CN110745445A - Sorting guide rail - Google Patents

Abstract

The invention relates to a sorting guide rail which comprises a first linear rail and a second linear rail, wherein the first linear rail and the second linear rail are positioned on two sides in a rack and are arranged in parallel along the longitudinal direction of the rack; a plurality of third linear rails and fourth linear rails which are arranged in a crossed manner are arranged between the first linear rail and the second linear rail; when the second rotating shaft is positioned at the distribution block, the second rotating shaft longitudinally and linearly moves or obliquely moves along the second groove body and enters the third linear rail through the lifting deflector rod; when the second rotating shaft moves to the sorting block, the second rotating shaft continues to move obliquely along the third linear rail by the ascending of the first deflector rod and the descending of the second deflector rod; the second driving lever ascends, and the first driving lever descends to realize the turning back motion of the second rotating shaft along the fourth linear rail; in conclusion, the linear, oblique and back-turning motions of the second rotating shaft are realized; compared with a linear sorting machine with a motor arranged on each sorting trolley, the sorting machine is lower in manufacturing cost, lighter in weight and lower in failure rate.

Description

Sorting guide rail

Technical Field

The invention relates to the field of logistics sorting, in particular to a sorting guide rail.

Background

The letter sorting is modern logistics storage often uses conveyer, places article on the sorting machine, and the sorting machine can drive article and carry out longitudinal movement along the frame, can drive article again and carry out transverse motion to drive article and carry out the planar motion of diaxon, be suitable for the transportation and the letter sorting of article.

The conventional linear sorting machine is formed by serially connecting sorting trolleys and is wound on a rack to realize the longitudinal movement of the sorting trolleys; in addition, a motor is arranged in each sorting trolley, and the motor drives a belt arranged on the sorting trolley to rotate so as to realize the transverse movement of the belt; however, the sorting vehicle needs to be provided with a motor on each sorting trolley, so that the cost is high, and the weight of the whole device is increased; how to provide a low-cost and light-weight sorting guide rail becomes a problem which needs to be solved urgently by researchers of the company.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the conventional linear sorting machine has high manufacturing cost and heavy weight;

in order to solve the technical problems, the invention adopts the following technical scheme:

the invention relates to a sorting guide rail which comprises a first linear rail and a second linear rail, wherein the first linear rail and the second linear rail are positioned on two sides in a rack and are arranged in parallel along the longitudinal direction of the rack; a plurality of third linear rails and fourth linear rails which are arranged in a crossed manner are arranged between the first linear rail and the second linear rail;

one ends of the first linear rail and the third linear rail and one ends of the second linear rail and the fourth linear rail are connected to form a distribution turnout, the other ends of the first linear rail and the third linear rail and the other ends of the second linear rail and the fourth linear rail are connected to form a confluence turnout, and the intersection of the third linear rail and the fourth linear rail is connected to form a sorting turnout;

a distribution block is arranged at the distribution turnout, a first groove body for the bottom of the second rotating shaft to pass through and move linearly and a second groove body for connecting the first groove body and the end part of the third or fourth linear rail are arranged on the distribution block, a lifting shifting block is arranged at the intersection of the first groove body and the second groove body and is suitable for driving the second rotating shaft to move linearly or to move in a deviation manner;

the sorting block is arranged at the sorting turnout, third groove bodies and fourth groove bodies which are arranged in a crossed mode are arranged on the sorting block, the third groove bodies are connected with a third linear rail in a penetrating mode, the fourth groove bodies are connected with a fourth linear rail in a penetrating mode, a liftable first shifting block is arranged in each third groove body, the first shifting block is suitable for sorting a second rotating shaft in each third linear rail to the fourth linear rail, a liftable second shifting block is arranged in each fourth groove body, and the second shifting block is suitable for sorting the second rotating shaft in each fourth linear rail to the third linear rail;

the first, second, third and fourth linear rails are all propped against the guide wheel to drive the belt to move, and the first, second, third and fourth groove bodies are all propped against the bottom of the second rotating shaft to drive the belt to move; the first linear rail and the second linear rail are used for driving the belt to move longitudinally along the rack, namely the belt on the sorting trolley is kept still; the third and the fourth linear rails are arranged in a crossed manner and are used for driving the belt to move transversely while driving the belt to move longitudinally along the rack;

when the belt does not need to move transversely, the guide wheel and the second rotating shaft move to the intersection of the first groove body and the second groove body through the first linear rail, and the lifting shifting block descends to communicate the first groove body with the first linear rail for the second rotating shaft to pass through;

