CN210619287U - Coaxial conveying line guide mechanism - Google Patents
Coaxial conveying line guide mechanism Download PDFInfo
- Publication number
- CN210619287U CN210619287U CN201921161900.9U CN201921161900U CN210619287U CN 210619287 U CN210619287 U CN 210619287U CN 201921161900 U CN201921161900 U CN 201921161900U CN 210619287 U CN210619287 U CN 210619287U
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- shaft
- guide
- inner shaft
- coaxial
- axle
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Abstract
The utility model provides a coaxial transfer chain guiding mechanism. Coaxial transfer chain guiding mechanism sets up in closing on between many transfer chains of arranging, including many guiding axles, except that the thinnest one the guiding axle is hollow barrel outside for solid axle, and with solid axle is the centre of a circle, is concentric circle structure, the nested setting in proper order of relative slip, the guiding axle reduces along with diameter increase length, each the guiding axle is connected with guide, driver part in the position that does not cover. The utility model provides a coaxial transfer chain guiding mechanism has solved the too much technical problem of prior art's transfer chain guiding mechanism occupation space.
Description
Technical Field
The utility model relates to a transfer chain field, concretely relates to coaxial transfer chain guiding mechanism.
Background
There is a need for diversion of goods being transported on a conveyor line, for example: the next processing is slow, and partial goods need to be guided into the buffer area; and in the detection link, unqualified goods need to be guided into an unqualified area. The common solution is to configure a set of deflector rod device for each conveyor line, and extend the deflector rod to guide the goods to other positions when the diversion requirement exists. However, the structure occupies too much space, so that the equipment near the conveying line is too much and the distance is too small, and the problems of inconvenient operation during overhauling and maintenance, no space for upgrading the system and the like exist.
SUMMERY OF THE UTILITY MODEL
For solving the too much technical problem of transfer chain guiding mechanism occupation space of prior art, the utility model provides a solve the coaxial transfer chain guiding mechanism of above-mentioned problem.
The utility model provides a coaxial transfer chain guiding mechanism, sets up in closing on between many transfer chains of arranging, includes many guiding axles, except that the thinnest one the guiding axle is hollow barrel outside for solid axle, and use solid axle is the centre of a circle, is concentric circles structure, the nested setting in proper order of relative slip, the guiding axle reduces along with diameter increase length, each the guiding axle is connected with guide, driver part in the position that does not cover.
The utility model provides a coaxial transfer chain guiding mechanism's a preferred embodiment, set up between two transfer chains of arranging side by side, including interior axle, overlap in but outer axle of interior off-axial, relative slip, the length of interior axle is greater than outer axle, and do not by the position that outer axle covered is equipped with the guide, outer axle is equipped with another the guide, interior axle outer axle still is connected with driver part respectively.
The utility model provides a coaxial transfer chain guiding mechanism's a preferred embodiment, interior axle includes upper segment, the hypomere of diameter difference, the diameter of hypomere is greater than the upper segment, outer axle sleeve in the upper segment, with the hypomere butt.
In a preferred embodiment of the coaxial conveying line guide mechanism provided by the present invention, the length of the upper section is greater than the length of the outer shaft, the extending portion is connected to one set of the driving part, and the outer shaft is connected to another set of the driving part at the same end.
In a preferred embodiment of the coaxial conveying line guiding mechanism provided by the present invention, one end or both ends of the inner shaft are fixed to the rotary base, and the driving members are respectively installed on the inner shaft and the outer shaft independent support.
In a preferred embodiment of the coaxial conveying line guiding mechanism, the driving part includes a cylinder mounted on the support, and the telescopic direction of the cylinder is tangent to the rotation direction of the inner shaft and the outer shaft, and the movable end of the cylinder is connected to the outer shaft through a crank.
Compared with the prior art, the utility model provides a coaxial transfer chain guiding mechanism has adopted many axles nested structure concentric in proper order, and rotation each other is not influenced to concentrate on a department with multiunit water conservancy diversion structure, the space that has significantly reduced occupies.
Drawings
Fig. 1 is a schematic structural view of a coaxial conveying line guide mechanism provided by the present invention when installed between two conveying lines;
fig. 2 and fig. 3 are schematic structural views of the coaxial conveying line guiding mechanism provided by the present invention at different viewing angles.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Please refer to fig. 1-3, which are schematic structural diagrams of the coaxial conveying line guiding mechanism 1 installed between two conveying lines and its independent structure at two different viewing angles according to the present invention.
