged to be sprung in its longitudinal direction. The inserted container can be identified for determining the size, type, number of colour pigments that are to be added, the shaking time, hole-making function, etc, by means of the microcomputer. Additional further developments are apparent from the following subsidiary claims.
What is proposed above has advantages provided by optimal hole-making and dosing functions being able to be obtained. The hole-making device can function in a non-critical way, even for tin materials that are difficult to open, such as plastic, cardboard, sheet metal, etc. The dosing arrangement can be implemented efficiently as far as quality is concerned for paint mixtures while, at the same time, effective control can be carried out by the customer from the operating devices on the microcomputer. Efficient calibration and cleaning functions can be utilized in this connection.
A currently preferred embodiment of a method and an arrangement that have the significant characteristics of the invention will be described below with reference to the attached drawings in which
In the embodiment according to
A station with a punch function is symbolized by 58. A tin made of a harder material (metal sheet) is indicated by 59 and the punch device is indicated by 60. The punch function and selection of punch function is carried out by means of the microcomputer. There is an exchange 61 of signals between the microcomputer and its detections of tin/container inserted in the station 6 and also the punch station when this is to be utilized.
In an embodiment, the arrangement is combined with a colour tinting unit (dispenser) that contains a maximum of 24 colour containers for different pigment (paste) colours. Pigments are dosed into the base colour and are then mixed together to create the required colour tint. These tints have different formulae in which different quantities of pigment are dosed depending upon the colour tint. In order to create the correct tint, the formula must be converted to a mathematical calculation of how long dosing is carried out. When dosing is carried out, a pump/colour container is operated that pumps against a valve. When the valve is closed, the paste is recirculated back into the container and when the valve is open, paste is dosed into the paint tin. The time that the valve is open depends upon the quantity of paste that is to be dosed. All the data is stored in an access database 5b. According to the invention, all functions relating to dispensing are carried out via PC-based programs.
The microcomputer and its controls comprise a service menu for settings for the dispensing and invocation of the functions described below. Among other things, there are indications of intervals and lengths of time for the recirculation of paste, which is programmed in a menu for recirculation. When recirculation is carried out, the paste is circulated from a canister via a (closed) dosing valve back into the canister, while at the same time a stirring device (paddle) operates inside the canister. In addition, there is a menu for setting up the paste colours (that is colour pigment doses). The canister number can be selected for setting the colour. An RGB code is shown for the paste with which the canister is filled. The RGB code is used to display the colour tint on a touch screen. In addition, there is a menu for paste replenishing. Before the process can commence, paste must be replenished in the canisters and entered in the database via the touch screen. The quantity of paste is given in grams and, when dosing is carried out in the process, a running total is kept to see whether the calculation point has been reached and monitoring is also carried out so that it is not possible to dose if the quantity of paste is less than the level that is required. A menu for canister content shows the content in the canisters, and also buttons for selecting the canister to be replenished. There is also a menu for paste replenishing showing the additional quantity of paste. By means of a menu for a cleaning program, cleaning of pipes and nozzles can be carried out by operating a start button. The system starts a pump at high speed and opens one valve at a time for cleaning. Only valves/canisters that have been involved are cleaned. Calibration of paste can be carried out. The different pastes have different specific gravity/units of volume per litre, which is taken into account when dosing is carried out. Accordingly, all the pastes must be calibrated for the correct dosing quantity when colour tinting is carried out. The calibration involves the quantity of paste (in grams) in relation to the time being monitored at low and high speed. A separate menu in the software is used for the calibration. In this, it is possible to select first which paste is to be calibrated, for example no. 8 (RS) red paste with specific gravity 1600 g/1000 ml. Calibration of a valve can be carried out by means of a menu. The paste is calibrated at low pump speed, for example during operation for 1 second followed by operation for 5 seconds, and the quantities of paste that are dosed during the abovementioned periods of time are weighed using calibrated weighing equipment. When this has been carried out, an average value is calculated for dosing according to the formula below:
Calibration: 1 second—1.5 grams at low speed
The same procedure as above is also carried out at high pump speed.
