CN2851707Y

CN2851707Y - Adjustable double-shaft transmission device

Info

Publication number: CN2851707Y
Application number: CN 200520036224
Authority: CN
Inventors: 高云; 陈祥
Original assignee: SICHUAN TIANLING TECHNOLOGY Co Ltd
Current assignee: SICHUAN TIANLING TECHNOLOGY Co Ltd
Priority date: 2005-11-23
Filing date: 2005-11-23
Publication date: 2006-12-27
Anticipated expiration: 2015-11-23

Abstract

The utility model relates to an adjustable double-shaft transmission device which relates to the field of power transmission devices, particularly an adjustable double-shaft transmission device which carries out the moment transmission by a rotating shaft. The utility model is characterized in that the diameter of a first shaft is smaller than the diameter of a second shaft, the shaft direction of the second shaft is provided with an inner hole which is corresponding to the diameter of the first shaft, and the first shaft extends into the inner hole in the shaft direction of the second shaft; the first shaft and the second shaft are fixedly connected together through a spacing screw pin. The utility model is provided to solve the existing problems of complicated structure, no shaft direction slide, radial rotation adjustment, or high processing precision and high cost when the existing power machinery is driven by double shafts; the double shafts can be adjusted in the shaft direction by a chute, the rotation of the double shafts can be adjusted in the radial direction through the holes of different radial directions. The utility model has the advantages of simple structure, adjustable axial direction and adjustable radial direction. The utility model can be used for the field of carrying out mechanical power transmission by the double shafts.

Description

Can regulate twin shaft transmission device

Technical field

The utility model relates to the actuating unit field, particularly a kind of can regulate twin shaft transmission device that utilizes rotating shaft to carry out the moment transmission.

Background technique

In the present mechanical transmission, majority all is that two rotating shafts are fixedly connected, as Placement of clutch etc., the function that does not possess the can regulate output shaft extrusion that endwisely slips, or can not radially rotate the initial rotation position of regulating rotating shaft, or complex structure, to the requirement on machining accuracy height of component, the cost height is unfavorable for promoting.

The model utility content

The purpose of this utility model is in order to solve above shortcomings in the existing twin shaft drive technology, can to endwisely slip for the user provides a kind of, radially rotate and regulate can regulate twin shaft transmission device simple in structure, with low cost.

The purpose of this utility model realizes by following technical proposals:

Can regulate twin shaft transmission device, comprise axle one and the axle two that is attached thereto, it is characterized in that: the diameter of axle one is less than the diameter of axle two, axially offering and the endoporus that adapts of axle one diameter of axle two, axle one stretches in axle two the axial bore, and axle one and axle two are fixed together by spacing spiral pin.

The footpath of above-mentioned axle one upwards offers the hole, and the footpath of axle two upwards offers chute, and spacing spiral pin passes the radial hole of axle one and the chute of axle two is fixed together axle one and axle two.

The footpath of above-mentioned axle two upwards offers the hole, and the footpath of axle one upwards offers chute, and spacing spiral pin passes the radial hole of axle two and the chute of axle one is fixed together axle one and axle two.

Above-mentioned axle one with spools two both parallel axes and do not overlap.

The hole that the footpath of above-mentioned axle one makes progress is a plurality of.

The hole that the footpath of above-mentioned axle two makes progress is a plurality of.

The beneficial effects of the utility model are, the axle one of minor diameter stretches in the large diameter axle two, and both offer chute or hole respectively, rely on spacing spiral pin that both are fixed together, on the one hand diaxon can be along gate shafts to the slidable adjustment position, and the position difference in the hole by radially also can be regulated both radially pivotal positions on the other hand, both can be rotated mutually regulate, and when not overlapping, still can reach above-mentioned purpose when both parallel axes.As seen, adopt said structure of the present utility model, compared with prior art, have and to endwisely slip, radially to rotate and regulate advantage simple in structure, with low cost.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is embodiment's 1 an of the present utility model structural representation;

Fig. 3 is embodiment's 2 an of the present utility model structural representation;

Fig. 4 is an application schematic representation of the present utility model;

Number in the figure, the 1st, the rear end cover of motor one, the 2nd, the rotating shaft shaft extension of motor one, the 3rd, axle two, 4th, axle one, 5th, the support shell of axle two, the 6th, connecting screw rod, the 7th, motor two, 8th, spacing spiral pin, the 9th, motor one, the 10th, the chute of axle two, the 11st, the radial hole of axle one, the 12nd, the chute of axle one, the 13rd, the radial hole of axle two.

