CN112196116B - Simple to operate's board house - Google Patents

Abstract

The invention discloses a plank house convenient to install, which structurally comprises a plank house, wherein a bearing support plate assembly used for bearing the plank house and driving the plank house to move is arranged below the plank house, reinforcing frame assemblies used for reinforcing the plank house and capable of being connected with other assemblies are arranged on two sides of the plank house, a lifting carrying assembly used for lifting the plank house so as to facilitate stacking of the plank house is arranged on the outer side of the plank house, and a translation power assembly used for driving the plank house in laminated contact to translate is arranged at the top of the plank house.

Description

Simple to operate's board house

Technical Field

The invention belongs to the technical field of assembly type buildings, and particularly relates to a board house convenient to install.

Background

The shortcoming of the prior art is that the transportation and the construction of multilayer board house material are often realized with the help of the machinery of certain promotion usage to the construction of board house, because current board house is often built at the scene, receives various factors to influence easily and reduces and builds efficiency, and when carrying out the construction of multilayer board house, there is certain risk in the operation of building, and prior art does not build the technique that the operation combines with board house unit and multilayer board house. For this reason, long-term research has been conducted and various solutions have been proposed.

For example, chinese patent document discloses a mobile board house that is convenient to build quickly [ application No.: 201920336859.8], including a plurality of wall and roof, the wall is formed by the concatenation of a plurality of bounding wall, and every two adjacent bounding walls pass through connecting block fixed connection, and the inboard junction of every two adjacent walls all is provided with the dead lever, installs the transverse bar between two transverse adjacent dead levers, installs the longitudinal rod between two vertical adjacent dead levers. This remove board house convenient to build fast is whole wall through using the connecting block and then with two adjacent bounding wall fixed connection until the concatenation, through the dead lever that sets up and use transverse bar and longitudinal rod respectively transversely and vertically install between the dead lever, but make the wall direct mount on the frame that the dead lever formed, increased the speed of building the removal board house.

Above-mentioned scheme only designs to buildding of single board house to do not realize not installing with the help of the large-scale mechanical equipment of exterior space, and make the board house unit with the board house, realize buildding of multilayer board house crowd through the work of drive structure in the board house unit, fail to improve better and build efficiency and reduce and build the operation risk, reduced work efficiency.

Disclosure of Invention

The invention aims to solve the problems and provides equipment which can be used for mounting without the aid of large mechanical equipment in an external space, can make a board room into a board room unit, realizes the building of a multilayer board room group through the work of a driving structure in the board room unit, effectively improves the building efficiency and reduces the building operation risk.

The invention is realized by the following technical scheme: the invention discloses a board room convenient to install, which comprises a board room, wherein a bearing supporting plate assembly used for bearing the board room and driving the board room to move is arranged below the board room, reinforcing frame assemblies used for reinforcing the board room and capable of being connected with other assemblies are arranged on two sides of the board room, a lifting carrying assembly used for lifting the board room so as to facilitate stacking of the board room is arranged on the outer side of the board room, and a translation power assembly used for driving the board room in laminated contact to translate is arranged at the top of the board room.

According to a further technical scheme, the bearing support plate assembly comprises a sliding support plate fixedly arranged at the bottom of the plate house, a support plate rack groove is formed in the bottom of the sliding support plate, symmetrical translation limiting convex blocks are fixedly arranged at one end of the sliding support plate, a sliding support plate motor is fixedly arranged on one side of the sliding support plate, a support plate motor matching gear is arranged on an output shaft of the sliding support plate motor in a power connection mode, a sliding bearing support plate is arranged on the lower side of the plate house, a support plate sliding groove is formed in the upper end face of the bearing support plate and is in sliding fit with the sliding support plate, symmetrical limiting sliding grooves are formed in the inner walls of the two sides of the support plate sliding groove and are in sliding fit with the translation limiting convex blocks, a sliding fit rack is fixedly arranged in the support plate sliding groove and is in meshing fit with the support plate motor matching gear, and therefore the sliding support plate motor is used for driving the support plate motor to be matched with the gear to rotate, the sliding of the sliding supporting plate on the bearing supporting plate is realized through the meshing and matching of the supporting plate motor and the gear with the sliding matching rack, and the sliding supporting plate is prevented from slipping through the matching of the translation limiting lug and the limiting sliding groove.