Calibration: 1 second—2.4 grams at high speed
For paste dosing<5 gr, low speed is used and
For paste dosing>5 gr, high speed is used, which is controlled by the software.
A test menu in which a valve can be checked against weighing equipment can be utilized. A selection can be made of the paste/valve that is to be tested. The required quantity of paste that is to be dosed is indicated in grams. The start button is pressed and the dosing procedure commences (the pump starts, there is a delay until the pump has reached the correct speed, the valve opens, the valve closes and the pump stops) and the result from the weighing equipment is displayed on the touch screen. A comparison is carried out between the desired value and actual value and, if the difference is too great, a new calibration of the valve (paste) should be carried out. There can be a menu for tin parameters. The different tins that are used in the process must be parameterized for correct transportation through Genius. This is in order to enable the different phases to be carried out, like making holes, dosing and labelling. Parameters are given in a table in which the different types of tin are shown separately. In a main menu, dosing of paste into the base colour is carried out by the customer himself by giving different parameters for dosing via the touch screen. In the main menu, “RECIPE” is pressed for the first step in the process. The recipe number is given for the required colour tint (obtained from a colour chart in the shop) with the ability to change the tint by a percentage increase or reduction in the proportion of paste in the recipe. When the start button is pressed, the process starts and the paint tin is transported through Genius to the different stations. During the process, the different phases of the process are displayed on the touch screen and these can be followed as they are indicated in sequence. The formula from the paint supplier or consultant for a colour tint is based on a particular quantity of base colour, for example 9000 ml. These formulae for colour tints are stored in a database such as Access. For different tin sizes (quantities of base colour), the formula is recalculated so that the correct quantity is dosed. It is checked that there is a sufficient quantity of paste in the containers for the selected recipe and tin size. If this is not the case, the process stops and the operator (customer) is alerted. When the process approaches the dosing phase, the pump is started in order for it to attain precisely the correct speed for dosing either at low speed or high speed, depending upon the quantity that is to be dosed.
Red colour with recipe no. 090 80 40 is to be dosed in a 1 litre tin.
Recipe formula=240 ml red paste 8 (RS) for 8000 ml base colour.
Weight to dose=28.5 (ml)×(1600 (g)/1000 (ml))=45.6 (g)
Speed of pump=high speed when dosing is>5 g
Time to dose 45.6 (g)/2.45 (g/sec)=18.61 (sec)
This amendment is printed out on the customer label so that it can be repeated at the next purchase of the same colour tint. A menu for manual operation of the tin handling can also be used.
Service menu for handling of tins manually through the different phases of Genius.
In a menu for shaking settings, the individual setting of pressure (clamping plate against the lid) and shaking time for the different types and sizes of tin can be carried out. It is possible to clamp the tin and to shake the tin in accordance with values that are entered manually. Finally, menus for alarms and choice of language can be used.
In the case of the punch 60, the tin is moved from the station 6 to the station 58 in accordance with the arrow 62 and from this station 58 to the dosing station 8 in accordance with the arrow 63, after which labelling and shaking can be carried out.
In accordance with
In an alternative embodiment, or independently in relation to the equipment described above, the arrangement for automated paint mixing that is operated by a customer or service engineer comprises the ability to insert a container with colour base component or components. The arrangement operates in the same way as the above, with functions for identifying, for example identifying the size and/or type, making of holes, addition of colour pigment, closing of the hole or holes and shaking of the container. The devices in the arrangement that carry out the said functions are arranged to be controlled by means of the computer equipment described above, that can consist of a microcomputer (PC) that works interactively with the customer or service engineer. The arrangement can comprise or be connected to an arrangement for adding colour pigment in powder form. In accordance with
The invention is not restricted to the embodiments described above, but can be modified within the framework of the following claims.
Number | Date | Country | Kind |
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0402318-0 | Sep 2004 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE05/01211 | 8/16/2005 | WO | 10/9/2007 |