CN103144991A - Material stacking device - Google Patents
Material stacking device Download PDFInfo
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- CN103144991A CN103144991A CN 201110400398 CN201110400398A CN103144991A CN 103144991 A CN103144991 A CN 103144991A CN 201110400398 CN201110400398 CN 201110400398 CN 201110400398 A CN201110400398 A CN 201110400398A CN 103144991 A CN103144991 A CN 103144991A
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- track adjusting
- adjusting wheel
- air port
- pressure air
- negative pressure
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Abstract
The invention discloses a material stacking device, which comprises a conveying mechanism, wherein the conveying mechanism comprises a main conveying unit; the conveying mechanism further comprises an auxiliary conveying unit with a negative-pressure air port and/or a stacking mechanism with a negative-pressure air port, and a middle conveying unit, wherein the middle conveying unit is arranged along the movement direction of a bearing surface of the main conveying unit; and a positive-pressure air port is formed in the auxiliary conveying unit. The components of the material stacking device are moved in a matched manner, so that the materials can be continuously, quickly and stably stacked.
Description
Technical field
The present invention relates to a kind of mass transport collator, particularly relate to a kind of bank stacking device.
Background technology
Along with the development of materiel machining industry, the materiel machining industry is more and more higher to the requirement of the stacking efficient of material.Stacking its course of conveying that requires of the high efficiency of material has higher stability, will guarantee that namely the material of carrying can not produce fold in course of conveying.Publication number is that the Chinese invention patent of CN101723193A discloses a kind of " negative pressure conveyer for cardboards " on June 9th, 2010, and its technical scheme is: described invention is by drive motor, cardboard load-transfer device, axial flow fan, the formations such as opto-electronic pickup.The some small-sized axial flow fans of the arranged beneath of cardboard load-transfer device, the negative pressure that the axial flow fan admission port is formed sees through cardboard load-transfer device with mesh and is applied to and is transferred on cardboard, utilize the pressure of air that cardboard is fixed on firmly the cardboard load-transfer device and together moves with it, and and load-transfer device between do not produce relative displacement.Its final beneficial effect of realizing is: realize being transferred press board position in course of conveying and do not change, namely fold can not occur in paper in course of conveying.But for hardness or the bad paper of deflection, just fold may occur when entering this conveyer, and existing scheme can't address this problem.
Summary of the invention
The present invention wants the technical solution problem to be, providing a kind of can carry out the stacking device of high speed to hardness or the not good plate material of deflection.
For solving above technical matters, technical scheme of the present invention is: a kind of bank stacking device, comprise conveying mechanism, and described conveying mechanism comprises main supply unit, also comprises the auxiliary supply unit that is provided with the negative pressure air port and/or the stacker mechanism that is provided with the negative pressure air port.
As improvement one of the present invention, the described auxiliary supply unit that is provided with the negative pressure air port is provided with negative pressure air port is the second negative pressure air port, the described stacker mechanism that is provided with the negative pressure air port comprises stacking load-carrying unit and the auxiliary stackable unit that cooperatively interacts, and described auxiliary stackable unit is provided with the 3rd negative pressure air port and/or the 4th negative pressure air port.
Further improve as the present invention, described auxiliary stackable unit comprises the 3rd track adjusting wheel, the 4th track adjusting wheel, the 5th track adjusting wheel and is arranged on the second load-transfer device on described three track adjusting wheels, and the angle between the plane at the axis place of the plane at the axis place of the axis of described the 3rd track adjusting wheel and described the 4th track adjusting wheel and the axis of described the 3rd track adjusting wheel and described the 5th track adjusting wheel is the obtuse angle.
As further improvement of the present invention, the plane at the axis place of the axis of described the 3rd track adjusting wheel and described the 4th track adjusting wheel is parallel with horizontal surface; Distance between described the 3rd track adjusting wheel and described stacking load-carrying unit can be adjusted, and the distance between described the 4th track adjusting wheel and described stacking load-carrying unit also can be adjusted.
Further improve as the present invention, the upside of the second spigot surface between described the 3rd track adjusting wheel and described the 4th track adjusting wheel is provided with opening towards the 3rd negative pressure air port of below; The upside of the 3rd spigot surface between described the 3rd track adjusting wheel and described the 5th track adjusting wheel is provided with opening towards the 4th negative pressure air port of below.
As improvement two of the present invention, described main supply unit comprises the first negative pressure air port.
Further improve as the present invention, described main supply unit comprises that also first carries carrying surface, described first carry carrying surface below be provided with towards above described the first negative pressure air port.
