SU1082610A1 - Power nut driver - Google Patents

Abstract

1. GAYKOVERT containing a hydro (pneumatic) actuator with an overflow system having a spool-type dispensing valve, characterized in that, in order to improve performance, it is equipped with a piston shut-off valve with an overflow channel placed on its cylindrical surface, periodically connected to the bypass system. i cabfcis &

Description

, 2. A wrench according to claim 1, concerning the fact that an eolotnik distribution valve is located inside a check valve, 1082610 3. A wrench according to claim 1, which is equipped with an additional passageway, periodically connected to the bypass the system.

The invention relates to hand mechanized tools and can be used for assembly and disassembly operations when working with threaded connections. A wrench is known, which contains lever keys, is kinematically coupled} first with a power drive having a pneumatic booster, a bypass system, a percussion mechanism and a spool control mechanism 1. The disadvantage of this wrench is the significant vibration loads that occur during operation, which does not allow control of the tightening torque of a threaded joint using test equipment. The closest to the invention is a wrench containing a hydraulic (pneumatic) drive with an overflow system having spool control valve 2. The disadvantage of this wrench is that the opening of the bypass channel at high pressures of the working fluid in the actuator requires more e force than substantially reduced and its performance is not provided smooth pressure reduction. The purpose of the invention is to improve the performance of the wrench. The goal is achieved by the fact that a wrench containing a hydro (pneumatic) actuator with a bypass system having a spool-type distributor valve is equipped with a piston shut-off valve with an overflow channel placed on its cylindrical surface, periodically connected to the bypass system. In addition, the spool distribution valve is located inside the check valve. In this case, the wrench is provided with an additional bypass channel, periodically connected to the bypass system. Fig. 1 is a schematic diagram of a wrench for the case where the check valve is in the left position; Fig. 2 is the same for the case where the check valve is in the right position. The wrench contains a hydro (pneumatic) drive 1, made in the form of a lever key 2, placed in the last hydro (pneumatic) cylinder 3 with a piston-iJiTOKOM 4, is controlled by a hydraulic booster. The piston rod 4 is kinematically connected with the working head 5 of the lever key 2 by means of the ratchet mechanism 6. The bypass system 7 is made in the form of a reversible spool distribution valve 8 pressed from one end 9 by a spring 10, chambers 11 and 12 adjacent to the ends 9 and 13 valve 8 communicated with these chambers of additional bypass channels A and 15 and drainage channels 16 and 17 brought to the cylindrical surface of a piston check valve 18 of the piston type intended to periodically open (close) these channels fishing, in the cavity of which the distribution valve 8 is placed and the main bypass channels 19-24 are made. The shut-off valve 18 is located in the cylinder 25 and divides the latter into two working cavities 26 and 27. The main channels 28 and 29 of high and low pressure, respectively, are connected to cylinder 25. Main bypass 20

constantly communicated through channel 19 with channel 28 of high pressure, and the main bypass channels 23 and

30 is continuously communicated via channel 24 to channel 29 of low pressure.

The additional bypass channels 14 and 15 periodically communicate with the channel 28 of the high pressure in the extreme positions of the check valve 18 and the drainage channels 16 are connected with the channel 29 of the low pressure.

A channel 28 is connected to a spool control mechanism 31, by means of which a wrench is connected to a pressure line.

The valve 18 is provided with a stem 32 for coupling it to a movement mechanism (not shown).

Additional bypass channels 14 and 15 serve to smoothly release the pressure of the working fluid at the beginning of its passage from the high pressure line to the low pressure line by throttling the working fluid through these channels and providing subsequent rapid bypass.

The cross section of the channels 14 and 15 is chosen in each particular case, based on the required rate of pressure reduction and, thus, has a significant impact on the operation of the bypass system.

Based on the conditions of compactness of the bypass system, the volume of the working cavities 26 and 27 is chosen equal to the volume of the working cavity of the hydraulic cylinder 3. As a result, in one stroke of the piston of the rod 4, the shut-off valve 18 will perform one double stroke, i.e. valve 18 will pass in cylinder 25 from one extreme position to another and vice versa.

The spool control mechanism 31 communicates with the hydraulic (pneumatic) cylinder 3 via channels 33-35. The piston-rod 4 is clamped against the lever key 2 by the spring 36. The operating head 5 is put on the threaded joint 37 when the wrench is operating.

The wrench works as follows.

By turning the spool mechanism

31 control at a certain angle in the direction shown by the arrow K, channels 28 and 33 are separated and closed, and channel 34 is connected

with a high pressure line and pressurized working medium through channels 34 and 35 into the cavity of hydraulic cylinder 3. Under the action of the pressure of the working medium, piston lyuTOK 4 moves to the left, compresses the guide 36 and, through the ratchet mechanism 6, drives the working head 5 relative to the body lever key 2. The head 5, rotating, reports the rotation of the threaded BS.g, the connection 37 on which it is installed.

After completing the full stroke, the piston-rod 4 and the spool-operated control mechanism 31 are turned in the opposite direction of the arrow K, to the position shown in FIG. 1. In this position of the slide control mechanism 31, the channel 34 is closed and the channels 33 and 28 are interconnected.

The working medium (Fig. 1), throttling through the additional bypass channel 15, enters the chamber 12 slowly increases the volume of this chamber by moving the spool distribution valve 8 upwards, and from the chamber 11 the working medium through the channel 17 is displaced into the channel 29.

As a result of the increase in the volume of chamber 12, there is a gradual decrease in pressure of the working medium into the master, high pressure and smooth unloading of highly loaded elements until slide valve B connects the main bypass channels 20 and 22, and channel 21 to channel 30, which is large bandwidth. Spring 36, expanding the piston-rod 4 to the right, quickly withdraws the piston-rod 4 with the ratchet mechanism 6 to the initial position for the new stroke and quickly displaces the working medium from the cavity of the hydraulic pneumatic cylinder 3 through channels 35,33,28,19 , 20 and 22 into the working cavity 26 of the cylinder 25 of the bypass system, thereby moving the check valve 18 to the right, and the working medium from the cavity 27 is forced into the low pressure main through channels 21, 30, 24 and 29.

After the valve 18 departs from the leftmost position, it closes the channels with the surface of a cylinder 25

Claims (3)

1. A WRENCH containing a hydraulic (pneumatic) actuator with a bypass system having a spool control valve, characterized in that, in order to improve operational characteristics, it is equipped with a piston shut-off valve with a bypass channel placed in it and displayed on its cylindrical surface, periodically connected to the bypass system. yy is zo uis ₁₇ & From the source network Fig 1 gy gOM99 101S 2. The wrench according to claim 1, characterized in that the spool control valve is located inside the check valve. 3. Wrench according to η.Ι, which means that it is equipped with an additional bypass channel, periodically connected to the bypass system.