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 | 一种调节型斜槽槽架 | CN201410118412.5 | 2014-03-27 | CN104944110A | 2015-09-30 | 周长军 |
本发明公开了一种调节型斜槽槽架,它包括基础预埋板、托架和支撑管,所述支撑管的一端与基础预埋板相连,支撑管的另一端与托架相连,所述的支撑管为电动伸缩杆。 本发明结构简单、操作方便,减轻了劳动强度,提高了工作效率。 | ||||||
2 | 三角胶贴合机中供料系统的导轨架 | CN201610032149.7 | 2016-01-18 | CN105501798A | 2016-04-20 | 李文君 |
本发明公开了一种三角胶贴合机中供料系统的导轨架,包括安装架、滑轨、滑块、丝杆、导轨、旋转把手、止转机构和设有螺纹孔的支承座,两滑轨相互平行地设于安装架上,两滑块分别滑动连接在两滑轨上,丝杆和导轨位于两滑轨之间,支承座螺纹连接在丝杆上,且一端与导轨滑动连接,旋转把手和止转机构分别连接在丝杆的两端,止转机构包括第一伞齿轮、第二伞齿轮、转轴、止转座和止转销,第一伞齿轮与丝杆固定连接,且与第二伞齿轮相啮合,第二伞齿轮与转轴固定连接,转轴穿过止转座并与止转销相铰接。本发明结构简单,定位效果好,使用方便,便于操作。 | ||||||
3 | シュート旋回規制機構 | JP2013534079 | 2013-04-01 | JPWO2014030381A1 | 2016-07-28 | 清水 弘之; 弘之 清水 |
シュート旋回規制機構(100)は、シュート(10)が設置され、ミキサ車(1)の車体(2)に対して回転可能に設けられる回転軸(20)と、車体(2)に設けられ、回転軸(20)を挿通させる挿通孔(121)と、挿通孔(121)の一部を切り欠く切欠部(122)とを有するブラケット(120)と、挿通孔(121)の内径を調整可能なように切欠部(122)にわたって設けられ、挿通孔(121)の内径を小さくすることで回転軸(20)の回転を規制するように構成された内径調整軸(140)と、回転軸(20)とともに回転するように設けられ、係合溝(133)を有する回転体(130)と、内径調整軸(140)に回動可能に設けられ、係合溝(133)に係合することで回転軸(20)の回転を規制するロックレバー(150)と、を備える。 | ||||||
4 | WANDUNG ZUR AUFNAHME VON SCHLEISSPLATTEN UND VERFAHREN ZUM WECHSELN VON SCHLEISSPLATTEN | EP15165859.8 | 2015-04-30 | EP2947031B1 | 2016-11-16 | Kahrger, Rainer; Dr. Dilefeld, Mario; Llanos, Carlos |
5 | CHUTE SWIVEL REGULATING MECHANISM | EP13824473.6 | 2013-04-01 | EP2749452B1 | 2016-05-18 | SHIMIZU, Hiroyuki |
6 | CHUTE SWIVEL REGULATING MECHANISM | EP13824473 | 2013-04-01 | EP2749452A4 | 2015-08-05 | SHIMIZU HIROYUKI |
7 | Cement pouring device | US14810764 | 2015-07-28 | US09523206B2 | 2016-12-20 | Dominic Charles Frisina |
A cement pouring device may include an elongate vessel supported by a frame. The frame may enable the vessel to cooperate with and be transported by a vehicle such as a skid steer. Due to the elongate shape of the device, it may be particularly suitable for depositing a cement charge at a distal pour site that would be difficult to access otherwise, or may only have been accessible manually with a conventional wheel barrow and shovel. This may be particularly advantageous in smaller pour jobs where equipment such as cement pumps are impractical or economically infeasible. | ||||||
8 | Debris chute | US15224983 | 2016-08-01 | US09475641B1 | 2016-10-25 | Nigel Brandon |
Devices, systems and methods for debris removal are provided comprising a flexible chute having a mouth, a body, and an exit. The flexible material can be collapsible. The flexible material is rip-stop nylon. When the chute is used, a user can take the chute in a collapsed configuration and scale a tree for pruning. Upon reaching a top area of the tree, the user secures the chute to the tree and allows the body and exit portions to deploy by releasing those sections. Gravity allows the body and exit portions to fall to towards the ground. As debris is removed from the tree, it is placed into the mouth and passes through the body and out exit. If desired the exit can be placed in other desired locations such as proximate to a wood chipping device for shredding debris or proximate to a truck bed, dump box or trailer for catching the debris as it exits the chute. Thus, the chute can safely collect, control and direct debris generated from pruning vegetation. | ||||||
9 | Modular chute system | US14487683 | 2014-09-16 | US09296562B1 | 2016-03-29 | John Peter Van Bogaert |
