FR3040640A1 - EXTRUSION GUN OF MATERIAL ADAPTABLE ON ALL TOOLS DELIVERING A ROTATIONAL MOVEMENT - Google Patents

Abstract

The invention relates to a device using an external power source (17) to enable its operation. It serves in particular to extrude the packaged material in cartridge form by limiting the effort of the user while improving the accuracy and quality of the application. The device consists of an imprint or a rod to be in connection with the primary energy source (17). This transmits its rotational movement to the mechanism consisting of the gears (4), (5) and (6). The gear (6) is threaded in its center of revolution and is traversed by the threaded rod (8). These two elements constitute a connection screw / nut. When the gear (6) rotates, the threaded rod (8) translates with the non-threaded rods (7) and the flange (10). The piston (11) attached to the end of the non-threaded rods (7) exerts a considerable pressure on the pistons of the cartridge housed in the cartridge holder (1) fixed on the housing (2 and 3). This pressure tends to extrude the conditioned matter into the cartridge when the user actuates the primary energy source (17). The device according to the invention is intended for the application of packaged material in the form of a cartridge.

Description

The invention presented consists of a device for extruding pasty matter packaged in the form of a cartridge, adaptable to any rotating tool such as screwdrivers, drills, milling machines, tappers, guns, electric, pneumatic, hydraulic, electropneumatic or electro-mechanical. hydraulic system, comprising a mandrel or a clamping member rotated. The extrusion of pasty material packaged in the form of a cartridge is traditionally achievable by manual guns requiring repetitive effort on the gun control and generating a precision of random application. The harshness of the user is even more important when the operation is repeated and intense which can cause muscle pain, tendonitis, cramps and various injuries. The other available device for performing this extrusion operation is the electric operation gun, powered by battery or household electricity, at a considerable purchase cost.

The present device makes it possible to extrude the pasty material * contained in a cartridge from a rotating tool such as screwdrivers, drills, milling machines, tappers, guns, electric, pneumatic, hydraulic, electropneumatic or electro-hydraulic, comprising a chuck or a clamping member rotated. It is composed according to a first characteristic of a rod or an impression allowing the clamping on the mandrel or clamping element rotated in rotation with the rotating tool (in the case of the rod) or an independent rod clamped on the mandrel or clamping element rotated in rotation of the rotating tool which will fit in the impression (in the case of the impression), thus creating optimum adaptability. This rod or impression is secured to a first gear transmitting the rotational movement to the second gear mounted in parallel with the first. This second causes the rotation of a third gear also mounted in parallel. This third gear, threaded in its axis of revolution, is traversed by a threaded rod (discontinuous thread performing a functional race) guided by two other non-threaded rods, which translate in the direction of rotation. The threaded rod and the two non-threaded rods are held together by a flange fixing them to prevent rotation of the threaded rod and thereby creating a translational movement. This translational movement generates a force applied to the piston (s) of the cartridge through a piston attached to the end of the two rods (unthreaded) guide. The gear mechanism is housed, held and protected in a housing in two half-shells. The half-shells may be devoid of screw housing or fixing lugs to hold the half-shells together. The support for accommodating the cartridge is fixed on the housing enclosing the mechanism. According to the direction of rotation exerted upstream by the rotating tool, the guided threaded rod moves towards or away from the piston (s) of the cartridge. * silicone sealant, glue, sealant, chemical seal, etc

According to particular embodiments: - The rod held in the mandrel or the clamping element of the rotating tool is secured to the first gear of the mechanism. It may also have a fingerprint allowing the insertion of a rod linking the rotating tool to the device without direct clamping of the device to the rotating tool, making it completely independent from an ergonomic point of view. - The third gear has a tapping or an element allowing the helical contact with the threaded rod, in its center of revolution. The element in question may be an overmolded nut. - The gear protection housing has the housings of the gears' rotation axes as well as the fixing of the cartridge holder. It consists of two half-shells, fixed to each other by screws or fixing lugs. - The threaded rod has a discontinuous thread in order to respect a functional stroke of use, the non-threaded parts are smooth. - The threaded rod, passing through the third gear, is guided by two smooth rods. These three elements are secured with a flange fixing them together.

The accompanying drawings illustrate the invention and its operation:

Figure 1 shows the exploded view of the device, presenting generally the parts constituting the invention.

Figure 2 shows the device in isometric view to explain the main operation thereof.

Figure 3 shows the device in front view under wire edges.

Figure 4 is a sectional view of the device according to Figure 3, to identify the positioning of each component within the device.

The device of invention is composed of 4 essential parts: the internal mechanism composed of parts (4), (5), (6) and (8); piston guide composed of parts (7), (8), (10) and (11); the protective casing consisting of parts (2) and (3); and the cartridge holder composed of the part (1). The part (17) is a lambda screwdriver representing the energy source for the device.

