RU2178860C2 - Telescopic hydraulic apparatus for pumping grease - Google Patents

Abstract

FIELD: equipment for supplying grease to delivery apparatus. SUBSTANCE: apparatus includes vessel with grease having cylindrical body with cover and pressure disc arranged in cavity of vessel with possibility for applying pressure to grease; pump for feeding grease and delivery device. Pressure disc is in the form of piston; cover has central opening in which guiding sleeve is stationary mounted. Pump for charging grease is in the form of double-action cylinder, pump passes through guiding sleeve in cover and its lower end is rigidly joined to piston. Eye of piston rod is joined with pivot. Cylindrical compression spring is arranged between pivot and cover of hydraulic cylinder. Union for connecting delivery device is joined to outer side of bottom portion of vessel through control tap. EFFECT: lowered energy consumption for driving system. 4 cl, 2 dwg

Description

 The invention relates to lubricating equipment and can be used to supply grease or other viscous fluid from a container or container to a dispenser, as well as to supply lubricant under pressure through a grease fitting to lubricated units of transport and handling machines.

 Lubricating devices are widely used in the maintenance of automobiles, tractors and other vehicles. A device that is actuated by means of a hydraulic system for raising and lowering the bucket of a loading and transport machine / 1 /.

 The specified device has a complex system and does not provide the ability to supply lubricant from containers.

 The closest technical solution, selected as a prototype, is a grease supply device containing a grease reservoir in the form of a housing with a cover and a pressure disk placed in the reservoir cavity with the possibility of creating pressure on the grease, a grease heating pump and a dispenser / 2 / .

 The disadvantages of the known device: the design is complex, for its drive into action requires a pseudosystem with a power plant. In addition, it does not provide the possibility of supplying grease from containers.

 An object of the invention is to improve operational properties, simplify the design and reduce energy costs for driving the device into action.

 The invention consists in the following. The pressure disk is made in the form of a piston, the cover is with a hole in the center into which the guide sleeve is fixedly mounted. The grease pump is a hydraulic cylinder that is passed through a guide sleeve and is rigidly attached to the piston with its lower end part. A heel is rigidly attached to the rod eye, between which a cylindrical compression spring is placed and a hydraulic cylinder cover. The bottom of the tank is in communication with a fitting for connecting a dispenser or a grease gun for refueling. The rod cavity of the hydraulic cylinder through the through-valve is connected about the discharge cavity. Parallel to this line, a wire with a three-way valve is connected, to the free output of which a wire with a fitting for connecting the oil pipe of the syringe is connected. When the rod is loaded with vertical force / when it acts on its heel /, it is possible to fill the syringe from the container or to supply lubricant to the serviced machine with slight back pressure, as well as to supply lubricant under high pressure to the grease fittings. In this case, the vertical force can be created by means of the hydraulic system of the tractor's hitch mechanism or by a machine mounted on a material-handling vehicle, for example, an excavator bucket or a loader. As a result, the design of the lubricating device is simplified and no pneumatic system with a power plant is required for its drive.

 In FIG. 1, 2 shows a telescopic grease heater. It consists of a cylindrical tank 10 with a lid 8; a piston 11 placed in the cavity of the tank 10 with the possibility of creating pressure on the lubricant. A hole is made in the center of the cover 8, in which the guide sleeve 7 is fixedly mounted. Through the specified sleeve in the cover 8 a double-acting hydraulic cylinder 5 is passed, which is rigidly attached to the piston 11 by the bottom end part. Heel 2 is rigidly attached to the eye of the rod 4 of the hydraulic cylinder 5. rod 4 between the fifth 2 and the cover of the hydraulic cylinder 5 is placed a compression spring 3. A fitting 13 is connected to the bottom of the lubricated container 10 from the outside through a control valve 12 to connect a dispenser or syringe to refill it with grease. The rod cavity of the hydraulic cylinder 5 through the control valve 16 is in communication with the discharge cavity. Parallel to this line, a wire is connected with a three-way control valve 15, to the free output of which a wire is connected with a fitting 14 for connecting the oil pipe of the syringe. To increase the reliability of the device and reduce the installation dimensions in height, the container 10 with lubricant is fully / up to the level of the cover 8 / or partially placed in a recess made, for example, in the base 9. The output of the rod 4 is limited by the length of the spring 3 / Fig. 2 /. To ensure the possibility of extracting grease from a cylindrical container, the inner diameter of the container 10 is larger than the outer diameter of the container 17. The specified container with grease without end parts / caps / is vertically placed in the container 10. A guide cylinder 18 is vertically installed in the lubricant in the container 17, into which the piston is placed 11 with a hydraulic cylinder 5. The cylinder 18 is higher than the container 17 with lubricant not less than the height of the piston 11, which allows the piston 11 to be installed in the cylinder 18 in the presence of lubricant in the container to the level of the upper cut.