when the belt needs to move transversely, the guide wheel and the second rotating shaft move to the intersection of the first groove body and the second groove body through the first linear rail, the lifting shifting block moves upwards at the moment to seal the first groove body, the second rotating shaft is guided into the second groove body through the lifting shifting block, and the rotating shaft moves to the third linear rail through the second groove body to realize the transverse movement of the belt;

the third linear rail and the fourth linear rail are arranged in a crossed manner, so that the interference generated when the second rotating shaft and the guide wheel move to the crossed position of the third linear rail and the fourth linear rail is prevented; the sorting block is provided with a third groove body and a fourth groove body; the third groove body is connected with a third linear rail, the fourth groove body is connected with a fourth linear rail, a first shifting block is arranged in the third groove body, a second shifting block is arranged at the fourth linear rail, and the second shifting block and the first shifting block are positioned at the intersection of the third groove body and the fourth groove body; when the rotating shaft and the guide wheel need to continuously move on the third linear rail, the rotating shaft passes through the third groove body, if the first shifting block moves downwards at the moment, the second shifting block moves upwards, the rotating shaft continuously moves to the second linear rail along the third groove body, and the belt is enabled to transversely move from one side to the other side of the sorting trolley; if the first shifting block moves upwards and the second shifting block moves downwards at the moment, the rotating shaft deviates to a fourth linear rail through the intersection of the third groove body and the fourth groove body and moves into the first linear rail, and the belt is moved from one side of the sorting trolley to the middle of the sorting trolley and then returns;

whether the belt transversely moves or not is achieved through the lifting shifting block, and the belt transversely moves to the other side from one side of the sorting trolley or moves to the middle rear position of the sorting trolley from one side of the sorting trolley through the matching of the second shifting block and the first shifting block.

How to realize the lifting of the lifting shifting block and the second shifting block and the first shifting block, the lifting shifting block, the second shifting block and the first shifting block are controlled by cylinders to lift.

The invention has the beneficial effects that: the invention relates to a sorting guide rail.A second rotating shaft is positioned at a distribution block, and the second rotating shaft longitudinally and linearly moves or enters a third linear rail along a second groove body to obliquely move through a lifting deflector rod; when the second rotating shaft moves to the sorting block, the second rotating shaft continues to move obliquely along the third linear rail by the ascending of the first deflector rod and the descending of the second deflector rod; the second driving lever ascends, and the first driving lever descends to realize the turning back motion of the second rotating shaft along the fourth linear rail; in conclusion, the linear, oblique and back-turning motions of the second rotating shaft are realized; compared with a linear sorting machine with a motor arranged on each sorting trolley, the sorting machine is lower in manufacturing cost, lighter in weight and lower in failure rate.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the construction of the housing of the present invention;

FIG. 2 is a view showing the construction of the driving shaft of the present invention;

FIG. 3 is an enlarged view of FIG. 2A;

FIG. 4 is a schematic view of a sorting cart according to the present invention;

FIG. 5 is a schematic view of the longitudinal movement mechanism of the present invention;

FIG. 6 is a schematic view of a connection structure of two support plates according to the present invention;

FIG. 7 is a schematic view of the cross-sliding mechanism of the present invention;

FIG. 8 is a schematic view of a sorting guide of the present invention;

FIG. 9 is a schematic view of the distribution block structure of the present invention;

FIG. 10 is a schematic view of a sort block configuration of the present invention;