The first step to take advantage of the device is the adaptation thereof to the primary energy source (17), in this case an electric screwdriver powered by a battery. A hexagonal shank (9) must be tightened in the mandrel or the clamping element of the primary source (17) so that it is rotated during operation of the screwdriver (17). The hexagonal shank (9) must be positioned in the hexagonal recess of the device. The rotational movement is transmitted from the screwdriver to the gear (4). The gears (4) and (5) are in contact by their pitch diameter which causes the gear (5) to rotate in the opposite direction of the gear (4) (because only one contact). In order to find the same direction of rotation as the primary source (17), a third gear (6) is rotated by the gear (5). Their contact is made by their original diameter (teeth successively in contact). The transmission of the rotational movement of the screwdriver (17) to the device is then performed. In order to convert the rotational movement into translational movement, the gear (6) is provided with a tapping or an element making the helical contact with the threaded rod (8). This tapping (or similar element) through the gear (6) in its axis of revolution. The threaded rod (8), not common thread tapping (6), makes a relationship screw / nut with the gear (6). When the gear (6) is rotated through the gears (4) and (5), themselves rotated by the energy source (17), the threaded rod (8) is then driven in a translation movement. To avoid that the threaded rod (8) performs a rotational movement instead of a translational movement, it is guided by the smooth rods (7) and has a flat at one of its ends. The smooth rods (7) and the threaded rod (8) are secured by means of the flange (10) fixing them. The piston (11), acting on the piston (s) of the cartridge, is fixed to the other end of the assembly [smooth rods (7) + threaded rod (8) + flange (10)]. The entire gear mechanism (4), (5) and (6) is housed and protected by the housing consisting of the half-shells (2) and (3). It is provided with opening (holes) in order to be able to translate without stumbling the rods (7) and (8), housing for the gear bearings (12 and 13), housing for the nuts of fixing the cartridge holder (16), and screws (14) or fixing lugs to secure the two half-shells together. The cartridge holder (1), accommodating the cartridge of material ready to be extradited, is mounted fixed on the housing (2 and 3) in the axis of the threaded rod (8) by means of screws (15) and nuts (16). ) housed in the housing.

The device according to the invention is intended for the application of packaged material in the form of a cartridge. Its applications are many and diverse because the device can accommodate cartridges containing different materials. At the same time intended for the private individuals and professionals, this invention tends to intervene in the field of the do-it-yourself, as well domestic (particular) as of the construction BTP (Buildings Public Works), (professionals).

Claims (10)

1) Device for extruding the packaged material in cartridge form characterized in that it comprises a housing (2 and 3), provided with housing for the gear bearings (12 and 13), having an imprint into which is introduced a rod (9) for transmitting the rotational movement of the primary energy source (17) to the gears (4 + 5 + 6) and the guided threaded rod (7 + 8 + 10 + 11) thereby exerting pressure on the cartridge positioned on the cartridge holder (1) when the user actuates the primary energy source (17). 2) Device according to claim 1 characterized in that it comprises a cavity integral with the first gear (4), housed in the housing (2 + 3), for connection with the primary energy source (17) to the using an auxiliary rod (9). 3) Device according to claims let 2 characterized in that the first gear (4) transmits the rotational movement of the primary energy source (17) to the second gear (5) housed in the housing (2 + 3). 4) Device according to claims 1, 2 and 3 characterized in that the gears (4) and (5) transmit the rotational movement transmitted by the primary energy source (17) to the third gear (6) having a tapping or an overmolded nut. 5) Device according to the preceding claims characterized in that the threaded rod (8) (discontinuous threading) not common to the thread or overmolded nut of the gear (6) through it to achieve a screw / nut connection (helical ), creating a translation movement on the part of the threaded rod (8) when the gear (6) rotates. 6) Device according to claim 5 characterized in that the non-threaded rods (7) are the guide of the threaded rod (8) so that it does not rotate when the user actuates the energy source primary (17). 7) Device according to claims 5 and 6 characterized in that the flange (10) serves to make integral between them the threaded rod (8) and the non-threaded rods (7), to ensure a perfect translation of this together. 8) Device according to claims 6 and 7 characterized in that the piston (11) is fixed integrally to the ends of the non-fıletées rods (7), the opposite side where is fixed the flange (10). 9) Device according to any one of the preceding claims characterized in that the housing composed of the half-shells (2) and (3) has the housing of the axes of rotation of the gears (4) and (5), the holes opening to let translate the assembly [threaded rod (8) + non-lightened rod (7) + flange (10) + piston (11)] and the housing of the nuts (16) for fixing the cartridge holder (1). The half-shells (2 + 3) may also be devoid of screw housings (14) or fixing lugs to maintain the half-shells (2 + 3) integrally between them. 10) Device according to claim 9 characterized in that the cartridge holder (1) is fixed on the half-shell (2) constituting the housing with the screws (15) and nuts (16) housed and locked in rotation in the housings provided for this purpose in the half-shell (2) concerned for fixing the cartridge holder.