According to the technical scheme, the reinforcing frame assembly comprises a plurality of vertical supporting frames symmetrically and fixedly arranged on the periphery of the board room, the vertical supporting frames on the same side are fixedly connected with symmetrical sliding track frames, and a track sliding groove penetrating through the vertical supporting frames is formed in each sliding track frame, so that the board room is supported by the vertical supporting frames, and the components are connected with each other through the sliding track frames and the track sliding grooves.

In a further technical scheme, the lifting carrying assembly comprises a fixed cross beam arranged at the outer side of the vertical supporting frame, two ends of the fixed beam are fixedly provided with symmetrical screw motors, the screw motors are provided with power screws in a power connection way, the lower end surface of the screw motor is fixedly provided with a plurality of stable connecting rods, the lower end surface of each stable connecting rod is fixedly provided with a screw base, the screw base is matched with the power screw in a rotating way, the lower end face of the screw base is fixedly provided with a supporting base, the power screws positioned at the two ends of the same fixed cross beam are respectively provided with an inner lifting and overturning assembly used for lifting the bearing supporting plate and a connecting structure and an outer lifting and overturning assembly used for connecting the sliding track frame, therefore, the screw motor drives the screw to rotate, and the bearing supporting plate and the connected board room are lifted and descended by matching with the transmission of the corresponding component.

According to the technical scheme, the inner lifting turnover component comprises an inner turnover motor symmetrically and fixedly arranged on one side of the bearing support plate, an inner turnover block is arranged on an output shaft of the inner turnover motor in a power connection mode, an extension connecting shaft is fixedly arranged at one end of the inner turnover block, a screw rotating motor is fixedly arranged at one end of the extension connecting shaft, a screw matching block is arranged on the screw rotating motor in a power connection mode, the screw matching block is in threaded matching with the power screw, so that the bearing support plate and a connected component are driven to lift through the rotation of the power screw through the screw matching block, the screw rotating motor and the screw matching block are driven to turn over, and the inner turnover motor and the inner turnover block are driven to turn over to achieve the lifting of the power screw and the connected component.

In a further technical scheme, the outer lifting turnover component comprises an outer turnover motor symmetrically and fixedly arranged on the bearing supporting plate and far away from one side of the inner turnover motor, an outer turnover connecting block is arranged on an output shaft of the outer turnover motor in a power connection mode, an inner groove sliding rod is fixedly arranged on one side of the outer turnover connecting block and is in sliding fit with the track sliding groove arranged on the lower side of the vertical supporting frame, a second screw rod rotating motor is fixedly arranged at one end of the inner groove sliding rod, a second screw rod matching block is arranged on the second screw rod rotating motor in a power connection mode, the second screw rod matching block is far away from the power screw rod of the first screw rod matching block and is in threaded fit with the power screw rod, so that the bearing supporting plate and the connecting component are lifted in a matching mode with the inner lifting component, and the inner groove sliding fit with the track sliding groove is used for realizing connection with the board room, and finally, the fixed cross beam and the connecting assembly can synchronously slide with the bearing supporting plate.

According to the technical scheme, the translation power assembly comprises a top power plate fixedly arranged on the upper end face of the board room, a plurality of power roller grooves are formed in the top power plate, a plurality of power rollers are arranged in the power roller grooves in a power connection mode, and therefore translation adjustment of the upper stacked board room is achieved through rotation of the power rollers.

The invention has the beneficial effects that: the board room unit can be made into the board room without the help of large mechanical equipment in an external space, the building of a multilayer board room group is realized through the work of a driving structure in the board room unit, the building efficiency is effectively improved, and the building operation risk is reduced.

The above-mentioned advantages are particularly manifested in that,

1. through power screw rod with No. one screw rod cooperation piece reaches the lift of No. two screw rod cooperation pieces's screw-thread fit realization board room, this screw-thread fit can realize again simultaneously power screw rod self reaches and links to each other the lift of components such as fixed cross beam can assist the realization when upwards increasing the pile new board room, and this board room can rise to original board room top, and can pass through after rising and fixing power screw rod reversal messenger including relevant subassembly including the power screw rod is retrieved to on the board room place height, through turn over connecting block with turn over motor's normal running fit and in turn over motor with turn over block's normal running fit makes the board room can realize that the second section risees to pile and build to original board room top, and prevent to interfere, simultaneously through No. one screw rod cooperation piece with screw rod rotating motor's normal running fit and No. two screw rod rotating motor with No. two The rotational fit of the screw mating blocks keeps the load bearing plate and its associated components horizontal at all times when raised.

