Signal tower installation composite set
Technical Field
The invention relates to a communication device, in particular to a signal tower installation combination device.
Background
The existing communication towers are segmented and then connected through screws, the communication towers are installed from top to bottom during assembly, and the signal tower installation combination device is designed through the help of a crane, so that convenience and quickness in installation are achieved.
Disclosure of Invention
The invention mainly solves the technical problem of providing a signal tower installation combination device, which can change a transverse tower section into a vertical one and move the vertical tower section upwards, thereby realizing the installation from the upper part to the lower part, saving the time for workers to ascend and install auxiliary equipment and increasing the safety.
In order to solve the technical problems, the invention relates to a communication device, in particular to a signal tower installation combination device which comprises a bottom plate, a side plate, a vertical frame, a lifting device and a sliding frame.
The side panel is fixed on the side of the bottom plate, the vertical frame is fixed with the bottom plate, the lifting device is connected with the vertical frame, and the sliding frame is in sliding fit with the bottom plate. .
As a further optimization of the technical scheme, the bottom plate of the signal tower installation combination device comprises a support bottom plate, a first hydraulic cylinder, a sliding support, a seating device, two fixed connecting holes, a first connecting rod frame, a second connecting rod frame, a third connecting rod frame, a second hydraulic cylinder, a seat plate and a buffer spring, wherein the support bottom plate is rectangular, a rectangular through hole is processed on the right side of the support bottom plate, one end of the hydraulic cylinder is connected with the lower part of the support bottom plate, one end of the hydraulic cylinder is connected with the sliding support, a groove is processed on the side surface of the sliding support, the lower side of the sliding support is connected with the support bottom plate, teeth are processed on the upper part of the sliding support, the seating device is fixed on the upper part of the support bottom plate, the seating device is U-shaped, a groove is processed inside the seating device, the fixed connecting holes are located on, the lower portion of the first connecting rod frame is connected with a supporting floor, the middle portion of the first connecting rod frame is connected through a rod, one side of the second connecting rod frame is connected with the middle portion of the first connecting rod frame, the middle portion of the second connecting rod frame is connected with the second hydraulic cylinder, the upper portion of the third connecting rod frame is connected with the second connecting rod frame, the lower portion of the third connecting rod frame is connected with a supporting bottom plate, the lower portion of the second hydraulic cylinder is connected with the supporting bottom plate, the seat plate is in sliding fit with the seat device, the upper portion of the seat plate is in contact with the sliding.
As a further optimization of the technical scheme, the side panel of the signal tower installation combination device comprises a main panel surface, a limiting plate, two side sliding ways, a fixing plate, a locking motor, a first connecting shaft, an intermediate connecting shaft, a locking post and a second connecting shaft, wherein the main panel surface is rectangular, the limiting plate is arranged on the side surface of the main panel surface, the two side sliding ways are arranged, teeth are processed on the outer sides of the side sliding ways, the side sliding ways are arranged on the outer sides of the main panel surface, the fixing plate is vertical to the main panel surface, two through holes are processed on the fixing plate, the fixing plate is fixed on the side surface of a supporting bottom plate through screws, the locking motor is fixed on the side surface of the main panel surface, the first connecting shaft is connected with the main panel surface, one end of the connecting shaft is connected with the locking motor, the intermediate connecting shaft is connected with the main panel, the locking column is connected with the first connecting shaft, the second connecting shaft is connected with the main board surface, and the second connecting shaft is connected with the middle connecting shaft.
As a further optimization of the technical scheme, the vertical frame of the signal tower installation combination device comprises a base, a strength frame, a moving motor, a motor connecting shaft, moving screw rods, a sliding base, a support frame, side frames, driving holes, side rings, a first hole, a second hole, a third hole and reinforcing ribs, wherein the base is fixed on one side of a first connecting rod frame, a trapezoidal groove is formed in the middle of the base, one end of the strength frame is fixed with the first connecting rod frame, one end of the strength frame is connected with the base, the moving motor is fixed on the side surface of the base, one end of the motor connecting shaft is connected with a rotating shaft of the moving motor, the motor connecting shaft is connected with the base, the two moving screw rods are arranged, the moving screw rods are in sliding fit with the base, the moving screw rods are connected with the motor connecting shaft, the moving screw rods are in threaded fit with, the supporting frame is located at the upper portion of the sliding base, four side frames are arranged, the side frames are located on two sides of the supporting frame, two driving holes are formed in the upper portion of the supporting frame, the side rings are fixed to the outer side face of each side frame, one hole is located in each side frame, the other hole is located in the middle of each side frame, the three holes are located in the rear portion of each side frame, the three holes are communicated with the driving holes, the reinforcing ribs are fixed to the rear portion of the supporting frame, and the reinforcing ribs are fixed.