A modular chute system for providing convenient access to an inside cavity of the chute system from a variety of locations to enhance serviceability features a chute channel formed from a plurality of rigid structural panels. The chute channel features an open chute top, an open chute bottom, a chute side wall, and the chute inside cavity. Each structural panel features a panel interior surface, a panel exterior surface, and panel edges. An edge flange is disposed on each panel edge encompassing an entire panel outer periphery. Upon removal of any single structural panel, the chute channel is self-supporting and non-collapsing. | ||||||
10 | Cement Pouring Device | US14810764 | 2015-07-28 | US20160024806A1 | 2016-01-28 | Dominic Charles Frisina |
A cement pouring device may include an elongate vessel supported by a frame. The frame may enable the vessel to cooperate with and be transported by a vehicle such as a skid steer. Due to the elongate shape of the device, it may be particularly suitable for depositing a cement charge at a distal pour site that would be difficult to access otherwise, or may only have been accessible manually with a conventional wheel barrow and shovel. This may be particularly advantageous in smaller pour jobs where equipment such as cement pumps are impractical or economically infeasible. | ||||||
11 | Concrete wall chute | US13765728 | 2013-02-13 | US09233795B2 | 2016-01-12 | Richard A. Gustafson |
A chute for use in pouring concrete into a wall form includes a floor with front, rear and side edges; sides connected to the floor along each of the side edges and projecting upward from the floor; a first flange connected to the floor along the front edge and projecting downward therefrom; and a second flange connected to the floor and projecting downward therefrom. The flanges are substantially parallel and spaced apart by a distance greater than a thickness of a wall form panel; accordingly, placing the chute on top of the wall form panel with the flanges respectively interior and exterior to the wall form securely aligns the chute with the wall form panel. The flanges project downward at approximately a 45° angle. Concrete deposited into the chute is funneled toward the front, and flows off the front edge into the wall form. | ||||||
12 | Combination Weigher | US14540636 | 2014-11-13 | US20150226600A1 | 2015-08-13 | Kohei Kikuchi; Kazuo Takayanagi |
A combination weigher comprises hoppers divided into a first group and a second group; an inner funnel which collects objects discharged inward from the hoppers and discharges the objects through an opening; a first outer funnel which is placed along a first side of the inner funnel, and collects objects discharged outward from the hoppers in the first group; a second outer funnel which is placed along a second side of the inner funnel, and collects objects discharged outward from the hoppers in the second group; and a partition plate which separates an inner region of the inner funnel into a first region corresponding to the hoppers in the first group and a second region corresponding to the hoppers in the second group, and separates the opening into a discharge outlet corresponding to the first side and a discharge outlet corresponding to the second side. | ||||||
13 | Discharge chute for concrete | US10402271 | 2003-03-28 | US20030226737A1 | 2003-12-11 | Thomas P. Quigley; Scott L. Steckling; Troy R. Scott |