2. Through layer board motor cooperation gear with the meshing cooperation of sliding fit rack has been realized sliding support board with sliding fit between the bearing plate combines the inside groove slide bar with the spout cooperation of track spout has realized the separation of board room with the subassembly that links to each other, makes by the lifting the board room can be carried to the lower floor the board room top has played the effect of building of multilayer board room, simultaneously through the reversal of layer board motor cooperation gear has played the recovery effect of relevant subassemblies such as bearing plate to through the drive the translation adjustment of top board room is realized in the rotation of power roller bearing, so that from top to bottom the board room aligns, has finally realized piling up the effect of piling up the board room.

3. When the board houses are stacked to more than three layers, the original second layer board house can be lifted to the height of the third layer, and meanwhile, the newly-added board houses are carried to the height of the second layer board house and inserted into the second layer board house, so that the multi-layer stacking is realized.

Drawings

FIG. 1 is a schematic structural view of a board room unit according to the present invention;

FIG. 2 is a schematic structural view of a board room reinforcement frame assembly of the present invention;

FIG. 3 is a schematic view of the second storey house building assembly of the present invention in an operational state;

FIG. 4 is a schematic view of the construction of the inner lift assembly of the present invention;

FIG. 5 is a schematic view of the outer lift assembly of the present invention;

FIG. 6 is a schematic view of the second storey house building initial state of the present invention;

FIG. 7 is a schematic diagram of a second storey house construction process according to the invention;

in the figure, a board room 100, a sliding supporting plate 101, a translation limit bump 102, a supporting plate rack groove 103, a sliding supporting plate motor 104, a supporting plate motor matching gear 105, a bearing supporting plate 106, a supporting plate sliding groove 107, a sliding matching rack 108, a limit sliding groove 109, a vertical supporting frame 110, a sliding track frame 111, a track sliding groove 112, a fixed cross beam 113, a screw motor 114, a power screw 115, a stable connecting rod 116 and a screw base 117, the device comprises a supporting base 118, an inner overturning motor 119, an inner overturning block 120, an extending connecting shaft 121, a first screw rotating motor 122, a first screw matching block 123, an outer overturning motor 124, an outer overturning connecting block 125, an inner groove sliding rod 126, a second screw rotating motor 127, a second screw matching block 128, a top power plate 129, a power roller groove 130, a power roller 131, a bearing plate assembly 200, a reinforcing frame assembly 201, a lifting carrying assembly 202 and a translation power assembly 203.

Detailed Description

As shown in fig. 1 to 7, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the board room convenient to install comprises a board room 100, a bearing supporting plate component 200 used for bearing the board room and driving the board room to move is arranged below the board room 100, reinforcing frame components 201 used for reinforcing the board room and connecting other components are arranged on two sides of the board room 100, a lifting carrying component 202 used for lifting the board room so as to facilitate stacking of the board room is arranged on the outer side of the board room 100, and a translation power component 203 used for driving the board room in laminated contact to translate is arranged at the top of the board room 100.

Advantageously, the bearing plate assembly 200 comprises a sliding plate 101 fixed at the bottom of the board house 100, a plate rack slot 103 is provided at the bottom of the sliding plate 101, symmetrical translation limiting protrusions 102 are fixed at one end of the sliding plate 101, a sliding plate motor 104 is fixed at one side of the sliding plate 101, a plate motor matching gear 105 is provided on an output shaft of the sliding plate motor 104 in a power connection manner, a sliding bearing plate 106 is provided at the lower side of the board house 100, a plate sliding slot 107 is provided at the upper end face of the bearing plate 106, the plate sliding slot 107 is in sliding fit with the sliding plate 101, symmetrical limiting sliding slots 109 are provided on the inner walls at both sides of the plate sliding slot 107, the limiting sliding slot 109 is in sliding fit with the translation limiting protrusion 102, a sliding fit rack 108 is fixed in the plate sliding slot 107, the sliding fit rack 108 is in meshing fit with the plate motor matching gear 105, so that the sliding plate motor 104 drives the plate motor matching gear 105 to rotate, the sliding of the sliding supporting plate 101 on the bearing supporting plate 106 is realized through the meshing and matching of the supporting plate motor matching gear 105 and the sliding matching rack 108, and the sliding supporting plate 101 is prevented from slipping through the matching of the translation limiting convex block 102 and the limiting sliding groove 109.

Advantageously, the reinforcing frame assembly 201 includes a plurality of vertical supporting frames 110 symmetrically fixed around the board room 100, the vertical supporting frames 110 on the same side are fixedly connected at the upper and lower ends thereof with symmetrical sliding rail frames 111, and the sliding rail frames 111 are provided with through rail sliding slots 112, so that the board room is supported by the vertical supporting frames 110, and the assembly is connected by the sliding rail frames 111 and the rail sliding slots 112 thereon.

