CZ306977B6 - A vacuum implosion gun - Google Patents

Abstract

Vacuum Impact Rifle Containing Trap (1), Cylinder (2) a piston (3) with a rod fitted with a piston seal (5) and a lock (8) a piston with a rod located at the top dead center. The cylinder (2) is provided with a rod seal (6) and a closed space the piston (3) with the rod and the cylinder (2) is connected check valve (9) for venting the cylinder chamber (2) below with piston (3) with pull rod for auxiliary piston stroke (3) with pull rod to bottom dead center and for closing this space the subsequent reverse movement of the piston (3) with the rod for creating a vacuum in this space. In a similar way other implosion rifles, one of which is also working additionally equipped with a free piston (4) and others contain only a free piston (4), which is supplemented by a vacuum pump (13) suction and exhaust valves (10, 11) or vacuum a pump (14) with a reserve reservation.

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for catching or killing mainly insects.

BACKGROUND OF THE INVENTION

Previously known embodiments of these devices comprising a trap, a cylinder and a piston utilize a spring to drive a piston which, as it moves through the cylinder, sucks air through a trap to trap airborne insects. The limiting factor of this concept is the usable spring size, which must be manually compressed or stretched before use. A further disadvantage of this concept is that the same amount of air that the piston sucks on the one hand must expel on the other, for which part of the energy stored in the spring is consumed.

The principle described above is also known in an embodiment where the piston is moved manually without the use of a spring.

A variant to the principle described above is a flexible bellows device which increases its volume by means of a pre-compressed spring inside the bellows and sucks air together with the entrained insects.

Another known principle used to catch insects is to suck it through a trap using an electrically driven turbine.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The present invention is based on a vacuum implosion rifle for catching or destroying mainly flying insects, consisting of a trap, a cylinder and at least one piston, wherein a vacuum is applied to move the piston and thereby suck air through the trap into the cylinder. There is ambient air pressure in front of the piston and a vacuum is created from the other side of the piston. This solution does not need a spring. Another advantage of this solution is that the piston does not have to push out the same amount of air as it sucked in because it moves into a vacuum.

Clarification of drawings

Fig. 1 is a diagram of a vacuum implosion rifle consisting of a trap, a cylinder, a piston with a piston with a piston seal, a piston seal, a piston arrest with a piston and a non-return valve.

Fig. 2 is a diagram of a vacuum implosion rifle consisting of a trap, a cylinder, a piston with a rod with a seal, a piston with a rod at the bottom dead center, a free piston with a seal, a free piston arrest at the top dead center and a check valve in the free piston. This figure shows a state where both pistons are in a general position and none is locked.

Fig. 3 shows the diagram of the same vacuum implosion rifle as in Fig. 2, with the difference that both pistons are at the top dead center and the free piston is locked by the free piston arrest.

Fig. 4 shows the diagram of the same vacuum implosion rifle as in Figs. 2 and 3, except that the piston with the rod is at the bottom dead center and is locked by the arrest of the rod with the rod.

Fig. 5 is a diagram of a vacuum implosion rifle consisting of a trap, a cylinder, a free piston, a free piston arrest, a two-position three-way intake valve, a two-position three-way exhaust valve, and a vacuum pump.

- 1 GB 306977 B6

Fig. 6 is a diagram of a vacuum implosion rifle consisting of a trap, a cylinder, a free piston, a free piston arrest, a two-way valve and a reversible vacuum pump.

DETAILED DESCRIPTION OF THE INVENTION

1 to 6, embodiments of the vacuum implosion rifle according to the invention are possible.

Giant. 1 represents the simplest variant of the vacuum implosion rifle.

The rifle comprises a catcher 1, which serves to catch the sucked insects, a cylinder 2, a piston 3 with a drawbar, a piston seal 5, a piston with a drawbar arrest 8 located at the top dead center on the catcher 1, a drawbar seal 6 and a check valve 9.

