ramp feeder support

专利摘要:
RAMP SUPPORT SUPPORT. The present application discloses a support for ramp feeding, which comprises an inclined ramp, a support is arranged at one end of the ramp to prevent a cylindrical material from falling, and a separation device disposed above the ramp for the separation of the first two materials cylindrical in a row of cylindrical materials. In addition, the ramp above can be arranged as a group of ramps, one end of each of the ramps provided for in the ramp group is arranged with a cover, respectively, to prevent the cylindrical material from falling, a separation device is placed above the group of ramps to separate the first two cylindrical materials into a row of cylindrical materials on each of the ramps. The present order can separate the first cylindrical material, which needs to be removed initially from the row of cylindrical materials, from the second cylindrical material conveniently, making the collection of the first cylindrical material more convenient and generating labor savings; and when collecting, there is no contact between the first selected cylindrical material and the second cylindrical material, which reduces damage to the surface of the cylindrical material; this application has a simple, low structure (...).
公开号:BR112015028095B1
申请号:R112015028095-1
申请日:2013-09-06
公开日:2020-12-01
发明作者:Chengjun ZHANG；Hao Huang；Qingfeng Zhang；Fei Xie
申请人:Anhui Jianghuai Automobile Group Corp., Ltd；
IPC主号:

专利说明:

