Auxiliary carrying device for mounting of building electromechanical equipment
Technical Field
The utility model relates to an auxiliary carrying device for mounting of building electromechanical equipment.
Background
When building construction is carried out, various building electromechanical devices are required. At present, when carrying and installing related building electromechanical equipment on a building construction site, the carrying can only be carried by manpower because special hoisting carrying equipment is not available. When adopting artifical haulage equipment, utilize common small handcart to carry usually, because of the volume of small handcart is great, lead to the small handcart can't remove in the equipment fixing region that some activity spaces are narrow and small to can't carry the destination with equipment, simultaneously, because of the height of small handcart is shorter, when the manual work was carried equipment on the small handcart, the staff need bow by a wide margin, lead to artifical haulage equipment comparatively labouring.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an auxiliary carrying device for mounting building electromechanical equipment, wherein the length of a bearing plate of the carrying device can be adjusted in a telescopic mode, so that the carrying device is suitable for supporting equipment with different sizes, meanwhile, the carrying device is small in overall size, movement in a narrow space is facilitated, the equipment is convenient to carry to a destination, further, the bearing plate can be adjusted in a lifting mode, and the equipment is convenient to carry from the bearing plate manually.
The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a handling device is assisted in installation of building electromechanical device, includes fixed support seat, loading board, elevating system the bottom of fixed support seat is provided with four universal wheels the left and right sides of fixed support seat all sets up a movable support seat, the movable support seat can control freely reciprocating sliding for fixed support seat, elevating system sets up on the fixed support seat, elevating system is used for realizing the upper and lower altitude mixture control location of loading board, the left and right sides of loading board all through two bracing pieces with correspond the movable support seat is connected, and the both ends of bracing piece all through articulated connected mode with correspond loading board or movable support seat are connected.
Preferably, the bearing plate comprises a first bearing plate, a second bearing plate and a serial connection plate, a through groove is formed in each of the opposite surfaces of the first bearing plate and the second bearing plate, the serial connection plate is correspondingly sleeved in the two through grooves, and the serial connection plate can slide relative to the first bearing plate and the second bearing plate.
Furthermore, the lifting mechanism comprises two groups of lifting components, the lower part of the right side of the first bearing plate and the lower part of the left side of the second bearing plate are respectively provided with one lifting component, each group of lifting components comprises a connecting fixing plate, a driving rotating shaft and two groups of executing components, each group of executing components comprises a supporting tube and a lifting threaded rod, the bottom of the supporting tube is provided with a supporting block, the supporting block is arranged on the fixed supporting seat, the supporting tube can only freely rotate relative to the supporting block, the upper part of the supporting tube is fixedly provided with a first helical gear, the lower end of the lifting threaded rod is sleeved in the supporting tube in a threaded fit manner, the connecting fixing plate is fixedly connected with the two corresponding supporting blocks through two connecting rods, the driving rotating shaft is arranged on the connecting fixing plate, and the driving rotating shaft is provided with two second helical gears which are in one-to-one correspondence with the two first helical gears, the rotation of drive pivot can make the second helical gear drive the first helical gear rotation that corresponds, the upper portion of lifting threaded rod sets up a locating plate, the lower part of first loading board and second loading board with correspond locating plate fixed connection.
Furthermore, a guide block is arranged at the lower part of the supporting block, the guide block is clamped in a first guide groove formed in the fixed supporting seat, a plurality of adjusting holes penetrating through the first guide groove are formed in the side wall of the first guide groove, a positioning hole matched with the adjusting holes is formed in the guide block, and a pin shaft is inserted into the positioning hole and the corresponding adjusting hole to realize the positioning of the guide block in the first guide groove.
Preferably, at each all set up a lift landing leg on the movable support seat, the lift landing leg includes adjusting threaded rod, fixation nut and landing leg board, fixation nut is fixed to be set up on the movable support seat, adjusting threaded rod cover is put in the fixation nut, the landing leg board sets up adjusting threaded rod lower part can realize the up-and-down reciprocating motion of landing leg board through rotating adjusting threaded rod.
Preferably, one side of the movable support seat opposite to the fixed support seat is provided with two guide rods, the guide rods are sleeved in second guide grooves formed in the fixed support seat, and the guide rods can freely slide in the second guide grooves.
The utility model has the beneficial effects that: the utility model has simple structure and convenient processing and manufacturing; the whole volume is small, and the universal wheel is used for supporting, so that the device can be driven to move in a narrow moving space; the first bearing plate and the second bearing plate are movably connected through the series connection plate, so that the length of the whole bearing plate is adjusted, and the bearing plates can be used for carrying equipment with different sizes; utilize elevating system, can realize the lift location regulation of loading board, when needs carry equipment from the loading board, can rise the highest position with the loading board, at this moment, can reduce porter's range of bowing, do benefit to the staff then and carry equipment from the loading board.
