CN112746757A - Fast-assembling keel operating room and installation method thereof - Google Patents

Abstract

The invention belongs to the technical field of medical construction, and particularly relates to a quick-mounting keel operating room and an installation method thereof. This fast-assembling fossil fragments operating room includes: the lower cross beam, the upper cross beam, the stand column, the vertical square tube, the wallboard, the top square tube, the bent plate, the top plate and the first to the sixth installation parts. According to the mounting method, the lower cross beam and the upper cross beam are connected to the ground or the upright post through the first mounting piece; the vertical square tubes are connected to the lower cross beam and the upper cross beam through second mounting pieces; the wall plate is connected to the vertical square pipe through a third mounting piece; the top square tube is connected to the upper cross beam through a fourth mounting piece; the bent plate is connected to the vertical square pipe through a third mounting piece, and the bent plate is connected to the top square pipe through a fifth mounting piece; the top plate is connected to the top square pipe through the sixth installation piece. The quick-assembly keel operating room and the installation method thereof realize the assembled splicing of all parts, are convenient and efficient to install, do not need to adopt a welding mode, do not need to be equipped with fire-fighting equipment on site due to welding operation, reduce the probability of safety accidents and meet the requirements of safety supervision and inspection.

Description

Fast-assembling keel operating room and installation method thereof

Technical Field

The invention belongs to the technical field of medical construction, and particularly relates to a quick-mounting keel operating room and an installation method thereof.

Background

The installation of fossil fragments operating room generally adopts the welded mode now, is about to stand, vertical square pipe and the welding of top square pipe form frame construction on last keel, then respectively with wallboard, bent plate and roof welding to corresponding position department again. Although the installation mode has a good fixing effect, the connection mode needs to carry welding equipment, needs operators with certificates to take on duty to perform welding operation, needs to be equipped with fire-fighting equipment on site, is difficult to install and is easy to cause safety accidents; in addition, due to the strict requirements of safety supervision and inspection, the building of the hospital does not allow an operating room with a welded structure, so that a special assembly structure needs to be invented to splice and fix all the components of the keel operating room.

Disclosure of Invention

The invention aims to provide a quick-mounting keel operating room and an installation method thereof, and aims to solve the technical problem that the existing keel operating room is installed in a welding mode.

In order to solve the technical problem, the invention provides a quick-assembly keel operating room, which comprises:

the mounting structure comprises a lower cross beam, an upper cross beam, a stand column, a first mounting piece, a vertical square tube, a second mounting piece, a wallboard, a third mounting piece, a top square tube, a fourth mounting piece, a bent plate, a fifth mounting piece, a top plate and a sixth mounting piece; wherein

Two adjacent lower cross beams are assembled and connected through a first installation part, two adjacent upper cross beams are assembled and connected through the first installation part, and two ends of the upright post are respectively assembled and connected to the lower cross beams and the upper cross beams through the first installation part;

the vertical square tubes are assembled and connected to the lower cross beam and the upper cross beam through second mounting pieces;

the wallboard is assembled and connected to the vertical square pipe through a third mounting piece;

two ends of the top square pipe are respectively assembled and connected to the corresponding upper cross beams through fourth mounting pieces;

the bottom of the bent plate is assembled and connected to the vertical square tube through a third installation piece, and the top of the bent plate is assembled and connected to the top square tube through a fifth installation piece;

the top plate is assembled and connected to the top square tube through a sixth mounting piece;

the first mounting piece comprises a right-angle plate and a square plate;

the two side plates of the right-angle plate are respectively provided with a first punched hole and are suitable for being assembled and connected with the lower cross beam or the upper cross beam;

the square plate is arranged at the joint of the two side plates of the right-angle plate and is suitable for being assembled and connected with the upright post;

the second mounting part comprises a bottom plate and a pressing plate;

the middle part of the bottom plate protrudes to form a tenon which is suitable for being assembled and connected with the vertical square tube;

wing plates are formed on two sides of the tenon, and first through holes are formed in the wing plates;

pressing plates are correspondingly arranged above the wing plates respectively, and second through holes are formed in the pressing plates;

the wing plates and the pressing plates clamp the flanges of the upper cross beam or the lower cross beam and are connected through the first through holes and the second through holes, so that the vertical square tubes are assembled and connected to the upper cross beam or the lower cross beam.

