| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 油漆抓料运输一体化装置 | CN201510879253.5 | 2015-12-05 | CN105417154A | 2016-03-23 | 朱森忠 |
| 本发明申请公开了油漆抓料运输一体化装置,包括输送带和钳爪,输送带上连接有棘轮,棘轮下设有第一摆杆,第一摆杆上设有转杆,第一摆杆滑动连接在转杆上,转杆铰接有与棘爪,棘爪上连接有第一弹性件;第一摆杆左侧设有第二摆杆,两摆杆之间设有第二弹性件,第二摆杆上方设有固定滑槽,固定滑槽内设有齿条,齿条上铰接有拉杆,拉杆滑动连接在第二摆杆上,齿条啮合有齿轮,钳爪连接在齿轮上;第一摆杆右侧设有第一推块,第二摆杆左侧设有第二推块,第二推块上连接有气缸和推杆,推杆上啮合有连动齿轮,连动齿轮啮合在第一推块上;本装置通过气缸的控制和连体结构的设置,简化了结构,降低了配合难度。 | ||||||
| 2 | 一种水平输送装置 | CN201610750644.1 | 2016-08-29 | CN106429230A | 2017-02-22 | 尹兆京; 曹志刚; 张玉喜 |
| 本发明涉及一种水平输送装置,包括带传输机构、水平导轨架和间歇式驱动机构,间歇式驱动机构与带传输机构相连;带传输机构包括输送带以及左带轮、右带轮,左带轮、右带轮均安装在水平导轨架上,间歇式驱动机构包括棘轮,棘轮的棘齿下端抵合有推杆,推杆左端具有套板架,套板架内部安装有弹簧,套板架后侧具有导轨架,导轨架下部安装有归位拉簧,套板架左侧具有传动电机,传动电机连接有长杆。本发明通过长杆对套板架的驱动、归位拉簧对套板架的弹性限定、弹簧对推杆的弹性挤压,可间歇式驱动棘轮进行单向旋转,即使得输送带进行停歇式传动,进而能够方便各道装配工序对输送带上的载体进行装配。 | ||||||
| 3 | 一种单向可调链式输送机构 | CN201510150084.1 | 2015-03-31 | CN104773444A | 2015-07-15 | 杨云林 |
| 本发明提供了一种单向可调链式输送机构,属于自动化加工技术领域;它解决了现有输送链输送工件时易出现紊乱、遗漏的技术问题;一种单向可调链式输送机构,包括链板架以及传动轴,在链板架上设置有输送链,传动轴上设置有棘轮,棘轮上具有多个齿块,还包括有传动装置,传动装置推动棘轮转动并使输送链移动;止动装置,齿块与止动装置接触时,棘轮停止转动,传动装置推动止动装置运动并脱离齿块时,棘轮能继续转动;调节装置,其与链板架相连并能使链板架在传动轴上移动;本发明的有益效果为:通过传动装置使棘轮转动,使得工件能有序的进行输送,止动装置在棘轮停顿状态下使棘轮双向制动,保证了工件输送的精度。 | ||||||
| 4 | Conveyor ratcheting apparatus | US09628890 | 2000-07-31 | US06443296B1 | 2002-09-03 | Jason A. McNamara; Gerald A. Brown |
| A conveyor ratcheting apparatus for advancing a conveyor in one direction in discrete steps. A ratchet arm is pivotally supported on a frame. A ratchet actuator drives the arm reciprocally between first and second positions. A ratchet wheel is rotatably supported on the frame. Circumferentially spaced teeth are formed around an outer rim of the ratchet wheel. The ratchet arm sequentially engages each of the teeth and causes the ratchet wheel to rotate in one direction each time the ratchet arm engages one of the teeth and moves toward the second position from the first position. The ratchet arm disengages whenever the ratchet arm moves from the second position back toward the first position. A detent engagement member is supported on the frame and is moveable into engagement with one of four stop detents in the ratchet wheel when the first ratchet arm is in the second position. The detent engagement member positively holds the ratchet wheel and allows ratchet wheel rotation out of the second position only after being disengaged. An actuator is operatively connected to the detent engagement member and disengages the detent engagement member in response to ratchet arm movement and before the ratchet wheel is rotated out of the second position. | ||||||
| 5 | Conveyor system with gate reader assembly | US11866752 | 2007-10-03 | US07673736B2 | 2010-03-09 | Dan Kowalchuk |
| A gate reader assembly for positioning and identifying articles carried by conveyor systems. The gate reader assembly including a main housing for attachment to said conveyor adjacent a conveyor line of the conveyor; a sprocket rotatably mounted on said housing and having a plurality of gullets formed thereon, each gullet configured for receiving one of said articles. In addition, said sprocket is configured to rotate about an axis normal to said conveyor line via a horizontal force from said articles such that said rotating sprocket is configured to receive and move said articles along said conveyor line. The gate reader assembly additionally includes a detent mechanism disposed on the housing and slidably coupled to the sprocket for releasably restraining said sprocket from rotation thereby inhibiting said article against further movement along said conveyor line. The gate reader assembly further includes a reader subassembly for mounting on said housing and for identifying said articles when restrained by said detent mechanism. | ||||||
