Automatic material flow transmission system
Technical field
The present invention relates to logistics equipment field, especially, relate to a kind of logistics transmission system.
Background technology
In logistics transmission, checkout procedure, it usually needs use conveying machine, typically carried out by transmission band or live-roller
Transmit;And in current conveying machine, it is impossible to during transmitting, the chamber being arbitrarily placed in transfer station is carried out position and entangle
Just;Generally, owing to logistics capacity is big, operator by box-packed for box for material circulation in transfer station time, it is difficult to make logistics chamber
Ajusting, this carries chamber not only bad for back-end operations personnel from transfer station, and is unfavorable for that logistics chamber passes through check-out console
Time, logistics chamber is tested by fixing detection equipment.
Summary of the invention
For the problems referred to above, it is an object of the invention to provide a kind of automatic material flow transmission system, this system can be by
The logistics chamber self-aligning in transmitting procedure being arbitrarily placed in transfer station, is beneficial to subsequent survey and carrying.
The technical solution adopted for the present invention to solve the technical problems is: this automatic material flow transmission system include tying in
Conveyer belt on live-roller, is provided with supporting platform below described conveyer belt;Described conveyer belt is divided into the transmission longitudinal bands of more than three;
Each transmission has longitudinal bands gap between longitudinal bands, is provided with the vertical fin extended along longitudinal bands gap in described longitudinal bands gap, described vertical
Fin protrudes from its natural state has elastic mechanism between the upper plane of conveyer belt, and vertical fin and supporting platform, makes
Vertical fin can sink down into below the upper plane of conveyer belt under pressure.
As preferably, described vertical fin is formed by separate short fin cluster, each short fin and described supporting platform
Between there is independent elastic mechanism, so that the sinking state at vertical fin one does not affect the protruding state at another.
As preferably, described automatic Material Handling System also includes special chamber, and the base plate of described special chamber is by corrugated plating
Constituting, the shape of cross section of the trough of described corrugated plating matches with the shape of cross section of described vertical fin, and making to indulge fin be able to
It is absorbed in the trough of described corrugated plating.
As preferably, the central longitudinal tangent plane of described conveyer belt has central longitudinal band gap, this central longitudinal band gap sets
There is a ball being equally spaced along central longitudinal band gap, and between each described ball ball base and the described supporting platform that are mated
Also having elastic mechanism, make ball in its natural state, the height protruding conveyer belt is consistent with described vertical fin, and makees at pressure
Under with, ball can submerge conveyer belt upper plane below.
The beneficial effects of the present invention is: this automatic material flow transmission system operationally, when logistics chamber is placed on transmission
After on band, owing to chamber is made up of hardboard, surface has parallel grain, when the texture of chamber bottom surface favours described vertical fin
Time, chamber continuously along longitudinally fixed vertical fin walking, causes the vertical fin stricture of vagina to chamber bottom surface under the conveying of conveyer belt
Reason provides lasting longitudinal resistance, makes chamber gradually rotate under this longitudinal resistance effect, until its bottom surface texture and vertical fin
Parallel, so that chamber self-aligning, it is beneficial to subsequent survey and carrying.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of this automatic material flow transmission system embodiment one.
Fig. 2 is the schematic diagram of this automatic material flow transmission system embodiment two.
Detailed description of the invention
The present invention is further described with embodiment below in conjunction with the accompanying drawings:
Embodiment one:
In the embodiment one shown in Fig. 1, this automatic material flow transmission system includes a conveyer belt 2 tying on live-roller 1, passes
Band 2 is sent to transmit goods at proof box 4;Supporting platform (being covered by conveyer belt 2, not shown) it is provided with below described conveyer belt 2;Institute
State conveyer belt 2 and be divided into again four transmission longitudinal bands 21;Each transmission has longitudinal bands gap between longitudinal bands 21, is provided with in described longitudinal bands gap
The vertical fin 3 extended along longitudinal bands gap;In the present embodiment one, this vertical fin 3 is formed by separate short fin 31 cluster,
Between each short fin 31 and described supporting platform, there is independent elastic mechanism, such as spring mechanism, make each short fin 31 at nature
Protrude from the upper plane of conveyer belt 2 under state, and sink down into below the upper plane of conveyer belt 2 under pressure, and for
For whole piece indulges fin 3, the sinking state at this vertical fin one does not affect the protruding state at another;So that front chamber for
The effect of vertical fin 3 does not interferes with the chamber at rear.
Furthermore it is also possible to be that described automatic Material Handling System configures special chamber, the base plate of described special chamber is by ripple
Plate is constituted, and the shape of cross section of the trough of described corrugated plating matches with the shape of cross section of described vertical fin 3, makes vertical fin 3
Be able to be absorbed in the trough of described corrugated plating;So that special chamber is when sliding along vertical fin 3, under heeling condition, vertical fin 3 is right
Resistance in special chamber becomes apparent from.
Above-mentioned automatic material flow transmission system operationally, after logistics chamber is placed on conveyer belt 2, owing to chamber is by firmly
Cardboard is constituted, and surface has parallel grain, and when the texture of chamber bottom surface favours described vertical fin 3, chamber is at conveyer belt 2
Walk continuously along longitudinally fixed vertical fin 3 under conveying, cause the longitudinal direction that vertical fin 3 is lasting to the texture offer of chamber bottom surface
Resistance, particularly, when using above-mentioned special chamber, this kind of resistance is the most prominent, make chamber under this longitudinal resistance effect by
Gradually rotate, until its bottom surface texture is parallel with vertical fin 3, so that chamber self-aligning, be beneficial to subsequent survey and carrying.
Embodiment two:
In the embodiment two shown in Fig. 2, unlike embodiment one, during the central longitudinal tangent plane of described conveyer belt 2 has
Longitudinal bands gap 20, centre, is provided with the ball 201 being equally spaced along central longitudinal band gap in this central longitudinal band gap 20, and each described
Between ball base and described supporting platform that ball 201 is mated, also there is elastic mechanism, make ball 201 in its natural state,
The height protruding conveyer belt 2 is consistent with described vertical fin 3, and under pressure, ball 201 can submerge the upper plane of conveyer belt
Lower section.According to embodiment two, each ball 201 provides for the chamber on conveyer belt and rotates freely support, thus significantly reduces chamber
Rotation frictional resistance, make the chamber of inclination just to return easily.
The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all spirit in the present invention and
Within principle, any amendment of being made, equivalent, should be included within the scope of the present invention.