CN215444991U - Hand-operated power distribution device - Google Patents

Abstract

The utility model provides a power split device with hand-operated type, which at least comprises a box body, wherein an input shaft horizontally penetrates through the box body, one end of the input shaft extends out of the box body, an input bevel gear a is installed on the input shaft, an output bevel gear a is installed at one end of a transfer shaft which is vertically arranged with the input shaft, the input bevel gear a is meshed with the output bevel gear a, an input bevel gear b is installed at the other end of the transfer shaft, an output bevel gear b is installed on an output shaft which is vertically arranged with the transfer shaft, the input bevel gear b is meshed with the output bevel gear b, two ends of the output shaft penetrate through the box body, and two ends of the output shaft output. The input shaft, the transfer shaft and the output shaft are connected through the four bevel gears, the output shaft of the input shaft is not on the same axis, the output shaft can output at two ends, the output efficiency is improved, the wheel base of the device is short, the space is saved, the hand-operated input can be performed on the condition that the power is off at the end, extending out of the box body, of the input shaft, and the special working condition is met.

Description

Hand-operated power distribution device

Technical Field

The utility model relates to a hand-operated power distribution device, and belongs to the field of mechanical transmission.

Background

Traditional power supply can only drive an equipment operation, one advances one and goes out, an input promptly, an output, input and output are in same direction, axial dimension overlength, under the limited condition of installation space, can't satisfy the assembly demand, and certain intelligent production line will satisfy many equipment simultaneous operation, must increase the power supply, is unfavorable for the control of cost, and can't guarantee transmission system's normal operating when the machine cuts off the power supply suddenly, is not suitable for some intelligent production lines.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides a hand-operated power splitting device which is short in wheelbase, can split input power into two different directions and can be used as standby power to input and continue to work under the condition of power failure.

The technical scheme adopted by the utility model for realizing the purpose is as follows: the power transmission device at least comprises a box body, wherein an input shaft horizontally penetrates through the box body, one end of the input shaft extends out of the box body, an input bevel gear a is installed on the input shaft, an output bevel gear a is installed at one end of a switching shaft which is vertically arranged with the input shaft, the input bevel gear a is meshed with the output bevel gear a, an input bevel gear b is installed at the other end of the switching shaft, an output bevel gear b is installed on an output shaft which is vertically arranged with the switching shaft, the input bevel gear b is meshed with the output bevel gear b, two ends of the output shaft penetrate through the box body, and two ends of the output shaft output.

In the technical scheme, the part of the input shaft extending out of the box body is a regular-shaped cylinder.

In the technical scheme, the input bevel gear a is connected with the input shaft through a flat key a, the output bevel gear a, the input bevel gear b and the adapter shaft are respectively connected through a flat key b and a flat key c, and the output bevel gear b is connected with the output shaft through a flat key d.

In the technical scheme, the input bevel gear a and the output bevel gear a are vertically arranged, and the gear ratio is 1: 1; the input bevel gear b and the output bevel gear b are vertically arranged, and the gear ratio is 1: 1.

The input shaft both ends are provided with TC skeleton oil blanket a and TC skeleton oil blanket b respectively among the above-mentioned technical scheme, and the output shaft both ends are provided with TC skeleton oil blanket c and TC skeleton oil blanket d respectively.

In the technical scheme, a tapered roller bearing a and a tapered roller bearing b are arranged on a transfer shaft, an inner ring of the tapered roller bearing a is arranged on a boss of an input bevel gear b, an inner ring of the tapered roller bearing b is arranged on a boss of an output bevel gear a, a tapered roller bearing c and a tapered roller bearing d are arranged on the input shaft, an inner ring of the tapered roller bearing c is arranged on a shaft shoulder of the input shaft, and an inner ring of the tapered roller bearing d is arranged on a boss of the input bevel gear a; the output shaft is provided with a tapered roller bearing e and a tapered roller bearing f, the inner ring of the tapered roller bearing e is arranged on the boss of the output bevel gear b, and the inner ring of the tapered roller bearing f is arranged on the shaft shoulder of the output shaft.

In the technical scheme, the front end of the output bevel gear a is provided with a locking nut a, and the front end of the input bevel gear b is provided with a locking nut b.