A light weight but strong extension chute for discharging concrete from a concrete transportation vehicle or a cement mix plant. An extension concrete chute comprising a chute assembly including a frame having a first end and a second end, with each end including an arcuate end angle member maintained in a spaced apart relationship by a pair of chute rails attached to each end angle member. The chute assembly also includes a chute skin mounted within the frame and attached to each chute rail and each end angle member, wherein the chute assembly defines a longitudinally elongated concave chute. A removable liner is mounted within the chute assembly adjacent to the chute skin. Each chute rail is provided with a hook mounted on each chute rail proximate the second end of the chute assembly and a bracket assembly mounted on each chute rail proximate the first end of the chute assembly. | ||||||
14 | Parts handling device for press | US09593052 | 2000-06-13 | US06511276B1 | 2003-01-28 | Anthony Matz; Jianlai Qin |
In a parts handling device and method for handling parts having a central aperture output from a press, the curved slide is provided extending in sloping fashion with its upper end being positioned at the press and its lower end at a location for unloading accumulated parts. A frame is provided for mounting first, second and third clamp assemblies along the curve slide. First, second and third mounting elements are provided beneath the curve surface of the slide in space relationship from one another in alignment with the clamp assemblies. When only two of the clamp assemblies are closed, the tube is rigidly held in its slope position. The control system is provided for selectably opening and closing the first, second and third clamp assemblies in a sequence which permits the parts which are accumulating in front of the first or second clamp assemblies to pass through to the third clamp assembly and eventually to an offloading station when the third clamp assembly is open. | ||||||
15 | 組合せ秤 | JP2014021892 | 2014-02-07 | JP6223849B2 | 2017-11-01 | 菊池 孝平; 高柳 一夫 |
16 | 組合せ秤 | JP2014021892 | 2014-02-07 | JP2015148526A | 2015-08-20 | 菊池 孝平; 高柳 一夫 |
【課題】 簡単な構成で、排出箇所を3箇所にする使用と4箇所にする使用とが可能になる組合せ秤を提供する。 【解決手段】 環状に列設され、被計量物を環状の内側方向と外側方向とへ択一的に排出する複数のホッパ4と、ホッパ4から内側方向へ排出される被計量物を集合させて下端の開口部8eから排出する漏斗状の内ファネル8と、一方側のグループのホッパ4から外側方向へ排出される被計量物を集合させて下端に設けられた排出口9eから排出する第1の外ファネル9aと、他方側のグループのホッパ4から外側方向へ排出される被計量物を集合させて下端に設けられた排出口9eから排出する第2の外ファネル9bと、内ファネル8の内側に配設され、内ファネル8の内側領域を一方側の領域と他方側の領域とからなる2つの領域に仕切るとともに、開口部8eを一方側の排出口と他方側の排出口とに仕切るための仕切板8pとを備えている。 【選択図】 図2 |
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17 | Shoot the turn restriction mechanism | JP2013534079 | 2013-04-01 | JP5374670B1 | 2013-12-25 | 弘之 清水 |
シュート旋回規制機構(100)は、シュート(10)が設置され、ミキサ車(1)の車体(2)に対して回転可能に設けられる回転軸(20)と、車体(2)に設けられ、回転軸(20)を挿通させる挿通孔(121)と、挿通孔(121)の一部を切り欠く切欠部(122)とを有するブラケット(120)と、挿通孔(121)の内径を調整可能なように切欠部(122)にわたって設けられ、挿通孔(121)の内径を小さくすることで回転軸(20)の回転を規制するように構成された内径調整軸(140)と、回転軸(20)とともに回転するように設けられ、係合溝(133)を有する回転体(130)と、内径調整軸(140)に回動可能に設けられ、係合溝(133)に係合することで回転軸(20)の回転を規制するロックレバー(150)と、を備える。 | ||||||
18 | Chute attitude control device | JP2754983 | 1983-02-23 | JPS59153729A | 1984-09-01 | KAWASAKI YOSHINAO |
PURPOSE:To improve safety of operation for shooting through a chute in a shute supported by a rising and falling boom by fixing the chute to the boom in such a manner as to freely incline and keeping constant an angle of inclination of the chute in a vertical line, interlocking with an angle of rising and falling the boom. CONSTITUTION:A change-over switch 25 is connected to B, and a chute angle setting device 28 is operated by a lever 35 to contract a motor-driven cylinder 3 through a relay control panel 26 and a motor 3a, so that