Furthermore, the lateral wall of vertical side's pipe tip is opened has the first equipment hole of several, is suitable for self-tapping bolt to pass first equipment hole and be connected with the tenon.

Further, the third mounting part comprises a first clamping plate, a second clamping plate and a connecting plate for connecting the first clamping plate and the second clamping plate; wherein

Hooks are arranged on one sides, close to the connecting plate, of the first clamping plate and the second clamping plate, at least one second assembling hole is formed in each of the two sides of the wallboard, and the hooks are inserted into the second assembling holes so that the wallboard is hung on the third mounting piece;

first splint and second splint have all punched a hole by at least one second, are suitable for to punch a hole through the second and realize that third installed part demountable installation is in the outside of vertical square pipe.

Furthermore, an adjusting gap is arranged between the first clamping plate or the second clamping plate and the side wall of the vertical square pipe;

the connecting plate is of a boss structure, the top end of a step of the connecting plate is provided with a center hole, and two sides of the center hole are provided with aiming lines;

the center hole is aligned with the horizontal building line of ammunition, and the sighting line is adjusted to be aligned with the horizontal building line of ammunition so as to limit the installation inclination of the third installation part.

Further, the bottom of the bent plate is assembled and connected to the vertical square tube through a third installation piece, and the top of the bent plate is assembled and connected to the top square tube through a fifth installation piece;

the fifth mounting member includes a lap portion, a hook portion, and a connection portion provided between the lap portion and the hook portion;

the lap joint part is suitable for being hung on the top wall of the top square pipe;

the connecting part is provided with at least one third punched hole and is suitable for being in threaded connection with the side wall of the top square pipe through the third punched hole;

the top of the bent plate is provided with a third assembly hole, and the hooking part is suitable for being inserted into the third assembly hole and then transversely moved to hang the top of the bent plate;

the bottom of bent plate is opened there is the fourth assembled hole, the couple is suitable for inserting the fourth assembled hole with the bottom assembled connection of bent plate on vertical square pipe.

Further, the sixth mount comprises a ramp section and a riser section;

the vertical plate section is connected with the inclined plate section to form a lifting hook suitable for hanging a flanging of the top plate;

the vertical plate section is provided with a side punched hole, and a self-tapping bolt is suitable for penetrating through the side punched hole to be in threaded connection with the side wall of the top square pipe, so that the top plate and the top square pipe are assembled and connected.

Furthermore, one end of the vertical plate section, which is far away from the inclined plate section, is connected with a transverse plate section so as to be hung on the top wall of the top square pipe;

the transverse plate section is provided with a top punched hole so as to penetrate through the top punched hole through a bolt to be in threaded connection with the top wall of the top square pipe.

In another aspect, the invention also provides a method for installing the quick-assembly keel operating room, which comprises the following steps:

each lower cross beam is assembled and connected on the ground through a first installation part, the upright post is assembled and connected on the first installation part, and each upper cross beam is assembled and connected on the upright post through the first installation part;

each vertical square tube is assembled and connected to the lower cross beam and the upper cross beam through a second mounting piece;

each wallboard is assembled and connected on the vertical square pipe through a third mounting piece;

each top square pipe is assembled and connected on the upper cross beam through a fourth mounting piece;

the bottom of each bent plate is assembled and connected to the vertical square tube through a third installation piece, and the top of each bent plate is assembled and connected to the top square tube through a fifth installation piece;

and each top plate is assembled and connected on the top square pipe through a sixth mounting piece.

The quick-assembly keel operating room and the installation method thereof have the beneficial effects that the upright posts are respectively assembled and connected on the lower cross beam and the upper cross beam through the first installation piece, the second installation piece, the third installation piece, the fourth installation piece, the fifth installation piece and the sixth installation piece, the vertical square tubes are assembled and connected on the lower cross beam and the upper cross beam, the wall plates are assembled and connected on the vertical square tubes, the top square tubes are assembled and connected on the upper cross beam, the bent plates are assembled and connected on the vertical square tubes and the top square tubes, and the top plates are assembled and connected on the top square tubes. The assembly type splicing of all parts is realized, the installation is convenient and efficient, a welding mode is not needed, fire-fighting equipment does not need to be equipped on site due to welding operation, the probability of safety accidents is reduced, and the requirement of safety supervision and inspection is met.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Figure 1 is a perspective view of a preferred embodiment of the quick install keel operating room of the present invention;

