CN219158160U - Operating room electrolytic steel plate with adjustable tightness - Google Patents

Abstract

The utility model relates to the technical field of electrolytic steel plates, and discloses an operating room electrolytic steel plate with adjustable tightness, which comprises an electrolytic steel plate body, a left adaptive connecting mechanism, a right adaptive connecting mechanism and a base mechanism, wherein the left adaptive connecting mechanism is positioned at the left side of the electrolytic steel plate body, the right adaptive connecting mechanism is positioned at the right side of the electrolytic steel plate body, and the base mechanism is positioned below the electrolytic steel plate body; the left adaptive connecting mechanism and the right adaptive connecting mechanism are symmetrically distributed on the left side and the right side of the electrolytic steel plate body, the left adaptive connecting mechanism comprises an installation steel bar, an inner limit connecting groove, an inner limit connecting head and a bending strap, and the inner limit connecting groove is fixedly arranged at the left end of the electrolytic steel plate body. The elastic adjustable operating room electrolytic steel plate can also generate tiny movements through the bending straps in the use process, can effectively resist transverse waves sent by earthquakes, and avoids bending fracture phenomenon of the fixed integrated structure.

Description

Operating room electrolytic steel plate with adjustable tightness

Technical Field

The utility model relates to the technical field of electrolytic steel plates, in particular to an operating room electrolytic steel plate with adjustable tightness.

Background

The electrolytic steel plate is not two materials for operating room construction, and the operating room has the advantages of seamless whole, good air tightness and lower cost after the construction is finished, and the later maintenance is convenient and simple;

the gypsum board is generally used on the back plate by the electrolytic steel plates, and although the gypsum board has excellent fracture resistance due to the attached connection mode, once an earthquake occurs, transverse waves can cause transverse distortion between each electrolytic steel plate, and the integral structure can be seriously damaged by the earthquake transverse waves due to the fact that no space is available for movable adaptation.

Disclosure of Invention

(one) solving the technical problems

The utility model aims to provide an operating room electrolytic steel plate with adjustable tightness, which solves the problem that once an earthquake happens, the integrated structure is seriously damaged by the transverse wave of the earthquake in the background art.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the operating room electrolytic steel plate with adjustable tightness comprises an electrolytic steel plate body, a left adaptive connecting mechanism, a right adaptive connecting mechanism and a base mechanism, wherein the left adaptive connecting mechanism is positioned on the left side of the electrolytic steel plate body, the right adaptive connecting mechanism is positioned on the right side of the electrolytic steel plate body, and the base mechanism is positioned below the electrolytic steel plate body;

the left adaptation coupling mechanism is the symmetric distribution in the left and right sides of electrolytic steel plate body with right adaptation coupling mechanism, left side adaptation coupling mechanism is including installation billet, interior spacing spread groove, interior spacing connector and bending strap, interior spacing spread groove is fixed to be set up in the left end of electrolytic steel plate body, interior spacing connector is fixed to be set up in the right-hand member of installation billet, can dismantle with interior spacing connector through interior spacing spread groove between installation billet and the electrolytic steel plate body and be connected, bending strap fixed mounting is in the left end of installation billet.

Preferably, the left adaptation coupling mechanism still includes connecting steel strip, outer spacing spread groove and outer spacing connector, outer spacing spread groove is fixed to be set up in the right-hand member of connecting steel strip, outer spacing connector is fixed to be set up in the left end of installation steel strip, install steel strip and connect between the steel strip and the outer spacing connector and dismantle the connection through outer spacing spread groove, through installing the bending strap, when using this electrolytic steel plate concatenation equipment operating room, can be with prefabricated steel plate through installing the steel strip and connect into external profile structure, the building structure that forms after the connection is whole promptly, can take place tiny activity through the bending strap again simultaneously in the use, can effectually resist the transverse wave that the earthquake sent, the fracture phenomenon appears buckling in the integral type structure after avoiding fixing.