FIELD OF APPLICATION OF THE INVENTION
[0001] The present application relates to a material transport device, in particular a feeder support on an inclined ramp. TECHNICAL STATUS
[0002] The ramp feeder support is generally used as a manual feeder mechanism for cylindrical parts with greater volume, a certain mass and a greater criterion in relation to surface quality.
[0003] Most of the ramp feeder supports currently used do not have a separation device, as shown in Fig. 1, a ramp in feeder support comprises a support 2, a ramp 1 and a support. Where the support 2 consists of aluminum profiles and a support screw 5, the ramp 1 having a groove fixed on the support 2 at a certain angle from a horizontal plane through a ramp screw 4, a material cylindrical 3 is disposed within the groove of the ramp 1 and moves under the function of gravity, a support is disposed at a lower end of the ramp 1, the cylindrical material 3 is interrupted by the support when it is sliding to one end of the ramp 1 , and an operator can pick up the cylindrical material 3 conveniently at the end of the ramp 1.
[0004] The Chinese application for the utility model patent number CN 201530600U, application publication date July 21, 2010 and the title “Safety beam ramp” discloses a safety beam ramp comprising a support and a box-shaped ramp body supported on the support, sliding surface of the ramp box body consists of a group of rollers that are arranged along the direction of the ramp, side supports extending out of the ramp surface are distributed on both sides of the box body of the ramp, to a region of discharge in the direction of discharge and such a scheme provides guarantee of safety for the operator.
[0005] In the prior art above, the ramp feeder support and the ramp safety have the following defects: since there is no separation device arranged in it, the materials are tightened together (in direct contact with each other) when moved to one end of the ramp and cannot be collected properly, and can be scratched due to mutual collision during collection. BRIEF DESCRIPTION OF THE INVENTION
[0006] The purpose of the present patent application is to overcome the defects of the prior art and to provide a ramp feeder support that has a separation device.
[0007] To achieve the above objective, a cylindrical material feeder structure is provided that has a separation device comprising an inclined ramp, a support being disposed at one end of the ramp to stop the cylindrical material preventing it from falling, which it is characterized by the fact that the feeder structure for cylindrical materials has a separation device further comprising a separation device arranged above the ramp for the separation of the first two cylindrical materials in a row of cylindrical materials.
[0008] Preferably, the separation device comprises, a support structure comprising a first connection panel and a second connection panel, a bottom part of the first connection panel and the bottom part of the second connection panel are fixedly mounted in two sides of the ramp, respectively in a position having a distance from the support; a rotary axis, two ends of the rotary axis are connected rotatably with an upper part of the first connection panel and the upper part of the second connection panel, respectively; a movable fork comprising a movable fork body fixedly mounted on the rotary axis and a first stop portion and a second stop portion arranged at two ends of the movable fork body; and, a lever, one end of the lever fixedly mounted on the rotary axis; and, when the lever is pushed down to a first switching position, the first stopping portion of the movable fork is on the outer side wall of a first cylindrical material in the row of cylindrical materials to stop the first cylindrical material preventing it from sliding in the direction downward; when the lever is pushed upwards to be in a second switching position, the second stopping portion of the movable fork is on the inner side wall of a second cylindrical material in the row of cylindrical materials to stop the second cylindrical material preventing it from sliding in the direction downward, and the first stopping portion of the movable fork moves away from the outer side wall of the first cylindrical material, at the same time that the first cylindrical material slides down onto the support to generate a space between the first cylindrical material and the second cylindrical material .
[0009] Preferably, a first range of spacing and a second range of spacing to limit a switching interval of the lever is further arranged above the first connection panel; and, when the lever is in the first spacing range, it will be in the first in the switching position; when the lever is in the second spacing range, it will be in the second switching position.
[0010] Preferably, an inclined rail corresponding to the cylindrical material and facilitating the sliding downwards of the cylindrical material is arranged on the ramp.
[0011] Preferably, lubricating oil is coated on a portion of the inclined rail in contact with the cylindrical material.
[0012] Preferably, the cylindrical material is an engine cylinder liner.
[0013] A ramp feeder support, comprising a group of ramps provided with a plurality of inclined ramps arranged side by side, a support is disposed at one end of each of the ramps to stop the cylindrical material preventing it from falling, the which is characterized by the ramp feeder support further comprising a separation device arranged above the group of ramps to separate the first two cylindrical materials from the row of cylindrical materials on each of the ramps.