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 part of the preferred embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic connection diagram of the first carrier plate, the serial connection plate and the second carrier plate;
FIG. 3 is a schematic structural view of the lifting assembly;
FIG. 4 is a schematic structural view of the movable support base connected to the fixed support base via the guide rod;
FIG. 5 is a schematic view showing the arrangement of the lifting legs on the movable support;
in the figure: the device comprises a fixed supporting seat 1, a movable supporting seat 2, a hinged support 3, a supporting rod 4, a first bearing plate 5, a lifting assembly 6, a first bevel gear 7, a second bevel gear 8, a second bearing plate 9, a hand wheel 10, a universal wheel 11, a connecting fixing plate 12, a supporting block 13, a through groove 14, a serial connection plate 15, a driving rotating shaft 16, a positioning plate 17, a pin shaft 18, a guide block 19, a first guide groove 20, a guide rod 21, an adjusting threaded rod 22, a fixing nut 23, a storage cavity 24, a leg plate 25, a lifting threaded rod 26, a supporting tube 27 and a connecting rod 28.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the specific embodiments and accompanying drawings 1-5, and it is obvious that the described embodiments are only a part of the preferred embodiments of the present invention, and not all embodiments. Those skilled in the art can make similar modifications without departing from the spirit of the utility model, and therefore the utility model is not limited to the specific embodiments disclosed below.
The utility model provides an auxiliary carrying device for mounting building electromechanical equipment (as shown in figure 1), which comprises a fixed supporting seat 1, a bearing plate and a lifting mechanism, wherein the bottom of the fixed supporting seat 1 is provided with four universal wheels 11, the left side and the right side of the fixed supporting seat 11 are respectively provided with a movable supporting seat 2, the movable supporting seats 2 can freely slide left and right in a reciprocating manner relative to the fixed supporting seat 1, and in the specific embodiment, the specific implementation mode of realizing the relative movement between the movable supporting seat 2 and the fixed supporting seat 1 is as follows: one side that movable support seat 2 is relative with fixed support seat 1 is provided with two guide bars 21, guide bar 21 cover is put in the second guide way that sets up on fixed support seat 1, and guide bar 21 can freely slide in the second guide way. The lifting mechanism is arranged on the fixed supporting seat 1 and used for realizing the up-and-down height adjustment and positioning of the bearing plate, the left side and the right side of the bearing plate are connected with the corresponding movable supporting seat 2 through two supporting rods 4, and the two ends of each supporting rod 4 are connected with the corresponding bearing plate or the corresponding movable supporting seat 2 in a hinged connection mode. Specifically, the lower part of the supporting rod 4 is hinged with a hinged support 3 arranged on the movable supporting seat 2, and because the two ends of the supporting rod 4 are hinged with the corresponding bearing plate or the movable supporting seat 2, when the lifting mechanism drives the bearing plate to lift up and down, the corresponding movable supporting seat 2 can be synchronously driven to move through the transmission action of the supporting rod 4, so that the movable supporting seat 2 is matched with the up-and-down movement of the bearing plate, the smooth movement of the fixed supporting seat 1 is conveniently realized by utilizing the movable support of the universal wheel 11, the supporting height of the bearing plate can be adjusted and positioned up and down, the placing height of the electromechanical equipment placed on the bearing plate is convenient to adjust, when the electromechanical equipment needs to be carried off the bearing plate, the height of the bearing plate can be adjusted at the highest position, thereby the bending range of carrying personnel can be reduced, and the bending range of the carrying personnel is reduced, and then the mechanical and electrical equipment can be conveniently carried by the carrying personnel.
In practical application, in order to enable the bearing plate to be capable of placing electromechanical devices of different sizes, the bearing plate comprises a first bearing plate 5, a second bearing plate 9 and a serial plate 15, a through groove 14 is formed in each of the opposite surfaces of the first bearing plate 5 and the second bearing plate 9, the serial plate 15 is correspondingly sleeved in the two through grooves 14, the serial plate 15 can slide relative to the first bearing plate 5 and the second bearing plate 9, and when the first bearing plate 5 and the second bearing plate 9 move back to back, the serial plate 15 is exposed, so that the length of the whole bearing plate is lengthened, and then the large devices are supported conveniently.