 The device operates as follows. The piston 11 with the hydraulic cylinder 5 is removed from the container 10. The container 10 is filled with grease in the usual way or a container 17 with lubricant is installed in it, having previously separated the end parts from the container 17. A guide cylinder 18 is immersed in the grease of the container 17. Then, in the container 10 or in the cylinder 18, the piston 11 with the hydraulic cylinder 5 is installed in the reverse order. Its cavities are filled with a working fluid, for example, oil, which is poured through the hole for the wire in the rod cavity with the piston in the lower position 6. The spring 3 in this position is in a compressed state. Open the valve 16. The rod 4 with the piston 6 under the action of the spring 3 rises up and the oil from the rod cavity enters the discharge cavity. If necessary, add oil to the stock cavity through the specified hole. The control valves 16 and 12 are closed. The rod 4 is loaded with vertical force / gravity /, acting on the heel 2 by the tractor hydraulic linkage mechanism or by a machine mounted on a material handling vehicle, for example, an excavator bucket or a loader. To do this, set the hydraulic control lever to the "Lower" position and the back of the serviced machine is hung on the heel 2. At the same time, excess pressure of the working fluid is created in the sub-piston cavity of the hydraulic cylinder 5, and the lubricant pressure is simultaneously created in the sub-piston cavity of the tank 18. Connect to the fitting 13 the wire of the dispenser / not shown /. Open the valve 12. Grease from the under-piston cavity of the container 10 or cylinder 18 under the pressure of the piston 11 enters the dispensing device through the valve 12 and the nozzle 13. Using a distributing device, lubricate the machine, for example, fill it with a fairy tale of the wheel bearing housing. After performing this type of work, close the valve 12.

 The grease is supplied to the grease fittings under pressure using a syringe. Fill the capacity of the syringe with grease. To do this, disconnect from the nozzle 13 the wire of the dispenser. Connect with the indicated fitting the filling nozzle of the syringe / not shown /. The valve 12 is opened. Grease from the under-piston cavity of the container 10 or cylinder 18 also enters the container of the syringe under the pressure of the piston 11. After filling it, the valve 12 is closed and the syringe is removed from the nozzle 13. The oil pipe of the syringe is connected to the nozzle 14 / not shown /. The crane 15 is installed in a position in which the piston cavity of the hydraulic cylinder 5 is in communication with the valve 15 and the fitting 14, and through the oil pipe - with the working cavity of the syringe / valve 16 is closed /. Inject a grease into the grease fitting with a syringe. In this case, the syringe is driven by the pressure of the oil entering its working cavity from the under-piston cavity of the hydraulic cylinder 5 through the valve 15 and the fitting 14, as well as through its oil pipe. After grease has been consumed, the syringe is refilled. Why the filling nozzle of the syringe is connected to the nozzle l3. The crane 15 is transferred to the filling position, in which the rod cavity of the hydraulic cylinder 5 is in communication with the working cavity of the syringe. Open the valve 12. Under the pressure of the piston 11, the lubricant through the valve 12 and the nozzle 13 enters the capacity of the nozzle. Under the influence of the same pressure, oil is simultaneously displaced from the working cavity of the syringe, which is discharged through its oil pipe, nozzle 14 and valve 15 into the rod cavity of hydraulic cylinder 5. Then, the valve 12 is closed, the syringe is removed from the nozzle 13, the valve 15 is put into working position and lubrication is continued this or another car. During the operation of the syringe, oil is consumed in the sub-piston cavity of the hydraulic cylinder 5 and the piston 6 drops down, finally reaching bottom dead center.