As a further optimization of the technical scheme, the lifting device of the signal tower installation combination device comprises an upward moving motor, a main shaft, a cross shaft, a stepping shaft sleeve, a rotating shaft, a rotating intermediate shaft, a connecting frame sleeve, a transverse connecting frame, a vertical supporting rod, a lower connecting rotating shaft and a driving motor, wherein the upward moving motor is fixed at the upper part of a supporting frame, one end of the main shaft is connected with the rotating shaft of the upward moving motor, the main shaft is in sliding fit with the supporting frame, the number of the cross shaft is two, the cross shaft is in sliding fit with a hole III, the stepping shaft is connected with the cross shaft, the stepping shaft is in sliding fit with a side ring, the upper part of the stepping shaft sleeve is connected with the stepping shaft, the outer side of the stepping shaft sleeve is in a threaded shape, the stepping shaft sleeve is in threaded fit with the hole I, the stepping shaft sleeve is in threaded fit, the connecting frame sleeve is square, the connecting frame sleeve is transversely provided with a hole, the connecting frame sleeve is in sliding fit with the stepping shaft sleeve, the transverse connecting frame is fixed between the two connecting frame sleeves, the vertical supporting rod is fixed between the upper connecting frame sleeve and the lower connecting frame sleeve, the lower connecting rotating shaft is in sliding fit with the connecting frame sleeve, the lower connecting rotating shaft is connected with the rotating shaft, the number of the driving motors is two, the driving motors are fixed on the side faces of the connecting frame sleeves, and the rotating shafts of the driving motors are connected with the rotating intermediate shaft.
As a further optimization of the technical scheme, the sliding frame of the signal tower installation combination device comprises a vertical sliding frame, a vertical sliding gear shaft, a first connecting screw rod, a vertical sliding frame motor, a transverse sliding frame, a clamp, a protective elastic sheet, a clamp driving shaft, a first gear, a second gear, a clamp motor, a transverse moving transition shaft, a transverse moving connecting shaft, a transverse moving screw rod, a middle sliding block, a rotating frame elastic sheet and a spring, wherein a groove is formed in the lower part of the vertical sliding frame, a slide way is formed in the upper part of the vertical sliding frame, the vertical sliding frame is in sliding fit with the sliding support, the vertical sliding gear shaft is connected with the vertical sliding frame, the vertical sliding gear shaft is meshed with the sliding support, the vertical sliding gear shaft is connected with the first connecting screw rod, the first connecting screw rod is connected with the vertical sliding frame, the vertical sliding frame motor is fixed at one end of the vertical, the clamp is connected with the cross sliding frame, the protective elastic sheet is in sliding fit with the clamp, a spring is arranged below the protective elastic sheet, a clamp driving shaft is in sliding fit with the cross sliding frame, the clamp driving shaft is connected with two clamps, a first gear is fixed at one end of the clamp driving shaft, a second gear is connected with the cross sliding frame, the second gear is meshed with the first gear, a clamp motor is fixed at one end of the cross sliding frame, a clamp motor is connected with a second gear, a transverse moving motor is fixed on the side surface of the cross sliding frame, a transverse moving transition shaft is connected with the cross sliding frame through a belt, two ends of the transverse moving connecting shaft are connected with the cross sliding frame, the middle part of the transverse moving connecting shaft is connected with the transverse moving transition shaft, two ends of a transverse moving screw rod are connected with the cross sliding frame, the transverse moving screw rod is connected with the vertical sliding frame, a middle slide block is in, the rotating frame elastic pieces are two, the rotating frame elastic pieces are in sliding fit with the rotating frame, the number of the springs is four, one end of each spring is connected with the middle sliding block, and one end of each spring is connected with the transverse sliding frame.
As a further optimization of the technical scheme, the limiting plate and the main board surface of the signal tower mounting combination device are of an integral structure and made of cast iron.
