SU141106A1 - Pneumohydraulic impact wrench - Google Patents

Description

Known pneumatic-hydraulic nutrunners with a lever key. which is rotated by a hydraulic drive. The stop of the actuator stem of these wrenches is the support mounted on the tightened nuts (see the Wrench R 458-221 of the Leningrad Metal Works).

The disadvantage of these wrenches is the impossibility of fully automating their operation.

The proposed wrench is devoid of this disadvantage. The essence of the invention lies in the fact that, in order to supply the working fluid to the hydraulic drive, a piston tank is used that is built into the wrench. Compressed air, acting on the piston, simultaneously drives a pneumatic pump motor.

FIG. 1 shows schematically the design of a wrench; FIG. 2 shows the installation of the key and support.

The hydraulic cylinder / is divided by piston 2 into two cavities: lower a and upper b. In the lower cavity there is an opening for draining the oil through the oil pipe 3 to the tank 4.

A hole in the upper cavity is connected to the air duct 5.

Four radially arranged channels are made in the upper flange of the hydraulic cylinder, one of which is supplied with compressed air through the air duct 6. The other two channels are connected by air ducts 7 and S to the corresponding cavities of the valve-spool valve 9. The fourth channel is connected to the atmosphere. Top and bottom of the scraper 10 are provided with boreholes in, which serve to bypass air through the air duct 6 alternately into the corresponding cavities of the valve-slide valve 9 and exhaust air from them alternately into the atmosphere.

The key // fixes the rod against rotation relative to the hydraulic cylinder flange. The plunger 12, located in the channel under the hydraulic cylinder 141106-2 lindrom, receives a reciprocating motion from the air motor 13 and, together with the valves 14 and 15, forms a high-pressure hydraulic pump, which serves to pump oil into the working cylinder cavity.

Valve-spool valve is used to automatically switch the pneumatic cylinder from the working stroke to the reverse and vice versa.

The valve 9 consists of the following main elements: the plunger 16, the spool 17, the valve 18, the piston 19.

The plunger serves to lock the fluid in the lower cavity of the hydraulic cylinder during the working stroke and release it into the tank cavity through the oil lines 20 and 3 when idling.

The spool serves to alternately connect with the atmosphere of the hydraulic cavity of the hydraulic cylinder through the air duct 5 at the working stroke and the air motor and the air cavity of the tank when idling.

The valve serves to intake compressed air into the air motor and 15 air cavity of the tank and at the same time close the access of compressed air into the air cavity of the hydraulic cylinder during the working stroke and vice versa close the access of the compressed air to the air motor and air cavity of the hydraulic cylinder during idling .

The piston serves to change the piston 16, the valve 18 and the valve 17.

In tank 4 there is a floating 21, dividing the tank into two cavities - air and liquid.

The valve 22 serves to intake compressed air from the line into the pneumohydraulic cylinder.

The meter 23 serves to measure the oil pressure on the hydraulic cylinder.

The safety valve 24 is designed to reduce the oil pressure in the hydraulic cylinder and to regulate the force on the rod 10.

The wrench operation is as follows.

Bearing 25 and wrench 26 are mounted on tightening nuts 27 and fixed to them. A pneumohydro-cylinder is connected to the support and key levers using fingers 28. The rod 10 of the hydraulic cylinder must be in the lowest position.

Compressed air is supplied to the valve 22, which, when the valve is opened, but enters the air line into the valve cavity 18 and from there into the pneumatic motor. Through the air duct 29, the air goes into the air nozzle of the tank 4, and from there into the cavity under the piston 19.

Under the action of compressed air, the piston 21 pushes the oil out of the tank 4 into the oil pipe and out through the non-return valve / 5 into the plunger channel 12. A plunger driven by an air motor pumps oil through the valve 14 into the hydraulic cylinder.

Porn) 2 with stem 10 moves upwards, turning key 26 and tightening the nut. As soon as the rod reaches its extreme position, the lower grooves on it will coincide with the corresponding channels in the upper flange of the hydraulic cylinder and the air from the cavity under the piston 19 will be reloaded into the atmosphere. The cavity is connected by a piston with the air line 6, the supply is compressed air. In this case, the piston will move to the lower position, and the plunger 16 will connect the oil lines 3 and 20. The oil from the hydraulic cylinder will be able to flow into the tank 4. The valve / 7 will open the air line 30 and release air from the pneumatic actuator and tank. Klapap 18 will close the air access to the air motor 1, and the tank will also allow air to enter the air chamber of the hydraulic cylinder. Gb), the action of the air piston 2 and the rod 10 will begin to peremegats