The function of the vacuum implosion rifle is as follows. Piston 3 with rod is located at dead center. By loosening the piston-rod lock 8, the piston 3 can be moved with the rod. The piston 3 with the rod moves in the cylinder 2 towards its bottom dead center with the rod seal 6. The air enclosed in the space defined by the piston 3 with the rod and the walls of the cylinder 2 is forced out through the non-return valve 9. After moving the piston 3 with the rod to the bottom dead center at the rod seal 6 the amount of harmful space that cannot be reduced for design reasons. In the opposite movement of the piston 3 with the rod, the non-return valve 9 remains closed and the remaining amount of air expands, creating a vacuum in the cylinder 2. When the drawbar piston 3 is moved to its dead center, the drawbar piston lock 8 automatically locks the drawbar piston 3 in this extreme position. There is a vacuum in the space of the cylinder 2 and the pull piston 3 is subjected to the force given by the pressure difference before and after the piston and the piston surface. When the piston rod 8 is released, the piston rod 3 will move sharply towards the bottom dead center of the cylinder 2 and air will be sucked in (air) through the trap and into the cylinder 2.

The advantage of this solution is simplicity. The disadvantage is the greater weight of the piston 3 rod assembly which must be accelerated from the rest position and then stopped again.

Figures 2, 3 and 4 show another possible embodiment of the vacuum implosion rifle according to the invention. The vacuum implosion rifle in this case comprises a trap 1, a cylinder 2, a free piston 4 with a piston seal 5, a free piston arrest 7 located at the top dead center on the side of the trap 1, a piston 3 with a piston seal 5 a bottom dead center on the opposite side of the cylinder 2 and a non-return valve 9 located in the free piston 4.

The function of the vacuum implosion rifle is as follows. FIG. 2 shows a condition in which the piston 3 with the rod and the free piston 4 are in the general position and neither is locked. By moving the piston 3 with the rod towards the top dead center, air is blown from the space between the pistons through the non-return valve 9 until the piston 3 with the rod contacts the free piston 4. When the piston 3 with the rod is further moved the free piston 4 up to the position where it is automatically locked by the free piston arresting 7 as shown in Fig. 3. A small amount of air is enclosed between the draw piston 3 and the free piston 4 in this position due to the volume of the Harmful Space which can no longer be reduced . By moving the piston 3 with the rod to the opposite side away from the free piston 4, the non-return valve 9 remains closed and the remaining amount of air between the pistons expands, thereby creating a vacuum in the cylinder 2. When the piston 3 is moved to the bottom dead center, it is automatically locked by means of the piston 8 with the piston as shown in Fig. 4. There is a vacuum in the space of the cylinder 2 between the free piston 4 and the piston 3 the pressure difference before and after the piston and their area. When the free piston lock 7 is released, the free piston 4 moves sharply towards the piston 3 with the rod and sucks in (air) through the trap 1 into the cylinder 2. The advantage of this solution is that the free piston 4 can be manufactured with very low weight and thus greatly facilitate its acceleration from a resting position, achieve a more effective implosion and then more easily stop.

Giant. 5 illustrates a vacuum implosion rifle solution using a vacuum pump. The vacuum implosion rifle comprises a trap 1, a cylinder 2, a free piston 4 with a piston seal 5, a free piston arrest 7 located at the top dead center on the side of the trap 1, a vacuum pump 13, a two-position three-way suction valve 10

-2GB 306977 B6 and 3-way exhaust valve 11. The 3-way valves are connected as follows. The suction of the vacuum pump 13 is connected via a two-position three-way inlet valve 10 to either the cylinder 2 or to the ambient atmosphere, the cylinder 2 being closed, and the exhaust from the vacuum pump 13 is also connected to either the cylinder 2 or ambient atmosphere, the cylinder 2 being closed.

The function of the vacuum implosion rifle is as follows. Initially, the two-position three-way inlet valve 10 is in a position where the suction of the vacuum pump 13 is connected to the cylinder 2 and the two-position three-way exhaust valve 11 is in a position where the exhaust of the vacuum pump 13 opens into the atmosphere. The free piston 4 is at the dead center and is locked by the free piston arrest 7. The vacuum pump 13 is switched on and a vacuum is created in the space defined by the walls of the cylinder 2 and the free piston 4. Disconnecting the vacuum pump 13 by adjusting the two-position three-way suction valve 10 to a position where the suction of the vacuum pump 13 is connected to the atmosphere. and the vacuum pump 13 is subsequently switched off. There is a vacuum inside the cylinder 2 and the free piston 4 is subjected to the force given by the pressure difference before and after the piston and the piston surface. Releasing the free piston lock 7 causes the free piston 4 to move violently into the cylinder 2 and suck in air via the trap U To reuse the vacuum implosion rifle, the free piston 4 returns to the dead center and is locked by the free piston arrest 7. The pressure of the air coming from the exhaust of the vacuum pump 13 is used when its suction is open to the ambient atmosphere. The procedure is as follows. The two-position three-way inlet valve 10 is moved to a position where the suction of the vacuum pump 13 is connected to the ambient atmosphere and the two-way three-way exhaust valve 11 is moved to a position where the exhaust of the vacuum pump 13 is connected to the cylinder. Compressed air into the cylinder 2 and moves the free piston 4 towards the dead center until the free piston 4 arrests automatically by the free piston arrest 7.

