CN204847401U - Material piles up synchronous separating mechanism - Google Patents

Abstract

The utility model discloses a material piles up synchronous separating mechanism, including being used for placing the material guiding mechanism who piles up the material, set up in material guiding mechanism below and be used for the backup pad of separator material, set up in the backup pad below is used for the drive backup pad reciprocating motion's drive arrangement. Owing to adopted the reciprocal drive backup pad motion of drive arrangement, the material that the dead weight that can utilize the material will be piled up carries out the synchronizing separation, and can guarantee the regularity of material for production efficiency.

Description

A kind of stacking separated in synchronization mechanism of material

Technical field

The utility model relates to a kind of feed separation mechanism, in particular the stacking separated in synchronization mechanism of a kind of material.

Background technology

In automation of industry production process; often can run into permutation or whole bundle material and need processing, but in existing production technology, can only utilize that rotating mechanism is piecemeal to be separated, or manually manual separation be carried out to material; although be separated comparatively accurate manual, complex operation, efficiency are low.Along with the demand of client to production capacity is increasing, existing production technology can not meet production requirement.

Therefore, prior art has yet to be improved and developed.

Utility model content

In view of above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of material stacking separated in synchronization mechanism, can the stacking material of quick separating.

The technical solution of the utility model is as follows:

A kind of stacking separated in synchronization mechanism of material, comprise the material guiding mechanism for placing stacking material, being arranged at below material guiding mechanism and for separating of the stay bearing plate of material, being arranged at below described stay bearing plate and actuating device for driving described stay bearing plate to move back and forth.

The stacking separated in synchronization mechanism of described material, wherein, described material guiding mechanism comprises passive material guide base, is fixedly installed on the column for fixing material on described material guide base, and is arranged at the blowing guiding mechanism for fixing described column on described column top.

The stacking separated in synchronization mechanism of described material, wherein, described column shape triangular in shape is positioned in the mounting hole of described material guide base.

The stacking separated in synchronization mechanism of described material, wherein, described blowing guiding mechanism is U-shaped blowing guiding mechanism.

The stacking separated in synchronization mechanism of described material, wherein, described actuating device comprises the servomotor as propulsion source, the dynamical axis be connected with described servomotor, and for the dynamical axis base of stationary power axle, and described dynamical axis is connected with described stay bearing plate again.

The stacking separated in synchronization mechanism of described material, wherein, described stay bearing plate is provided with at least one slot to make way for placing material, and described slot to make way is identical with described material shapes.

The stacking separated in synchronization mechanism of described material, wherein, described slot to make way is equally spaced to be arranged on described stay bearing plate.

The stacking separated in synchronization mechanism of material provided by the utility model, back and forth drives stay bearing plate to move owing to have employed actuating device, can utilize the deadweight of material that stacking material is carried out separated in synchronization; And the regularity of material can be ensured, accelerate production efficiency, for the separation that material is stacking provides a kind of mechanism efficiently.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of material stacking separated in synchronization mechanism preferred embodiment in the utility model.

Fig. 2 is the first specific embodiment schematic diagram of material stacking separated in synchronization mechanism preferred embodiment in the utility model.

Fig. 3 is the second specific embodiment schematic diagram of material stacking separated in synchronization mechanism preferred embodiment in the utility model.

Fig. 4 is the 3rd specific embodiment schematic diagram of material stacking separated in synchronization mechanism preferred embodiment in the utility model.

In figure: 1, material guiding mechanism; 2, servomotor; 3, dynamical axis; 4, dynamical axis base; 5, material guide base; 6, column; 7, stay bearing plate; 8, mounting hole; 9, blowing guiding mechanism; 10, material; 11, slot to make way.

Detailed description of the invention

The utility model provides a kind of material stacking separated in synchronization mechanism, for making the purpose of this utility model, technical scheme and effect clearly, clearly, further describes the utility model referring to accompanying drawing examples.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The stacking separated in synchronization mechanism of material as shown in Figure 1, comprise the material guiding mechanism 1 for placing stacking material, being arranged at below material guiding mechanism 1 and for separating of the stay bearing plate 7 of material, being arranged at below described stay bearing plate 7 and actuating device for driving described stay bearing plate 7 to move back and forth.

In actual production process, material 10 is normally stacked transport back and forth or transport, but then needs man-hour single processing process adding, so the stacking material 10 of script is separated by needs.The utility model drives stay bearing plate 7 crank motion by actuating device (not marking in figure), the required material 10 be separated placed by the material guiding mechanism 1 be positioned at above stay bearing plate 7, and stay bearing plate 7 is close to material guiding mechanism 1, when the slot to make way 11 on stay bearing plate 7 moves to below material guiding mechanism 1, and after slot to make way 11 and material aligned in position, material 10 will fall in the slot to make way 11 of stay bearing plate 7 from material guiding mechanism 1 under gravity, and described slot to make way 11 is identical with described material 10 shape.Slot to make way 11 number can be set to be no less than one as preferential.Material 10 in the slot to make way 11 of stay bearing plate 7 is transported to other and specifies station by final actuating device, then is shifted by other mechanisms, realizes the high-speed separation of material 10.