As further optimization of the technical scheme, the side slide way of the signal tower installation combination device is adapted to the upper slide way of the vertical slide frame.
As further optimization of the technical scheme, the spring strength of the signal tower installation combination device is the same.
The signal tower installation combination device has the beneficial effects that:
according to the signal tower installation combination device, the transverse tower sections can be replaced into the vertical tower sections, and the vertical tower sections can be moved upwards, so that the installation from the upper part to the lower part is realized, the time for workers to ascend and install auxiliary equipment is saved, and the safety is improved.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic structural diagram of a signal tower installation assembly device of the present invention.
Fig. 2 is a schematic side view of a signal tower mounting assembly according to the present invention.
Fig. 3 is a schematic structural diagram of a bottom plate 1 of a signal tower installation assembly device of the present invention.
Fig. 4 is a schematic side view of a bottom plate 1 of a signal tower installation assembly of the present invention.
Fig. 5 is another schematic structural diagram of the bottom plate 1 of the signal tower installation combination device of the present invention.
Fig. 6 is a schematic structural diagram of a side panel 2 of a signal tower installation combination device according to the present invention.
Fig. 7 is a schematic side structure view of the side panel 2 of the signal tower installation combination device of the present invention.
Fig. 8 is a schematic structural diagram of a vertical frame 3 of a signal tower installation and combination device of the present invention.
Fig. 9 is another schematic structural diagram of the vertical frame 3 of the signal tower installation assembly device of the present invention.
Fig. 10 is a schematic structural diagram of the lifting device 4 of the signal tower installation assembly device of the present invention.
Fig. 11 is another schematic structural diagram of the lifting device 4 of the signal tower installation assembly device of the present invention.
Fig. 12 is a schematic structural diagram of a sliding frame 5 of a signal tower mounting assembly according to the present invention.
Fig. 13 is another schematic structural diagram of the sliding frame 5 of the signal tower installation assembly device according to the present invention.
In the figure: a base plate 1; a support base plate 1-1; 1-2 of a hydraulic cylinder; 1-3 of a sliding support; seating devices 1-4; fixing connecting holes 1-5; 1-6 of a connecting rod frame; a second connecting rod frame 1-7; a connecting rod rest III 1-8; 1-9 parts of a second hydraulic cylinder; 1-10 parts of a seat board; buffer springs 1-11; the side panels 2; 2-1 parts of a main board surface; 2-2 parts of a limiting plate; 2-3 of a side slideway; fixing plates 2-4; locking the motor 2-5; connecting shafts I2-6; 2-7 of an intermediate connecting shaft; 2-8 of locking columns; connecting shafts II 2-9; a vertical frame 3; 3-1 of a base; 3-2 of a strength frame; 3-3 of a mobile motor; a motor connecting shaft 3-4; moving the screw rod 3-5; 3-6 of a sliding base; 3-7 of a support frame; side frames 3-8; 3-9 of a driving hole; 3-10 parts of lateral ring; a first hole is 3-11; 3-12 parts of a second hole; 3-13 parts of hole III; reinforcing ribs 3-14; a lifting device 4; an upward moving motor 4-1; 4-2 of a main shaft; the horizontal axis is 4-3; 4-4 of a stepping shaft; 4-5 of a stepping shaft sleeve; 4-6 of a rotating shaft; rotating the intermediate shaft 4-7; 4-8 parts of a connecting frame sleeve; 4-9 of transverse connecting frames; 4-10 of vertical support rods; a lower coupling rotating shaft 4-11; 4-12 of a driving motor; a carriage 5; a vertical carriage 5-1; 5-2 of vertical sliding gear shaft; 5-3 of a connecting screw rod I; a vertical carriage motor 5-4; 5-5 of a cross sliding frame; 5-6 of clips; 5-7 of a protective elastic sheet; 5-8 parts of a clamp driving shaft; 5-9 parts of a first gear; 5-10 parts of a second gear; 5-11 parts of a clamp motor; 5-12 parts of a transverse moving motor; 5-13 of a transverse transition shaft; 5-14 of a transverse moving connecting shaft; 5-15 parts of a transverse screw; 5-16 parts of a middle sliding block; 5-17 of a rotating frame; 5-18 parts of a rotating frame elastic sheet; and 5-19 of springs.