FIG. 2 is a schematic structural view of a preferred embodiment of the mounting structure of the column of the present invention;

fig. 3 is a schematic structural view of a preferred embodiment of the installation structure of the vertical square pipe of the present invention;

FIG. 4 is a schematic structural view of a preferred embodiment of the second mount of the present invention;

FIG. 5 is a schematic structural view of a preferred embodiment of the mounting structure of the wall panel of the present invention;

FIG. 6 is a schematic structural view of a preferred embodiment of a third mount of the present invention;

FIG. 7 is a schematic structural view of a preferred embodiment of the mounting structure of the flexural plate of this invention;

FIG. 8 is a schematic structural view of a preferred embodiment of a fifth mount of the present invention;

fig. 9 is a schematic structural view of a preferred embodiment of the mounting structure of the top plate of the present invention;

fig. 10 is a sectional view of a preferred embodiment of the mounting structure of the top plate of the present invention;

figure 11 is a schematic structural view of a preferred embodiment of the fourth mount of the present invention.

In the figure:

the device comprises a lower cross beam 1, an upper cross beam 2, upright columns 3, vertical square tubes 4, wall plates 5, a top square tube 6, a bent plate 7, a top plate 8 and a fourth mounting piece 9;

the first mounting piece 10, the right-angle plate 101, the square plate 102 and the first punched hole 103;

the second mounting part 11, the bottom plate 111, the tenon 1111, the wing plate 1112, the first through hole 112, the pressing plate 113, the second through hole 114, the inverted U-shaped plate 115 and the fabrication hole 116;

the third mounting member 12, the first clamping plate 121, the second clamping plate 122, the connecting plate 123, the hook 124, the second punched hole 125, the centering hole 126, the aiming line 127;

the fifth mounting member 13, the bridging portion 131, the connecting portion 132, the hooking portion 133, and the third punched hole 134;

the sixth mounting part 14, the inclined plate section 141, the vertical plate section 142, the side punched hole 143, the horizontal plate section 144 and the top punched hole 145;

a first assembling hole 15, a second assembling hole 16, an adjusting gap 17, a third assembling hole 18, a fourth assembling hole 19 and a ground 20.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

As shown in fig. 1, the fast-assembling keel operating room of the embodiment comprises:

the mounting structure comprises a lower cross beam 1, an upper cross beam 2, a vertical column 3, a first mounting piece 10, a vertical square tube 4, a second mounting piece 11, a wall plate 5, a third mounting piece 12, a top square tube 6, a fourth mounting piece 9, a bent plate 7, a fifth mounting piece 13, a top plate 8 and a sixth mounting piece 14; two adjacent lower cross beams 1 are assembled and connected on the ground 20 through first installation parts 10, two adjacent upper cross beams 2 are assembled and connected through the first installation parts 10, and two ends of the upright column 3 are respectively assembled and connected on the lower cross beams 1 and the upper cross beams 2 through the first installation parts 10; the vertical square tube 4 is assembled and connected on the lower cross beam 1 and the upper cross beam 2 through a second mounting piece 11; the wall plate 5 is assembled and connected on the vertical square tube 4 through a third mounting piece 12; two ends of the top square tube 6 are respectively assembled and connected on the corresponding upper cross beams 2 through fourth mounting pieces 9; the bottom of the bent plate 7 is assembled and connected on the vertical square tube 4 through a third mounting piece 12, and the top of the bent plate 7 is assembled and connected on the top square tube 6 through a fifth mounting piece 13; the top plate 8 is assembled and connected to the top tube 6 through a sixth mounting member 14. Through first installed part 10, second installed part 11, third installed part 12, fourth installed part 9, fifth installed part 13 and sixth installed part 14 to respectively with stand 3 assembly connection on bottom end rail 1 and entablature 2, with vertical side's pipe 4 assembly connection on bottom end rail 1 and entablature 2, with wallboard 5 assembly connection on vertical side's pipe 4, with roof side's pipe 6 assembly connection on entablature 2, with bent plate 7 assembly connection on vertical side's pipe 4 and roof side pipe 6, with roof 8 assembly connection on roof side's pipe 6. The assembly type splicing of all parts is realized, the installation is convenient and efficient, a welding mode is not needed, fire-fighting equipment does not need to be equipped on site due to welding operation, the probability of safety accidents is reduced, and the requirement of safety supervision and inspection is met.