As improvement three of the present invention, the described auxiliary supply unit that is provided with the negative pressure air port is provided with negative pressure air port is the second negative pressure air port.
As improvement four of the present invention, the described auxiliary supply unit that is provided with the negative pressure air port comprises the first track adjusting wheel, the second track adjusting wheel and is arranged on the first load-transfer device on described two track adjusting wheels, and the vertical dimension of described the first track adjusting wheel is greater than the vertical dimension of described the second track adjusting wheel.
As improvement five of the present invention, the described auxiliary supply unit that is provided with the negative pressure air port is provided with the first track adjusting wheel and malleation air port, and described malleation air port is arranged on the top of described the first track adjusting wheel.
By implement the present invention desirable following beneficial effect:
A kind of bank stacking device comprises conveying mechanism, and conveying mechanism comprises main supply unit, also comprises the auxiliary supply unit that is provided with the negative pressure air port and/or the stacker mechanism that is provided with the negative pressure air port; The negative pressure air port that is provided with that the auxiliary supply unit in negative pressure air port is provided with is the second negative pressure air port, the stacker mechanism that is provided with the negative pressure air port comprises stacking load-carrying unit and the auxiliary stackable unit that cooperatively interacts, and is provided with the 3rd negative pressure air port and/or the 4th negative pressure air port on auxiliary stackable unit.The front end of main supply unit can be adsorbed by the first negative pressure air port, and the second negative pressure air port can the part except front end be adsorbed on supplied materials on auxiliary supply unit, and supplied materials can move along with the motion of auxiliary supply unit, finally can be close on main supply unit; The state of supplied materials can be adjusted in the 4th negative pressure air port on auxiliary stackable unit at first, supplied materials is adsorbed on the 3rd spigot surface and along with the motion of the 3rd spigot surface moves, can continue by the 3rd negative pressure air port absorption in the time of final arrival the second spigot surface and move along with the motion of the second spigot surface, after arriving correct position, the adsorption affinity in the 3rd negative pressure air port reduces, material will drop on stacking load-carrying unit, and this motion process can thoroughly be stopped due to the hardness of material or the bad problem that produces fold of deflection.
Auxiliary stackable unit comprises the 3rd track adjusting wheel, the 4th track adjusting wheel, the 5th track adjusting wheel and is arranged on the second load-transfer device on these three track adjusting wheels, and the angle between the plane at the axis place of the plane at the axis place of the axis of the 3rd track adjusting wheel and the 4th track adjusting wheel and the axis of the 3rd track adjusting wheel and the 5th track adjusting wheel is the obtuse angle; The plane at the axis place of the axis of the 3rd track adjusting wheel and the 4th track adjusting wheel is parallel with horizontal surface; Distance between the 3rd track adjusting wheel and stacking load-carrying unit can be adjusted, and the distance between the 4th track adjusting wheel and stacking load-carrying unit also can be adjusted.Third and fourth guiding takes turns to the distance of stacking load-carrying unit and can adjust according to the height of front end supplied materials and the thickness of supplied materials itself, thereby allows the material that stack equipment can the flexible adaptation different-thickness, makes the field of application of stack equipment more extensive.
The auxiliary supply unit that is provided with the negative pressure air port comprises the first track adjusting wheel, the second track adjusting wheel and the first load-transfer device on two track adjusting wheels is installed, the vertical dimension of the first track adjusting wheel is greater than the vertical dimension of the second track adjusting wheel, the auxiliary supply unit that is provided with the negative pressure air port is provided with the first track adjusting wheel and malleation air port, and the malleation air port is arranged on the top of the first track adjusting wheel.The malleation air port can allow the front end of supplied materials press close to rapidly the first carrying surface and by the first negative pressure air port absorption, due to the kinematic velocity of the first load-transfer device kinematic velocity faster than supplied materials, the front end of supplied materials can be adsorbed and pull and moving by main supply unit, thereby guarantees that supplied materials can be not stacking with its rear end generation lower than the kinematic velocity of its rear end because of its nose motion speed.
Description of drawings
The present invention will be further described in detail below in conjunction with Figure of description:
Fig. 1 is structure diagram of the present invention;
Fig. 2 is block diagram of the present invention;
Fig. 3 is master's supply unit block diagram of the present invention;
Fig. 4 is the auxiliary supply unit block diagram of the present invention;
Fig. 5 is stacker mechanism block diagram of the present invention.
