DE102009008169A1 - Gas canister for gas nail gun, has cap attached at tube element and connected with canister body in order to block opening, and air valve mounted on cap in order to guide gas from inner bag to exterior of gas canister - Google Patents

Abstract

The canister (100) has a tube element (34) inserted through an axial through-hole (321) of a tube holder (32). The tube element comprises an air passage, which stands in air connection with inner bags (20, 30). A cap (40) is attached at the tube element and connected with a canister body (10) in order to block an opening (12). An air valve (50) is mounted on the cap in order to guide gas from the bags to an exterior of the canister. The inner bags include a gasket that is attached between the holder and the tube element.

Description

Background of the invention

1. Field of the invention

The The present invention relates to gas nail guns, and more particularly a gas canister for a gas nail gun. The invention also relates to the connection the inner bag of the gas canister.

2. Description of the Related Art

1 represents a conventional gas canister for gas nail guns. According to this design, the gas canister includes 1 a metallic canister body 2 , a gas-filled, air-tight inner bag 3 standing in the metallic canister body 2 recorded and a connection 4 containing the gas-filled airtight inner bag 3 and the tail 2a of the metallic canister body 2 connects and is suitable for internal gas from the airtight inner bag 3 to the outside of the metallic canister body 2 to lead through a valve (not shown) to fill the combustion chamber of a gas nail gun for combustion to explosively provide a force for driving a nail.

2 represents the structure of the above-mentioned terminal 4 dar. The connection 4 comprises a tubular element 4a and a stopper 4b , The pipe element 4a is a cranked tube with the expanded sheet material of the airtight inner bag 3 connected is. The stopper 4b is on the lower side of the pipe element 4a stuffed. The expanded sheet material is after assembly of the plug 4b in the lower side of the pipe element 4a in the airtight inner bag 3 sealed. The arrangement process of this airtight inner bag 3 and the connection 4 is done in three steps, which costs a lot of time and work. Furthermore, the plug has 4b an air hole 4c on that the flow rate of the out of the airtight inner bag 3 outflowing gas be limited. However, gas nail gun vibrations may cause the plug to become contaminated during a nail drive operation 4b from the tube element 4a falls, or the stopper 4b If it has aged after long use of the gas can, from the tube element 4a fall. If this problem occurs, then the connection loses 4 its gas flow rate regulating function.

Summary of the invention

The The present invention has been accomplished under the given circumstances. A main object of the present invention is a gas canister for one To provide a gas nail gun having an improved structure of a Terminal or connector has an inner bag, the Assembly facilitates and quantitative control of the gas flow rate guaranteed.

Around to achieve these and other objects of the present invention a gas canister for a gas nail gun a canister body having an opening, an inner bag attached to the inside of the canister body present and filled with a gas is a terminal of the inner bag comprising a pipe holder, which is connected to the inner bag and an axial through hole having axially through the upper and lower side thereof extends and a pipe element, which is an air passage for the air connection with defined the inner bag and through the axial through hole of the Pipe holder inserted is, and relative to the tube holder between an unpositioned Position in which the pipe element is removed from the pipe holder and a positioned position in which the Tube element is locked or connected to the tube holder, a Cap, which is firmly attached to the tubular element and with the canister body connected to the opening to block, and an air valve installed in the cap is to direct the gas from the inner bag to the outside of the gas canister.

Around the connection stability between the pipe element and the pipe holder of the connection of the Inner bag, the tube holder is made that it has at least one axial Gleitauskehlung, which is extends along the axial through-hole, and wherein the tubular element is made so that at least one localization block of the lower side protrudes and through the at least one axial Gleitauskehlung inserted the pipe holder can be. After a rotation of the tubular element relative to the tube holder in the positioned position, the at least one localization block hooked to the lower side of the tube holder to a separation of the tubular element to prevent from the pipe holder.

Around continue a gas outflow To prevent the pipe element is made, which is a Stop flange extends around the circumference and a sealing ring between the pipe holder and the stop flange of the tubular element is set.

Brief description of the drawings

1 FIG. 3 illustrates a sectional elevational view of a gas canister according to the prior art. FIG.

2 represents a schematic drawing showing the structure of the connection of the inner bag of the gas canister according to the prior art.

3 FIG. 10 illustrates a sectional view of a gas canister according to a first embodiment of the present invention. FIG.

4 FIG. 12 is an exploded view of the terminal of the inner bag of the gas canister according to the present invention. FIG.