[0014] Preferably, the separation device comprises a support structure comprising a first connection panel and a second connection panel, a bottom part of the first connection panel and the bottom part of the second connection panel are fixedly mounted in two sides of the ramp group, respectively in a position having a distance from the support; a rotary axis, two ends of the rotary axis are connected rotatably with an upper part of the first connection panel and the upper part of the second connection panel, respectively; a plurality of movable forks, each of the movable forks corresponding to a ramp and comprising a movable fork body fixedly mounted on the rotating axis and a first stop portion and a second stop portion disposed at two ends of the movable fork body; and, a lever, one end of the lever fixedly mounted on the rotary axis; and, when the lever is pushed down to a first switching position, the first stopping portion of the movable forks is on the outer side wall of a first cylindrical material of the corresponding row of cylindrical materials to respectively stop each of the first cylindrical materials preventing these to slide downward; when the lever is pushed upwards to be in a second switching position, the second stop portion of each of the movable forks is on the inner side wall of a second cylindrical material from the corresponding row of cylindrical materials to respectively stop each of the second materials cylindrical preventing them from sliding downward, and the first stop portion of each of the movable forks is correspondingly spaced away from the outer side wall of the first cylindrical material and respectively, each of the first cylindrical materials slides down to the corresponding support to generate a space between each first cylindrical material and the corresponding second cylindrical material. Preferably, a first spacing range and a second spacing range to limit a switching interval of the lever is further arranged above the first connection panel; and, when the lever is in the first spacing range, it will be in the first in the switching position; when the lever is in the second spacing range, it will be in the second switching position.
[0015] Preferably, an inclined rail corresponding to the cylindrical material and facilitating the downward sliding of the cylindrical material is arranged on each of the ramps, respectively.
[0016] Preferably, lubricating oil is coated on a portion of the inclined rail in contact with the cylindrical material.
[0017] Preferably, the cylindrical material is an engine cylinder liner.
[0018] The present application has the following beneficial effects: 1) The first cylindrical material that needs to be caught first in the row of cylindrical materials can be separated from the second cylindrical material conveniently, which makes collecting the first cylindrical material more convenient and generates savings at work; 2) When collecting, there is no contact between the first cylindrical material caught and the second cylindrical material, which reduces abrasion on the surface of the cylindrical material; 3) It has a simple, low-cost structure that can be applied easily. BRIEF DESCRIPTION OF THE DRAWINGS
[0019] Fig. 1 shows a front view of a ramp feeder support of the prior art.
[0020] Fig. 2 shows a diagram of the structure of a ramp feeder support that has the separation device of the present application.
[0021] Fig. 3 shows a diagram of the state of the ramp feeder support having a separation device illustrated in Fig. 2, after separating the cylinder liner A.
[0022] Fig. 4 shows an enlarged partial diagram of the portion I shown in Fig. 3.
[0023] Fig. 5 shows a diagram of the state of the ramp feeder support having a separation device illustrated in Fig. 2, after the separation of the cylinder liner B, which follows the cylinder liner A.
[0024] Fig. 6 shows an enlarged partial diagram of the portion II shown in Fig. 5.
[0025] Fig. 7 shows a diagram of the structure of the ramp feeder support described in another example of the present application. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE INVENTION
[0026] The following will give a detailed description of examples of the present application, examples of examples will be shown in the figures, in which reference signs that are always the same or similar here, represent the same or similar elements or those that have the same similar functions or functions. The examples described with reference to the figures provided below are for the purpose of exemplification only, and are used only to explain, not to limit the present patent application.
[0027] Fig. 2 shows a diagram of the ramp feeder support structure of the present application. As shown in Fig. 2, the ramp feeder support comprises a support and an inclined ramp 1 fixedly mounted on the support, support 14 is arranged at one end of the ramp 1 to stop a cylindrical material 3 and prevent it from coming into fall, a support (not shown) consists of an aluminum profile and a support screw. In particular, the ramp feeder support further comprises a separation apparatus arranged above the ramp 1 for separating the first two cylindrical materials 3 in a row of cylindrical materials.
[0028] Specifically, the separation device comprises a support structure, a rotating axis 7, a movable fork 8 and a lever 9. Whereupon: The support structure comprises a first connection panel 10 and a second connection panel 6 , a lower part of the first connection panel 10 and a lower part of the second connection panel 6 are fixedly mounted on two sides of the ramp 1, respectively, by means of a screw in a position with a distance from the support 14. The two ends of the rotary axis 7 are connected rotatably, with an upper part of the first connection panel 10 and an upper part of the second connection panel 6, respectively. As shown in Fig. 4 and Fig. 6, the movable fork 8 comprises a movable fork body 81 fixedly mounted on the rotary axis 7 and a first stop portion 82 and a second stop portion 83 arranged at two ends of the body of the movable fork 81, in a preferred example of the present application, the first stop portion 82 is shown in a strip and tilted sideways towards the body of the movable fork 81, the second stop portion 83 is also shown in a strip and tilted behind the side of the movable fork body 81. In addition, in practical applications, the ends of the first stop portion 82 and the second stop portion 83 can be processed or rolled to reduce the risk that the cylindrical material 3 is scratched during a stop process. One end of the lever 9 is fixedly mounted on the rotary axis 7, pushed the lever 9 can take the rotary axis 7 to a synchronized rotation and, thus, still drive the movable fork 8 fixedly mounted on the rotary axis 7 in synchronous rotation.
[0029] The arrangement of the components of the separation device also needs to satisfy the following conditions: as shown in Fig. 3 and fig. 4, when the lever 9 is pushed downwards to a first switching position, a first stop portion 82 of the displaceable fork is on the outer side wall of the first cylindrical material B of the current row of cylindrical materials to stop the sliding of the fork. first cylindrical material B in a downward direction. And then, as shown in Fig. 5 and fig. 6, when the lever 9 is pushed up to a second switching position, a second stop portion 83 of the displaceable fork 8 is on the inner side wall of the second cylindrical material C in the row of cylindrical materials to stop the material from sliding downwards cylindrical C, and the first stop portion 82 of the movable fork 8 is spaced from the outer side wall of the first cylindrical material B, the first cylindrical material B slides downwardly towards the support 14 and thus generating a space between the first cylindrical material B and the second cylindrical material C, so that an operator can easily pick up the first separate cylindrical material B, and no friction is being generated between the first cylindrical material B and the second cylindrical material C during the collection process, thus preventing the cylindrical material 3 will be scratched or damaged.