As shown in fig. 2, in the present embodiment, in particular, the first mounting member 10 includes a right-angled plate 101 and a square plate 102; two side plates of the right-angle plate 101 are respectively provided with a first punched hole 103, and the first punched holes 103 are suitable for penetrating through self-tapping bolts to be assembled and connected with the lower cross beam 1 or the upper cross beam 2; the square plate 102 is arranged at the joint of the two side plates of the right-angle plate 101 and is suitable for being assembled and connected with the upright post 3. Two side plates of a right-angle plate 101 below are pressed on two adjacent lower cross beams 1, and the lower cross beams 1 penetrate through the first punched holes 103 and the lower cross beams 1 through self-tapping bolts to be screwed with the ground 20, so that the two lower cross beams 1 are assembled and connected with the ground 20; the lower end of the upright post 3 is inserted outside the square plate 102 below; the two upper cross beams 2 are assembled and connected through two side plates of the right-angle plate 101 above, and the upper ends of the upright posts 3 are inserted outside the square plate 102 above; therefore, the lower cross beam 1 and the upper cross beam 2 are connected with the upright post 3 in an assembling mode through the first mounting part 10, and the operation is simple and efficient.

As shown in fig. 3 and 4, in the present embodiment, specifically, the second mounting member 11 includes a bottom plate 111 and a pressure plate 113; wherein, the middle part of the bottom plate 111 protrudes to form a tenon 1111 which is suitable for being assembled and connected with the vertical square tube 4; wing plates 1112 are formed on two sides of the tenon 1111, and first through holes 112 are formed in the wing plates 1112; a pressing plate 113 is correspondingly arranged above each wing plate 1112, and a second through hole 114 is formed in the pressing plate 113; the wing plates 1112 and the pressing plate 113 clamp the flanges of the upper beam 2 or the lower beam 1 and are connected through the first through hole 112 and the second through hole 114, so that the vertical square tube 4 is assembled and connected on the upper beam 2 or the lower beam 1. The pipe fitting is inserted into the vertical square pipe 4 through the tenon 1111, then the pipe fitting is lifted up through the wing plate 1112, and then the bottom plate 111 is fixed at the lower cross beam 1 or the upper cross beam 2 through the fastener passing through the first through hole 112; the wing plates 1112 and the pressure plate 113 are connected through fasteners, so that the turned-over edges of the lower cross beam 1 or the upper cross beam 2 are clamped between the wing plates 1112 and the pressure plate 113 and then inserted into the vertical square tube 4 through the tenon 1111, the wing plates 1112 and the pressure plate 113 are assembled and connected with the lower cross beam 1 and the vertical square tube 4 and the upper cross beam 2 and the vertical square tube 4, and the distance between the wing plates 1112 and the pressure plate 113 can be adjusted only by screwing the fasteners; structural design is simple, and simple to operate is swift, and the assembled of the lower beam 1 of being convenient for and entablature 2 and vertical side's pipe 4 is connected, is suitable for the popularization.

As shown in fig. 3 and 4, in the present embodiment, preferably, a plurality of first assembling holes 15 are formed in the side wall of the end portion of the vertical square pipe 4, and a tapping bolt is adapted to pass through the first assembling holes 15 and be connected with the tenon 1111. Through the difference in height between each first equipment hole 15, pass suitable first equipment hole 15 through self-tapping bolt as required and be connected with tenon 1111 to make vertical square pipe 4 and bottom end rail 1 or entablature 2 relative height-adjustable, thereby realize adjusting the furred ceiling and be the horizontality.

As shown in fig. 3 and 4, in this embodiment, preferably, the outer side of the tenon 1111 is sleeved with the inverted U-shaped plate 115, so that a contact area between the inverted U-shaped plate 115 and the vertical square pipe 4 is increased, the inverted U-shaped plate 115 is convenient to abut against the vertical square pipe 4, a friction force between the inverted U-shaped plate 115 and the vertical square pipe 4 is increased, and connection stability is improved.

In the present embodiment, as shown in fig. 3 and 4, it is preferable that the two panels of the inverted U-shaped plate 115 are punched with process holes 116 suitable for filling with solder to achieve soldering of the inverted U-shaped plate 115 and the tenon 1111, so that the inverted U-shaped plate 115 and the tenon 1111 are integrated for subsequent installation and connection.