Beneficially, the lifting carrying assembly 202 includes a fixed cross beam 113 disposed outside the vertical support frame 110, two ends of the fixed cross beam 113 are fixedly provided with symmetrical screw motors 114, the screw motors 114 are provided with power screws 115 in a power connection manner, a plurality of stabilizing connecting rods 116 are fixedly disposed on lower end faces of the screw motors 114, a screw base 117 is fixedly disposed on lower end faces of the stabilizing connecting rods 116, the screw base 117 is in running fit with the power screws 115, a support base 118 is fixedly disposed on lower end faces of the screw bases 117, and an inner lifting overturning assembly for lifting the bearing plate 106 and the connecting structure and an outer lifting overturning assembly for connecting the sliding track frame 111 are respectively disposed on the power screws 115 at two ends of the same fixed cross beam 113, so that the screw motors 114 drive the screws to rotate, and lifting of the bearing plate 106 and the connected plate house is realized by matching with transmission of corresponding assemblies.

Beneficially, the inner lifting and overturning assembly comprises inner overturning motors 119 symmetrically fixed on one sides of the bearing support plates 106, inner overturning blocks 120 are arranged on output shafts of the inner overturning motors 119 in a power connection mode, extension connecting shafts 121 are fixed at one ends of the inner overturning blocks 120, first screw rotating motors 122 are fixed at one ends of the extension connecting shafts 121, first screw matching blocks 123 are arranged on the first screw rotating motors 122 in a power connection mode, the first screw matching blocks 123 are in threaded matching with the power screws 115, so that the bearing support plates 106 and the connecting assemblies are driven to lift through rotation of the power screws 115 through the first screw matching blocks 123, the power screws 115 and the connecting assemblies are lifted through transmission overturning of the first screw rotating motors 122 and the first screw matching blocks 123, and transmission overturning of the inner overturning motors 119 and the inner overturning blocks 120.

Beneficially, the outer lifting and overturning assembly includes an outer overturning motor 124 symmetrically fixed on the bearing plate 106 and far from the inner overturning motor 119, an outer overturning connecting block 125 is connected to an output shaft of the outer overturning motor 124 in a power manner, an inner groove sliding rod 126 is fixed on one side of the outer overturning connecting block 125, the inner groove sliding rod 126 is in sliding fit with the track sliding chute 112 located on the lower side of the vertical supporting frame 110, a second screw rod rotating motor 127 is fixed on one end of the inner groove sliding rod 126, a second screw rod matching block 128 is connected to the second screw rod rotating motor 127 in a power manner, the second screw rod matching block 128 is in threaded fit with the power screw rod 115 far from the first screw rod matching block 123, thereby realizing the lifting of the bearing plate 106 and the connected components by matching with the inner lifting component, realizing the connection with the board house 100 by the sliding fit of the inner groove sliding rod 126 and the track sliding groove 112, and ultimately enables the fixed cross member 113 and associated components to slide synchronously with the load bearing plate 106.

Advantageously, the translational power assembly 203 comprises a top power plate 129 fixed on the upper end surface of the board room 100, the top power plate 129 is provided with a plurality of power roller grooves 130, and a plurality of power rollers 131 are arranged in the power roller grooves 130 in a power connection manner, so that translational adjustment of the upper laminated board room is realized by driving the power rollers 131 to rotate.

In an initial state, the above devices, components and structures are in a stop working state, a worker can build a plurality of board room units on site, then arrange the board rooms on the first layer side by side to a preset position to prepare for laying the second layer, then start the first screw rod rotating motor 122 and the second screw rod rotating motor 127 in the second layer board room unit, the first screw rod matching block 123 and the first screw rod rotating motor 122 rotate relatively, the second screw rod matching block 128 and the second screw rod rotating motor 127 rotate relatively to turn over the inner turning block 120 until the first screw rod rotating motor 122 and the second screw rod rotating motor 127 are positioned at a vertically downward position to realize the lifting of the bearing supporting plate 106, so that the bearing supporting plate 106 and the components such as the upper board room thereof leave the ground, then the board room unit to be erected on the second layer is positioned right in front of the board room at the corresponding position of the first layer, and is abutted against the board room units of the first floor, namely the fixed cross beams 113 and the connecting components on both sides of the board room units of the first floor are abutted against the fixed cross beams 113 and the connecting components on both sides of the board room units of the second floor.