| 6 | Reciprocating gravity conveyer | US69621957 | 1957-11-13 | US2970682A | 1961-02-07 | FISK ROBERT W |
| 7 | CONVEYOR SYSTEM WITH GATE READER ASSEMBLY | US11866752 | 2007-10-03 | US20090090597A1 | 2009-04-09 | Dan Kowalchuk |
| A gate reader assembly for positioning and identifying articles carried by conveyor systems. The gate reader assembly including a main housing for attachment to said conveyor adjacent a conveyor line of the conveyor; a sprocket rotatably mounted on said housing and having a plurality of gullets formed thereon, each gullet configured for receiving one of said articles. In addition, said sprocket is configured to rotate about an axis normal to said conveyor line via a horizontal force from said articles such that said rotating sprocket is configured to receive and move said articles along said conveyor line. The gate reader assembly additionally includes a detent mechanism disposed on the housing and slidably coupled to the sprocket for releasably restraining said sprocket from rotation thereby inhibiting said article against further movement along said conveyor line. The gate reader assembly further includes a reader subassembly for mounting on said housing and for identifying said articles when restrained by said detent mechanism. | ||||||
| 8 | Intermittently-driven belt conveyor | US247438 | 1988-09-06 | US4872548A | 1989-10-10 | Satoru Masuda; Hiroyuki Ishigami |
| A belt conveyor having two rollers supported at opposite ends of a support frame and a belt stretched between the rollers, in which a cylinder having an operating rod reciprocatable in a moving direction of the belt is mounted on the support frame; a drum including a one way clutch mechanism therein and having a sprocket wheel fixed therearound is fitted around a transmission shaft integral with one of the rollers; a chain is wound around the sprocket wheel mounted around the drum including the one way clutch mechanism therein; and the chain is connected to the operating rod of the cylinder.When the operating rod of the cylinder reciprocates, the chain is reciprocated by the operating rod. This reciprocatingly rotates the sprocket wheel mounted on the drum in which the one way clutch mechanism is installed. The rotation in a predetermined direction is transmitted, through the one way clutch mechanism, to the transmission shaft of the roller around which the belt is wound. The roller then rotated intermittently in one direction and the belt is fed intermittently. | ||||||
| 9 | Double ratchet conveyor drive mechanism | US39503273 | 1973-09-07 | US3860108A | 1975-01-14 | FARFAGLIA SILVIO T |
| First and second ratchets are oppositely mounted on a shaft for rotation with the shaft. A reciprocating drive element periodically moves ratchet drive pawls into driving engagement with the teeth of the first ratchet. A brake arm is pivotally mounted to move into engagement with a tooth of the second ratchet. A resiliently mounted striker arm is moved into actuating contact with the brake arm by the reciprocating drive element as the first ratchet approaches the end of its forward motion to cushion the deceleration of the first ratchet and to accurately position the shaft at the end of each forward motion. An indexing clutch can be employed with the double ratchet drive to provide indexing only in proper relationship with the shaft.