Preferably, the base mechanism comprises a fixed base, a movable adapting groove and a movable adapting block, wherein the movable adapting groove is fixedly arranged at the upper end of the fixed base, the movable adapting block is fixedly arranged at the lower end of the electrolytic steel plate body, the fixed base is movably connected with the electrolytic steel plate body through the movable adapting groove and the movable adapting block, a certain distance exists between the movable adapting groove and the movable adapting block, and the structure of the electrolytic steel plate body and the outer side of the electrolytic steel plate body can move in a certain range above the fixed base through the movable adapting groove and the movable adapting block which are matched.

Preferably, the base mechanism further comprises an adapting spring and a damper, the adapting spring is fixedly connected between the movable adapting groove and the movable adapting block, the damper is located on the inner side of the adapting spring, the adapting spring and the damper are symmetrically distributed at the left end and the right end of the movable adapting block, the adapting spring and the damper are installed to temporarily prevent an earthquake, if the electrolytic steel plate body deviates on the fixed base, the adapting spring and the damper can effectively perform shock absorption protection work, and meanwhile reset of the electrolytic steel plate body can be ensured after the earthquake occurs.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the elastic adjustable operating room electrolytic steel plate, the bending straps are arranged, when the operating room is assembled by splicing the electrolytic steel plates, the prefabricated steel plates can be connected into an external contour structure through the mounting steel bars, the building structure formed after the connection is completed is an integral body, and meanwhile, the bending straps can slightly move in the use process, so that transverse waves emitted by an earthquake can be effectively resisted, and bending fracture phenomenon of the fixed integral structure is avoided;

2. according to the tightness-adjustable operating room electrolytic steel plate, through installing the movable adapting groove and the movable adapting block which are adapted, the electrolytic steel plate body and the structure on the outer side of the electrolytic steel plate body can move in a certain range above the fixed base, so that the anti-seismic performance of the electrolytic steel plate is further improved;

3. this adjustable elasticity's operating room electrolytic steel plate, through installation adaptation spring and attenuator, come temporarily at the earthquake, if electrolytic steel plate body takes place the skew on unable adjustment base, adaptation spring and attenuator can effectually carry out shock attenuation protection work, can ensure simultaneously that electrolytic steel plate body resets after the earthquake takes place.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic cross-sectional view of a base unit according to the present utility model;

FIG. 3 is a schematic cross-sectional view of a left-fit connection mechanism according to the present utility model;

fig. 4 is a schematic perspective view of the fitting groove of the present utility model.

In the figure: 1. an electrolytic steel plate body; 2. a left adapting connection mechanism; 3. a right-fit connection mechanism; 4. a base mechanism; 201. installing steel bars; 202. an inner limit connecting groove; 203. an inner limit connector; 204. bending the belt; 205. connecting steel bars; 206. an outer limit connecting groove; 207. an outer limit connector; 208. a fitting groove; 401. a fixed base; 402. a movable adapting groove; 403. a movable adapting block; 404. a tightening knob; 405. a spring is adapted; 406. a damper.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: an operating room electrolytic steel plate with adjustable tightness comprises an electrolytic steel plate body 1, a left adaptive connecting mechanism 2, a right adaptive connecting mechanism 3 and a base mechanism 4, wherein the left adaptive connecting mechanism 2 is positioned on the left side of the electrolytic steel plate body 1, the right adaptive connecting mechanism 3 is positioned on the right side of the electrolytic steel plate body 1, and the base mechanism 4 is positioned below the electrolytic steel plate body 1; the left adaptive connecting mechanism 2 and the right adaptive connecting mechanism 3 are symmetrically distributed on the left side and the right side of the electrolytic steel plate body 1, the left adaptive connecting mechanism 2 comprises a mounting steel bar 201, an inner limit connecting groove 202, an inner limit connecting head 203 and a bending strap 204, the inner limit connecting groove 202 is fixedly arranged at the left end of the electrolytic steel plate body 1, the inner limit connecting head 203 is fixedly arranged at the right end of the mounting steel bar 201, the mounting steel bar 201 and the electrolytic steel plate body 1 are detachably connected through the inner limit connecting groove 202 and the inner limit connecting head 203, the bending strap 204 is fixedly arranged at the left end of the mounting steel bar 201, the left adaptive connecting mechanism 2 also comprises a connecting steel bar 205, an outer limit connecting groove 206 and an outer limit connecting head 207, the outer limit connecting groove 206 is fixedly arranged at the right end of the connecting steel bar 205, the outer limit connecting head 207 is fixedly arranged at the left end of the mounting steel bar 201, the mounting steel bar 201 and the connecting steel bar 205 are detachably connected through the outer limit connecting groove 206, when the electrolytic steel plate is used for splicing and assembling an operation room, a prefabricated steel plate is connected into an outer profile structure through the mounting steel plate 201, after the connection is completed, the whole bending strap 204 can be prevented from being integrally bent, and an integral bending-type vibration-resistant structure can be formed, and an earthquake-resistant phenomenon can be generated, and an earthquake-resistant integral bending structure can be integrally can be prevented;