As shown in fig. 5 and 6, in the present embodiment, in particular, the third mounting part 12 includes a first clamping plate 121, a second clamping plate 122, and a connecting plate 123 connecting the first clamping plate 121 and the second clamping plate 122; the first clamping plate 121 and the second clamping plate 122 are provided with hooks 124 on one sides close to the connecting plate 123, the two sides of the wall plate 5 are provided with at least one second assembling hole 16, and the hooks 124 are inserted into the second assembling holes 16, so that the wall plate 5 is hung on the third mounting part 12; the first clamping plate 121 and the second clamping plate 122 are punched with at least one second punched hole 125, and the third mounting part 12 is detachably mounted on the outer side of the vertical square pipe 4 through the second punched hole 125. A wallboard 5 is hung and is established on the neighbouring couple 124 of two adjacent third installed parts 12 to realize that wallboard 5 level is hung and is established on two adjacent vertical square pipes 4, simple to operate is swift. Only need pass the second through self tapping bolt and punch a hole 125 and the 4 spiro unions of vertical side pipe, realize that third installed part 12 demountable installation is on vertical side pipe 4, installation convenient operation can realize vertical side pipe 4 and the 12 assembled connections of third installed part through the spiro union of screwing to realize that wallboard 5 connects on vertical side pipe 4 through the 12 assembled connections of third installed part.

As shown in fig. 5 and 6, in the present embodiment, preferably, an adjusting gap 17 is provided between the first clamping plate 121 or the second clamping plate 122 and the side wall of the vertical square pipe 4; the connecting plate 123 is of a boss structure, the top end of a step of the connecting plate 123 is provided with a centering hole 126, and the two sides of the centering hole 126 are provided with aiming lines 127; the alignment hole 126 is aligned with the building horizontal bullet line and the adjustment line of sight 127 is aligned with the building horizontal bullet line to define the mounting inclination of the third mount 12. During the building, according to the skirting line on the ground, a horizontal reference line is popped out on the vertical square pipe 4 as a building horizontal line of ammunition, then the centering hole 126 is moved to the building horizontal line of ammunition, the connecting plate 123 is moved to align and coincide the aiming line 127 with the building horizontal line of ammunition, the installation gradient of the third installation part 12 is adjusted and limited, the third installation part 12 is located at the proper position of the vertical square pipe 4, and the wallboard 5 is conveniently hung and arranged horizontally in the follow-up process.

As shown in fig. 7 and 8, in the present embodiment, specifically, the bottom of the bending plate 7 is assembled and connected to the vertical square pipe 4 through a third mounting member 12, and the top of the bending plate 7 is assembled and connected to the top square pipe 6 through a fifth mounting member 13; the fifth mounting member 13 includes a bridging portion 131, a hooking portion 133, and a connecting portion 132 provided between the bridging portion 131 and the hooking portion 133; the lap joint part 131 is suitable for being hung on the top wall of the top square pipe 6; the connecting part 132 is provided with at least one third punched hole 134, and the connecting part 132 is suitable for being screwed with the side wall of the top square tube 6 through the third punched hole 134; the top of the bent plate 7 is provided with a third assembling hole 18, and the hooking part 133 is suitable for being inserted into the third assembling hole 18 and then transversely moved to hang the top of the bent plate 7; the bottom of the bent plate 7 is provided with a fourth assembling hole 19, and a hook 124 is suitable for being inserted into the fourth assembling hole 19 so as to assemble and connect the bottom of the bent plate 7 on the vertical square pipe 4. The bent plate 7 is hung on the hooks 124 of the two adjacent third mounting parts 12, so that the bottom of the bent plate 7 is horizontally hung on the two adjacent vertical square pipes 4, and the installation is convenient and quick. Insert hook portion 133 and sideslip again after third equipment hole 18 in order to hang the top of bent plate 7, then with fifth installed part 13 to top side pipe 6 removal to make overlap joint portion 131 hang and establish on the roof of top side pipe 6, and connecting portion 132 is connected with the lateral wall contact of top side pipe 6, pass the third side wall spiro union with top side pipe 6 through self tapping bolt afterwards, in order to realize that fifth installed part 13 fixes on top side pipe 6, thereby make bent plate 7 through fifth installed part 13 assembled connection on top side pipe 6. The design is simple, convenient operation is swift, and the packaging efficiency is high.