The technical scheme provided by the utility model has the beneficial effects that:

according to the technical scheme, the input shaft, the transfer shaft and the output shaft are connected through the four bevel gears, the input shaft and the output shaft are vertically staggered in space, the axial distance of the device is shortened, the limited space is reasonably utilized, power is converted and divided into two different directions, a power source is saved, the hand cranking device can be used as standby power to be input when the power is cut off, special working conditions are met, the device can be used, the function of multi-input and multi-output of a transmission system can be achieved only through one power driver, the cost is reduced, the space is saved, and the device is particularly suitable for certain intelligent production lines.

Drawings

Fig. 1 is a schematic structural diagram of the power split device with hand-operated operation.

In the figure: 1. a flat bond a; 2. a locking nut a; 3. a flat bond b; 4. a tapered roller bearing a; 5. an input bevel gear b; 6. a flat bond c; 7. a locking nut b; 8. a flat bond f; 9. an output shaft; 10. TC framework oil seal d; 11. an M6X18 socket head cap screw a; 12. a tapered roller bearing f; 13. a front flange b; 14. a box body a; 15. an output bevel gear b; 16. a flat bond d; 17. an M6X18 socket head cap screw b; 18. a front flange a; 19. a tapered roller bearing e; 20. TC framework oil seal c; 21. a flat bond e; 22. an M6X30 socket head cap screw a; 23. a transfer flange; 24. a transfer shaft; 25. a tapered roller bearing b; 26. an output bevel gear a; 27. an M8X25 socket head cap screw a; 28. a rear flange; 29. an M8X25 socket head cap screw b; 30. a tapered roller bearing c; 31. TC framework oil seal a; 32. an input shaft; 33. M8X25 socket head cap screw c; 34. a motor flange; 35. a box body b; 36. an output flange; 37. an M6X30 socket head cap screw b; 38. an input bevel gear a; 39. a tapered roller bearing d; 40. TC framework oil seal b.

Detailed Description

The utility model is further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, the hand-operated power splitting device provided by the utility model at least comprises a box body, wherein the box body is composed of a top box body a14 and a bottom box body b35, the left end and the right end of the box body a14 are respectively connected with a front flange a18 and a front flange b13 through rabbets and locked by M6X18 hexagon socket head screws b17 and M6X18 hexagon socket head screws a11, the left end and the right end of the box body b35 are respectively connected with a rear flange 28 and an output flange 36 through rabbets and locked by M8X25 hexagon socket head screws b29 and M6X30 hexagon socket head screws b37, a motor flange 34 is connected with the rear flange 28 through the rabbets and locked by M8X25 hexagon socket head screws 39c 33, one end of an adapter flange 23 is connected with the box body a14 through the rabbets and the other end of the adapter flange 46b 45 is connected with the hexagon socket head bolts and locked by M6X30 a 585 and M6X 27 a hexagon socket head screws 5738X 18; an input shaft 32 horizontally penetrates through the box body, one end of the input shaft 32 extends out of the box body, the part, extending out of the box body, of the input shaft 32 is a hexagonal body, the input shaft can be matched with a tool to hand to serve as standby power input when power is cut off, an input bevel gear a38 is installed on the input shaft 32, the input bevel gear a38 is connected with the input shaft 32 through a flat key a1, a TC framework oil seal a31 and a TC framework oil seal b40 are respectively arranged at two ends of the input shaft 32 to ensure that the device is oil-tight, a tapered roller bearing c30 and a tapered roller bearing d39 are installed on the input shaft 32, an inner ring of the tapered roller bearing c30 is arranged on a shoulder of the input shaft 32, and an inner ring of the tapered roller bearing d39 is arranged on a boss of an input bevel gear a 38; an output bevel gear a26 is arranged at one end of a transfer shaft 24 which is vertically arranged with an input shaft 32, the output bevel gear a26 is connected with the transfer shaft 24 through a flat key b3, the input bevel gear a38 is meshed with the output bevel gear a26, the input bevel gear a38 is vertically arranged with an output bevel gear a26, the gear ratio is 1:1, a locking nut a2 is arranged at the front end of the output bevel gear a26, an input bevel gear b5 is arranged at the other end of the transfer shaft 24, a locking nut b7 is arranged at the front end of the input bevel gear b5, the input bevel gear b5 is connected with the transfer shaft 24 through a flat key c6, a conical roller bearing a4 and a conical roller bearing b25 are arranged on the transfer shaft 24, an inner ring of the conical roller bearing a4 is arranged on a boss of the input bevel gear b5, an inner ring of the conical roller bearing b25 is arranged on a boss of the output bevel gear a26, an output bevel gear b15 is arranged on an output shaft 9 which is connected with the transfer shaft 24 through a flat key b 16, and the output bevel gear b15 is connected with the output shaft 369 through a flat key b 16. The two ends of the output shaft 9 are respectively provided with a TC framework oil seal c20 and a TC framework oil seal d10 to ensure that the device is oil-tight, the output shaft 9 is provided with a tapered roller bearing e19 and a tapered roller bearing f12, the inner ring of the tapered roller bearing e19 is arranged on a boss of an output bevel gear b15, the inner ring of the tapered roller bearing f12 is arranged on a shaft shoulder of the output shaft 9, an input bevel gear b5 is meshed with the output bevel gear b15, an input bevel gear b5 is vertically arranged with the output bevel gear b15, the gear ratio is 1:1, the two ends of the output shaft 9 penetrate through a box body and are output at two ends, a flat key e and a flat key f are arranged at two ends of the output shaft and are mechanically connected with the outside, a gap is arranged between a front flange a18 and the box body a14 and between a switching flange 23 and the box body a14, an adjusting gasket can be additionally arranged in the gap, the thickness of the adjusting gasket can be automatically adjusted during assembly, and the gap between the input bevel gear b5 and the output bevel gear b15 can be adjusted, gaps are arranged between the output flange 36 and the box body b35 and between the adapter flange 23 and the box body b35, adjusting gaskets can be additionally arranged in the gaps, the thickness of the adjusting gaskets can be automatically adjusted during assembly, and the gap between the input bevel gear a38 and the output bevel gear a26 can be adjusted.