the base mechanism 4 comprises a fixed base 401, a movable adapting groove 402 and a movable adapting block 403, the movable adapting groove 402 is fixedly arranged at the upper end of the fixed base 401, the movable adapting block 403 is fixedly arranged at the lower end of the electrolytic steel plate body 1, the fixed base 401 is movably connected with the movable adapting block 403 through the movable adapting groove 402, a certain distance exists between the movable adapting groove 402 and the movable adapting block 403, the electrolytic steel plate body 1 and the structure outside the electrolytic steel plate body can move within a certain range above the fixed base 401 through installing the movable adapting groove 402 and the movable adapting block 403 which are adapted, the anti-seismic performance of the electrolytic steel plate is further improved, the base mechanism 4 also comprises an adapting spring 405 and a damper 406, the adapting spring 405 is fixedly connected between the movable adapting groove 402 and the movable adapting block 403, the damper 406 is positioned at the inner side of the adapting spring 405, the adapting spring 405 and the damper 406 are symmetrically distributed at the right end of the movable adapting block 403, the left adapting spring 405 and the damper 406 can be arranged at the right end of the movable adapting block 403, and the electrolytic steel plate body 1 can be simultaneously protected by installing the adapting spring 405 and the damper 1, and the damper 1 can be simultaneously reset, and the vibration-absorbing performance of the electrolytic steel plate can be ensured if the electrolytic steel plate body is arranged at the right adapting block and the right end, and the damper 1 can be reset, and the vibration-absorbing vibration can be protected, and the vibration can be prevented;

the base mechanism 4 includes elasticity knob 404, elasticity knob 404 threaded connection is in the front end of unable adjustment base 401, elasticity knob 404 and movable adaptation piece 403 looks adaptation, through installation elasticity knob 404, the user can screw up elasticity knob 404 when using under the specific condition, make the operating room after the concatenation of whole electrolytic steel board form fixed integral type structure, left side adaptation coupling mechanism 2 still includes gomphosis groove 208, gomphosis groove 208 is fixed to be set up in the left end of connecting steel strip 205, the gomphosis groove 208 of setting is used for the connection between the electrolytic steel board body 1.

Working principle: through installing the bending strap 204, when using this electrolytic steel plate concatenation equipment operating room, can connect into external profile structure with prefabricated steel sheet through installation billet 201, the building structure that forms after the connection is accomplished is one whole promptly, can also take place tiny activity through the bending strap 204 in the use simultaneously, can effectually resist the transverse wave that the earthquake sent, avoid bending fracture phenomenon to appear in the integral type structure after fixing, through the movable adaptation groove 402 and the movable adaptation piece 403 of installation looks adaptation, can make electrolytic steel plate body 1 and the structure in its outside can take place the activity in certain scope in the top of unable adjustment base 401, further improved the shock resistance of this electrolytic steel plate, through installation adaptation spring 405 and attenuator 406, temporarily in the earthquake, if electrolytic steel plate body 1 takes place the skew on unable adjustment base 401, adaptation spring 405 and attenuator 406 can effectually carry out shock attenuation protection work, can ensure that electrolytic steel plate body 1 resets after the earthquake takes place simultaneously.