Giant. 6 is a vacuum implosion rifle solution using a reversing vacuum pump. The reversible vacuum pump works by changing the direction of rotation from the intake port to the exhaust port and from the exhaust intake port.

The vacuum implosion rifle comprises a catcher 1, a cylinder 2, a free piston 4 with a piston seal 5, a free piston arrest 7 located at the top dead center on the catcher 1 side, a two-way valve 12 and a vacuum pump 14 with reversing operation. The function of the vacuum implosion rifle is as follows.

The two-way valve 12 is opened and the vacuum reversing pump 14 is turned on in the mode where it exhausts through the two-way valve 12 the space of the cylinder 2 delimited by its walls and the free piston 4 in the position where it is locked by the free piston arresting.

Upon reaching the necessary vacuum, the two-way valve 12 is closed and the vacuum reversing pump 14 is switched off. There is a vacuum inside the cylinder 2 and the free piston 4 is subjected to the force given by the pressure difference before and after the piston and the piston surface.

Releasing the free piston arrest 7 causes the free piston 4 to move rapidly into the cylinder 2 and to draw in (air) the air through the trap I into the cylinder 2.

For the reuse of the vacuum implosion rifle, the free piston 4 is returned to the dead center and automatically locked by locking the free piston. To this end, the pressure of the air coming from the vacuum pump 14 with reversing operation is used. The two-way valve 12 opens and the vacuum reversing pump 14 is turned on in the mode that sucks air from the ambient atmosphere and pushes the air through the two-way valve 12 to the cylinder 2. The free piston 4 is moved up to dead center when self-locking by 7 free piston arrest.

Industrial applicability

The invention is applicable to the production of ecological means for catching and destroying insects.

Claims (4)

Vacuum implosion rifle comprising a catcher (1), a cylinder (2), a piston (3) with a piston having a piston seal (5) and a piston arresting (8) with a piston located at the top dead center, characterized in that the cylinder (2) is provided with a rod seal (6) and a non-return valve (9) is connected to the enclosed space defined by the rod (3) with the rod and cylinder (2), to vent the cylinder space (2) below the rod (3) with the rod during auxiliary piston stroke (3) with a pull rod to the bottom dead center and to close this space during subsequent reverse movement of the piston (3) with the pull rod to create a vacuum in this space. Vacuum implosion rifle comprising a trap (1) and a cylinder (2), characterized in that a cylinder (2) is provided with one free piston (4) with a piston seal (5) and a free piston arrest (7) at the top dead center; and one piston (3) with a piston with a piston seal (5) and a piston with a piston with a piston at a bottom dead center, one of the pistons (3, 4) being equipped with a non-return valve (9) to vent the enclosed space defined by the cylinder (2) ), a free piston (4) and a piston (3) with a drawbar when the piston (3) with a drawbar moves to the top dead center and to close this space when the piston (3) with the drawbar moves in reverse to create a vacuum there. Vacuum implosion rifle comprising a catcher (1) and a cylinder (2), characterized in that the cylinder (2) has a free piston (4) with a piston seal (5) and a free piston arrest (7) at top dead center and enclosure defined by the free piston (4) and the cylinder (2), a vacuum pump suction port (13) is connected via a two-position three-way inlet valve (10) and simultaneously a two-way three-way exhaust valve (11) (2) with suction and exhaust of the vacuum pump (13) for reciprocating free piston (4). Vacuum implosion rifle comprising a catcher (1) and a cylinder (2), characterized in that there is a free piston (4) in the cylinder (2) with a piston seal (5) and a free piston arrest (7) at top dead center and enclosure defined by the free piston (4) and the cylinder (2), a vacuum pump (14) with reversing operation is connected via a two-way valve (12) to alternate suction and pressurize the cylinder (2) for reciprocating the free piston (4).