5 Fig. 3 is a perspective structural view of the terminal of the inner bag according to the present invention.

6 Fig. 12 illustrates another perspective construction view of the terminal of the inner bag according to the present invention when viewed at a different angle.

7 FIG. 12 illustrates an end view of the terminal of the inner bag according to the present invention, showing the tubular member in the unpositioned position. FIG.

8th FIG. 12 illustrates a perspective view of the terminal of the inner bag according to the present invention, showing the tubular member in the positioned position.

9 represents an end view of 8th represents.

Full Description of the invention

In 3 is a gas canister 100 shown for use in a gas nail gun. The gas canister 100 includes a canister body 10 , an inner bag 20 , a connection of the inner bag 30 , a cap 40 and an air valve 50 ,

The canister body 10 is made of a metallic material that has an opening 12 in the upper side thereof.

The inner bag 20 is an airtight bag, which is made of aluminum foil, for example. The inner bag 20 is filled with a gas G and lies on the inside of the canister body 10 attached before.

In 4 , includes the connection of the inner bag 30 also a pipe holder 32 , a pipe element 34 and a sealing ring 36 ,

The pipe holder 32 becomes by a process of high-frequency heat sealing with the inner bag 20 connected. In 5 and 6 points the pipe holder 32 also an axial through hole 321 extending axially through the upper and lower sides thereof, three axial sliding grooves 322 around the axial through hole 321 equiangularly spaced, an upper receptacle 323 , three inhibition blocks 324 and three stop blocks 325 which project alternately from the lower side and from each other around the axial through hole 321 equiangularly spaced, and a plurality of positioning surface areas 326 , each between each hem block 324 and every adjacent stop block 325 defined. Furthermore, each Hemmblock 324 a bevelled lower surface 324a on.

The pipe element 34 has three localization blocks 341 on, projecting from the lower side radially outward and are equiangularly spaced from each other. Will the pipe element 34 in the axial through hole 321 of the pipe holder 32 inserted, then the localization blocks 341 along the axial Gleitauskehlungen accordingly 322 emotional. Every localization block 341 has an abutment surface 341 on. After inserting the pipe element 34 through the axial through hole 321 of the pipe holder 32 , the pipe element can 34 between one, in 7 shown, unpositioned position P1, and one, in 8th and 9 shown position P2 are rotated. Is the pipe element 34 in the unpositioned position P1, then the tubular element 34 from the pipe holder 32 be separated. Will the pipe element 34 after being inserted through the axial through hole 321 of the pipe holder 32 relative to the tube holder 32 rotated, then the localization blocks 341 accordingly along the beveled lower surfaces 324a the blocks of inhibition 324 of the pipe holder 32 above the corresponding blocks of inhibition 324 moved to the positioned position P2, in which the abutment surfaces 341a of the localization blocks 341 to the positioning surface areas 326 of the pipe holder 32 bordering or bumping. At this time, every localization block will be 341 between an inhibitor block 324 and a stop block 325 of the pipe holder 32 stopped, causing an escape of the tubular element 34 in front of the pipe holder 32 is prevented. The pipe element 34 also has a stop flange 342 which extends around the circumference of the center. The stop flange 342 defines a second stop area 342a , the first stop area 323a in the upper picture 323 opposite and an axial gas passage 343 extending through the upper and lower sides thereof in airy connection with the interior of the inner bag 20 extends.

The sealing ring 36 is a rubber ring that is in the receptacle 323 the pipe holder 32 attached present and between the first stop surface 323a in the upper picture 323 and the second stop surface 324a the stop flange 342 of the tubular element 34 is held. The sealing ring 36 is pressed to be elastically deformed when the pipe member 34 relative to the tube holder 32 is rotated to the localization blocks 341 about the appropriate blocks of inhibition 324 to move. After the localization blocks 341 about the appropriate blocks of inhibition 324 were moved, the sealing ring returns 36 slightly back in its previous form and is still in a compressed state to the gap between the pipe element 32 and the pipe holder 34 effectively seal, whereby a leakage of the gas G from the inner bag 20 is prevented.

The cap 40 is a metallic element attached to an upper part of the tubular element 34 firmly attached and with the canister body 10 connected to the opening 12 to block.

The air valve 50 that in the cap 40 is installed to allow a flow of gas G from the inner bag 10 through the connection of the inner bag 30 to control the combustion chamber in the gas nail gun to which the gas canister is attached.

Installation of the connection of an inner bag 30 is by inserting the pipe element 34 through the pipe holder 32 and rotating the tubular element 34 relative to the tube holder 32 as mentioned above, easy to carry out. This assembly process of the connection of the inner bag is quite simple. Furthermore, the sealing ring 36 deformed by pressing to prevent leakage of the gas.