The specific embodiment
As shown in Figure 1, a kind of bank stacking device, comprise conveying mechanism 1, described conveying mechanism 1 comprises main supply unit 11, also comprise the auxiliary supply unit 12 that is provided with the negative pressure air port and the stacker mechanism 2 that is provided with the negative pressure air port, the negative pressure air port that is provided with that the auxiliary supply unit 12 in negative pressure air port is provided with is the second negative pressure air port 121.
In conjunction with Fig. 1, shown in Figure 2, described conveying mechanism 1 also comprises some middle transport unit 13 that arrange along the sense of motion of described the first conveying carrying surface 112, second of described some middle transport unit 13 carry carrying surface 131 to increase successively to the vertical distance of described the first conveying carrying surface 112, and the operating speed of main supply unit 13 reduces successively.When material when for example single watt of cardboard is transported on middle transport unit 13 by main supply unit 11, material can drop on middle transport unit 13, middle transport unit 13 can be pulled this material and be transported to next middle transport unit, because the kinematic velocity of middle transport unit 13 reduces successively, so single watt of cardboard can pile one and fold on middle transport unit 13, and enters into stacker mechanism with a folded state.
As Fig. 1, shown in Figure 3, described main supply unit 11 comprises the first negative pressure air port 111, comprises that also first carries carrying surface 112; Described first carry carrying surface 112 below be provided with towards above described the first negative pressure air port 111.
As Fig. 1, shown in Figure 4, the described auxiliary supply unit 12 that is provided with the negative pressure air port comprises the first track adjusting wheel 123, the second track adjusting wheel 125 and is arranged on the first load-transfer device 124 on described two track adjusting wheels, and the vertical dimension of described the first track adjusting wheel 123 is greater than the vertical dimension of described the second track adjusting wheel 125; The described auxiliary supply unit 12 that is provided with the negative pressure air port is provided with the first track adjusting wheel 123 and malleation air port 126, and described malleation air port 126 is arranged on the top of described the first track adjusting wheel 123.When the present invention works, after the front end of supplied materials arrives the first conveying carrying surface 112, can be rapidly under the wind-force effect that blows out in malleation air port 126 carry carrying surface 112 and be adsorbed on described first by the first negative pressure air port 111 near first and carry on carrying surface 112, due to the kinematic velocity of the first load-transfer device 124 kinematic velocity faster than supplied materials, the front end of the front end supplied materials of supplied materials can be adsorbed and pull and moving by main supply unit 11.
In conjunction with shown in Figure 5, the described stacker mechanism 2 that is provided with the negative pressure air port comprises stacking load-carrying unit 22 and the auxiliary stackable unit 21 that cooperatively interacts, and described auxiliary stackable unit 21 is provided with the 3rd negative pressure air port 217 and/or the 4th negative pressure air port 213; Described auxiliary stackable unit 21 comprises the 3rd track adjusting wheel 214, the 4th track adjusting wheel 218, the 5th track adjusting wheel 211 and is arranged on the second load-transfer device 215 on described three track adjusting wheels, and the angle between the plane at the axis place of the plane at the axis place of the axis of described the 3rd track adjusting wheel 214 and described the 4th track adjusting wheel 218 and the axis of described the 3rd track adjusting wheel 214 and described the 5th track adjusting wheel 211 is the obtuse angle; The plane at the axis place of the axis of described the 3rd track adjusting wheel 214 and described the 4th track adjusting wheel 218 is parallel with horizontal surface, distance between described the 3rd track adjusting wheel 214 and described stacking load-carrying unit 22 can be adjusted, and the distance between described the 4th track adjusting wheel 218 and described stacking load-carrying unit 22 also can be adjusted; The upside of the second spigot surface 216 between described the 3rd track adjusting wheel 214 and described the 4th track adjusting wheel 218 is provided with opening towards the 3rd negative pressure air port 217 of below, and the upside of the 3rd spigot surface 212 between described the 3rd track adjusting wheel 214 and described the 5th track adjusting wheel 211 is provided with opening towards the 4th negative pressure air port 213 of below.
With reference to Fig. 2, shown in Figure 5, supplied materials is during from middle supply unit 13 to auxiliary stackable unit 21, the attitude of supplied materials can be adjusted in the 4th negative pressure air port 213 at first, supplied materials is adsorbed on the 3rd spigot surface 212 and allows supplied materials move along with the motion of the 3rd spigot surface 212, final can continue by the 3rd negative pressure air port 217 absorption and move along with the motion of the second spigot surface 216 when arriving the second spigot surface 216, after arriving correct position, the adsorption affinity in the 3rd negative pressure air port 217 reduces, and material will drop on stacking load-carrying unit 22.