Embodiment

Below in conjunction with specific embodiments and the drawings the utility model is further described.

Embodiment 1: as shown in Figure 1, can regulate twin shaft transmission device, comprise axle 1 and the axle 23 that is attached thereto, the diameter of axle 1 is less than the diameter of axle 23, axially offering and the endoporus that adapts of axle one 4 diameters of axle 23, axle 1 stretches in axle 23 the axial bore, and axle 1 and axle 23 are fixed together by spacing spiral pin 8.As shown in Figure 2, the footpath of axle 1 upwards offers hole 11, and the footpath of axle 23 upwards offers chute 10, and spacing spiral pin 8 passes the radial hole 11 of axle 1 and the chute 10 of axle 23 is fixed together axle 1 and axle 23 dead in line of axle 1 and axle 23.

The application of present embodiment as shown in Figure 4, axle 1 is rotating shaft shaft extensions of motor 27, axle 23 is the outrigger shafts that are attached thereto, the rear end cover 1 of motor 1 is fixed together with the support shell 5 of axle two, the outer end of the support shell 5 of axle two offers a supported hole to in-draw, axle 23 is nested into this supported hole, and the rotating shaft shaft extension 2 of motor one and axle 23 are positioned at the both sides of whole compound machine, and support shell 5 is fixed on the rear end cover 1 of motor one by connecting screw rod 6.

Embodiment 2: as shown in Figure 1, can regulate twin shaft transmission device, comprise axle 1 and the axle 23 that is attached thereto, the diameter of axle 1 is less than the diameter of axle 23, axially offering and the endoporus that adapts of axle one 4 diameters of axle 23, axle 1 stretches in axle 23 the axial bore, and axle 1 and axle 24 are fixed together by spacing spiral pin 8.As shown in Figure 3, the footpath of axle 23 upwards offers hole 13, axle one 4 footpath upwards offers chute 12, and spacing spiral pin 8 passes the radial hole 13 of axle 23 and the chute 12 of axle 1 is fixed together axle 1 and axle 23, and axle 1 is with spools 23 parallel axes but do not overlap.

Embodiment 3: axle one 4 radial hole 11 is three, selects for use different holes can realize radially rotation adjusting between axle 1 and the axle 23, other structures such as embodiment 1.

Embodiment 4: axle 23 radial hole 13 is three, selects for use different holes can realize radially rotation adjusting between axle 23 and the axle 1, other structures such as embodiment 2.

Claims

1, can regulate twin shaft transmission device, comprise axle one (4) and the axle two (3) that is attached thereto, it is characterized in that: the diameter of axle one (4) is less than the diameter of axle two (3), axially offering and the endoporus that adapts of axle one (4) diameter of axle two (3), axle one (4) stretches in axle two (3) the axial bore, and axle one (4) and spools two (4) is fixed together by spacing spiral pin (8).

2, can regulate twin shaft transmission device as claimed in claim 1, it is characterized in that: the footpath of axle one (4) upwards offers hole (11), the footpath of axle two (3) upwards offers chute (10), and spacing spiral pin (8) passes the radial hole (11) of axle one (4) and the chute (10) of axle two (3) is fixed together axle one (4) and axle two (3).

3, can regulate twin shaft transmission device as claimed in claim 1, it is characterized in that: the footpath of axle two (3) upwards offers hole (13), the footpath of axle one (4) upwards offers chute (12), and spacing spiral pin (8) passes the radial hole (13) of axle two (3) and the chute (12) of axle one (4) is fixed together axle one (4) and axle two (3).

4, can regulate twin shaft transmission device as claimed in claim 1 is characterized in that: axle one (4) with spools two (3) both parallel axes and do not overlap.

5, can regulate twin shaft transmission device as claimed in claim 2 is characterized in that: the hole (11) that the footpath of axle one (4) makes progress is for a plurality of.

6, can regulate twin shaft transmission device as claimed in claim 3 is characterized in that: the hole (13) that the footpath of axle two (3) makes progress is for a plurality of.