Finally, it should be noted that the above description is only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and that the simple modification and equivalent substitution of the technical solution of the present utility model can be made by those skilled in the art without departing from the spirit and scope of the technical solution of the present utility model.

Claims (6)

1. The utility model provides an operating room electrolytic steel plate of adjustable elasticity, includes electrolytic steel plate body (1), left adaptation coupling mechanism (2), right adaptation coupling mechanism (3) and base mechanism (4), its characterized in that: the left adaptive connecting mechanism (2) is positioned at the left side of the electrolytic steel plate body (1), the right adaptive connecting mechanism (3) is positioned at the right side of the electrolytic steel plate body (1), and the base mechanism (4) is positioned below the electrolytic steel plate body (1);

left side adaptation coupling mechanism (2) are symmetric distribution in the left and right sides of electrolytic steel plate body (1) with right adaptation coupling mechanism (3), left side adaptation coupling mechanism (2) are including installation billet (201), interior spacing spread groove (202), interior spacing connector (203) and bending strap (204), interior spacing spread groove (202) are fixed to be set up in the left end of electrolytic steel plate body (1), interior spacing connector (203) are fixed to be set up in the right-hand member of installation billet (201), can dismantle with interior spacing connector (203) through interior spacing spread groove (202) between installation billet (201) and the electrolytic steel plate body (1) and be connected, bending strap (204) fixed mounting is in the left end of installation billet (201).

2. An adjustable tension operating room electrolytic steel plate as defined in claim 1, wherein: the left-fit connecting mechanism (2) further comprises a connecting steel bar (205), an outer limit connecting groove (206) and an outer limit connecting head (207), wherein the outer limit connecting groove (206) is fixedly arranged at the right end of the connecting steel bar (205), the outer limit connecting head (207) is fixedly arranged at the left end of the mounting steel bar (201), and the mounting steel bar (201) and the connecting steel bar (205) are detachably connected through the outer limit connecting groove (206) and the outer limit connecting head (207).

3. An adjustable tightness operating room electrolytic steel plate as claimed in claim 2, wherein: the base mechanism (4) comprises a fixed base (401), a movable adapting groove (402) and a movable adapting block (403), wherein the movable adapting groove (402) is fixedly arranged at the upper end of the fixed base (401), the movable adapting block (403) is fixedly arranged at the lower end of the electrolytic steel plate body (1), the fixed base (401) is movably connected with the movable adapting block (403) through the movable adapting groove (402), and a certain distance exists between the movable adapting groove (402) and the movable adapting block (403).

4. An adjustable tension operating room electrolytic steel plate as defined in claim 3, wherein: the base mechanism (4) further comprises an adapting spring (405) and a damper (406), the adapting spring (405) is fixedly connected between the movable adapting groove (402) and the movable adapting block (403), the damper (406) is located on the inner side of the adapting spring (405), and the adapting spring (405) and the damper (406) are symmetrically distributed at the left end and the right end of the movable adapting block (403).

5. An adjustable tension operating room electrolytic steel plate as defined in claim 4, wherein: the base mechanism (4) comprises an elastic knob (404), the elastic knob (404) is connected to the front end of the fixed base (401) in a threaded mode, and the elastic knob (404) is matched with the movable adapting block (403).

6. An adjustable tension operating room electrolytic steel plate as defined in claim 5, wherein: the left adaptive connecting mechanism (2) further comprises a jogged groove (208), and the jogged groove (208) is fixedly arranged at the left end of the connecting steel bar (205).

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