Life buoy fixing frame for water construction
Technical Field
The utility model relates to a life buoy mount, the more specifically life buoy mount that can take life buoy fast in construction on water that says so.
Background
Bridge construction is mostly carried out on water, and in a construction site of the water construction, a life buoy is necessary for safety production; when a drowning accident occurs, the life buoy must be thrown away immediately to a drowning person for rescue, and in this case, the life is the time, so that the life buoy fixed nearby needs to be taken down and thrown out quickly. However, most of the conventional daily life buoy fixing modes are that ropes for life buoys are directly tied on guardrails, the number of tying circles is small and the tying circles are not firm, and the number of tying circles is large, so that time is consumed when the life buoys need to be taken out; in fact, even more, the tying rope cannot be directly taken out due to the fact that the tying rope is tied, an auxiliary tool has to be used for operation, time delay is caused, and risks are increased.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a weak point for avoiding above-mentioned prior art to exist provides a construction life buoy mount on water to when emergency appears, can take out the life buoy immediately, throw the life buoy to drowned person, reduce drowned person's drowned time, reduce the safety risk.
The utility model discloses a solve technical problem and adopt following technical scheme:
the utility model discloses construction life buoy mount on water's structural feature is: the inverted Y-shaped bracket is provided with an upper supporting rod which is vertically upward, and the bottom end of the upper supporting rod is connected with a left lower supporting rod and a right lower supporting rod which symmetrically face to two sides; the upper support rod, the left lower support rod and the right lower support rod are positioned in the same vertical plane; a section of upward hook facing outwards is welded on the back of the upper support rod to form an upper hook with an upper opening; the lower sections of the left lower supporting rod and the right lower supporting rod extend outwards to form a lower hook with an upper opening by upward hooks; the upper half ring of the life buoy is arranged in the upper hook, the lower half ring is arranged in the lower hook to be fixed, and the life buoy fixing frame is a stainless steel component.
The utility model discloses the structural feature of construction life buoy mount on water also lies in: the upper openings of the upper hook and the lower hook are smaller than the diameter of the life buoy, so that the life buoy is in a closed-up state;
the utility model discloses the structural feature of construction life buoy mount on water also lies in: and fixing holes are respectively formed in the upper supporting rod, the left lower supporting rod and the right lower supporting rod, and the life buoy fixing frame is fixedly arranged on a temporary guardrail of the construction bridge by utilizing the fixing holes.
Compared with the prior art, the utility model discloses beneficial effect embodies:
1. the utility model discloses in go up the couple and be the upper portion opening with couple down, arrange in the life buoy of couple and couple down and can directly take out at the very first time, strived for the valuable time for the rescue, reduced safe risk.
2. The upper openings of the upper hook and the lower hook are set in the closing-up state, so that the life buoy is stably limited in each hook;
3. the utility model discloses utilize the fixed orifices on its each pole, adopt modes such as ligature to reliably fix on the interim guardrail of construction bridge, needn't consider that it drops because of the ligature is not firm.
Drawings
FIG. 1 is a front elevation view of the present invention;
fig. 2 is a schematic side elevation view of the upper middle strut of the present invention;
FIG. 3 is a schematic side elevation view of the middle and left lower support rods of the present invention;
reference numbers in the figures: 1, 1a, 1b, 2, 3 and 4, wherein the left strut is connected with the left strut and the right strut;
Detailed Description
Referring to fig. 1, 2 and 3, the structural form of the fixing frame for the underwater construction life buoy in the embodiment is as follows:
an inverted Y-shaped bracket is arranged, the inverted Y-shaped bracket is provided with an upper supporting rod 1 which is vertically upward, and the bottom end of the upper supporting rod 1 is connected with a left lower supporting rod 1a and a right lower supporting rod 1b which symmetrically face to two sides; the upper strut 1, the left lower strut 1a and the right lower strut 1b are positioned in the same vertical plane; an upward hook facing outwards is welded on the back of the upper support rod 1 to form an upper hook 2 with an upper opening; the lower sections of the left lower supporting rod 1a and the right lower supporting rod 1b extend outwards to form a lower hook 4 with an upper opening formed by an upward hook; the upper half ring of the life buoy is arranged in the upper hook, the lower half ring is arranged in the lower hook to be fixed, and the life buoy fixing frame is made of stainless steel components.
In specific implementation, the upper openings of the upper hook 2 and the lower hook 4 are smaller than the diameter of the lifebuoy, so that the lifebuoy is in a closed-up state, on one hand, the lifebuoy can be stably limited in the hooks, and on the other hand, the lifebuoy can be conveniently taken and placed through the upper openings of the hooks by utilizing certain elasticity of the hooks and the lifebuoy.
Fixing holes 3 are respectively formed in the upper supporting rod 1, the left lower supporting rod 1a and the right lower supporting rod 1b, the life buoy fixing frame is reliably fixed on a temporary guardrail of a construction bridge in a binding or other mode through the fixing holes 3, and the life buoy fixing frame does not need to be detached when a life buoy is taken.
In the specific implementation, an upper support rod 1 is made of a stainless steel strip with the width of 4cm, the thickness of 3mm and the length of 45cm, an upper hook 2 is made of a stainless steel strip with the width of 4cm, the thickness of 3mm and the length of 25cm by bending into an arc, a lower support rod 1a and a right lower support rod 1b are respectively made of two stainless steel strips with the width of 4cm, the thickness of 3mm and the length of 55cm, and the lower hook is formed by bending at the bottom.
The life buoy fixing frame is fixed on a temporary guardrail of a construction bridge in a binding or other mode by utilizing the fixing holes on the rods in daily life, the upper half ring of the life buoy is arranged in the upper hook, and the lower half ring is arranged in the lower hook to be fixed; during rescue, the lifebuoy can be directly taken out through the upward openings in the upper hook and the lower hook without disassembling the lifebuoy fixing frame, and the process is very quick and convenient.