Even though a particular embodiment of Invention for purposes of explanation was, can various modifications and improvements without the essence and to depart from the scope of the invention. Accordingly the invention is limited only by the appended claims.

Claims (10)

Gas canister, comprising: a canister body, wherein the canister body an opening includes, an inner bag, which is attached to the inside of the canister body and filled with a gas is present, a connection of the inner bag, wherein the connection the inner bag comprises a tube holder, which with the inner bag connected, wherein the tube holder has an axial through hole which extends through the upper and lower sides thereof and a tube member passing through the axial through hole of the tube holder added is and relative to the tube holder between an unpositioned Position and a positioned position can be rotated the pipe element being in the unpositioned position Position is, can be removed from the tube holder, wherein the pipe element, when in the positioned position, is present locked to the tube holder, wherein the tubular element a Air passage includes that with the inner bag in airy connection stands, a cap which is firmly attached to the tubular element and with the canister body connected to the opening to block, and an air valve mounted in the cap present to the gas from the inner bag to the outside of the gas canister to lead. Gas canister according to claim 1, wherein the connection the inner bag further comprises a sealing ring between the pipe holder and the pipe element is set to an outflow of To prevent gas. Gas canister according to claim 2, wherein the tube holder includes at least one axial Gleitauskehlung extending through the upper and lower side thereof in conjunction with and along the axial Through hole extends axially, wherein the tube member at least includes a location block that is from a lower side thereof protrudes and on insertion of the tubular element through the axial through hole through the at least a Gleitauskehlung of the tube holder can be inserted, wherein the at least a localization block hooked to the bottom of the tube holder is when the pipe element is in the positioned position. Gas canister according to claim 3, wherein the tube holder comprises at least one hem block and at least one stop block, each hem block comprising a bevelled lower surface, where each of the localization blocks of the tubular element along the chamfered lower surface of one of the inhibitor blocks over one the corresponding blocks of inhibition is moved and stopped between one of the inhibition blocks and one of the stop blocks, when the tube member is not positioned relative to the tube holder Position is rotated to the positioned position. The gas canister of claim 4, wherein the tube holder includes a receptacle disposed on the upper side thereof, the receptacle defining therein a first stop surface, the tube member including a stop flange extending around the periphery thereof, the stop flange being a second stop Defined stopping surface, which is opposite to the first stop surface, wherein the sealing ring is mounted in the receptacle and present between the first stop surface and the second Stop surface is held. Connecting the inner bag, which is in an inner bag a gas canister is used, wherein the connection of the inner bag includes: a pipe holder, which is connected to the inner bag is, wherein the tube holder has an axial through hole extending through an upper and lower side thereof extends axially and at least a positioning surface area comprises, which is arranged on the lower side, one Pipe element passing through the axial through hole of the pipe holder added and can be rotated relative to the tube holder, wherein the tube element at least one abutment surface comprising, by a rotational movement of the tubular element relative to the tube holder in engagement with at least one positioning Surface area moves can be a stop flange extending around the circumference thereof and an air passage extending through an upper and lower side thereof in connection with the inner bag, and one Sealing ring between the pipe holder and the stop flange of the tubular element is set to prevent outflow of the gas. An inner bag connection according to claim 6, wherein the tube holder further has at least one axial Gleitauskehlung which communicates through the upper and lower sides thereof extends axially with and along the axial through-hole, wherein the pipe element comprises at least one locating block which protruding from the lower side of it and through the at least one Gleitauskehlung of the tube holder can be inserted, wherein the at least a localization block carrying at least one abutment surface. The inner bag terminal according to claim 7, wherein the tube holder comprises at least one hem block, that of the lower one Side thereof, each hem block comprising a bevelled lower surface, wherein the at least one locating block of the tubular element along the beveled lower surface from each of the blocks moved and engaged with the at least one positioning surface area the tube holder is brought. The inner bag terminal according to claim 8, wherein the tube holder further comprises at least one stop block, the protruding from the lower side thereof, which is suitable for at least a localization block when in contact with the at least one positioning surface area to stop. An inner bag connection according to claim 6, wherein the pipe holder further comprises a receptacle which is at the top Side thereof is arranged, wherein the inclusion therein a first stop surface defined, wherein the stop flange of the tubular element defines a second stop surface, the first stop area opposite, the sealing ring being mounted in the receptacle and between the first stop area and the second stop surface is held.