in the figure: 1-frame, 11-driving shaft, 12-gear, 13-guide rail, 2-sorting trolley, 21-plate body, 22-roller, 3-longitudinal moving mechanism, 31-support plate, 32-rotating shaft, 33-traveling wheel, 34-chain link, 35-body, 36-outward bending part, 37-inward bending part, 38-limiting block, 39-limiting plate, 310-limiting wheel, 4-belt, 5-sorting guide rail, 51-first straight line rail, 52-second straight line rail, 53-third straight line rail, 54-fourth straight line rail, 55-distributing block, 56-first groove body, 57-second groove body, 58-lifting shifting block, 59-sorting block, 510-third groove body, 511-fourth groove body, 512-a first shifting block, 513-a second shifting block, 6-a transverse moving mechanism, 61-a transverse moving support plate, 62-a second rotating shaft and 63-a guide wheel.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-8, the invention is a linear sorting machine, which comprises a frame 1, wherein the front end and the rear end of the frame are respectively provided with a driving shaft 11 and a driven shaft, and gears 12 are sleeved on the driving shaft 11 and the driven shaft; guide rails 13 are arranged on two sides of the rack 1; the sorting trolleys 2 are connected in series and wound on the driving shaft 11 and the driven shaft in parallel; the longitudinal moving mechanism 3 is respectively fixed on two sides of the sorting trolley 2, and the longitudinal moving mechanism 3 is arranged on the guide rail 13 and matched with the gear 12; when the gear 12 rotates, the longitudinal moving mechanism 3 drives the sorting trolley 2 to move longitudinally along the guide rail 13; the belt 4 is transversely wound on the sorting trolley 2; the sorting guide rail 5 is arranged in the rack 1 and is positioned below the belt 4; one end of the transverse moving mechanism 6 is fixed with the lower end face of the belt 4, and the other end of the transverse moving mechanism 6 is abutted against the sorting guide rail 5; when the sorting trolley 2 moves longitudinally, the transverse moving mechanism 6 drives the belt 4 to move transversely;

the sorting trolleys are connected in series, longitudinal moving mechanisms on two sides of the sorting trolleys are arranged on the guide rails, and the driving shafts drive the longitudinal moving mechanisms to move, so that the longitudinal movement of the sorting trolleys is realized; the sorting trolley is wound with a belt, the belt is fixedly provided with a transverse moving mechanism, and when the sorting trolley moves longitudinally, the transverse moving mechanism is abutted against the sorting guide rail to realize transverse movement of the transverse moving mechanism, so that transverse movement of the belt is realized; in conclusion, the two-axis movement of the belt on the sorting trolley is realized; because the invention adopts the sorting guide rail, the transverse movement of the sorting trolley can be realized only by erecting the guide rail on the rack; compared with a linear sorting machine with a motor arranged on each sorting trolley, the sorting machine is lower in manufacturing cost, lighter in weight and lower in failure rate.

As shown in fig. 4, in order to explain the specific structure of the sorting trolley, the sorting trolley 2 adopted by the invention comprises a plate body 21, wherein two ends of the plate body 21 are respectively provided with a roller 22 which is contacted with the belt 4;

the both sides of plate body are provided with the gyro wheel, and when the belt was carried out the sideslip by the sideslip mechanism drive, the gyro wheel took place to rotate along with the belt, produced rolling friction with the belt.

As shown in fig. 4-6, in order to illustrate the specific structure of the longitudinal moving mechanism 3, the longitudinal moving mechanism 3 of the present invention includes a support plate 31 fixed at the end of the plate body 21, a rotating shaft 32 is inserted into the support plate 31, one end of the rotating shaft 32 is rotatably provided with a traveling wheel 33 disposed on the guide rail 13, and the other end of the rotating shaft 32 is fixedly provided with a chain link 34 engaged with the gear 12;

the supporting plates are located on two sides of the plate body and used for installing the rotating shaft, the traveling wheels placed on the guide rails are arranged at one end of the rotating shaft, chain links are arranged at the other end of the rotating shaft and form a chain, and the chain is matched with the gear to realize longitudinal movement of the supporting plates so as to drive the longitudinal movement of the sorting trolley.

As shown in fig. 5, how to realize the series connection of a plurality of sorting trolleys 2, the invention adopts a support plate 31 comprising a body 35, the longitudinal front end of the body 35 is provided with an outward bending part 36, the longitudinal rear end of the body 35 is provided with an inward bending part 37, the inward bending part 37 of the support plate 31 is matched with the outward bending part 36 of another support plate 31, a rotating shaft 32 is arranged at the matching position in a penetrating way, and a limit block 38 for limiting the axial displacement of the inward bending part 37 and the outward bending part 36 is fixedly arranged on the rotating shaft;

that is, one end of each support plate is an outward bending part, the other end of each support plate is an inward bending part, the outward bending part is matched with the inward bending part, a rotating shaft is arranged at the matching position in a penetrating mode, that is, each support plate is provided with at least two rotating shafts, a limiting block is sleeved on each rotating shaft, and the limiting block is used for abutting against the outer end face of the outward bending part and the inner end face of the inward bending part to prevent the two support plates from moving along the axial direction of the rotating shafts; in conclusion, the rotating shaft can be used for installing the travelling wheels and the chain links and can realize the connection of the two support plates.

