前苏联专利SU1026646A3 Ship staircase

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权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
A ladder is provided which is especially adapted for shipboard use and which is safe and comfortable to use, of relatively light weight and occupying relatively small floor and overhead space. The ladder comprises a single stringer disposed between upper and lower deck or floor levels at a predetermined angle of inclination, and having an array of half treads on each side of the stringer, each array being vertically spaced from the other along the length of the stringer. The half treads are affixed to and extend from the respective sides of the stringer and each include an integral outwardly extending portion which terminates in a plane forward of a plane passing through the front edges of the treads. Handrails are disposed in this forward plane and are affixed to and supported by the outwardly extending tread portions.
公开号:SU1026646A3
申请号:SU802874104
申请日:1980-01-21
公开日:1983-06-30
发明作者:М.Лейпейр Джеймс
申请人:Дзе Лейтрам Корпорейшн (Фирма)；
IPC主号:

专利说明:

2. Internal ladder according to claim 1, differing in that the support beam is set at an angle to the horizon, greater than 50,
3. Internal ladder according to claim 1, characterized in that each of the brackets is made in a kriylinear manner and is located inside the ladder.
4. Internal ladder according to claim 1, characterized in that each of the said bearing brackets is made in one piece with the steps.
5. An internal ladder according to claim 1, characterized in that each of the handrails is made of a tubular form with a grip area and is provided with a fabric strip attached to it with one side, the other side of which is connected to the ends of the support brackets.
6. An internal ladder according to claim 1, differing in that each of the handrails is made with a straight, linear section located above the steps and with a lower section bent towards the support beam, fitted with an ogr beam attached to it and to the lower end support.
7. Internal ladder according to claim 1, characterized in that each carrier bracket is inclined to the step support platform.
8. An internal ladder according to claim 1, characterized in that the handrails are provided with a protective cap attached thereto - a visor for a pedestrian located along them
on the part of their length.
9. Internal ladder according to claim 1, characterized in that each of the supporting brackets is located in the same plane with the supporting platform of its degree.
I
The invention relates to shipbuilding, in particular to internal ladders of ships.
A ship's internal ladder containing one central support beam, mounted obliquely between the upper and lower stages, is known. On Kotopo, steps are fixed, which have support sites for the Stupas, .- outside the specified support beam and supporting brackets with fixed handrails 1.
However, the well-known internal ladder is characterized by: low reliability B lack of operational safety.
The purpose of the invention is to increase the reliability and safety in the operation of the ship’s internal ladder.
The goal is achieved by the fact that in the internal ladder of the vessel the bearing brackets are fixed on the steps installed in a staggered order on both sides of the tent beam located between two handrails parallel to the latter, and X1 each supporting bracket is oriented outward from the specified support platform, its end It lies in a plane located above and parallel to a plane passing through the edges of the supporting platforms, and is attached to the corresponding handrail.
In addition, the support beam is set at an angle to the horizon, large SO.
Each of the brackets is curved and located inside the ladder.
Each of the mentioned bearing brackets is made in one piece with steps ksh.
Each of the handrails is tubular in shape with a hand grip area and is provided with a fabric strip attached to it with one side, the other side of which is connected to the ends of the supporting kroshtein.
The curb of the handrails is made with a straight line section located above the steps and with a lower section bent to the side of the beam and equipped with a support attached to it and to the lower end of the support beam.
Each bearing bracket is inclined to the support stand.
The handrails are provided with a protective cover for them with a protective cover 1 - with a visor for a pedestrian, located along them for a part of their length.
Each of the non-SUSHh brackets is located in the same plane with the support platform of its degree.
FIG. 1 isovrgiken internal ladder of the vessel, general view; in fig. 2 the same, schd front; in fig. 3 is a view along arrow A in FIG. 2, in FIG. 4 cross section obtained
extrusion of handrails used in the ladder shown in FIG. 1-3; in fig. 5 - the second variant of the internal ladder; in fig. b - the third version of the ladder; Fig. 7 - the same, partial view (with a labor reference beam); in fig. 8 - the fourth version of the internal ladder, o6a | iy view; in fig. 9 - the same, side view of the ladder; “And FIG. 10 is a view along arrow B in FIG. 9; in fig. 11 - fifth variant of the ladder, partial view, axonometrics; in fig. 12 - the same, side view; in fig. 13 - a ladder with a casing surrounding it; in fig. 14 - the sixth version of the ladder, a general view with a partial digging; Fig 15 is the same, top view; . 16 - the seventh version of the ladder, in which the whole-molten structure is used, view p with partial digging; in fig. 17 - gangway when descending a pedestrian; in fig. 18 the same, when lifting; in fig. 19 position on the pedestrian's ladder when raising hands using it; in fig. 20 - the same, the dotted line shows the position of the pedestrian's knee (along the arc of a circle) at the moments of ascent; in fig. 21 - pedestrian position on the ramp during the descent from the latter; FIG. 22 is a projection from above onto the ladder of FIG. 21 (the positions of the foot of the pedestrian are shown in dotted lines), in FIG. 23 - the position of a pedestrian when climbing a ladder inclined to the horizon at an angle in FIG. 24 is the same, seen from above in FIG. 23 (the dotted line shows the position of the foot of the pedestrian); in fig. 25 shows the position of the caves when descending a ladder that has an angle of inclination to the horizon in FIG. 26 is the same, top view (the positions of the foot of the pedestrian are shown with a dotted line), in FIG. 27 is a variant of using a ramp when a pedestrian is being lowered (elbows lie on the rails of the handrail); in fig. 28 - the same, top view.