When the equipment works, the board room of the first layer does not work, the screw motor 114 erected in the board room unit of the second layer is started firstly to drive the power screw 115 to rotate, then the bearing supporting plate 106 and the upper component thereof are synchronously lifted to the highest position of the power screw 115 through the matching transmission of the power screw 115, the screw motor 115 stops working, then the sliding supporting plate motor 104 is started, the sliding supporting plate motor 104 drives the supporting plate motor to rotate in a matching way with the gear 105, the sliding supporting plate 101 and the upper board room thereof are moved to the top of the board room of the first layer through the meshing matching of the supporting plate motor matching gear 105 and the sliding matching rack 108, the sliding track frame 111 between the upper board room and the lower board room is in sliding matching in the translation process, when the sliding supporting plate 101 and the upper board room thereof completely slide to the position right above the lower board room, the inner turning motor 119 and the outer turning motor 124 are started simultaneously, the inner overturning block 120, the outer overturning connecting block 125 and the connected components are rotated, and the first screw rod matching block 123 and the second screw rod matching block 128 are always kept stable and horizontal through the matching starting of the first screw rod rotating motor 122 and the second screw rod rotating motor 127, that is, the fixed cross beam 113, the power screw rod 115 and the connected structure are kept in a vertical state and lifted along with the fixed cross beam until the first screw rod rotating motor 122 and the second screw rod rotating motor 127 swing to a vertically upward state, then the screw rod motor 114 is started again to drive the power screw rod 115 to rotate, the power screw rod 115, the fixed cross beam 113 and the connected components are lifted to the highest position through the threaded matching of the power screw rod 115, the first screw rod matching block 123 and the second screw rod matching block 128, then the sliding supporting plate motor 104 is started again, the bearing supporting plate 106 slides to the upper laminated plate room through the meshing matching of the supporting plate motor matching gear 105 and the sliding matching rack 108, meanwhile, due to the movement of the bearing support plate 106, the fixed cross beam 113 and the power screw 115 are driven by structures such as the first screw rotating motor 122 and the second screw rotating motor 127 to synchronously move towards the board room until the upper board room unit is restored to the initial state of the board room unit, the power roller 131 positioned at the top of the lower board room is started, the upper board room is finely adjusted by rolling and matching with the bearing support plate 106 at the bottom of the upper board room, and finally the upper board room is built.

When three-layer board houses are to be built, the fact is that the newly-added board houses are inserted between the first layer and the second layer, so that the second layer board houses become the third layer board houses.

During actual building, the initial state of the newly-added board room is the same as the initial state of building the second board room, the second board room unit at the moment is firstly adjusted by the inner lifting component and the outer lifting component, so that the first screw rod rotating motor 122 and the second screw rod rotating motor 127 are kept in a vertical downward state, namely the state is the same as the initial state of building the second board room, then the bearing support plate 106 and the board room and the connecting components thereon are driven to be lifted to the highest position of the power screw rod 115 by the rotation of the power screw rod 115, then the newly-added board room unit on the ground repeats the partial building process of the second board room described in the previous section, namely the sliding support plate 101 and the board room below the newly-added board room unit are moved to the position between the first board room and the second board room, then the second board room at the topmost part drives the power screw rod 115 and the fixed cross beam 113 and the connecting components to be lifted synchronously by the rotation of the power screw rod 115, and finally, all components of the second layer of board room unit are restored to the same initial state as the first layer of board room unit, then the subsequent building process of the second layer of board room unit described by the previous section of the newly-added board room unit is repeated, fine adjustment between the board rooms is realized through the power rolling shafts 131 of all layers, the newly-added board room unit is inserted between the original first layer of board room unit and the second layer of board room unit, and finally a board room group with a three-layer structure is built.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms board house, sliding pallet, translation limit projection, pallet rack slot, sliding pallet motor, pallet motor mating gear, bearing pallet, pallet chute, sliding mating rack, limit chute, vertical support frame, sliding track frame, track chute, fixed beam, screw motor, power screw, stabilizing connecting rod, screw base, support base, inner turning motor, inner turning block, extending connecting shaft, first screw rotating motor, first screw mating block, outer turning motor, outer turning connecting block, inner groove sliding rod, second screw rotating motor, second screw mating block, top power plate, power roller slot, power roller, bearing pallet assembly, reinforcing frame assembly, lifting carrying assembly, translation power assembly, etc. are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims (1)

