前苏联专利SU1118282A3 Pneumatic percussive tool

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优先权

专利摘要:
1. PNEUMATIC SHOCK INSTRUMENT 5ENT, comprising a handle body with a pneumatic damping chamber and an air supply channel, mounted in the handle body with an axially displaceable cylinder, a hammer located in it and rigidly connected to the cylinder, a cavity bone-connected with pneumatic damping chamber, characterized in that, in order to increase the damping efficiency, the valve is designed as a tubular protrusion fixed coaxially with the cylinder at the rear end of the body-stick and has a number of radial holes communicated with the air supply channel and another series of holes communicated with the atmosphere, installed in the cavity of the protrusion of the glass-like valve element having an annular groove in the middle part with beveled ends, alternately blocking the row of holes in the tubular lag (L ne, communicated with the atmosphere, and a number of holes communicated with the air supply channel, and pressed by means of a spring to the cylinder relative to the body-handle.
公开号:SU1118282A3
申请号:SU813276211
申请日:1981-04-24
公开日:1984-10-07
发明作者:Адольф Леннарт Гидлунд Пер
申请人:Атлас Копко Актиеболагет (Фирма)；
IPC主号:

专利说明:

2. The tool of claim 1, characterized in that the cavity 1118282 —the valve member — communicates through the radial holes with its recess.
This invention relates to mechanical engineering, namely pneumatic percussion tools that can be used, for example, in riveting.
A pneumatic percussion instrument is known, comprising a handle body with a pneumatic damping chamber and an air supply channel, an axially displaced cylinder mounted in a cylinder, a percussion valve located therein, and a valve rigidly connected to the cylinder, which cavity communicates with. pneumatic shock-absorbing camera lj ..
A disadvantage of the known tool is that the means of regulating the pressure in the damping chamber does not allow for efficient use of the air volume in the damping chamber, as a spring to absorb vibrations, as a result of which the damping efficiency of the known instrument is low.
The aim of the invention is to increase the efficiency of depreciation.
This goal is achieved by the fact that in a pneumatic percussion instrument comprising a handle body with a pneumatic damping chamber and a feed channel, a cylinder mounted in the handle body with axial movement, a hammer located in it and a valve rigidly connected to the cylinder which communicates with the pneumatic depreciation chamber, the valve is made in the form of a tubular protrusion fixed coaxially with the cylinder at the rear end of the body-handle and having a number of radial holes, communicating with a channel for supplying air, and another series of holes communicated with the atmosphere, installed in the cavity of a cupless valve-shaped element having an annular groove in the middle part with beveled ends, alternately blocking a number of holes in the tubular lug communicated with the atmosphere, and a series of holes communicated with the air supply channel, and pressed by means of a spring to the cylinder relative to the body-handle.
In addition, the cavity of the valve element communicates through radial holes with its groove.
FIG. 1 shows a pneumatic percussion instrument, a general view with a partial cut; in fig. 2 valve at one position of the cylinder; in fig. 3 - the same, with the rearmost position of the cylinder; Fig.4 stakanoobrazny valve element.
The pneumatic percussion instrument includes a handle body 1, in which cylinder 2 is mounted with axial movement with a hammer 3 located in it. In front of the handle body 1, there is a working tool, for example a riveting punch 4, held by a holder 5. At the lower end the handle body 1 is fitted with a quick coupling 6, with which the tool is connected to a compressed air source (not shown). The tool is driven by the trigger 7. At the rear end of the cylinder 2 a tubular extension 8 is installed, into which the end cap 9 is screwed. In the tubular extension 8 there is a support element 10 supported by the end cap 9. At the rear end of the housing of the arm 1 there is a tubular protrusion 11, located coaxially with the cylinder 2 and the supporting element 10, which can enter inside the tubular protrusion 11. In the rear part of the latter there are holes 12 that communicate its cavity 13 with an annular chamber 14 in t opnyce-handle 1, which ora channel 15 communicates with the damping chamber 16 in the housing, the handle 1. 31 in the front end of the tubular lug 11 is made of a series of holes 17 to communicate its cavity 13 with the atmosphere through the outlet holes 18 in the body-handle, and in the middle part - a series of radial holes 19 that are communicated through the channels 20 compressed air In the tubular protrusion 11, a glass-like valve element 22 is mounted to preload with a spring 23 to the support element 10 and the cylinder 2 relative to the handle case 1. The tubular protrusion 11 and the valve element 22 are a valve; the valve element 22 has an annular groove 24 seconds Ocean ends 25 and 26. Annular groove 24 communicates through openings 27 with the cavity of the valve member 22 and the cavity 13 of the tubular projection. The beveled ends are designed to sequentially change the air flow from the cavity 13 and into it, respectively. The width of the groove 24 and the distance between the rows of holes 17 and 19 are designed in such a way that air can be supplied and discharged into the cavity 13 at the same time. The tool works as follows. After switching on, the air through the channels 21 and 20 is supplied to the openings 19. In the initial position, when the supply force is not applied to the handle body 1, the cylinder 2 is held in the extreme forward position by means of the Spring 23. A series of openings 19 are closed by the valve element and compressed air 2 4 is not supplied to the cavity 13 through the bore 24 and the holes 27. In the unloaded position, a number of the holes 17 are in communication with the bore 24, therefore the cavity 13, the annular chamber 14 and the damping chamber 16 are in communication with the atmosphere. If the force applied by the operator to the body-handle 1, has a normal value, the working position of the cylinder 2 is such that the beveled ends 25 and 26 of the groove 24 regulate the flow and discharge of air through the rows of holes 19 and 17, respectively, and the pressure in the cavity 13, the annular the chamber 14 and the damping chamber 16, together with the force developed by the spring 23, balances the working force of the operator. If the force applied to the body 1 of the handle 1 is too large, /, the valve element 22 is displaced to the extreme rearward position and the row from the openings 17 for connecting the cavity 13 to the atmosphere is blocked, and the row of openings 27 for air supply is open, and This means that in the cavity 13, the annular chamber 14 and the damping chamber 16 is the maximum pressure, which ensures the effective absorption of recoil and vibrations. Due to the relatively small area of the holes 17 and 19, the limited volume of air enters from the cavity 13 and the chambers 14 and 16 and is absorbed by the elasticity of the space of the cavity 13 and the chambers 14 and 16 during the rapid movements of the cylinder 2 and the oscillations
/ eight
FIG. Have
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18 17
20
V / 77 /
Fig ft