The ship's internal ladder (Figs. 1-3) contains one bowstring or central support beam 1 of the chassis, located between the lower deck 2 and the upper deck or ceiling 3. To attach the lower end of the support beam 1 to the deck 2, use a mounting plate 4. Along the sides of the support beam 1 there are alternately staggered a number of steps 5 at equal distances along its length attached to the support beam 1. Each of the steps 5 includes a support platform 6 protruding toward the upper deck, having pho a rum corresponding to the foot of a person climbing or descending Tpanj. Ka ada - step 5 also has an outward
bearing bracket 7 attached to the respective handrails 8 and 9, one located on each side of the support beam 1. The brackets 7 are located between two vertical planes passing through the handrails 8 and 9, which are bent down and fixed to the lower ends of Q on the support plate 4 to minimize floor space and are designed as rail 10 at their upper ends. The lower ends of the railing are bent towards the supporting beam 1. The railing 10 may have struts 11. Thus, the entire structure of the ramp consists of one bowstring - beam 1, alternating with a series of steps 5 and two handrails 8 and 9, forming the open structure of ramles, not needing additional braces. The handrails 8 and 9 are located at this distance.
0 in front of steps 5, so that the person who uses the number one torsh feels safe.
Beam 1 (fig. 1-3) has the shape of a pipe to which steps 5 are attached, for example, by welding. The handrails 8 and 9 are made of the element obtained by extrusion (Fig. 4). The handrail includes a tubular form. we have a gripping area of 12 for hands and
0 partially surrounding tissue strip 13, one edge of which D is attached to the gripping section 1 to section 12. The outer side 6 of the tissue strip has a thicker
5 cross section. The outer ends of the brackets of 7 steps are welded or attached in any other way to the side b of the fabric strip. The brackets of 7 steps are located with Yaklon at an angle
0 up relative to the reference area. Doc b and are attached to the corresponding handles 8 and 9 approximately at right angles to them. The fabric strip 13 obtained by extrusion of the mandrel5 serves as a guide using the ladder, since this fabric strip forms a flat, continuous surface facing the body of the person using
0 ladder. In this embodiment, the brackets of the 7 steps are curved, forming a V-shaped passage through which a person rises or falls along the ladder.
five
The ladder variant shown in FIG. 5, differs from the previous one in tube-shaped handrails 14 and 15. These handrails 14 and 15 can
0 can be made from a standard tubular billet and they can be shaped, after which they are cooked or attached in some other way to 7-step solid cores and to the upper and lower supports
5 main surfaces (upper and lower decks 3 and 2). The ladder variant (third), shown in FIG. 6, includes a rectangular element 16 of the supporting bk and steps 17, which include leg supports 18 and outwardly protruding carrier arms 19 located in the same plane as the support platforms 18 associated with them. Handrails 20 and have a tubular structure. Bowstring - supporting beam 22 may also have a tubular shape, as shown in FIG. 7. The pipe structure has lower resistance to wind and waves on board and is often respectful. In the embodiment of the ladder shown in FIG. 8-10, the tubular handrails 20 21 are located along a straight line along the entire length of the ladder, as in FIG. 6, and are connected to an upper railing 23, to which a frame structure 24 is attached. Bowstring - supporting beam 25 is made of a T-shaped profile having apertures in length to remove waste material and reduce the weight of the structure. Each stage of the stump 26 has a flat shape and is located in the same plane with the bearing bracket 27. FIG. Figures 11 and 12 depict a different structure, in which a strut 28 is located between and with the corresponding bracket arm 27 and a corresponding handrail next to the supporting platform 6. In this embodiment, the handrails 20 and 21 are also bent near the lower end and attached near the lower end of the string - supports. beam 25, for example, to support plate 4. In those cases when the handrail is used in positions open to strong winds, or subject to other environmental factors, or when fire safety standards are required, the ladder may have full or a partial hood visor 29, as shown in FIG. 1 The casing - visor 29 can be made of any acceptable material and have a sheet or frame structure attached to the outer parts of the steps. The hood-visor 29 must be attached in such a way that handrails can be used. In the embodiment shown in FIG. 14 and 15, alternating rows of stages 31 are attached to the strut — supporting beam 30. There are tubular handrails 32 and 33, which are attached to the respective rows of stages by means of vertical elements 34, each of which is attached by an upper end to a corresponding handrail, and lower the end to the corresponding stage 31. Each element 34 passes through a hole in the corresponding stage inwards to join with the string 30. The ladders can be used in pairs to have two drain ways for two-way traffic. So any of the options described here can be used, as a rule. The two ladders are located with a sufficient gap between them so that pedestrians walking towards each other can use each their own handrails. The ladder can also be made solid cast, as shown in FIG. 16. In this embodiment, the ladder is made of fiberglass or other suitable material that can be