Detailed Description
The first embodiment is as follows:
the present invention is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the present invention relates to a communication device, and more specifically, to a signal tower installation assembly device, which includes a bottom plate 1, a side plate 2, a stand 3, a lifting device 4, and a sliding rack 5, and the device can change a horizontal tower section into a vertical one and move the vertical tower section upward, thereby realizing installation from the upper part to the lower part, saving the time for workers to ascend and install auxiliary equipment, and also increasing safety.
The side panel 2 is fixed on the side of the bottom plate 1, the vertical frame 3 is fixed with the bottom plate 1, the lifting device 4 is connected with the vertical frame 3, and the sliding frame 5 is in sliding fit with the bottom plate 1.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the embodiment further describes the embodiment, where the base plate 1 includes a support base plate 1-1, a hydraulic cylinder 1-2, a sliding bracket 1-3, a seating device 1-4, a fixed connection hole 1-5, a link bracket 1-6, a link bracket two 1-7, a link bracket three 1-8, a hydraulic cylinder two 1-9, a seat plate 1-10, and a cushion spring 1-11, the support base plate 1-1 is rectangular, a rectangular through hole is formed on the right side of the support base plate 1-1, one end of the hydraulic cylinder one 1-2 is connected to the lower portion of the support base plate 1-1, one end of the hydraulic cylinder one 1-2 is connected to the sliding bracket, grooves are processed on the side surfaces of the sliding supports 1-3, the lower sides of the sliding supports 1-3 are connected with the supporting bottom plate 1-1, the upper parts of the sliding supports 1-3 are processed with teeth, the seat devices 1-4 are fixed on the upper parts of the supporting bottom plate 1-1, the seat devices 1-4 are U-shaped, the grooves are processed inside the seat devices 1-4, the fixing connecting holes 1-5 are positioned on one side of the supporting bottom plate 1-1, the fixing connecting holes 1-5 are connected with the side plate 2, two connecting rod frames 1-6 are arranged, the lower parts of the connecting rod frames 1-6 are fixed together through rods, the lower parts of the connecting rod frames 1-6 are connected with the supporting bottom plate 1-1, the middle parts of the connecting rod frames 1-6 are connected through rods, one sides of the connecting rod frames 1-7, the middle parts of the second connecting rod frame 1-7 are connected with the second hydraulic cylinder 1-9, the upper parts of the third connecting rod frame 1-8 are connected with the second connecting rod frame 1-7, the lower parts of the third connecting rod frame 1-8 are connected with the supporting bottom plate 1-1, the lower parts of the second hydraulic cylinder 1-9 are connected with the supporting bottom plate 1-1, the seat plate 1-10 is in sliding fit with the seat device 1-4, the upper parts of the seat plate 1-10 are in contact with the sliding support 1-3, the upper parts of the buffer springs 1-11 are connected with the seat plate 1-10, and the lower parts of the buffer springs 1-11 are positioned inside. Connecting the hydraulic cylinder I1-2 into the circuit, starting the hydraulic cylinder I1-2, filling liquid into the hydraulic cylinder I1-2 to jack the sliding support 1-3, and driving the sliding support 1-3 to move the sliding support 5; after reverse liquid filling, the hydraulic cylinder I1-2 drives the sliding support 1-3 to be seated, and under the action of the buffer spring 1-11, the sliding support 1-3 is gently seated on the seating device 1-4; after the hydraulic cylinder II 1-9 is filled with liquid, the connecting rod rest II 1-7 is pushed to move upwards, the connecting rod rest II 1-7 drives the connecting rod rest III 1-8 to move, the connecting rod rest II 1-7 drives the connecting rod rest I1-6 to move, the connecting rod rest I1-6 is vertically lifted, and the connecting rod rest I1-6 drives the vertical frame 3 to lift.