Concrete, described material guiding mechanism 1 comprises passive material guide base 5, be fixedly installed on the column 6 for fixing material on described material guide base 5, and be arranged at the blowing guiding mechanism 9 for fixing described column 6 on described column 6 top.Wherein material guide base 5 can be set up in above described stay bearing plate 7 or stay bearing plate 7 both sides, for supporting the material 10 needing to be separated; For fixing material 10 with carry out spacing to material 10, shape triangular in shape for column 6 is placed in the mounting hole 8 of material guide base 5, preferably this column 6 is all set at material 10 two ends, is placed on the both sides on material guide base 5 top by column 6.Simultaneously for making column 6 upper end fix, in column 6 upper end, fixed orifice can be set for vertical columns 6.The preferred mounting hole 8 that also column 6 can be inserted on blowing guiding mechanism 9 is interior and fastening.

Further, for convenience of material 10 is positioned in material guiding mechanism 1, by described blowing guiding mechanism 9 for being designed to U-shaped blowing guiding mechanism 9, and indent chamfering can be set at the edge of this U-shaped blowing guiding mechanism 9, put into material guiding mechanism 1 to facilitate material.

Actuating device described in the utility model comprises the servomotor 2 as propulsion source, the dynamical axis 3 be connected with described servomotor 2, and for the dynamical axis base 4 of stationary power axle 3, and described dynamical axis 3 is connected with described stay bearing plate 7 again.Servomotor 2 drives stay bearing plate 7 crank motion by dynamical axis 3, realizes the separation of material 10.

Further, described slot to make way 11 is equally spaced to be arranged on described stay bearing plate 7, also can arrange slot to make way 11 according to servomotor 2 operating speed emergency in different pause point.As preferably, multiple inhibiting device can be set on stay bearing plate 7 and make material 10 fall into slot to make way 11 with the pause meeting stay bearing plate 7.The same operating speed that also can adjust servomotor 2, makes stay bearing plate 7 uniform movement, to ensure that material 10 steadily falls into slot to make way 11.

Fig. 2 in accompanying drawing is can refer to during the utility model carrying out practically, Figure 2 shows that the reference position of stay bearing plate 7 of the present utility model relative to material guiding mechanism 1, when the servomotor 2 of actuating device starts, actuator drives dynamical axis 3 rotary actuation stay bearing plate 7 to move forward, as shown in Figure 3, when first slot to make way 11 of stay bearing plate 7 is in below material 10, material 10 falls into the slot to make way 11 identical with this material 10 shape automatically, as shown in Figure 4, then stay bearing plate 7 continues reach and makes material 10 fall into the second slot to make way 11.Final servo motor 2 drives stay bearing plate 7 to move backward, is back to position shown in Fig. 2, and material 10 is sent into other stations, then is shifted by other mechanisms, realizes the high-speed separation of material 10.Be noted that the stay bearing plate 7 in schematic diagram of the present utility model is only schematic diagram, stay bearing plate 7 can be set to long enough and have abundant slot to make way 11 in actual production process, to meet quick separating to material 10.The position that same column 6 is arranged on material guide base 5 also can adjust according to the size of material, the convenient material placing different model.

The stacking separated in synchronization mechanism of material provided by the utility model, drives stay bearing plate 7 crank motion owing to have employed actuating device, can utilize the deadweight of material 10 that stacking material 10 is carried out separated in synchronization; And the regularity of material 10 can be ensured, accelerate production efficiency, for the separation that material 10 is stacking provides a kind of mechanism efficiently.

Should be understood that; application of the present utility model is not limited to above-mentioned citing, for those of ordinary skills, can be improved according to the above description or convert; such as, all these improve and convert the protection domain that all should belong to the utility model claims.

Claims (7)

1. the stacking separated in synchronization mechanism of material, it is characterized in that, comprising the material guiding mechanism for placing stacking material, to be arranged at below material guiding mechanism and for separating of the stay bearing plate of material, being arranged at below described stay bearing plate and actuating device for driving described stay bearing plate to move back and forth.

2. the stacking separated in synchronization mechanism of material according to claim 1, it is characterized in that, described material guiding mechanism comprises passive material guide base, be fixedly installed on the column for fixing material on described material guide base, and be arranged at the blowing guiding mechanism for fixing described column on described column top.

3. the stacking separated in synchronization mechanism of material according to claim 2, is characterized in that, described column shape triangular in shape is positioned in the mounting hole of described material guide base.

4. the stacking separated in synchronization mechanism of material according to claim 2, is characterized in that, described blowing guiding mechanism is U-shaped blowing guiding mechanism.

5. the stacking separated in synchronization mechanism of material according to claim 1, it is characterized in that, described actuating device comprises the servomotor as propulsion source, the dynamical axis be connected with described servomotor, and for the dynamical axis base of stationary power axle, and described dynamical axis is connected with described stay bearing plate again.

6. the stacking separated in synchronization mechanism of material according to claim 1, is characterized in that, described stay bearing plate is provided with at least one slot to make way for placing material, and described slot to make way is identical with described material shapes.

7. the stacking separated in synchronization mechanism of material according to claim 6, is characterized in that, described slot to make way is equally spaced to be arranged on described stay bearing plate.