molded into a solid form or made in some other way to obtain a solid structure. This structure includes a central wall 35, which serves as a single string, the supporting beam. On opposite sides of the wall 35 are alternating rows of steps 36, made at the same time, each of which forms one whole with the next step, connected with it by means of a vertical panel 37. The outer walls 38 and 39 are made integral with panels 37 and steps 36 and end at the front edges in handrails 40 and 41. The gangway can be located relatively steep, remaining safe and comfortable to use. The operation of the ladder is as follows. At angles up to about 59 degrees relative to the horizontal, the ladder can be used without hands, while the person does not lose balance on the steps, as shown in FIG. 19 and 20. This maximum angle of location is based on well-known ergonomic data, of which it was found that the ratio of the radius of the knee to the height of the hip of a person is approximately constant for men and for women of the usual height range. It turns out that this constant value is about 0.516, from where one can calculate the maximum angle of 59 °. At angles greater than 59, the person must bend at the hips and tilt back the right leg so that there is a lumen at the knee as he ascends the stairs, as shown n, and fig. 18. The gangway may be steeper than the traditional gangway at the same step width and height, as a half-step construction eliminates the collision of steps, legs and knees when moving up and down the ladder. For the safest security on board, the handrails are preferably
must lie beneath the elbows of a person as he descends the stairs, as shown in FIG. 17 and 25. The handrails may lie directly under the elbows of a person, as shown in FIG. 21 and 27 and serve as an additional support and guide when the person is going down the ladder, facing forward. Steps 5 may be of sufficient size and shape so as to allow the steps of a person to normally deflect outwards, as shown in FIG. 22, 24, 26, and 28, and when descending the ladder, as can be seen from the figure, the feet of a person (the soles) extend beyond the limits of the step of the ladder and the bearing brackets of the steps.
It should be noted that the center of gravity (CG) shown in the drawings is only illustrative and is correct for the figure of a person standing directly. The actual center of gravity shifts when the legs, arms, and body move.
It is possible to climb the ladder facing forward and backward facing, as if going down an ordinary staircase, and not backwards, as if it were a rung ladder.
The proposed ladder has several advantages, especially when used on board a ship. The ladder is safe, easy to use, it lacks a portion of the traditional full-width stage, which can interfere with when the foot is raised or lowered to the next level. The ramp construction is relatively simple and inexpensive.
0 to be assembled, it is lighter in weight than the known structures. In addition, the ladder takes up less space on the floor and above in the horizontal direction,
5 because it is located steeper compared to the traditional ladder, with the same convenience and safety. In accordance with the usual dimensions of the foot (in the lateral direction) it is usually about 5-8 inches, a length of 0 steps (in the forward and backward direction) may be about 4-11 inches, and the height of the rise between adjacent steps may be about 6-12 inches. It is possible on each
5 to the side - of the support beam to place an odd number of steps so that a person rises and descends the ladder, starting and ending with the same foot.
3
eight
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AND
Fig fae. t1 (fitte.it 3uff6 2. - / L. F. y9jJJJJi -V-T fa 10 (paef3 puf.f memory X J / (pue. / 5
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权利要求:
Claims (9)
[1]
1. THE INLAND GIRL OF A SHIP, containing one central support beam, mounted obliquely between the upper and lower tiers, on which steps are fixed, having support platforms for the feet protruding outward from the said support beam and bearing brackets with handrails fixed to them, characterized by that, in order to increase reliability and safety in operation, the bearing brackets are fixed on the steps installed in a checkerboard pattern on both sides of the support beam located between two handrails parallel to the last them as well. each supporting bracket is oriented outward From the indicated supporting platform, its end. lies in a plane located in the fault and parallel to the plane passing through the edges of the supporting platforms, and is attached to the corresponding handrail, / -
Figure 1>
[2]
2. Inner ladder in π. 1, characterized in that the support beam is installed at an angle to the horizon., Greater than 50 °
[3]
3. Inner ladder in π. 1, characterized in that each of the brackets is made curved and located inside the ladder.
[4]
4. Inner ladder in π. 1, characterized in that each of the aforementioned supporting brackets is made in one piece with the steps.
[5]
5. Inner ladder in π. 1, characterized in that each of the handrails is made of a pipe of that shape with a hand grip area and provided with a fabric strip attached to it by one side, the other side of which is connected to the ends of the supporting brackets.
[6]
6. Inner ladder by π. 1, o t-_ characterized in that each of the handrails is made with a straight section located above the steps, and with a lower section curved towards the support beam, provided with a support attached to it and to the lower end of the support beam.
[7]
7. An internal ladder according to π, 1, characterized in that each supporting bracket is located obliquely to the supporting platform of the step.
[8]
8. The internal gangway according to claim 1, characterized in that the handrails are equipped with a protective skin Yasen attached to them - a visor for a pedestrian located along them on a part of their length.
[9]
'9. Inner ladder in π. 1, characterized in that each of the supporting brackets is located in the same plane with the supporting platform of its stage.
f

