RU9791U1 - HYDRAULIC REMOVER - Google Patents

Abstract

A hydraulic puller containing two opposing cylinders with plungers and a extractor connected via an intermediate mechanism to cylinders in communication with a control system including a pump, hydraulic tank and distributor, characterized in that the extractor is made in the form of a stud with a washer and a nut on one the threaded end and the thrust washer on its other half, the intermediate mechanism includes two crawlers located in the housing and a wedge between them, each of the cogs is made with an opening for the passage of the stud and with with an inclined plane interacting with a wedge configured to pass the stud through it and connected to cylinder plungers mounted on the housing of the intermediate mechanism, the extractor washers are located outside the housing of the intermediate mechanism with the possibility of interacting with the external ends of the crawlers, one of which is supported on the washer fixed nut, and the other crawl through the support washer is designed to abut against the shaft end with a dismountable part, for example, a key.

Description

,

HYDRAULIC REMOVER

The invention relates to devices for dismantling nodes whose elements are interconnected by interference fit, in particular by removing wedges.

A hydraulic puller is known. Containing two opposite cylinders opposed to each other with pistons and rods (plungers) and a extractor connected through an intermediate mechanism to cylinders in communication with a control system. Including a pump, hydraulic tank and distributor (see Russian patent No. 20099870, cl . В25В 27/02, op} Bl. in Bulletin No. 6za1994).

This puller is the closest in technical essence to the claimed technical solution. However, it does not allow the wedge key to be removed from the stressed joint due to the shape of the extractor in the form of a gripper covering the dismountable part such as a sleeve from the outside. In addition, the famous puller is bulky

due to the lever system of the intermediate mechanism and inconvenient in operation.

The claimed utility model is based on the task of creating a hydraulic puller for removing wedge dowels when dismantling machine components that require a lot of effort.

The technical result of the claimed utility model is the expansion of operational capabilities, reducing the size of the puller, ease of use.

25 to 27/02

each other cylinders with plungers and an extractor connected through an intermediate mechanism to the casing. communicating with a control system including a pump, a hydraulic tank and a distributor, the extractor is made in the form of a stud with a washer and a nut on one of its threaded ends and a support washer on its other half, the intermediate mechanism includes two crawlers placed in the housing and a wedge between them, each of the crawlers made with a hole for the passage of the studs and with an inclined plane. acting with a wedge made with the possibility of a stud passing through it and connected to cylinder plungers installed on the housing of the intermediate mechanism, the extractor washers are located outside the housing of the intermediate mechanism with the possibility of interacting with the external ends of the crawlers, one of which is supported on the washer secured by a nut, and The other slider through the support washer is designed to abut against the shaft end with a dismountable part, for example, a key.

Figure 1 shows the inventive hydraulic puller, a longitudinal section; figure 2 is an embodiment of a control system for a hydraulic puller.

The hydraulic puller comprises two completely opposite cylinders 1 and 2 with plungers 3 and 4, respectively, and a extractor 5 connected through an intermediate mechanism 6 to cylinders 1 and 2. Communicated by pipelines (hoses) 7 and 8 with a control system including a pump 9, a hydraulic tank 10 and a distributor 11. The extractor is made in the form of a stud 5 with a washer 12 and a nut 13 at one of its threaded ends and a supporting washer 14 at its half. The intermediate mechanism includes two creepers 15 and 16 and a wedge 17 between them located in the housing 6. Each of the sliders 15 and 16 is made with a hole 18

for the passage of the stud 5 and with an inclined plane 19, interacting with the wedge 17. The wedge 17 is made with the possibility of the passage of the stud 5 through it, for example with a groove 20 in its middle part, and is connected, for example via pins 21, with plungers 3 and 4 of the cylinders 1 and 2. The working cavities 22 and 23 of the cylinders 1 and 2, respectively, are connected by pipelines 7 and 8 through a distributor 11, for example a three-position four-line, with a pump 9 and a hydraulic tank 10. Cylinders 1 and 2 are mounted on the housing 6 of the intermediate mechanism, washers 13 and 14 of the extractor posted for n the housing 6 of the intermediate mechanism with the possibility of interaction with the outer ends of the cogs 15 and 16. The cradle 15 is supported on the washer 12, secured by a nut 13. According to 11, the cushion 16 through the support washer 14 is designed to abut against the shaft end 24 with a dismountable part, for example key 25. On the housing 6 can be installed a handle 26 for transferring the puller to any place. In this case, the hydraulic control system (pos. 7,8,9,10,11) can be disconnected from the pinch 1 and 2 of the puller.

The hydraulic puller works as follows.

The puller is installed in the place of dismantling by screwing the pin 5 into the threaded hole of the part to be dismantled, for example, the wedge plate 25 and resting the support washer 14 (by means of the additional sleeve 27) in the end of the shaft 24 with the dismantled key 25. Connect the hydraulic pipes (hoses) 7 and 8 to working cavities 22 and 23 of cylinders 1 and 2, respectively. When giving a command to the distributor 11 and moving it to the left position according to the drawing (see Fig. 2), the working fluid is pumped through the dispenser 11 through the distributor 11, the pipeline B is fed into the cavity 23 of the cylinder 2. At the same time, the working fluid from the cavity 22 of the cylinder 1 through the pipeline 7 through the distributor 11 enters the hydraulic tank 10. Under the influence of pressure in the cylinder 2, the plunger 4 moves to the left according to the drawing} together with the wedge 17 and the plunger 3. In this case, the wedge 17, interacting with the inclined planes 19 of the sliders 15 and 16, moving towards the cylinder 1, impacts with great effort on the creepers 15 and 16, under the influence of which, the latter, moving in opposite directions, act on the supporting washers 12 and 14 and through the sleeve 27 on the end face of the shaft 24. In this case, the key 25 moves off (undermines) and starts to leave the groove shaft 24. When switching the distributor 11 to the right position (see Fig. 2), the working fluid from the cavity 23 of the cylinder 2, the pipeline 8, the distributor 11 enters the hydraulic tank 10, and from the pump 9 through the distributor 11, the pipeline 7, the working fluid enters the cavity 22 cylinder 1, under the action of which, plunger 3, to line 17, the plunger 4 are moved to the right according to the drawing, forming a gap between the wedge 17 and the inclined planes 19 of the sliders 15 and 16 and thereby removing the load from the supporting washers 12 and 14. At the same time, the puller is ready for the next press-out.

The inventive hydraulic puller is capable of undermining the wedge key in one stroke of the cylinder, which reduces the complexity of the repair and facilitates dismantling of machine parts, and is also compact, relatively lightweight and convenient to use, can also be used to remove pins, bushings, and other parts having end-to-end threaded holes.

Claims (1)

A hydraulic puller comprising two opposing cylinders with plungers and a extractor connected via an intermediate mechanism to cylinders in communication with a control system including a pump, hydraulic tank and distributor, characterized in that the extractor is made in the form of a stud with a washer and nut on one of its the threaded end and the thrust washer on its other half, the intermediate mechanism includes two crawlers located in the housing and a wedge between them, each of the cogs is made with an opening for the passage of the stud and with with an inclined plane interacting with a wedge configured to pass the stud through it and connected to cylinder plungers mounted on the housing of the intermediate mechanism, the extractor washers are located outside the housing of the intermediate mechanism with the possibility of interacting with the external ends of the crawlers, one of which is supported on the washer fixed nut, and the other crawl through the support washer is designed to abut against the shaft end with a dismountable part, for example, a key.