The third concrete implementation mode:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the present embodiment further describes the present embodiment, where the side panel 2 includes a main panel surface 2-1, two side slide ways 2-2, two side slide ways 2-3, a fixing plate 2-4, a locking motor 2-5, a first connecting shaft 2-6, a middle connecting shaft 2-7, a locking post 2-8, and a second connecting shaft 2-9, the main panel surface 2-1 is rectangular, the limiting plate 2-2 is located on the side of the main panel surface 2-1, the side slide ways 2-3 are provided with two side slide ways, the outer sides of the side slide ways 2-3 are provided with teeth, the side slide ways 2-3 are located on the outer side of the main panel surface 2-1, two through holes are processed on the fixing plate 2-4, the fixing plate 2-4 is fixed on the side face of the supporting base plate 1-1 through screws, the locking motor 2-5 is fixed on the side face of the main plate face 2-1, the connecting shaft I2-6 is connected with the main plate face 2-1, one end of the connecting shaft I2-6 is connected with the locking motor 2-5, the middle connecting shaft 2-7 is connected with the main plate face 2-1, the middle connecting shaft 2-7 is connected with the connecting shaft I2-6, two locking columns 2-8 are arranged, the locking columns 2-8 are in thread shapes, the locking columns 2-8 are in thread fit with the main plate face 2-1, the locking columns 2-8 are connected with the connecting shaft I2-6, the connecting shaft II 2-9 is connected with the main plate face 2-1, and the connecting shaft II 2-9. When the vertical frame 3 is erected and contacts with the upper part of the side panel 2, the lower part of the vertical frame 3 will contact with the locking columns 2-8, the locking motors 2-5 are started, the locking motors 2-5 rotate to drive the connecting shafts one 2-6 to rotate, the connecting shafts one 2-6 drive the locking columns 2-8 to rotate, the locking columns 2-8 will fix the lower part of the vertical frame 3, meanwhile, the connecting shafts one 2-6 drive the middle connecting shafts 2-7 to rotate, the middle connecting shafts 2-7 drive the connecting shafts two 2-9 to rotate, the connecting shafts two 2-9 drive the other locking columns 2-8 to rotate, and the vertical frame 3 is fixed by the two locking columns.
The fourth concrete implementation mode:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and the embodiment further describes the embodiment, where the stand 3 includes a base 3-1, a strength frame 3-2, a moving motor 3-3, a motor connecting shaft 3-4, a moving screw 3-5, a sliding base 3-6, a support frame 3-7, a side frame 3-8, a driving hole 3-9, a side ring 3-10, a hole one 3-11, a hole two 3-12, a hole three 3-13, and a reinforcing rib 3-14, the base 3-1 is fixed on one side of the link frame one 1-6, a trapezoidal groove is processed in the middle of the base 3-1, one end of the strength frame 3-2 is fixed with the link frame one 1-6, one end of a strength frame 3-2 is connected with a base 3-1, a mobile motor 3-3 is fixed on the side surface of the base 3-1, one end of a motor connecting shaft 3-4 is connected with a rotating shaft of the mobile motor 3-3, a motor connecting shaft 3-4 is connected with the base 3-1, two mobile screw rods 3-5 are arranged, the mobile screw rods 3-5 are in sliding fit with the base 3-1, the mobile screw rods 3-5 are connected with the motor connecting shaft 3-4, the mobile screw rods 3-5 are in threaded fit with a sliding base 3-6, the sliding base 3-6 is in sliding fit with the base 3-1, threaded holes are processed on the sliding base 3-6, a support frame 3-7 is positioned at the upper part of the sliding base 3-6, four side frames 3-8 are arranged, and the side frames 3-8, the driving holes 3-9 are located at the upper parts of the supporting frames 3-7, two side rings 3-10 are arranged, the side rings 3-10 are fixed on the outer side faces of the side frames 3-8, the first hole 3-11 is located on the side frames 3-8, the second hole 3-12 is located in the middle of the side frames 3-8, the third hole 3-13 is located at the rear parts of the side frames 3-8, the third hole 3-13 is communicated with the driving holes 3-9, the reinforcing ribs 3-14 are fixed at the rear parts of the supporting frames 3-7, and the reinforcing ribs 3-14 are fixed on the side faces of the sliding bases 3-6. The moving motor 3-3 is connected into a circuit, the moving motor 3-3 is started, the moving motor 3-3 rotates to drive the motor connecting shaft 3-4 to rotate, the motor connecting shaft 3-4 drives the moving screw rod 3-5 to rotate, and the moving screw rod 3-5 rotates to drive the sliding base 3-6 to move.