类似技术:

公开号 | 公开日 | 专利标题

SU1026646A3|1983-06-30|Ship staircase

US3454131A|1969-07-08|Scaffold

US4509617A|1985-04-09|Stair having alternate half treads

US5950267A|1999-09-14|Portable gangway with leveling stairs

US4328880A|1982-05-11|Circular ladder

CA2255495C|2006-03-21|Swimming pool steps

US20090100614A1|2009-04-23|Device for a Gangway

US8720643B1|2014-05-13|Aquatic ladder for marine applications

US4316524A|1982-02-23|Two-speed ladder

US7464792B2|2008-12-16|Aquatic ladder adapted for marine applications

US4535871A|1985-08-20|Unitary stairway

JP6542892B2|2019-07-10|Vertically oriented ladder device for enabling climbers to adopt an improved climb position during use

US4253547A|1981-03-03|Portable personnel platform and ladder

US3276543A|1966-10-04|Detachable foot support for ladders

US6813792B2|2004-11-09|Gangway including an articulated ramp and ladder

US6394227B1|2002-05-28|Scaffold structure

US740917A|1903-10-06|Fire-escape.

US1166141A|1915-12-28|Fire-escape.

CA1053629A|1979-05-01|Fire escape to be attached to the outside of a building

GB2195388A|1988-04-07|Work platform assembly

US6041554A|2000-03-28|Continuous foot extension support for telescoping seating system with foot level aisle

US4238000A|1980-12-09|Scaffold structure

GB2373017A|2002-09-11|Scaffolding tower assembly

US267115A|1882-11-07|Tower for electric lights

SU1082925A1|1984-03-30|Ladder with landing

同族专利:

公开号 | 公开日

SE442847B|1986-02-03|

DK521279A|1980-07-23|

KR830002136A|1983-05-23|

IE792333L|1980-07-22|

CH634125A5|1983-01-14|

FI67339C|1985-03-11|

AU529180B2|1983-05-26|

ES254179U|1981-09-01|

DE3000698C2|1994-04-14|

BR8000114A|1980-09-23|

DE3000698C3|1994-04-14|

NO150715C|1984-12-05|

DK154852B|1988-12-27|

KR840000951B1|1984-07-01|

ATA2880A|1988-07-15|

NZ192403A|1982-05-31|

US4199040A|1980-04-22|

NO150715B|1984-08-27|

FI793854A|1980-07-23|

IT1119987B|1986-03-19|

JPS6337236B2|1988-07-25|

NO793970L|1980-07-23|

SE7910012L|1980-07-23|

IT7969435D0|1979-12-18|

AU5445080A|1980-07-31|

FR2446920B1|1984-09-14|

IE49004B1|1985-07-10|

CA1097878A|1981-03-24|

DK154852C|1989-06-12|

AT387553B|1989-02-10|

GR73590B|1984-03-26|

JPS5598593A|1980-07-26|

NL7909166A|1980-07-24|

IN153420B|1984-07-14|

BE880686A|1980-04-16|

GB2039979A|1980-08-20|

ES254179Y|1982-03-01|

DE8000472U1|1980-05-14|

ZA797022B|1980-12-31|

GB2039979B|1983-01-06|

DD148614A5|1981-06-03|

FI67339B|1984-11-30|

AR218805A1|1980-06-30|

DE3000698A1|1980-07-24|

FR2446920A1|1980-08-14|

PT70609A|1980-01-01|

IL58967A|1983-11-30|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

DE576569C|1933-05-11|Carl Rein|Fixed, steep staircase with half-steps offset from one another in height|

