DE1255009B - Spray gun - Google Patents

Description

Spray gun The invention relates to a spray gun, in particular for spraying strongly abrasive or sticky materials, with a controlled by compressed air via a piston, penetrating the material chamber Nozzle needle and with a membrane that closes the material chamber, which controls the movements the nozzle needle follows.

The spray guns have their front closed by the spray nozzle Part a chamber for the material to be sprayed, which of one to the end the needle serving the nozzle is pulled through. This needle protrudes far backwards the chamber out and is at the rear end in operative connection with a Handle for withdrawing the needle against the action of a spring. The needle is guided in stuffing boxes to achieve good guidance and sealing. the The needle must be stored in at least two places. One uses for the one in front Needle-facing storage generally a stuffing box while it is in a Execution has become known for the storage facing the rear end of the needle to use a perforated membrane instead of a stuffing box.

The spray material adhering to the valve needle is released with every movement substantially stripped on the gland packing. Still gets in proportionately injected material into the pack for a short time. In many cases the pack hardens Stuffing boxes through the spray material that has entered, which results in a leak. With some spray material, the mobility of the valve needle can also be impaired in the stuffing box, even sticking. With these disorders is particular to be expected when using latex or liquid plastic. When splashing of strongly abrasive spray material, e.g. B. enamel, there is again the risk of that the material getting into the packing of the stuffing box causes grinding and leakage occurs.

With the spray device with a membrane instead of a stuffing box however, this membrane does not close off the ink chamber, it closes one the chamber downstream of the ink chamber. This chamber is through from the paint chamber separated a partition through which a narrow channel for the valve needle is guided. A disadvantage of the stuffing box design is that the stuffing box is strong abrasive spray is sanded out and leaks, eliminated. Of the however, there is no other disadvantage of the valve needle sticking in the gland fixed, because the valve needle is now stuck in the channel from which the entered Spray agent not when simply cleaning the spray gun by spraying Solvent is to be removed. Therefore, this known spray device must after each use must be completely disassembled, and then all parts must can be cleaned individually. Using a. perforated membrane has in addition, the disadvantage that perforated membranes with frequent movement tear quickly due to cracks forming at the hole.

The present invention provides a spray gun in which a Leakage of the paint chamber and sticking of the valve needle are reliably avoided will.

The present invention is that the material or paint chamber at the end opposite the nozzle by an elastic, the movements of the Nozzle needle free following, membrane-like closed wall is completed that which only extends from the nozzle to the non-pierced elastic partition Nozzle needle under the influence of one pressing it against the elastic partition Helical spring is, and that on the outside of the elastic partition with one the nozzle needle running in the same axis, under the influence of a spring, the is stronger than the standing, retractable spring influencing the nozzle needle Rod is provided.

In this way, the material chamber is permanently sealed achieved. The valve needle can no longer enter stuffing boxes or narrow ducts cannot be cleaned by spraying solvents, stick on.

It is useful if the helical spring influencing the nozzle needle is guided outside on the wall of the material chamber and inside the nozzle needle at the end facing the elastic partition wall with a centering thickening is provided. The actuation of the on the outside of the elastic Bar adjacent to the partition wall can be done in a known manner by means of a handle. However, actuation by the compressed air is more advantageous. For this purpose, in further embodiment of the invention, the rod with a piston seated on it out in a special chamber of the gun body, such that on the one Side of the piston, the spring influencing the rod acts on the other side but the compressed air supplied to the chamber. It is useful to move the piston the compressed air used, which sprays the spray material from the nozzle, which is in the Compressed air reaching the special chamber of the gun body is drawn up from the chamber appropriately passed on to the spray nozzle. The exit opening of this overpass is arranged in the compressed air chamber so that it is controlled by the piston.

The drawing shows a spray gun according to the invention with omission all parts that are not directly relevant to the invention in one example Execution in cut.

A chamber 3 is formed in the gun body 1 , to which the material to be sprayed is fed through a nozzle 2. The spray nozzle 4 is provided at one end of the chamber 3; the opposite end is closed by an elastic wall 8 . This elastic wall is pressed firmly against the end face of this paragraph by a union nut screwed onto a shoulder of the body 1 and is thus held in place. A recess is provided in the paragraph, which allows the elastic partition wall to oscillate freely. The elastic partition can be made of a wide variety of materials, e.g. B. leather, rubber, plastic or thin corrugated sheet steel.