The fifth concrete implementation mode:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the embodiment further describes the embodiment, where the lifting device 4 includes an upward movement motor 4-1, a main shaft 4-2, a horizontal shaft 4-3, a stepping shaft 4-4, a stepping shaft sleeve 4-5, a rotation shaft 4-6, a rotation intermediate shaft 4-7, a connecting frame sleeve 4-8, a transverse connecting frame 4-9, a vertical support rod 4-10, a downward coupling rotation shaft 4-11, and a driving motor 4-12, the upward movement motor 4-1 is fixed on the upper portion of the supporting frame 3-7, one end of the main shaft 4-2 is connected with the rotation shaft of the upward movement motor 4-1, the main shaft 4-2 is in sliding fit with, the transverse shaft 4-3 is provided with two transverse shafts 4-3, the transverse shaft 4-3 is in sliding fit with the hole III 3-13, the stepping shaft 4-4 is connected with the transverse shaft 4-3, the stepping shaft 4-4 is in sliding fit with the side ring 3-10, the upper part of the stepping shaft sleeve 4-5 is connected with the stepping shaft 4-4, the outer side of the stepping shaft sleeve 4-5 is in a threaded shape, the stepping shaft sleeve 4-5 is in threaded fit with the hole I3-11, the stepping shaft sleeve 4-5 is in threaded fit with the hole II 3-12, the rotating shaft 4-6 is positioned at the inner side of the stepping shaft sleeve 4-5, the rotating shaft 4-6 is provided with a snap ring, the rotating intermediate shaft 4-7 is connected with the rotating shaft 4-6, the rotating intermediate shaft 4-7 is in sliding fit with the connecting frame sleeve 4-8, the, the two driving motors 4-12 are arranged, the driving motors 4-12 are fixed on the side surfaces of the connecting frame sleeves 4-8, and the rotating shafts 4-12 of the driving motors 4-12 are connected with the rotating intermediate shafts 4-7. An upward moving motor 4-1 is connected into a circuit, the upward moving motor 4-1 is started, the upward moving motor 4-1 rotates to drive a main shaft 4-2 to rotate, the main shaft 4-2 drives an upper transverse shaft 4-3 and a lower transverse shaft 4-3 to rotate, the transverse shaft 4-3 rotates to drive a stepping shaft 4-4 to rotate, the stepping shaft 4-4 rotates to drive a stepping shaft sleeve 4-5 to rotate, the stepping shaft sleeve 4-5 rotates to adjust the horizontal distance between the stepping shaft sleeves 4-5, the stepping shaft sleeve 4-5 drives an internal rotating shaft 4-6 to move, and meanwhile, the stepping shaft sleeve 4-5 drives a connecting frame sleeve 4-8 to move; the driving motor 4-12 is connected into a circuit, the driving motor 4-12 is started, the driving motor 4-12 rotates to drive the rotating intermediate shaft 4-7 to rotate, the rotating intermediate shaft 4-7 drives the rotating shaft 4-6 to rotate, the rotating directions of the two rotating shafts 4-6 on the same side are opposite, and the tower section moves upwards.
The sixth specific implementation mode:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and the present embodiment further describes the present embodiment, where the sliding rack 5 includes a vertical sliding rack 5-1, a vertical sliding toothed shaft 5-2, a first connecting screw 5-3, a vertical sliding rack motor 5-4, a horizontal sliding rack 5-5, a clip 5-6, a protective elastic sheet 5-7, a clip driving shaft 5-8, a first gear 5-9, a second gear 5-10, a clip motor 5-11, a horizontal moving motor 5-12, an excessive horizontal moving shaft 5-13, a horizontal moving connecting shaft 5-14, a horizontal moving screw 5-15, a middle sliding block 5-16, a rotating rack 5-17, a rotating rack elastic sheet 5-18, and a spring 5-19, a groove is formed in the lower portion of the vertical sliding frame 5-1, a slide way is formed in the upper portion of the vertical sliding frame 5-1, the vertical sliding frame 5-1 is in sliding fit with the sliding support 1-3, the vertical sliding toothed shaft 5-2 is connected with the vertical sliding frame 5-1, the vertical sliding toothed shaft 5-2 is meshed with the sliding support 1-3, the vertical sliding toothed shaft 5-2 is connected with the connecting screw rod I5-3, the connecting screw rod I5-3 is connected with the vertical sliding frame 5-1, the vertical sliding frame motor 5-4 is fixed at one end of the vertical sliding frame 5-1, the vertical sliding frame motor 5-4 is connected with the connecting screw rod I5-3, the transverse sliding frame 5-5 is in sliding fit with the vertical sliding frame 5-1, two clamps 5-6 are arranged, the clamps 5-6 are connected with the transverse sliding frame 5-5, the protective elastic pieces 5, a spring is arranged below the protective elastic sheet 5-7, a clamp driving shaft 5-8 is in sliding fit with a cross sliding frame 5-5, the clamp driving shaft 5-8 is connected with two