US234389A|1880-11-16|Ladder |

US858199A|1906-11-10|1907-06-25|Felix B Modjeski|Stairway.|

US1484070A|1923-05-09|1924-02-19|William E Mast|Metal structural member|

FR790691A|1935-05-31|1935-11-25|Iron staircase|

US2641401A|1950-05-13|1953-06-09|James Herschel|Ladder|

US3021928A|1957-05-22|1962-02-20|Francis J Blair|Stair structure|

GB1028341A|1963-01-25|1966-05-04|Robert Charles Rolland|Prefabricated staircase structure|

DE1683635A1|1967-01-23|1970-04-23|Karl Tratz|Attic stairs|

US3467220A|1967-03-20|1969-09-16|Frank Burchard Smith|Stairway construction|

DE2102316A1|1971-01-19|1972-08-10|Hannemann, Siegfried, 2449 Petersdorf|Staircase with half-steps in alternating formation, delimited by the central cheek|

FR2184238A5|1972-05-09|1973-12-21|Meca Ste Eusienne Const|

JPS5210782B2|1973-08-03|1977-03-26|

JPS5191919U|1975-01-22|1976-07-23|

JPS5210782U|1975-07-10|1977-01-25|

NO135072B|1975-08-20|1976-10-25|Tor Lynne|

CH606697A5|1976-01-20|1978-11-15|Herbert Ernst|

US4061202A|1976-04-01|1977-12-06|Campbell Donald E|Hunting stand|US4328880A|1980-06-02|1982-05-11|The Laitram Corporation|Circular ladder|

US4316524A|1980-06-12|1982-02-23|The Laitram Corporation|Two-speed ladder|

US4509617A|1981-04-27|1985-04-09|The Laitram Corporation|Stair having alternate half treads|

FR2509782A1|1981-07-15|1983-01-21|Chauvin Marcel|Ladder for pruning trees and other forestry work - has ground anchor comprising pointed stirrup attached to lower end|

US4535871A|1981-09-28|1985-08-20|The Laitram Corporation|Unitary stairway|

US4627200A|1984-03-05|1986-12-09|The Laitram Corporation|Recessed mortise stair|

US4603758A|1985-01-04|1986-08-05|Pettit Frederick M|Ladder construction|

US4981195A|1989-09-29|1991-01-01|Merrick Harry G|Alternating tread ladder apparatus|

GB2244498A|1990-03-05|1991-12-04|Mohammed Anwaruddin Khan|Space saving stair|

US5064023A|1990-11-26|1991-11-12|Terex Corporation|Flexible ladder for use on moving conveyances|

US5239796A|1991-03-13|1993-08-31|Maloney Timothy J|Staircase cabinet|

US5896946A|1995-05-04|1999-04-27|Brackett; Wesley E.|Boarding ladder and winch mount system for boat trailers and the like|

FR2783012B1|1998-09-04|2000-10-27|Bernard Clavel|PORTABLE SUPPORT STRUCTURE USED AS A LADDER OR STEPLADDER|

WO2003058006A1|2001-12-28|2003-07-17|Nippon Light Metal Company, Ltd.|Stairway|

US6991550B1|2004-09-14|2006-01-31|Playstar, Inc.|Climbing steps for playground structure|

TW201139810A|2010-03-23|2011-11-16|Shi-Tron Lin|Dual-use staircase, assembly for dual-use staircase, and method of converting traditional staircase into dual-use staircase|

US20130212960A1|2012-02-22|2013-08-22|Kurt Freund|Modules for converting a stairway|

WO2016094937A1|2014-12-15|2016-06-23|Roddenby Glenn|A vertically orientated ladder apparatus for allowing a climber to adopt an improved climbing stance in use|

US9816318B2|2015-12-11|2017-11-14|David A. Johnson|Powered ladder for large industrial vehicles|

JP6375434B1|2017-12-18|2018-08-15|株式会社エフビーエス・ミヤマ|Tarup|

EP3825182B1|2019-11-25|2022-01-26|Manitou Italia S.r.l.|Access ladder for a vehicle|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

US06/005,285|US4199040A|1979-01-22|1979-01-22|Ship ladder|

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