Claims (7)

1. The utility model provides a take hand formula power diverging device, includes the box at least, its characterized in that: the input shaft horizontally penetrates through the box body, one end of the input shaft extends out of the box body, an input bevel gear a is installed on the input shaft, an output bevel gear a is installed at one end of a switching shaft which is perpendicular to the input shaft, the input bevel gear a is meshed with the output bevel gear a, an input bevel gear b is installed at the other end of the switching shaft, an output bevel gear b is installed on an output shaft which is perpendicular to the switching shaft, the input bevel gear b is meshed with the output bevel gear b, two ends of the output shaft penetrate through the box body, and output is achieved at two ends.

2. The hand-operated power split device of claim 1, wherein: the part of the input shaft extending out of the box body is a regular-shaped cylinder.

3. The hand-operated power split device of claim 1, wherein: the input bevel gear a is connected with the input shaft through a flat key a, the output bevel gear a, the input bevel gear b and the adapter shaft are respectively connected through a flat key b and a flat key c, and the output bevel gear b is connected with the output shaft through a flat key d.

4. The hand-operated power split device of claim 1, wherein: the input bevel gear a and the output bevel gear a are vertically arranged, and the gear ratio is 1: 1; the input bevel gear b and the output bevel gear b are vertically arranged, and the gear ratio is 1: 1.

5. The hand-operated power split device of claim 1, wherein: and a TC framework oil seal a and a TC framework oil seal b are respectively arranged at two ends of the input shaft, and a TC framework oil seal c and a TC framework oil seal d are respectively arranged at two ends of the output shaft.

6. The hand-operated power split device of claim 1, wherein: the adapter shaft is provided with a tapered roller bearing a and a tapered roller bearing b, the inner ring of the tapered roller bearing a is arranged on the boss of the input bevel gear b, the inner ring of the tapered roller bearing b is arranged on the boss of the output bevel gear a, the input shaft is provided with a tapered roller bearing c and a tapered roller bearing d, the inner ring of the tapered roller bearing c is arranged on the shaft shoulder of the input shaft, and the inner ring of the tapered roller bearing d is arranged on the boss of the input bevel gear a; the output shaft is provided with a tapered roller bearing e and a tapered roller bearing f, the inner ring of the tapered roller bearing e is arranged on the boss of the output bevel gear b, and the inner ring of the tapered roller bearing f is arranged on the shaft shoulder of the output shaft.

7. The hand-operated power split device of claim 1, wherein: the front end of the output bevel gear a is provided with a locking nut a, and the front end of the input bevel gear b is provided with a locking nut b.

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