[0030] It is worth mentioning that the sizes of the fork body above 81, the first stop portion 82 and the second stop portion 83 must be determined according to the practical size of the cylindrical material 3, in order to satisfy the above operating procedure. As this part is a conventional technical solution for those skilled in the art, its repeated description is not mentioned here.
[0031] The first two cylindrical materials 3 of the row of cylindrical materials can be separated constantly with the above structure by moving lever 9 repeatedly to leave it in a first or second switching position, back and forth, aiming the correct combination and adjustment to a frequency of movement of the lever 9. For example, as shown in Fig. 3, a cylindrical material A is a cylindrical material 3 separated in the last movement cycle in this same way.
[0032] In addition, in order that lever 9 is not affected by a gravitational force of the cylindrical material 3 and is maintained in a first switching position or a second switching position, a first spacing band 12 and a second band spacing 13 are arranged above the first connection panel 10 to limit the switching range of lever 9. The arrangement of the first spacing range 12 and the second spacing range 13 needs to satisfy the needs that, when lever 9 is at first spacing range 12, lever 9 is in the first switching position; and when lever 9 is in the second spacing range 13, lever 9 is in the second switching position.
[0033] In addition, for the reduction of friction between the cylindrical material 3 and the ramp 1, an inclined rail corresponding to the cylindrical material 3 and facilitating the sliding of the cylindrical material 3 downwards is arranged on the ramp 1. Particularly, lubricating oil is coated at the contact points of the inclined rail with the cylindrical material 3.
[0034] Fig. 7 shows a structure diagram of the ramp feeder support in another example of the present application. As shown in Fig. 7, the ramp feeder support comprises a support 2 and a group of ramps, the support 2 consists of aluminum profiles and a support screw 5, the ramp group has a plurality of inclined ramps 1 arranged side by side, the support 14 is arranged at the end of each of the ramps 1 to stop the cylindrical material 3 and prevent it from falling. In particular, the ramp feeder support further comprises a separation apparatus arranged above the group of ramps to separate the first two cylindrical materials 3 from the row of cylindrical materials on each of the ramps 1.
[0035] Specifically, similar to the separation device of the ramp feeder provided with a separation device, the separation device comprises a support structure, a rotating axis 7, a plurality of movable forks 8 and a lever 9, wherein : the support structure comprises a first connection panel 10 and a second connection panel 6, a lower part of the first connection panel 10 and a lower part of the second connection panel 6 are fixedly mounted on two sides of the ramp group, respectively, by means of a screw 11 in a position with a distance from the support 14. The two ends of the rotary axis 7 are connected in a rotating manner, respectively with the upper part of the first connection panel 10 and the upper part of the second connection panel 6. Each of the movable forks 8 of a plurality of movable forks 8 correspond to a ramp 1, each of the movable forks 8 comp a movable fork body 81 fixedly mounted on the rotating axle 7 and a first stop portion 82 and a second stop portion 83 arranged on two ends of the movable fork body 81. One end of the lever 9 is fixedly mounted on the rotating axis 7.
[0036] The arrangement of the components of the separating device must also satisfy the condition that, when pushing down lever 9 is in a first switching position, the first stop portion 82 of each of the movable forks 8 is on the outer side wall of the first cylindrical material of the corresponding row of cylindrical materials, respectively, to stop each of the first cylindrical materials and prevent them from sliding downwards. When the lever 9 is pushed upwards to be in a second switching position, the second stop portion 83 of each of the movable forks 8 is on the inner side wall of the second cylindrical material of the corresponding row of cylindrical materials to stop each second slide-down cylindrical materials, and the first stop portion 82 of each of the movable forks 8 is spaced from the corresponding outer side wall of the first cylindrical material, respectively, and each of the first cylindrical materials slide downward to the corresponding support 14 , while generating spaces between each of the first cylindrical materials and the corresponding second cylindrical materials.
[0037] Similar to the ramp feeder separation device provided with a separation device, a first spacing band 12 and a second spacing strip 13 are arranged above the first connection panel 10 to limit the switching interval of the lever 9. When lever 9 is over the first spacing range 12, lever 9 is in the first switching position; when lever 9 is in the second spacing range 13, lever 9 is in the second switching position. An inclined rail corresponding to the cylindrical material 3 and facilitating the downward sliding of the cylindrical material 3 is arranged on each of the ramps 1. Lubricating oil is coated on each of the parts in contact with cylindrical material 3.
[0038] It is worth mentioning that the present application is applicable to a manually operated feeder mechanism of larger volume cylindrical parts, a certain mass and greater need for preserving the surface quality, for example, for the manual feeding of cylinder liners of an engine.
[0039] The above is just a preferred embodiment of the present application. It should be noted that those skilled in the art can make various improvements and modifications within the condition that they do not break with the principle of this application, and their improvement and modification should also be considered as within the scope of protection of this application.