As shown in fig. 7, in order to explain the specific structure of the traversing mechanism, the traversing mechanism 6 of the present invention includes a traversing support plate 61 fixed on the lower end surface of the belt 4, the traversing support plate 61 is provided with a second rotating shaft 62 extending downwards, and the middle part of the second rotating shaft 62 is provided with a guide wheel 63 abutting against the sorting guide 5;

the effect of sideslip extension board is fixed second pivot, is provided with the leading wheel in the second pivot, and the leading wheel offsets with the letter sorting guide rail and realizes the displacement of leading wheel to realize the lateral shifting of belt on the letter sorting dolly.

As shown in fig. 8-10, in order to illustrate the specific structure of the sorting guide rail 5, the sorting guide rail according to the present invention includes a first linear rail 51 and a second linear rail 52 located at two sides in the rack 1, and the first linear rail 51 and the second linear rail 52 are arranged in parallel along the longitudinal direction of the rack 1; a plurality of third linear rails 53 and fourth linear rails 54 which are arranged in a crossed manner are arranged between the first linear rails 51 and the second linear rails 52;

one ends of the first straight line rail 51 and the third straight line rail 53 and one ends of the second straight line rail 52 and the fourth straight line rail 54 are connected to form a distribution turnout, the other ends of the first straight line rail 51 and the third straight line rail 53 and the other ends of the second straight line rail 52 and the fourth straight line rail 54 are connected to form a confluence turnout, and the intersection of the third straight line rail 53 and the fourth straight line rail 54 is connected to form a sorting turnout;

a distribution block 55 is arranged at the distribution branch, a first groove body 56 for the bottom of the second rotating shaft 62 to pass through and move linearly is arranged on the distribution block 55, a second groove body 57 is connected with the first groove body 56 and the end part of the third or fourth linear rail, a lifting shifting block 58 is arranged at the intersection of the first groove body 56 and the second groove body 57, and the lifting shifting block 58 is suitable for driving the second rotating shaft 62 to move linearly or move in a deviation manner;

a sorting block 59 is arranged at the sorting branch, third groove bodies 510 and fourth groove bodies 511 which are arranged in a cross mode are arranged on the sorting block, the third groove bodies 510 are connected with a third linear rail 53 in a penetrating mode, the fourth groove bodies 511 are connected with a fourth linear rail 54 in a penetrating mode, first lifting blocks 512 are arranged in the third groove bodies 510, the first lifting blocks 512 are suitable for sorting second rotating shafts 62 in the third linear rail 53 to the fourth linear rail 54, second lifting blocks 513 are arranged in the fourth groove bodies 511, and the second lifting blocks 513 are suitable for sorting the second rotating shafts 62 in the fourth linear rail 54 to the third linear rail 53;

the first, second, third and fourth linear rails are all propped against the guide wheel to drive the belt to move, and the first, second, third and fourth groove bodies are all propped against the bottom of the second rotating shaft to drive the belt to move; the first linear rail and the second linear rail are used for driving the belt to move longitudinally along the rack, namely the belt on the sorting trolley is kept still; the third and the fourth linear rails are arranged in a crossed manner and are used for driving the belt to move transversely while driving the belt to move longitudinally along the rack;

when the belt does not need to move transversely, the guide wheel and the second rotating shaft move to the intersection of the first groove body and the second groove body through the first linear rail, and the lifting shifting block descends at the moment to communicate the first linear rail with the first groove body for the second rotating shaft to pass through;

when the belt needs to move transversely, the guide wheel and the second rotating shaft move to the intersection of the first groove body and the second groove body through the first linear rail, the lifting shifting block moves upwards at the moment to seal the first groove body, the second rotating shaft is guided into the second groove body through the lifting shifting block, and the rotating shaft moves to the third linear rail through the second groove body to realize the transverse movement of the belt;

the third linear rail and the fourth linear rail are arranged in a crossed manner, so that the interference generated when the second rotating shaft and the guide wheel move to the crossed position of the third linear rail and the fourth linear rail is prevented; the sorting block is provided with a third groove body and a fourth groove body; the third groove body is connected with a third linear rail, the fourth groove body is connected with a fourth linear rail, a first shifting block is arranged in the third groove body, a second shifting block is arranged at the fourth linear rail, and the second shifting block and the first shifting block are positioned at the intersection of the third groove body and the fourth groove body; when the rotating shaft and the guide wheel need to continuously move on the third linear rail, the rotating shaft passes through the third groove body, if the first shifting block moves downwards at the moment, the second shifting block moves upwards, the rotating shaft continuously moves to the second linear rail along the third groove body, and the belt is enabled to transversely move from one side to the other side of the sorting trolley; if the first shifting block moves upwards and the second shifting block moves downwards at the moment, the rotating shaft deviates to a fourth linear rail through the intersection of the third groove body and the fourth groove body and moves into the first linear rail, and the belt is moved from one side of the sorting trolley to the middle of the sorting trolley and then returns;

whether the belt transversely moves or not is achieved through the lifting shifting block, and the belt transversely moves to the other side from one side of the sorting trolley or moves to the middle rear position of the sorting trolley from one side of the sorting trolley through the matching of the second shifting block and the first shifting block.