clamps 5-6, a gear I5-9 is fixed at one end of the clamp driving shaft 5-8, a gear II 5-10 is connected with the cross sliding frame 5-5, the gear II 5-10 is meshed with the gear I5-9, a clamp motor 5-11 is fixed at one end of the cross sliding frame 5-5, the clamp motor 5-11 is connected with the gear II 5-10, a cross sliding motor 5-12 is fixed at the side surface of the cross sliding frame 5-5, a cross sliding transition shaft 5-13 is connected with the cross sliding frame 5-5, the cross sliding transition shaft 5-13 is connected with the cross sliding motor 5-12 through a belt, two ends of a cross sliding connection shaft 5-14, the middle of a transverse moving connecting shaft 5-14 is connected with a transverse moving transition shaft 5-13, two ends of a transverse moving screw rod 5-15 are connected with a transverse sliding frame 5-5, the transverse moving screw rod 5-15 is connected with the transverse moving connecting shaft 5-14, the transverse moving screw rod 5-15 is in contact with a vertical sliding frame 5-1, a middle sliding block 5-16 is in sliding fit with the middle of the transverse sliding frame 5-5, the middle of a middle sliding block 5-16 is provided with a groove, the lower portion of a rotating frame 5-17 is connected with the middle sliding block 5-16, two rotating frame elastic pieces 5-18 are arranged, the rotating frame elastic pieces 5-18 are in sliding fit with the rotating frame 5-17, four springs 5-19 are arranged, one end of each spring 5-19 is connected with the middle sliding block 5-16, and.
5 other movement principles: connecting a vertical sliding frame motor 5-4 into a circuit, driving a connecting screw rod 5-3 to rotate a connecting screw rod 5-3 to drive a vertical sliding gear 5-2 to rotate, driving a vertical sliding frame 5-1 to move along a sliding support 1-3 by rotating the vertical sliding gear 5-2, starting a transverse moving motor 5-12 when the vertical sliding frame 5-1 moves to the lower part, driving a transverse moving transition shaft 5-13 to rotate by rotating a transverse moving motor 5-12, driving a transverse moving connecting shaft 5-14 to rotate by rotating a transverse moving transition shaft 5-13, driving a transverse moving screw rod 5-15 to rotate by a transverse moving connecting shaft 5-14, driving a transverse sliding frame 5-5 to move by a transverse moving screw rod 5-15 and enter a side sliding channel 2-3, when the transverse sliding frame 5-5 moves to the lower part of a support frame 3, connecting the tower section with the upper part, moving the tower section upwards, and resetting the cross sliding frame 5-5; when the tower section is placed on the transverse sliding frame 5-5, the rotating frame 5-17 rotates to adapt to the shape of the tower section, the tower section is in a proper position under the action of the springs 5-19, the clamp motor 5-11 is started, the clamp motor 5-11 rotates to drive the gear II 5-10 to rotate, the gear II 5-10 rotates to drive the gear I5-9 to rotate, the gear I5-9 drives the clamp driving shaft 5-8 to rotate, and the clamp driving shaft 5-8 drives the clamp 5-6 to move so as to clamp the tower section.
The seventh embodiment:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13, and the present embodiment further describes the first embodiment in which the stopper plate 2-2 and the main plate surface 2-1 are formed integrally of cast iron.
The specific implementation mode is eight:
the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13, and the present embodiment further describes the present embodiment, in which the side chute 2-3 is adapted to the upper chute of the vertical carriage 5-1.
The specific implementation method nine:
the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the present embodiment will be further described with reference to the first embodiment, in which the springs 5 to 19 have the same strength.
The working principle of the device is as follows: 1 position adjustment principle: connecting the hydraulic cylinder I1-2 into the circuit, starting the hydraulic cylinder I1-2, filling liquid into the hydraulic cylinder I1-2 to jack the sliding support 1-3, and driving the sliding support 1-3 to move the sliding support 5; after reverse liquid filling, the hydraulic cylinder I1-2 drives the sliding support 1-3 to be seated, and under the action of the buffer spring 1-11, the sliding support 1-3 is gently seated on the seating device 1-4; after the hydraulic cylinder II 1-9 is filled with liquid, the connecting rod rest II 1-7 is pushed to move upwards, the connecting rod rest II 1-7 drives the connecting rod rest III 1-8 to move, the connecting rod rest II 1-7 drives the connecting rod rest I1-6 to move, the connecting rod rest I1-6 is vertically lifted, and the connecting rod rest I1-6 drives the vertical frame 3 to lift.