 If the working fluid is insufficient to service this machine, proceed as follows. Remove the load from the rod 4 in the reverse order and open the valve 16. Under the action of the spring 3, the rod 4 with the piston 6 rises up, and the oil from the rod cavity of the hydraulic cylinder 5 is displaced into the piston cavity. The specified process is also carried out when installing to service another machine. The valve 16 is closed and lubrication operations continue. When the grease is exhausted in the tank 10, it is refilled or a container with grease is installed in it. For this, the piston 11 with the hydraulic cylinder 5, the cylinder 18 and the empty container 17 are removed from the container 10. Then, the container with lubricant 17 and other structural elements are installed in the container 10 in the reverse order. If the use of containers 17 is not provided, as proven in FIG. 1, the container 10 is filled with grease in the usual way and in doing so, in a similar way. After performing lubrication, the rod 4 of the hydraulic cylinder 5 is unloaded and the valve 16 is opened. They install another machine for maintenance or leave the supercharger in storage.

 The proposed device has a simple design, energy-efficient and adapted to technological maintenance. This is due to the fact that the device is made in the form of telescopically arranged and vertically placed cylinders with pistons in such a way that a working hydraulic cylinder with a compression spring on the rod acts on the lubricated cylinder through the piston. It is activated by creating a vertical force on the rod, which may be the gravity of the machine being served. The loading of the rod with the indicated force seems possible due to the linkage mechanism of the tractor hydraulic system or to the working bodies of the loading and transport machine. In addition, a guide cylinder is provided in the device, which makes it possible to supply lubricant from the container.

SOURCES OF INFORMATION
1. A. p. USSR 1536157; MKI5 F 16 N 7/38, 11/08; 03/10/08.

 2. A. p. USSR 1634942, MKI5 F 16 N 11/10, 12.19.88 - prototype.

Claims (4)

 1. Telescopic hydraulic grease blower containing a grease container in the form of a cylindrical body with a cover and a pressure disk placed in the cavity of the container with the possibility of creating pressure on the lubricant, a lubrication pump-supercharger and a dispenser, characterized in that the pressure disk is made in the form of a piston , in the center of the cover there is a hole in which the guide sleeve is fixedly mounted, the lubricant pump-pump is made in the form of a double-acting hydraulic cylinder, passed through the guide sleeve to the arm and is rigidly attached by the lower end part to the piston, a heel is rigidly attached to the rod eye, a cylindrical compression spring is placed on the rod between the fifth and the cylinder cover, and a fitting for connecting the transfer device or lubricating supercharger is connected to the bottom of the tank from the outside through the control valve (syringe) for filling with grease, the rod cavity of the hydraulic cylinder through the control valve through passage is connected to the discharge cavity, a wire from three passes is connected in parallel to the specified line control valve, to the free output of which is connected a wire with a fitting for connecting the wire of a lubricating supercharger.  2. The hydraulic pump according to claim 1, characterized in that the lubricated container is completely (up to the level of the lid) or partially placed in the recess, and the outlet of the hydraulic cylinder rod is limited by the length of the spring.  3. Hydraulic blower according to paragraphs. 1 and 2, characterized in that the container is made with the possibility of placing containers in it with grease without end parts (caps), while a guide cylinder is installed in the container with grease.  4. The hydraulic pump according to claim 3, characterized in that the guide cylinder is higher in height than the height of the cylindrical container by not less than the height of the piston.

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