权利要求:
Claims (10)
[0001]
1. Ramp feeder support comprising an inclined ramp, a support being arranged at one end of the ramp to stop the cylindrical material preventing it from falling, FEATURED by comprising a separation device further comprising a separation device arranged above the ramp for the separation of the first two cylindrical materials in a row of cylindrical materials; the separation device comprises: a support structure comprising a first connection panel and a second connection panel, a lower part of the first connection panel and the lower part of the second connection panel are fixedly mounted on two sides of the ramp, respectively in a position having a distance from the support; a rotary axis, two ends of the rotary axis are connected rotatably with an upper part of the first connection panel and the upper part of the second connection panel, respectively; a movable fork comprising a movable fork body fixedly mounted on the rotary axis and a first stop portion and a second stop portion arranged at two ends of the movable fork body; and, a lever, one end of the lever fixedly mounted on the rotary axis; and, when the lever is pushed down to a first switching position, the first stopping portion of the movable fork is on the outer side wall of a first cylindrical material in the row of cylindrical materials to stop the first cylindrical material preventing it from sliding in the direction downward; when the lever is pushed upwards to be in a second switching position, the second stop portion of the movable fork is on the inner side wall of a second cylindrical material from the row of cylindrical materials to stop the second cylindrical material preventing it from sliding in the direction downward, and the first stopping portion of the movable fork moves away from the outer side wall of the first cylindrical material, at the same time that the first cylindrical material slides down onto the support to generate a space between the first cylindrical material and the second cylindrical material .
[0002]
2. Ramp feeder support, according to claim 1, CHARACTERIZED by the fact that a first spacing range and a second spacing range to limit a switching range of the lever is further arranged above the first connection panel; and, when the lever is in the first spacing range, it will be in the first in the switching position; when the lever is in the second spacing range, it will be in the second switching position.
[0003]
3. Ramp feeder support, according to claim 2, CHARACTERIZED by the fact that an inclined rail corresponding to the cylindrical material and facilitating the downward sliding of the cylindrical material is arranged on the ramp.
[0004]
4. Ramp feeder support, according to claim 3, TERIZADO CHARACTER due to the fact that lubricating oil is coated on the portion of the inclined rail that are in contact with the cylindrical material.
[0005]
5. Ramp feeder support according to any one of claims 1 to 4, CHARACTERIZED by the fact that the cylindrical material is an engine cylinder liner.
[0006]
6. Ramp feeder support comprising a group of ramps provided with a plurality of inclined ramps arranged side by side, a support is arranged at one end of each of the ramps to stop the cylindrical material preventing it from falling. separation device arranged above the group of ramps to separate the first two cylindrical materials from the row of cylindrical materials on each of the ramps; the separation device comprises: a support structure comprising a first connection panel and a second connection panel, a lower part of the first connection panel and the lower part of the second connection panel are fixedly mounted on two sides of the group of ramps, respectively in a position having a distance from the support; a rotary axis, two ends of the rotary axis are connected rotatably with an upper part of the first connection panel and the upper part of the second connection panel, respectively; a plurality of movable forks, each of the movable forks corresponding to a ramp and comprising a movable fork body fixedly mounted on the rotary axis and a first stop portion and a second stop portion disposed at two ends of the movable fork body; and, a lever, one end of the lever fixedly mounted on the rotary axis; and, when the lever is pushed down to a first switching position, the first stopping portion of the movable forks is on the outer side wall of a first cylindrical material of the corresponding row of cylindrical materials to respectively stop each of the first cylindrical materials preventing these to slide downward; when the lever is pushed upwards to be in a second switching position, the second stop portion of each of the movable forks is on the inner side wall of a second cylindrical material from the corresponding row of cylindrical materials to respectively stop each of the second materials cylindrical preventing them from sliding downward, and the first stop portion of each of the movable forks is correspondingly spaced away from the outer side wall of the first cylindrical material and respectively, each of the first cylindrical materials slides down to the corresponding support to generate a space between each first cylindrical material and the corresponding second cylindrical material.
[0007]
7. Ramp feeder support according to claim 6, CHARACTERIZED by the fact that a first spacing range and a second spacing range to limit a switching interval of the lever is further arranged above the first connection panel; and, when the lever is in the first spacing range, it will be in the first in the switching position; when the lever is in the second spacing range, it will be in the second switching position.
[0008]
8. Ramp feeder support, according to claim 7, CHARACTERIZED by the fact that an inclined rail corresponding to the cylindrical material and facilitating the downward sliding of the cylindrical material is arranged on each of the ramps, respectively.
[0009]
9. Ramp feeder support, according to claim 8, TERIZADO CHARACTER due to the fact that lubricating oil is coated on a portion of each inclined rail in contact with the cylindrical material.
[0010]
10. Ramp feeder support according to any of claims 6 to 8, CHARACTERIZED by the fact that the cylindrical material is an engine cylinder liner.

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法律状态:
2017-08-15| B08F| Application fees: dismissal - article 86 of industrial property law|

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2017-11-28| B08G| Application fees: restoration|

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2018-07-03| B08F| Application fees: dismissal - article 86 of industrial property law|

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2018-09-11| B08G| Application fees: restoration|

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2018-11-21| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|

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2019-01-02| B25D| Requested change of name of applicant approved|Owner name: ANHUI JIANGHUAI AUTOMOBILE GROUP CORP., LTD. (CN) |

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2019-12-10| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

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2020-09-15| B09A| Decision: intention to grant|

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2020-12-01| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 06/09/2013, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

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申请号 | 申请日 | 专利标题

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CN201310167643.0A|CN103231914B|2013-05-08|2013-05-08|Material loading support with slide|

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CN201310167643.0|2013-05-08|

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PCT/CN2013/083064|WO2014180083A1|2013-05-08|2013-09-06|Slide feeding support|

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