The coaxial conveying line guide mechanism 1 is arranged between two conveying lines 2 and comprises a rotating seat 11, a mounting bracket 12, an inner shaft 13, an outer shaft 14, a shifting rod 15 and a driving assembly 16.
The rotary seat 11 is fixed on the bottom bracket of any one of the conveyor lines 2, and the inner shaft 13 is rotatably and vertically fixed on the rotary seat. The inner shaft 13 is divided into a lower section, a middle section and an upper section, wherein the diameter of the middle section is larger than that of the other two sections, the lower section is inserted into the rotating seat 11, and the bottom of the middle section is abutted against the rotating seat 11. The upper section is sleeved with the outer shaft 14 and is also abutted with the middle section.
At the joint between the middle section and the outer shaft 14, one of the shift levers 15 is fixed to each of the two outer shafts, and the two shift levers 15 are respectively directed to the conveying surfaces of the two conveying lines 2.
The mounting bracket 12 is further fixed to the bracket of any one of the conveyor lines 2, and two sets of the driving assemblies 16 are mounted on the mounting bracket. The driving assembly 16 comprises a cylinder 61 and a crank 62, wherein the cylinder 61 is fixed on the mounting bracket 12, and the movable end of the cylinder is connected with the inner shaft 13 or the outer shaft 14 through the crank 62 to change the reciprocating motion into the rotating motion.
The upper section of the inner shaft 13 is larger than the outer shaft 14, i.e. the inner shaft 13 extends over a small section, which is connected to a crank 62. The top end of the outer shaft 14 is connected to another crank 62.
The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes made by the present specification can be changed, or directly or indirectly applied to other related technical fields, and all the same principles are included in the protection scope of the present invention.
Claims (6)
1. The utility model provides a coaxial transfer chain guiding mechanism, sets up between the many transfer chains that are close to arranging, its characterized in that: the guide shaft is a hollow cylinder body except for the thinnest guide shaft which is a solid shaft, the solid shaft is used as the circle center, is of a concentric circle structure and can slide relatively, the guide shaft is nested in sequence, the length of the guide shaft is reduced along with the increase of the diameter, and each guide shaft is connected with a guide part and a driving part at the position where the guide shaft is not covered.
2. The coaxial feed line guide mechanism of claim 1, wherein: the conveying line comprises an inner shaft and an outer shaft which is sleeved outside the inner shaft and can slide relatively, the length of the inner shaft is larger than that of the outer shaft, a guide part is arranged at a position which is not covered by the outer shaft, the outer shaft is provided with another guide part, and the inner shaft and the outer shaft are respectively connected with a driving part.
3. The coaxial feed line guide mechanism of claim 2, wherein: the inner shaft comprises an upper section and a lower section which have different diameters, the diameter of the lower section is larger than that of the upper section, and the outer shaft is sleeved on the upper section and is abutted against the lower section.
4. The coaxial feed line guide mechanism of claim 3, wherein: the length of upper segment is greater than the length of outer axle, and the part that stretches out is connected with a set of actuating component, the outer axle is connected with another group at same end actuating component.
5. The coaxial feed line guide mechanism according to any one of claims 2 to 4, wherein: one end or two ends of the inner shaft are fixed on the rotating seat, and the two groups of driving parts are respectively arranged on the bracket independent from the inner shaft and the outer shaft.
6. The coaxial feed line guide mechanism of claim 5, wherein: the driving part comprises air cylinders arranged on the bracket, the telescopic direction of the air cylinders is tangent to the rotating direction of the inner shaft and the outer shaft, and the movable ends of the two air cylinders are respectively connected with the inner shaft and the outer shaft through a crank.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921161900.9U CN210619287U (en) | 2019-07-23 | 2019-07-23 | Coaxial conveying line guide mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921161900.9U CN210619287U (en) | 2019-07-23 | 2019-07-23 | Coaxial conveying line guide mechanism |
Publications (1)
Publication Number | Publication Date |
---|---|
CN210619287U true CN210619287U (en) | 2020-05-26 |
Family
ID=70754625
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201921161900.9U Active CN210619287U (en) | 2019-07-23 | 2019-07-23 | Coaxial conveying line guide mechanism |
Country Status (1)
Country | Link |
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CN (1) | CN210619287U (en) |
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2019
- 2019-07-23 CN CN201921161900.9U patent/CN210619287U/en active Active
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