As shown in fig. 9 and 10, in the present embodiment, in particular, the sixth mounting member 14 includes a slant plate section 141 and a vertical plate section 142; the vertical plate section 142 is connected with the inclined plate section 141 to form a hook suitable for hanging the turned-up edge of the roof 8; the vertical plate section 142 is provided with a side punched hole 143, and a self-tapping bolt is suitable for penetrating through the side punched hole 143 to be screwed with the side wall of the square top pipe 6, so that the roof 8 and the square top pipe 6 are assembled and connected. Form the lifting hook through inclined plate section 141 and riser section 142 to make roof 8 hang on the lifting hook, again with riser section 142 through the side punching a hole 143 spiro union on top side pipe 6, thereby realize roof 8 and top side pipe 6 assembled connection, it is convenient to install, need not to adopt the welding mode to connect, also needn't be equipped with corresponding fire-fighting equipment because of the welding, accords with the requirement of safety supervision inspection.

In the present embodiment, as shown in fig. 9 and 10, preferably, a transverse plate segment 144 is connected to an end of the vertical plate segment 142 away from the inclined plate segment 141 to hang on the top wall of the top square pipe 6; the cross plate section 144 is provided with a top punched hole 145 to be screwed with the top wall of the top square tube 6 through the top punched hole 145 via bolts. The vertical plate section 142 and the horizontal plate section 144 form a bent lap joint structure, and are hung on the top wall of the top square pipe 6, so that the weight borne by the top plate 8 due to the fact that the vertical plate section 142 is fixed through bolts is reduced, and load is shared. Pass top hole 145 through the bolt and the roof spiro union of top side pipe 6 to make the roof and the lateral wall of top side pipe 6 all have the bolt and the spiro union of sixth installed part 14, avoid taking place the offset because of hanging roof 7, further share load.

As shown in fig. 11, in this embodiment, specifically, the fourth mounting member 9 is an angle plate, one side of the angle plate is provided with a plurality of punching holes, and the angle plate is adapted to be screwed with the upper beam 2 through bolts, and then the top square pipe 6 is inserted into the outer side of the angle plate, and then the top square pipe 6 is penetrated through the self-tapping bolt and screwed with the angle plate, so that the top square pipe 6 is connected with the upper beam 2 through the fourth mounting member 9 in an assembling manner.

Example two

As shown in fig. 1 to 11, on the basis of the first embodiment, the second embodiment provides an installation method of a quick-assembly keel operating room, which includes:

each lower cross beam is assembled and connected on the ground through a first installation part, the upright post is assembled and connected on the first installation part, and each upper cross beam is assembled and connected on the upright post through the first installation part; each vertical square tube is assembled and connected to the lower cross beam and the upper cross beam through a second mounting piece; each wallboard is assembled and connected on the vertical square pipe through a third mounting piece; each top square pipe is assembled and connected on the upper cross beam through a fourth mounting piece; the bottom of each bent plate is assembled and connected to the vertical square tube through a third installation piece, and the top of each bent plate is assembled and connected to the top square tube through a fifth installation piece; and each top plate is assembled and connected on the top square pipe through a sixth mounting piece.