Must be pointed out some indefiniteness casehistorys that above-described embodiment is just made the present invention.But person of skill in the art will appreciate that, do not departing under aim of the present invention and scope, can make modification to the present invention, replace and change, these modifications, replacement and change still belong to protection scope of the present invention.
Claims (10)
1. bank stacking device, comprise conveying mechanism (1), described conveying mechanism (1) comprises main supply unit (11), it is characterized in that: described conveying mechanism (1) also comprises the auxiliary supply unit (12) that is provided with the negative pressure air port and/or the stacker mechanism (2) that is provided with the negative pressure air port.
2. a kind of bank stacking device according to claim 1, it is characterized in that: the described stacker mechanism (2) that is provided with the negative pressure air port comprises stacking load-carrying unit (22) and the auxiliary stackable unit (21) that cooperatively interacts, and described auxiliary stackable unit (21) is provided with the 3rd negative pressure air port (217) and/or the 4th negative pressure air port (213).
3. a kind of bank stacking device according to claim 2, it is characterized in that: described auxiliary stackable unit (21) comprises the 3rd track adjusting wheel (214), the 4th track adjusting wheel (218), the 5th track adjusting wheel (211) and is arranged on the second load-transfer device (215) on described three track adjusting wheels, and the angle between the plane at the axis place of the plane at the axis place of the axis of described the 3rd track adjusting wheel (214) and described the 4th track adjusting wheel (218) and the axis of described the 3rd track adjusting wheel (214) and described the 5th track adjusting wheel (211) is the obtuse angle.
4. a kind of bank stacking device according to claim 3, it is characterized in that: the plane at the axis place of the axis of described the 3rd track adjusting wheel (214) and described the 4th track adjusting wheel (218) is parallel with horizontal surface, distance between described the 3rd track adjusting wheel (214) and described stacking load-carrying unit (22) can be adjusted, and the distance between described the 4th track adjusting wheel (218) and described stacking load-carrying unit (22) also can be adjusted.
5. according to claim 3 or 4 any one described a kind of bank stacking device, it is characterized in that: the upside of the second spigot surface (216) between described the 3rd track adjusting wheel (214) and described the 4th track adjusting wheel (218) is provided with opening towards the 3rd negative pressure air port (217) of below; The upside of the 3rd spigot surface (212) between described the 3rd track adjusting wheel (214) and described the 5th track adjusting wheel (211) is provided with opening towards the 4th negative pressure air port (213) of below.
6. a kind of bank stacking device according to claim 1, it is characterized in that: described main supply unit (11) comprises the first negative pressure air port (111).
7. a kind of bank stacking device according to claim 6, it is characterized in that: described main supply unit (11) comprises that also first carries carrying surface (112), is provided with described the first negative pressure air port (111) towards the top in the below of described the first conveying carrying surface (112).
8. a kind of bank stacking device according to claim 1 is characterized in that: the described auxiliary supply unit (12) that is provided with the negative pressure air port is provided with negative pressure air port is the second negative pressure air port (121).
9. any one described a kind of bank stacking device according to claim 1 to 4,6 to 8, it is characterized in that: the described auxiliary supply unit (12) that is provided with the negative pressure air port comprises the first track adjusting wheel (123), the second track adjusting wheel (125) and is arranged on the first load-transfer device (124) on described two track adjusting wheels, and the vertical dimension of described the first track adjusting wheel (123) is greater than the vertical dimension of described the second track adjusting wheel (125).
10. any one described a kind of bank stacking device according to claim 1 to 4,6 to 8, it is characterized in that: the described auxiliary supply unit (12) that is provided with the negative pressure air port is provided with the first track adjusting wheel (123) and malleation air port (126), and described malleation air port (126) is arranged on the top of described the first track adjusting wheel (123).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201110400398 CN103144991A (en) | 2011-12-06 | 2011-12-06 | Material stacking device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201110400398 CN103144991A (en) | 2011-12-06 | 2011-12-06 | Material stacking device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN103144991A true CN103144991A (en) | 2013-06-12 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201110400398 Pending CN103144991A (en) | 2011-12-06 | 2011-12-06 | Material stacking device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN103144991A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109623921A (en) * | 2018-12-19 | 2019-04-16 | 深圳市晶向科技有限公司 | A kind of coiled strip cutting means |
-
2011
- 2011-12-06 CN CN 201110400398 patent/CN103144991A/en active Pending
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109623921A (en) * | 2018-12-19 | 2019-04-16 | 深圳市晶向科技有限公司 | A kind of coiled strip cutting means |
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| WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20130612 |