How to realize the lifting of the lifting shifting block and the first shifting block and the second shifting block, the lifting shifting block 58, the second shifting block 513 and the first shifting block 512 are controlled to lift by cylinders.

As shown in fig. 5-6, in order to prevent the sorting trolley from shifting left and right when the guide rail moves, the invention adopts a support plate 31 to extend horizontally outwards to form a limiting plate 39, a limiting rotating shaft is arranged on the limiting plate 39, and a limiting wheel 310 which is abutted against the side wall of the guide rail 13 is arranged at the lower end of the limiting rotating shaft;

that is to say, be provided with the horizontally limiting plate on the extension board of letter sorting dolly left and right sides, the limiting plate is connected with spacing round through spacing pivot, and spacing round offsets with the guided way lateral wall, has restricted the removal about the letter sorting dolly when longitudinal motion.

The invention relates to a sorting guide rail.A second rotating shaft is positioned at a distribution block, and the second rotating shaft longitudinally and linearly moves or enters a third linear rail along a second groove body to obliquely move through a lifting deflector rod; when the second rotating shaft moves to the sorting block, the second rotating shaft continues to move obliquely along the third linear rail by the ascending of the first deflector rod and the descending of the second deflector rod; the second driving lever ascends, and the first driving lever descends to realize the turning back motion of the second rotating shaft along the fourth linear rail; in conclusion, the linear, oblique and back-turning motions of the second rotating shaft are realized; compared with a linear sorting machine with a motor arranged on each sorting trolley, the sorting machine is lower in manufacturing cost, lighter in weight and lower in failure rate.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (2)

1. A sorting guide, characterized in that: comprises a frame (1);

the first linear rail (51) and the second linear rail (52) are positioned on two sides in the rack (1), and the first linear rail (51) and the second linear rail (52) are arranged in parallel along the longitudinal direction of the rack (1); a plurality of third linear rails (53) and fourth linear rails (54) which are arranged in a crossed manner are arranged between the first linear rail (51) and the second linear rail (52);

one ends of the first straight line rail (51) and the third straight line rail (53) and one ends of the second straight line rail (52) and the fourth straight line rail (54) are connected to form a distribution turnout, the other ends of the first straight line rail (51) and the third straight line rail (53) and the second straight line rail (52) and the fourth straight line rail (54) are connected to form a confluence turnout, and the intersection of the third straight line rail (53) and the fourth straight line rail (54) is connected to form a sorting turnout;

a distribution block (55) is arranged at the distribution branch, a first groove body (56) for the bottom of a second rotating shaft (62) to pass through and move linearly is arranged on the distribution block (55), a second groove body (57) for connecting the first groove body (56) with the end part of the third linear rail (53) or the fourth linear rail (54), a lifting shifting block (58) is arranged at the intersection of the first groove body (51) and the second groove body (52), and the lifting shifting block (58) is suitable for driving the second rotating shaft (62) to move linearly or move in a deviation manner;

the sorting device is characterized in that sorting blocks (59) are arranged at the sorting turnout, third groove bodies (510) which are arranged in a crossed mode are arranged on the sorting blocks (59), fourth groove bodies (511), the third groove bodies (510) are connected with third linear rails (53) in a penetrating mode, the fourth groove bodies (511) are connected with fourth linear rails (54) in a penetrating mode, liftable first shifting blocks (512) are arranged in the third groove bodies (510), the first shifting blocks (512) are suitable for being located in the third linear rails (53) and sorting the second rotating shafts (62) to the fourth linear rails (54), liftable second shifting blocks (513) are arranged in the fourth groove bodies (511), and the second shifting blocks (513) are suitable for being located in the fourth linear rails (54) and sorting the second rotating shafts (62) to the third linear rails (53).

2. A sorting guide according to claim 1, wherein: the lifting shifting block (58), the second shifting block (513) and the first shifting block (512) are controlled to lift by cylinders.

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