In summary, according to the fast-assembly keel operating room and the installation method thereof, the upright posts are respectively assembled and connected to the lower cross beam and the upper cross beam through the first installation piece, the second installation piece, the third installation piece, the fourth installation piece, the fifth installation piece and the sixth installation piece, the vertical square tubes are assembled and connected to the lower cross beam and the upper cross beam, the wall plates are assembled and connected to the vertical square tubes, the top square tubes are assembled and connected to the upper cross beam, the bent plates are assembled and connected to the vertical square tubes and the top square tubes, and the top plates are assembled and connected to the top square tubes. The assembly type splicing of all parts is realized, the installation is convenient and efficient, a welding mode is not needed, fire-fighting equipment does not need to be equipped on site due to welding operation, the probability of safety accidents is reduced, and the requirement of safety supervision and inspection is met. Two side plates of a right-angle plate below the lower side plate are pressed on two adjacent lower cross beams, and the lower cross beams penetrate through the first punched holes and are in threaded connection with the ground through self-tapping bolts so that the two lower cross beams are assembled and connected with the ground; the lower end of the upright post is inserted outside the square plate below; the two upper cross beams are assembled and connected through two side plates of the right-angle plate above the upper cross beams, and the upper ends of the stand columns are inserted and connected outside the square plate above the upper cross beams; thereby realize that bottom end rail and entablature are connected through the assembled of first installed part with the stand, easy operation is high-efficient. The flange plate and the pressing plate are connected through the fastening piece, so that the flange of the lower cross beam or the upper cross beam is clamped between the flange plate and the pressing plate and then inserted into the vertical square tube through the tenon, the flange plate and the pressing plate are assembled and connected to the lower cross beam and the vertical square tube and the upper cross beam and the vertical square tube, and the distance between the flange plate and the pressing plate can be adjusted only by screwing the fastening piece; structural design is simple, and simple to operate is swift, and the assembled of the bottom end rail of being convenient for and entablature and vertical side's pipe is connected, is suitable for the popularization. A wallboard is hung and is established on the neighbouring couple of two adjacent third installed parts to realize that the wallboard level is hung and is established on two adjacent vertical side pipes, simple to operate is swift. Only need pass the second through self tapping bolt and punch a hole and manage the spiro union with vertical side, realize that third installed part demountable installation is on vertical side's pipe, installation convenient operation can realize vertical side's pipe and the assembled connection of third installed part through the spiro union of screwing to realize that the wallboard is managed on vertical side through the assembled connection of third installed part. The bent plate is hung on the hooks of the two adjacent third installation parts, so that the bottom of the bent plate is horizontally hung on the two adjacent vertical square pipes, and the installation is convenient and quick. Insert the top of sideslip in order to hang the bent plate again behind the third equipment hole with hookup portion, then with the removal of fifth installed part to the top side pipe, so that the overlap joint portion hangs and establishes on the roof of top side pipe, and the lateral wall contact of connecting portion and top side pipe is connected, pass the third through self tapping bolt afterwards and punch a hole the lateral wall spiro union with top side pipe, in order to realize that the fifth installed part is fixed on top side pipe, thereby make the bent plate pass through fifth installed part assembled connection on top side pipe. The design is simple, convenient operation is swift, and the packaging efficiency is high. Form the lifting hook through ramp section and riser section to make the roof hang on the lifting hook, again with the riser section through the side blow hole spiro union on top side pipe, thereby realize that roof and top side pipe assembled are connected, it is convenient to install, need not to adopt the welding mode to connect, also needn't be equipped with corresponding fire-fighting equipment because of the welding, accord with the requirement of safety supervision inspection. One side of the fourth installation part is provided with a plurality of stamping holes, the stamping holes are connected with the upper cross beam through bolts in a screwed mode, then the top square pipe is inserted into the outer side of the fourth installation part, and the top square pipe is penetrated through the self-tapping bolts to be connected with the fourth installation part in a screwed mode, so that the top square pipe is connected with the upper cross beam in an assembled mode through the fourth installation part.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. A fast-assembling fossil fragments operating room which characterized in that includes:

the mounting structure comprises a lower cross beam, an upper cross beam, a stand column, a first mounting piece, a vertical square tube, a second mounting piece, a wallboard, a third mounting piece, a top square tube, a fourth mounting piece, a bent plate, a fifth mounting piece, a top plate and a sixth mounting piece; wherein

Two adjacent lower cross beams are assembled and connected through a first installation part, two adjacent upper cross beams are assembled and connected through the first installation part, and two ends of the upright post are respectively assembled and connected to the lower cross beams and the upper cross beams through the first installation part;

the vertical square tubes are assembled and connected to the lower cross beam and the upper cross beam through second mounting pieces;

the wallboard is assembled and connected to the vertical square pipe through a third mounting piece;

two ends of the top square pipe are respectively assembled and connected to the corresponding upper cross beams through fourth mounting pieces;

the bottom of the bent plate is assembled and connected to the vertical square tube through a third installation piece, and the top of the bent plate is assembled and connected to the top square tube through a fifth installation piece;

the top plate is assembled and connected to the top square tube through a sixth mounting piece;

the first mounting piece comprises a right-angle plate and a square plate;

the two side plates of the right-angle plate are respectively provided with a first punched hole and are suitable for being assembled and connected with the lower cross beam or the upper cross beam;

the square plate is arranged at the joint of the two side plates of the right-angle plate and is suitable for being assembled and connected with the upright post;

the second mounting part comprises a bottom plate and a pressing plate;

the middle part of the bottom plate protrudes to form a tenon which is suitable for being assembled and connected with the vertical square tube;

wing plates are formed on two sides of the tenon, and first through holes are formed in the wing plates;

pressing plates are correspondingly arranged above the wing plates respectively, and second through holes are formed in the pressing plates;

the wing plates and the pressing plates clamp the flanges of the upper cross beam or the lower cross beam and are connected through the first through holes and the second through holes, so that the vertical square tubes are assembled and connected to the upper cross beam or the lower cross beam.