权利要求:
Claims (2)
[1]
1. PNEUMATIC SHOCKING TOOL, comprising a handle body with a pneumatic shock-absorbing chamber and an air supply channel, mounted in the handle body with axial movement of the cylinder, a drum located in it and rigidly connected to the valve cylinder, the cavity is connected to the pneumatic shock-absorbing chamber characterized in that, in order to increase the depreciation efficiency, the valve is made in the form of a tubular protrusion fixed coaxially with the cylinder at the rear end of the handle body and having its series of radial openings in communication with the air supply channel and another series of openings in communication with the atmosphere installed in the protrusion cavity of the glass-shaped valve element having an annular groove in the middle part with beveled ends alternately overlapping the series of openings in the tubular protrusion in communication with the atmosphere , and. a series of openings in communication with the air supply channel, and preloaded by means of the springs to the cylinder relative to the handle body.
[2]
2. The tool according to claim 1, with the fact that the cavity of the valve element is communicated by means of radial holes with its groove.

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AU541699B2|1985-01-17|

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JPS6350150B2|1988-10-06|

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US4388972A|1983-06-21|

FI811255L|1981-10-26|

FI74419B|1987-10-30|

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

WO1993020981A1|1992-04-10|1993-10-28|Nauchno-Tekhnichesky Kooperativ 'tekhprogress'|Pneumatic instrument|US1827647A|1928-11-09|1931-10-13|Galaz Juan|Attachment for pneumatic hammers|

US1804712A|1930-08-04|1931-05-12|Herman A Stevens|Pneumatic hammer|

US3010431A|1960-01-05|1961-11-28|Atlas Copco Ab|Percussion tools|

BE637015A|1962-09-11|

US3255832A|1962-11-27|1966-06-14|Leavell Charles|Vibrationless percussive tool|

US3727700A|1971-04-19|1973-04-17|Chicago Pneumatic Tool Co|Pneumatically percussive tool having a vibration free handle|

US3920086A|1974-05-23|1975-11-18|Albert Adolfovich Goppen|Pneumatic hammer|

FR2456593B1|1979-05-15|1982-07-23|Montabert Roger|SE438465B|1980-12-18|1985-04-22|Atlas Copco Ab|GREAT PROGRAM WITH OPTIONAL ADJUSTMENT FOR PERFORMANCE TOOLS|

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US4776408A|1987-03-17|1988-10-11|Deutsch Fastener Corporation|Pneumatic impact tool|

US5459255A|1990-01-11|1995-10-17|Isis Pharmaceuticals, Inc.|N-2 substituted purines|

WO1993006972A1|1991-10-09|1993-04-15|Sovmestnoe Sovetsko-Finskoe Predpriyatie Rpf-D|Pneumatic hammer|

WO1993009919A1|1991-11-11|1993-05-27|Nauchno-Tekhnichesky Kooperativ 'tekhprogress'|Pneumatic instrument|

DE10005080C1|2000-02-04|2001-08-02|Bosch Gmbh Robert|Hand tool has handle with handle part fixed to casing by elastic, vibration-damping element and fixing part fixed at elastic element|

DE10145464C2|2001-09-14|2003-08-28|Wacker Construction Equipment|Drill and / or impact hammer with idle control depending on the contact pressure|

US7527107B2|2003-07-15|2009-05-05|Wacker Construction Equipment Ag|Working tool with damped handle|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

SE8003177A|SE421182B|1980-04-25|1980-04-25|VIBRATION DUMP DEVICE TOOL|

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