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| 10 | JPS6129283B2 - | JP19235581 | 1981-11-30 | JPS6129283B2 | 1986-07-05 | FUJIHIRA NOBUO; UCHAMA ISAO |
| 11 | Ratcheting drive for conveyors | EP01306023.1 | 2001-07-12 | EP1177992A1 | 2002-02-06 | McNamara, Jason A.; Brown, Gerald A. |
A conveyor ratcheting apparatus for advancing a conveyor in one direction in discrete steps. A ratchet arm is pivotally supported on a frame. A ratchet actuator drives the arm reciprocally between first and second positions. A ratchet wheel is rotatably supported on the frame. Circumferentially spaced teeth are formed around an outer rim of the ratchet wheel. The ratchet arm sequentially engages each of the teeth and causes the ratchet wheel to rotate in one direction each time the ratchet arm engages one of the teeth and moves toward the second position from the first position. The ratchet arm disengages whenever the ratchet arm moves from the second position back toward the first position. A detent engagement member is supported on the frame and is moveable into engagement with one of four stop detents in the ratchet wheel when the first ratchet arm is in the second position. The detent engagement member positively holds the ratchet wheel and allows ratchet wheel rotation out of the second position only after being disengaged. An actuator is operatively connected to the detent engagement member and disengages the detent engagement member in response to ratchet arm movement and before the ratchet wheel is rotated out of the second position. |
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| 12 | Endless conveyor | JP15261283 | 1983-08-23 | JPS5957808A | 1984-04-03 | PIITAA HENRII KUTSUKU; JIYON REONAADO REINAA; NIIGERU RARUFU GURIINUTSUDO |
| 13 | Intermittent rotary driving gear of aligning device | JP19235581 | 1981-11-30 | JPS5895019A | 1983-06-06 | FUJIHIRA NOBUO; UCHIYAMA ISAO |
| PURPOSE:To operate rapid indexing in a short time, by integrally mounting two ratchet gears reversely toothed to each other for feed and brake action to a common rotary shaft an disengageably setting feed and brake ratchets engaged to each gear. CONSTITUTION:A piston shaft 750 is moved to the direction of an arrow head (a) by a pneumatic control cylinder 75 to turn a feed ratchet main unit 740 with a supporting shaft 13 as the center and allow the unit to ride across a ratchet tooth 72. On the other hand, a brake ratchet 77 is turned by a corresponding angle with a supporting shaft 17 as the center through an actuator pin 756 fixed to the shaft 750. A feed rathcet 74 is engaged to the next positioned tooth, under a condition the ratchet 77 is lifted from a ratchet gear 773, the cylinder 75 is reversely operated to move forward the ratchet 74 and rotate the gear 72, here a reverse rotation preventing pawl 761 is moved backward. The ratchet 77 is engaged to a tooth in the next position of a rathcet gear 73 to stop rotary motion of the gear 73 while absorptively relaxing shock force. | ||||||
| 14 | belt conveyor | JP13102086 | 1986-06-05 | JPH0749324B2 | 1995-05-31 | 覚 増田; 博行 石神 |
| 15 | Belt conveyer | JP13102086 | 1986-06-05 | JPS62285808A | 1987-12-11 | MASUDA SATORU; ISHIGAMI HIROYUKI |
| PURPOSE: To effect quite easily synchronized intermittent feeding operation of a machine and a belt by intermittently feeding the belt by a linearly driven cylinder. CONSTITUTION: In rotation of a drum 60, a roller 25 on the driving side and a transmission shaft 28 tend to remain unmoved due to inertia, and because of relative displacement, needle rollers 63 are moved to retaining portions 62b of recesses 62 and held tightly between the retaining portions 62b and the surface of the transmission shaft 28 under the wedge action to complete firm engagement between the transmission shaft 28 and the drum 60. Thus, the transmission shaft 20 is driven for rotation by the drum 60, causing feeding of a belt 30. When the belt 30 is fed through a predetermined stroke and an actuating rod 41 of a cylinder 40 is projected out, air supply is stopped by an air control mechanism and air supplied into the cylinder 40 is released, so that the actuating rod 41 is retracted from the projected position under the urging force of a spring member incorporated in a cylinder portion 42. Then, the air control mechanism refeeds air into the cylinder portion 42 of the cylinder 40, so that the actuating rod 41 is projected to feed the belt 30. COPYRIGHT: (C)1987,JPO&Japio | ||||||
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