2, the fixing principle of the vertical frame: when the vertical frame 3 is erected and contacts with the upper part of the side panel 2, the lower part of the vertical frame 3 will contact with the locking columns 2-8, the locking motors 2-5 are started, the locking motors 2-5 rotate to drive the connecting shafts one 2-6 to rotate, the connecting shafts one 2-6 drive the locking columns 2-8 to rotate, the locking columns 2-8 will fix the lower part of the vertical frame 3, meanwhile, the connecting shafts one 2-6 drive the middle connecting shafts 2-7 to rotate, the middle connecting shafts 2-7 drive the connecting shafts two 2-9 to rotate, the connecting shafts two 2-9 drive the other locking columns 2-8 to rotate, and the vertical frame 3 is fixed by the two locking columns.
3, the moving principle of the vertical frame: the moving motor 3-3 is connected into a circuit, the moving motor 3-3 is started, the moving motor 3-3 rotates to drive the motor connecting shaft 3-4 to rotate, the motor connecting shaft 3-4 drives the moving screw rod 3-5 to rotate, and the moving screw rod 3-5 rotates to drive the sliding base 3-6 to move.
4 upward movement principle: an upward moving motor 4-1 is connected into a circuit, the upward moving motor 4-1 is started, the upward moving motor 4-1 rotates to drive a main shaft 4-2 to rotate, the main shaft 4-2 drives an upper transverse shaft 4-3 and a lower transverse shaft 4-3 to rotate, the transverse shaft 4-3 rotates to drive a stepping shaft 4-4 to rotate, the stepping shaft 4-4 rotates to drive a stepping shaft sleeve 4-5 to rotate, the stepping shaft sleeve 4-5 rotates to adjust the horizontal distance between the stepping shaft sleeves 4-5, the stepping shaft sleeve 4-5 drives an internal rotating shaft 4-6 to move, and meanwhile, the stepping shaft sleeve 4-5 drives a connecting frame sleeve 4-8 to move; the driving motor 4-12 is connected into a circuit, the driving motor 4-12 is started, the driving motor 4-12 rotates to drive the rotating intermediate shaft 4-7 to rotate, the rotating intermediate shaft 4-7 drives the rotating shaft 4-6 to rotate, the rotating directions of the two rotating shafts 4-6 on the same side are opposite, and the tower section moves upwards.
5 other movement principles: connecting a vertical sliding frame motor 5-4 into a circuit, driving a connecting screw rod 5-3 to rotate a connecting screw rod 5-3 to drive a vertical sliding gear 5-2 to rotate, driving a vertical sliding frame 5-1 to move along a sliding support 1-3 by rotating the vertical sliding gear 5-2, starting a transverse moving motor 5-12 when the vertical sliding frame 5-1 moves to the lower part, driving a transverse moving transition shaft 5-13 to rotate by rotating a transverse moving motor 5-12, driving a transverse moving connecting shaft 5-14 to rotate by rotating a transverse moving transition shaft 5-13, driving a transverse moving screw rod 5-15 to rotate by a transverse moving connecting shaft 5-14, driving a transverse sliding frame 5-5 to move by a transverse moving screw rod 5-15 and enter a side sliding channel 2-3, when the transverse sliding frame 5-5 moves to the lower part of a support frame 3, connecting the tower section with the upper part, moving the tower section upwards, and resetting the cross sliding frame 5-5; when the tower section is placed on the transverse sliding frame 5-5, the rotating frame 5-17 rotates to adapt to the shape of the tower section, the tower section is in a proper position under the action of the springs 5-19, the clamp motor 5-11 is started, the clamp motor 5-11 rotates to drive the gear II 5-10 to rotate, the gear II 5-10 rotates to drive the gear I5-9 to rotate, the gear I5-9 drives the clamp driving shaft 5-8 to rotate, and the clamp driving shaft 5-8 drives the clamp 5-6 to move so as to clamp the tower section.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.