the chute is inclined at an angle phi0 of inclination. When with loading and unloading, a boom is turned to draw up the chute, the switch 25 is switched to A to be connected to a comparator 24 side, thereby stopping the shute angle setting operation of a lever 25. Thus, an expansion stroke 20 of the motor-driven cylinder 3 is output as an angle theta0 of inclination of the chute at a connecting point 29 through a function generator 23 and a memory device 31, and compensated by an angle psi of inclination of the boom to be input to a connecting point 36, thereby driving the motor 3a. In this arrangement, the angle of the chute is kept constant to ensure safety of operation. | ||||||
19 | FLEXIBLE FUNNEL ELEMENT FOR MATERIAL GUIDE CHUTE | EP15738605.3 | 2015-07-09 | EP3319888A1 | 2018-05-16 | MALMBERG, Mats; HENSSIEN, Adrien |
A flexible funnel element attachable to a holder funnel element to form a funnel section of a material guide chute. The funnel elements include releasable connections to able the flexible elements to be interchanged at the holder elements when worn. Due to the modular construction of the funnel sections, the guide chute has component parts of different materials such that selected components may be optimized for wear resistance and maintaining the free flow of material through the chute. | ||||||
20 | WANDUNG ZUR AUFNAHME VON SCHLEISSPLATTEN UND VERFAHREN ZUM WECHSELN VON SCHLEISSPLATTEN | EP15165859.8 | 2015-04-30 | EP2947031A1 | 2015-11-25 | Kahrger, Rainer; Dr. Dilefeld, Mario; Llanos, Carlos |
Schleißplatten werden häufig an stark reibungsbeanspruchten Bauteilen eingesetzt, insbesondere in der Fördertechnik. Die erfindungsgemäße Wandung (2) zur Montage der Schleißplatten (1) weist verschiedene Öffnungen auf. Diese Öffnungen dienen der Montage und der Halterung der Schleißplatten von der Außenseite. Das heißt, dass die Schleißplatten zur Montage durch die Wandung hindurchgeführt und dann befestigt werden. Zur Montage der Schleißplatten ist als Öffnung in der Wandung ein Spalt (22) vorgesehen, der sich an einer Kante der Position der zu montiertenden Schleißplatte erstreckt. In rechtem Winkel vom Spalt erstrecken sich zwei Schlitze (23), die in Position und Abmessungen den Bolzen (11) an der Rückseite der Schleißplatte entsprechen. Das erfindungsgemäße Verfahren zur Montage von Schleißplatten an einer zuvor beschriebenen erfindungsgemäßen Wandung hat folgende Verfahrensschritte. In einem ersten Schritt a) erfolgt die Montage einer oder mehrerer Einführhilfen (11) an einem oder mehreren spaltnahen Befestigunsgelementen (11) nachdem die Befestigusmuttern hier entfernt worden Im darauf folgenden Schritt b) erfolgt das Einführen der Schleißplatte in den Spalt (22), soweit, bis die Befestigunsgelemente, die nicht spaltnah sind, die Schlitze (23) passiert haben. Anschließend erfolgt im Schritt c) das Ankippen der Schleißplatte im Spalt, derart, dass die spaltnahen Befestigunsgelemente in die Schlitze eintreten und die Schleißplatte vollständig durch die Wandung geführt werden kann. Im Schritt d) erfolgt dann das Einführen der Befestigungselemente, die nicht spaltnah sind, in die dafür vorgesehenen Öffnungen der Wandung. In einem abschließenden Schritt e) erfolgt das Arretieren der Befestigunsgelemente, die nicht spaltnah sind in den Öffnungen und Lösen der Einführhilfen von den spaltnahen Befestigungselementen. Vorteilhaft muss erfindungsgemäß ein Bauteil, z.B. eine Schurre, nicht mehr betreten werden, um die Schleißplatten zu wechseln. |