1. The board house convenient to install is characterized by comprising a board house (100), wherein a bearing support plate assembly (200) used for bearing the board house and driving the board house to move is arranged below the board house (100), reinforcing frame assemblies (201) used for reinforcing the board house and capable of being connected with other assemblies are arranged on two sides of the board house (100), a lifting carrying assembly (202) used for lifting the board house so as to facilitate stacking of the board house is arranged on the outer side of the board house (100), and a translation power assembly (203) used for driving the board house in stacking contact to translate is arranged at the top of the board house (100);

the bearing supporting plate assembly (200) comprises a sliding supporting plate (101) fixedly arranged at the bottom of the plate house (100), a supporting plate rack groove (103) is formed in the bottom of the sliding supporting plate (101), symmetrical translation limiting convex blocks (102) are fixedly arranged at one end of the sliding supporting plate (101), a sliding supporting plate motor (104) is fixedly arranged on one side of the sliding supporting plate (101), a supporting plate motor matching gear (105) is arranged on an output shaft of the sliding supporting plate motor (104) in a power connection mode, a sliding bearing supporting plate (106) is arranged on the lower side of the plate house (100), a supporting plate sliding groove (107) is formed in the upper end face of the bearing supporting plate (106), the supporting plate sliding groove (107) is in sliding fit with the sliding supporting plate (101), symmetrical limiting sliding grooves (109) are formed in the inner walls of the two sides of the supporting plate sliding groove (107), and the limiting sliding grooves (109) are in sliding fit with the translation limiting convex blocks (102), a sliding fit rack (108) is fixedly arranged in the supporting plate sliding groove (107), and the sliding fit rack (108) is meshed and matched with the supporting plate motor fit gear (105);

the reinforcing frame assembly (201) comprises a plurality of vertical support frames (110) symmetrically and fixedly arranged on the periphery of the board room (100), symmetrical sliding track frames (111) are fixedly connected to the upper end and the lower end of the vertical support frames (110) on the same side, and a penetrating track sliding chute (112) is arranged on each sliding track frame (111);

the lifting carrying assembly (202) comprises a fixed cross beam (113) arranged outside the vertical supporting frame (110), two ends of the fixed beam (113) are fixedly provided with symmetrical screw motors (114), the screw motors (114) are provided with power screws (115) in a power connection way, a plurality of stable connecting rods (116) are fixedly arranged on the lower end surface of the screw motor (114), a screw rod base (117) is fixedly arranged on the lower end surface of the stable connecting rod (116), the screw rod base (117) is in rotating fit with the power screw rod (115), a support base (118) is fixedly arranged on the lower end face of the screw rod base (117), and an inner lifting and overturning assembly for lifting the bearing support plate (106) and a connecting structure and an outer lifting and overturning assembly for connecting the sliding track frame (111) are respectively arranged on the power screw rods (115) positioned at two ends of the same fixed cross beam (113);

the inner lifting turnover component comprises inner turnover motors (119) symmetrically and fixedly arranged on one sides of the bearing supporting plates (106), inner turnover blocks (120) are arranged on output shafts of the inner turnover motors (119) in a power connection mode, one ends of the inner turnover blocks (120) are fixedly provided with extension connecting shafts (121), one ends of the extension connecting shafts (121) are fixedly provided with first screw rotating motors (122), the first screw rotating motors (122) are provided with first screw matching blocks (123) in a power connection mode, and the first screw matching blocks (123) are in threaded matching with the power screws (115);

the outer lifting assembly comprises outer turning motors (124) which are symmetrically and fixedly arranged on the bearing supporting plate (106) and far away from one side of the inner turning motor (119), outer turning connecting blocks (125) are arranged on output shafts of the outer turning motors (124) in a power connection mode, inner groove sliding rods (126) are fixedly arranged on one sides of the outer turning connecting blocks (125), the inner groove sliding rods (126) are in sliding fit with the track sliding grooves (112) located on the lower side of the vertical supporting frame (110), a second screw rotating motor (127) is fixedly arranged at one end of each inner groove sliding rod (126), a second screw matching block (128) is arranged on each second screw rotating motor (127) in a power connection mode, and the second screw matching block (128) is far away from the power screw (115) of the first screw matching block (123) in a threaded fit mode;

the translation power assembly (203) comprises a top power plate (129) fixedly arranged on the upper end face of the board room (100), a plurality of power roller grooves (130) are formed in the top power plate (129), and a plurality of power rollers (131) are arranged in the power roller grooves (130) in a power connection mode.

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