NL9400371A - Engraving device - Google Patents

Abstract

The invention relates to an engraving device for engraving car windows, comprising a template, a nozzle which holds the template, a compressor which is connected to the nozzle and a storage container for blasting material, which is also connected to the nozzle, characterized in that the nozzle is also connected to a suction device for extracting air and blasting material.

Description

Engraving device

The invention relates to an engraving device for car window engraving, comprising a template, a template receiving nozzle, a compressor connected to the nozzle and a grit material storage vessel also connected to the nozzle.

Engraving the car's windows, for example, the registration number or chassis number of the car reduces the risk of theft. The engraving of car windows has been gaining momentum lately. A problem with engraving consists of positioning the nozzle with template in a fixed position against the car windows. In particular with wet windows, e.g. when it rains, the nozzle tends to shift relative to the window. This results in a lower engraving quality where an engraved code is less clear or not readable at all. Another drawback of the existing method is the contamination of the car to be engraved and its surroundings with grit material. The grit material used will largely spread in the vicinity of the mouthpiece. Since aluminum oxide particles are often used as a grit material, it is also preferable for environmental reasons to prevent them from being dispersed.

The object of the present invention is to provide an improved engraving device of the type mentioned in the preamble, the nozzle of which is relatively easy to position in a fixed position relative to a car window and with which the grit material used is also collected so that the environment is not contaminated .

The invention provides for this purpose an engraving device of the type mentioned in the preamble, characterized in that the nozzle is also connected to an extraction device for extracting air and grit material. A vacuum is generated near the stencil by means of a suction device, whereby the nozzle is sucked against the car window. Then, after the compressor starts to operate and air with entrained grit material is blasted against the car window, the blown air with entrained grit material will be exhausted through the extractor. I The exhaust will exert the force exerted on the nozzle, causing it to be blown off the glass pane. , To be limited. This simplifies holding the mouthpiece in a fixed position. Another advantage of the extraction is that the grit material used is discharged through the extraction, so that it will not contaminate the environment.

A preferred embodiment of the device is characterized in that the extraction device comprises a collecting element for extracted grit material. The collecting element collects the used grit material, after which it can be reused if necessary. Another possibility consists of dumping the used grit material.

An edge of flexible material is preferably attached to the nozzle around the template. The flexible material edge makes it possible to position the nozzle against the glass pane without damaging the glass pane. An important other advantage of the flexible rim is that it makes it possible to position the nozzle in a sealing manner against the glass pane in a simple manner. As a result, no air and / or grit material will pass along the seal.

> This promotes proper functioning of the device.

A preferred embodiment of the device is characterized in that a discharge from the suction device is connected to the storage vessel for grit material. As a result, extracted air can be blown into the storage tank for grit material, resulting in an air flow directed towards the nozzle, which air flow can entrain grit material. Another possibility of connecting a discharge from the suction device to the storage vessel for grit material lies in the fact that the extracted grit material is directly fed back into the storage vessel. This creates a circular system.

Another preferred embodiment of the engraving device is characterized in that the jacket of the grit material storage vessel is connected to a housing enclosing the suction device. This device is relatively compact and can easily be used in a mobile installation.

Yet another preferred embodiment of the device is characterized in that the storage vessel and the suction device are mounted on a cart. This makes it possible to move the entire engraving device relatively easily.

The invention will be further elucidated on the basis of the non-limitative exemplary embodiment shown in the following figures. Herein: fig. 1 shows a partly cut-away perspective view of an engraving device according to the invention; and FIG. 2 is a cross-sectional view of a nozzle of the engraving device of FIG. 1.

Fig. 1 shows an engraving device 1, a nozzle 2 of which can be placed against a car window (not shown). The nozzle 2 consists of two parts; a template holder 17 and a jet gun 18. A template 3 is mounted in the template holder 17. This template 3 can usually be easily exchanged in order to be able to apply a separate code for each car, usually corresponding to the registration number or chassis number. Around the template 3, an edge of flexible material 4 is arranged on the template holder 17. This edge of flexible material 4 makes it possible to place the template holder 17 in a sealing manner against a car window. On the side of the template holder 17 facing away from the engraving side, it is connected to the jet gun 18. A jet 5 is connected to the jet gun 18, to which a compressor (not shown here) is connected for supplying compressed air. A supply line 6 for grit material 11 is further connected to the blasting gun 18. This feed pipe 6 for grit material 11 is connected at the other end to a storage tank 7 for grit material 11. In this figure, the feed pipe 6 for grit material 11 is attached to the blasting gun 18 in such a way that the compressed air supplied with the aid of the feed pipe 5 for compressed air is from a venturi action will draw in grit material 11. In addition, a discharge pipe 8 for extracting air and grit material 11 is connected to the template holder 17. This discharge line 8 is connected at its other end to a suction device 9. The storage vessel 7 for grit material 11 is provided with a closable supply opening 10 for introducing grit material 11 into the vessel 7. A discharge line 12 from the suction device 9 is connected to the storage vessel. 7 for grit material 11. This creates an air flow directed to the nozzle 2 during use, which flows through the storage vessel 7 and with which grit material 11 is carried along to the nozzle 2. A filter 13 arranged in the suction device 9 separates the by means of discharge pipe extracted air plus grit material 11, whereby the collected grit material 11 remains in a container 14. However, it is also conceivable that both the exhaust air and the exhaust grit material 11 are fed together to the storage vessel 7 for grit material 11. In that case, a recycled system is created in which the grit material 11 circulates in the engraving device 1. However, this is not the case with the engraving device 1 shown in this figure; the collected grit material 11 remains with entrained particles, such as with gas particles, in the collection tray 14 of the suction device 9. The suction device 9 and the storage vessel 7 for the grit material 11 are both mounted on a cart 15, whereby the engraving device 1 is easy to move.

The partial cross-section of the nozzle 2 shown in Fig. 2 schematically shows the operation of the nozzle 2 of the engraving device 1. The template holder 17 and the jet gun 18, which together form the nozzle 2, are releasably connected to each other. The connections shown in this figure make it relatively easy to replace a part of the nozzle 2. The connection shown here also has the advantage that the position of the jet gun 18 relative to the template holder 17 is adjustable depending on the situation. A good sealing is achieved by means of a flexible sealing layer 19. The compressed air shown by arrow P. carries along the grit material supplied in line 6 for arrow material 11 in accordance with arrow P2 after it has been introduced into the flow of compressed air in accordance with arrow P3. The grit material 11 carried with the compressed air is blasted by the template 3 against a car window 16. The grit material 11 then falls down and is extracted through the discharge pipe 8 together with excess air in accordance with the arrow P4. In this figure the edge of flexible material 4 is also clearly visible, with which the template holder 17 is pressed sealingly against the car window 16. This edge of flexible material 4 prevents grit material 11 from disappearing into the environment.

Claims (6)

Engraving device for car window engraving, comprising a template, a template receiving nozzle, a compressor connected to the nozzle and a storage container for grit material also connected to the nozzle, characterized in that the nozzle is also connected to a extraction device for extracting air and grit material. Engraving device according to claim 1, characterized in that the extraction device comprises a collecting element for the extracted grit material. Engraving device according to claim 1 or 2, characterized in that an edge of flexible material is mounted on the nozzle around the template. Engraving device according to any one of the preceding claims, characterized in that a discharge from the suction device is connected to the storage vessel for grit material. Engraving device according to any one of the preceding claims, characterized in that the jacket of the grit material storage vessel is connected to a housing enclosing the suction device. Engraving device according to any one of the preceding claims, characterized in that the storage vessel and the suction device are mounted on a cart.