On the basis of the above embodiment of the bearing plate, the specific implementation manner of the lifting mechanism is as follows: the lifting mechanism comprises two groups of lifting components 6, wherein one lifting component 6 is arranged at the lower right side of the first bearing plate 5 and the lower left side of the second bearing plate 9, each group of lifting components 6 comprises a connecting fixing plate 12, a driving rotating shaft 16 and two groups of executing components, each group of executing components comprises a supporting pipe 27 and a lifting threaded rod 26, a supporting block 13 is arranged at the bottom of the supporting pipe 27, the supporting block 13 is arranged on the fixed supporting seat 1, the supporting pipe 27 can only freely rotate relative to the supporting block 13, the design technical scheme that the supporting pipe 27 can only freely rotate on the supporting block 13 is known in the art, so that the detailed description is omitted, a first helical gear 7 is fixedly arranged at the upper part of the supporting pipe 27, and the first helical gear 7 and the supporting pipe 27 synchronously rotate, the lower end of the lifting threaded rod 26 is sleeved in the supporting pipe 27 in a thread fit mode, and the rotation of the supporting pipe 27 can drive the lifting threaded rod 26 to move up and down; the connecting and fixing plate 12 is fixedly connected with the two corresponding supporting blocks 13 through two connecting rods 28, the driving rotating shaft 16 is arranged on the connecting and fixing plate 12, the driving rotating shaft 16 can rotate freely, the driving rotating shaft 16 is provided with two second bevel gears 8 which correspond to the two first bevel gears 7 one by one, the rotation of the driving rotating shaft 16 can enable the second bevel gears 8 to drive the corresponding first bevel gears 7 to rotate, namely the second bevel gears 8 are in meshing transmission with the first bevel gears 7, and in the practical application process, the rotation driving of the driving rotating shaft 16 can be realized by using a manual driving mode; the upper part of the lifting threaded rod 26 is provided with a positioning plate 17, and the lower parts of the first bearing plate 5 and the second bearing plate 9 are fixedly connected with the corresponding positioning plate 17.
On the basis of the above-mentioned embodiment of the lifting mechanism, in order to facilitate the left-right movement support of the lifting assembly 6 to the corresponding first bearing plate 5 and second bearing plate 9, here, a guide block 19 is disposed at the lower portion of the supporting block 13, the guide block 19 is clamped in a first guide groove 20 formed on the fixed supporting seat 1, the guide block 19 can slide freely in the first guide groove 20, the sliding of the guide block 19 drives the sliding of the supporting block 13, after the guide block 19 has been moved into position, in order to facilitate the fixing of the guide block 19 in the first guide groove 20, here, a plurality of adjusting holes penetrating the first guide groove 20 are opened on the side wall of the first guide groove 20, the guide block 19 is provided with a positioning hole matched with the adjusting hole, and a pin shaft 18 is inserted into the positioning hole and the corresponding adjusting hole to realize the positioning of the guide block 19 in the first guide groove 20. When the first bearing plate 5 needs to be adjusted, the bolt 18 is extracted, then the first bearing plate 5 and the lifting assembly corresponding to the first bearing plate are pushed, then the first bearing plate 5 can be moved and adjusted, after the first bearing plate 5 is adjusted in place, the bolt 18 is used for positioning the guide block 19, the moving mode of the second bearing plate 9 is the same as that of the first bearing plate 5, and detailed description is omitted here.
In order to achieve the fixation of the utility model when the electromechanical device is transported to or from the carrier plate, in order to improve the safety of the transport operation, here, a lifting leg is provided on each of the movable supporting bases 2, the lifting leg includes an adjusting threaded rod 22, a fixing nut 23 and a leg plate 25, the fixed nut 23 is fixedly arranged on the movable supporting seat 2, the adjusting threaded rod 22 is sleeved in the fixed nut 23, the leg plate 25 is arranged at the lower part of the adjusting threaded rod 22, the up and down reciprocating movement of the leg plate 25 can be achieved by rotating the adjusting threaded rod 22, and in order to facilitate the rotation of the adjusting threaded rod 22, here, a hand wheel 10 is provided at the upper part thereof, in order to facilitate the storage of the leg plate 25 in the movable support base 2, here, a receiving cavity 24 corresponding to the leg plate 25 is provided at the bottom of the movable support base 2.
The flow for carrying the equipment by utilizing the utility model comprises the following steps: firstly, moving the utility model to a carrying starting place, then adjusting the relative movement distance of the first bearing plate 5 and the second bearing plate 9 according to the size of the equipment, after adjusting the distance, fixing the guide block 19, lowering the leg plate 25, enabling the universal wheel 11 to be separated from the ground through the support of the leg plate 25, then carrying the equipment to a bearing support surface consisting of the first bearing plate 5, the second bearing plate 9 and the concatenation plate 15, after putting the equipment, retracting the leg plate 25 until the universal wheel 11 is contacted with the ground, and then pushing the utility model to enable the equipment to be carried to a carrying terminal; after the equipment reaches the conveying terminal, firstly, the supporting leg plate 25 is put down again to enable the universal wheels 11 to be separated from the ground, then, the two driving rotating shafts 16 are synchronously rotated to achieve synchronous lifting of the first bearing plate 5 and the second bearing plate 9, after the equipment is lifted to a proper manual stoop conveying height, lifting operation of the first bearing plate 5 and the second bearing plate 9 is stopped, then the equipment can be conveyed from the first bearing plate 5 and the second bearing plate 9, and then the equipment is finished.
In the present invention, "left", "right", "upper", "lower", "front", and "rear" are relative positions used for convenience in describing positional relationships, and therefore, should not be interpreted as absolute positions as limiting the scope of protection.
In addition to the technical features described in the specification, the technology is known to those skilled in the art.
While the preferred embodiments and examples of the present invention have been described in detail, it will be apparent to those skilled in the art that the utility model is not limited thereto, and that various changes and modifications may be made without departing from the spirit and scope of the utility model.