A nozzle needle 5 extends from the partition 8 to the opening of the nozzle 4. At the end facing the partition it is provided with a thickening 6, on which a collar sits again after the partition. This collar, which rests against the elastic partition 8 with its end face, is conical in order to impair the mobility of the elastic partition as little as possible. Inside the material chamber 3 there is a helical spring 7, which is supported with one end on the inner face of the nozzle 4 and with the other end on the collar of the thickening 6 of the nozzle needle 5. The helical spring 7 is dimensioned so that it is guided on the outside of the wall of the material chamber 3 and the thickening 6 of the nozzle needle is tightly encompassed on the inside. In this way, the nozzle needle 5 is guided and centered.

The thickened end 9 ′ of a rod 9 running in the same axis as the nozzle needle 5 and guided in the right part of the gun body 1 acts against the outside of the elastic partition 8. A compression spring 10 acts on this rod 9 and presses the rod against the elastic partition 8. The spring 10 is stronger than the spring 7 in the interior of the material chamber 3. As a result, the spring 10 pushes the nozzle needle 5 into the nozzle opening while overcoming the spring 7 and thus closes it off.

If the rod 9 is withdrawn against the action of the spring 10 and thus moved away from the partition 8, which z. B. can be done by means of a handle, the now relieved of the pressure of the spring 10 spring 7 comes into effect and pulls the nozzle needle 5 out of the nozzle opening while displacing the elastic wall 8 to the outside. The wall 8 immediately follows the return movement of the rod 10, so that it is constantly held between the rod 9 and this needle 5 or its thickening. When the rod 9 is released, the stronger spring 10 comes into play again and pushes the rod 9 to the left, taking the elastic partition 8 with it, whereby the nozzle needle 5 is brought into the final position against the action of the spring 7.

In some cases, especially in larger systems, it is more expedient not to bring about the movement of the rod 9 by means of a handle, but rather by means of compressed air. For this case, a compressed air chamber 13 is provided in the right part of the gun body 1 concentric to the rod 9 guided in this part of the gun body. In this chamber 13, a piston 14 seated loosely on the rod 9 is guided with a good seal. The spring 10 acts on one side, while it is acted upon by compressed air on the other side, which is supplied via a channel 12 from a connection nipple 11. To push back the piston 14, the same compressed air is used with which the material to be sprayed is sprayed out of the nozzle 4. The compressed air chamber 13 communicates with the front part of the nozzle 5 through line 15. The outlet of this line 15 from the chamber 13 is arranged in such a way that it is covered by the piston 14 in the rest state, but is immediately released when the piston 14 is pushed back by the compressed air being let in.

For the subclaims, only within the framework of the main claim Protection desired.

Claims (4)

Claims: 1. Spray gun, especially for spraying strongly abrasive or adhesive materials, with a compressed air over a piston controlled, the material chamber penetrating nozzle needle and with a the membrane closing off the material chamber, which follows the movements of the nozzle needle, d a d u r c h g e -k e n n n z e i c h n e t that the material chamber (3) on which the Nozzle (4) opposite end by an elastic, the movements of the nozzle needle (5) freely following, membrane-like closed wall (8) is completed that the extending only from the nozzle (4) to the non-pierced elastic partition (8) The nozzle needle (5) under the influence of one pressing it against the elastic partition (8) Helical spring (7) is, and that on the outside of the elastic partition (8) one running in the same axis as the nozzle needle, under the influence of a spring (10), which is stronger than the spring (7) influencing the nozzle needle (5), retractable rod (9) is provided. 2. Spray gun according to claim 1, characterized characterized in that the nozzle needle (5) influencing coil spring (7) on the outside the wall of the material chamber (3) is guided and the nozzle needle in its interior (5) at the end facing the elastic partition (8) with a centering Thickening (6) is provided. 3. Spray gun according to claim 1 and 2, characterized in that the rod (9) has a piston (14) guided in a chamber (13) and a compressed air supply (12) at the front of the chamber and at the rear for moving the piston The spring (10) is provided at the end of the rod (9). 4. Spray gun according to claim 3, characterized in that the compressed air chamber (13) with the nozzle (5) is in communication and the mouth of the connecting line in the chamber (13) is arranged so that it is in the rest state of the piston (14) of this is closed. Publications considered: German Patent No. 165 258.