2. The quick-install keel operating room as claimed in claim 1,

the lateral wall of vertical side's pipe tip is opened has the first equipment hole of several, is suitable for self-tapping bolt to pass first equipment hole and is connected with the tenon.

3. The quick-install keel operating room as claimed in claim 1,

the third mounting part comprises a first clamping plate, a second clamping plate and a connecting plate for connecting the first clamping plate and the second clamping plate; wherein

Hooks are arranged on one sides, close to the connecting plate, of the first clamping plate and the second clamping plate, at least one second assembling hole is formed in each of the two sides of the wallboard, and the hooks are inserted into the second assembling holes so that the wallboard is hung on the third mounting piece;

first splint and second splint have all punched a hole by at least one second, are suitable for to punch a hole through the second and realize that third installed part demountable installation is in the outside of vertical square pipe.

4. The quick-install keel operating room as claimed in claim 3,

an adjusting gap is formed between the first clamping plate or the second clamping plate and the side wall of the vertical square tube;

the connecting plate is of a boss structure, the top end of a step of the connecting plate is provided with a center hole, and two sides of the center hole are provided with aiming lines;

the center hole is aligned with the horizontal building line of ammunition, and the sighting line is adjusted to be aligned with the horizontal building line of ammunition so as to limit the installation inclination of the third installation part.

5. The quick-install keel operating room as claimed in claim 3 or 4,

the bottom of the bent plate is assembled and connected to the vertical square tube through a third installation piece, and the top of the bent plate is assembled and connected to the top square tube through a fifth installation piece;

the fifth mounting member includes a lap portion, a hook portion, and a connection portion provided between the lap portion and the hook portion;

the lap joint part is suitable for being hung on the top wall of the top square pipe;

the connecting part is provided with at least one third punched hole and is suitable for being in threaded connection with the side wall of the top square pipe through the third punched hole;

the top of the bent plate is provided with a third assembly hole, and the hooking part is suitable for being inserted into the third assembly hole and then transversely moved to hang the top of the bent plate;

the bottom of bent plate is opened there is the fourth assembled hole, the couple is suitable for inserting the fourth assembled hole with the bottom assembled connection of bent plate on vertical square pipe.

6. The quick-install keel operating room as claimed in claim 1,

the sixth mount comprises a ramp section and a riser section;

the vertical plate section is connected with the inclined plate section to form a lifting hook suitable for hanging a flanging of the top plate;

the vertical plate section is provided with a side punched hole, and a self-tapping bolt is suitable for penetrating through the side punched hole to be in threaded connection with the side wall of the top square pipe, so that the top plate and the top square pipe are assembled and connected.

7. The quick-install keel operating room of claim 6,

one end of the vertical plate section, which is far away from the inclined plate section, is connected with a transverse plate section so as to be hung on the top wall of the top square pipe;

the transverse plate section is provided with a top punched hole so as to penetrate through the top punched hole through a bolt to be in threaded connection with the top wall of the top square pipe.

8. A method for installing a fast-assembly keel operating room is characterized by comprising the following steps:

each lower cross beam is assembled and connected on the ground through a first installation part, the upright post is assembled and connected on the first installation part, and each upper cross beam is assembled and connected on the upright post through the first installation part;

each vertical square tube is assembled and connected to the lower cross beam and the upper cross beam through a second mounting piece;

each wallboard is assembled and connected on the vertical square pipe through a third mounting piece;

each top square pipe is assembled and connected on the upper cross beam through a fourth mounting piece;

the bottom of each bent plate is assembled and connected to the vertical square tube through a third installation piece, and the top of each bent plate is assembled and connected to the top square tube through a fifth installation piece;

and each top plate is assembled and connected on the top square pipe through a sixth mounting piece.

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