RU2025221C1 - Brace - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: brace comprises body, operating handle 3 with bevel gear 8, spindle 14 with bevel gear 13, ratchet wheel 16 with pawls 17, 18, and speed-shift mechanism. Gears 8 and 13 are linked to each other by shaft 5 with bevel gear 7 and shaft 6 with bevel gear 12. Speed-shift mechanism is comprised of jaw coupling 9, 10, turning fork and pushrods interacting with pawls 17, 18 of ratchet mechanism. Required rotation speed of spindle 14 is selected by moving the pushrods. EFFECT: improved design. 4 dwg

Description

 The invention relates to a hand-held portable tool and can be used as household appliances.

 Known kolovorot containing a cranked rod with push and drive handles, a spindle with a gear connected through a spurious gear with a gear mounted on the drive handle, and a speed switching mechanism [1].

 The disadvantage of the rotor is the low speed of rotation of the spindle, which limits the scope of its effective application by processing wood, plastics and light alloys.

 The objective of the invention is to expand the technological capabilities of the rotary rotor by giving it an additional property - increasing the speed of rotation of the spindle while maintaining the rotation speed of the crankshaft.

 This is achieved by the fact that the proposed rotary gear is equipped with a ratchet mechanism, the ratchet wheel of which is rigidly fixed on the spindle, and the dogs are fixed on the housing with the possibility of interaction with a gear shifting mechanism made in the form of spring-loaded pushers, a cam clutch and a rotary fork designed to interact with a movable coupling half cam clutch, while the gears of the drive handle and spindle are made conical, and the kinematic connection between them is made in the form of two coaxially mounted x in the housing and interconnected by means of a cam shaft couplings, each of which has a bevel pinion intended to cooperate with a respective bevel gear drive lever and the spindle.

 Figure 1 shows the rot, general view; figure 2 is the same section; figure 3 and 4 - sections aa and bb in figure 2, respectively.

 Kolovorot contains a pressure head 1, a crankshaft 2, a drive handle 3 and a housing 4, including an intermediate shaft, consisting of shafts 5 and 6. On the shaft 5 is mounted fixed bevel gear 7, which engages with a bevel gear 8, mounted on the lower end of the drive handles 3, and gear half-coupling 9.

 A gear half-clutch 10 is mounted on the shaft 6 with the possibility of moving along the grooves along the axis of the shaft and, under the action of a spring, engages with the gear half-clutch 9, and a bevel gear 12, which engages with a bevel gear 13 mounted on the upper end of the rotor spindle 14. On the lower end of the latter may be secured, for example, a chuck 15 for clamping the tool.

 The speed switching mechanism consists of a ratchet wheel 16 fixedly mounted on the spindle 14, dogs 17, 18 mounted on the axes 19, 20, a spring 21, pressing dogs 17, 18 from two sides to the ratchet wheel 16, pushers 22, 23, moving along the gear housing 4 in longitudinal grooves, a rotary fork 24 mounted for rotation on the axis 25, and springs 26, 27, fixing the pushers 22, 23 in two extreme positions. The lower end of the rotary fork 24 interacts with the pushers 22, 23, the upper end is connected to the gear coupling half using pins 28, 29 mounted on it, which are included in the groove of the gear coupling half 10.

 Work rotate as follows. In direct transmission, the rotation of the crankshaft 2 by the drive handle 3 is transmitted through the housing 4 to the spindle of the rotary 14. This operation mode is carried out using pushers 22, 23, which are installed in the extreme position towards the drive handle 3 and are fixed in this position by springs 26, 27. In this case, the dogs 17, 18 under the action of the spring 21 fall into the grooves of the ratchet wheel 16, fixing the spindle 14 relative to the housing 4, the rotary fork 24 is rotated by the pushers 22, 23 around the axis and interacting with the gear clutch 10, compressing the spring 11, the output m clutch gear 10 out of engagement with the toothed clutch 9. If the operating handle 3 side will be moved one of the pushers 22 or 23, the brace operates in direct drive in one any side ratchet.

 In a higher gear, the rotation of the drive handle 3 relative to the crankshaft 2 is transmitted through bevel gears 7, 8, gear half-couplings 9, 10, bevel gears 12, 13 to the rotor spindle 14.

In this case, the spindle speed is determined by the formula:
N _sp = N _ks (K + 1), where N _sp - the speed of rotation of the spindle;
N _cc - rotation speed of the crankshaft of the rod;
K is the reduction coefficient.

 This mode of operation is carried out by installing the pushers 22, 23 in the extreme position towards the spindle of the rotor 14, which are fixed in this position by the springs 26, 27, while the pushers 22, 23 press on the dogs 17, 18 and, compressing the spring 21, rotate them around the axes 19, 20, disengaging the spindle 14 from engaging with the ratchet wheel 16. The freed swivel fork 24 does not impede the movement of the gear coupling 10 under the action of the spring 11 until it engages with the gear coupling 9.

Claims (1)

 KOLOVOROT, comprising a housing with push and drive handles, a spindle with a gear kinematically connected to the gear mounted on the drive handle, a gearshift mechanism, characterized in that, in order to expand technological capabilities, the Kolovorot is equipped with a ratchet mechanism, the ratchet of which is rigidly fixed to the spindle, and the dogs are mounted on the housing with the ability to interact with the gearshift mechanism, made in the form of spring-loaded pushers, a cam clutch and a rotary fork and designed to interact with the movable coupling half of the cam clutch, while the gears of the drive handle and spindle are made bevel, and the kinematic connection between them is made in the form of two shafts coaxially mounted in the housing and connected to each other by means of a cam clutch, each of which has bevel gear designed to interact with the corresponding bevel gear of the drive handle and spindle.

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