CN111706080A

CN111706080A - Column pouring device with vibrating function

Info

Publication number: CN111706080A
Application number: CN202010648470.4A
Authority: CN
Inventors: 董广才
Original assignee: Taizhou Jiaojiang Pre Lifting Automation Equipment Co ltd
Current assignee: Taizhou Jiaojiang Pre Lifting Automation Equipment Co ltd
Priority date: 2020-07-07
Filing date: 2020-07-07
Publication date: 2020-09-25

Abstract

The invention discloses a column pouring device with a vibrating function, which comprises a base body with wheels at the lower side, wherein a driving cavity is arranged in the base body, a driving assembly is arranged in the driving cavity, an adjusting sliding cavity with the front side communicated with the outside is arranged at the upper side of the driving cavity, an adjusting screw rod with opposite threads at the left side and the right side and extending to the driving cavity leftwards is rotatably arranged on the wall at the right end of the adjusting sliding cavity, an adjusting sliding block is arranged on the adjusting screw rod in a sliding manner in a bilateral symmetry manner through thread matching, a connecting rod is hinged at the right side of the adjusting sliding block, the device clamps a template through inward sliding of the fixed sliding block, the template is prevented from being inclined to influence the pouring effect, the vibrating block vibrates the concrete up and down in the pouring process, bubbles in the concrete are removed, a lifting mechanism is gradually lifted upwards, and a cam is.

Description

Column pouring device with vibrating function

Technical Field

The invention relates to the technical field of building pouring, in particular to a column pouring device with a vibrating function.

Background

The concrete pouring refers to a process of pouring concrete into a mold until the concrete is plasticized, in the civil engineering and building engineering, materials such as concrete are put into the mold to form a preset shape, the free height of the concrete is not more than 2m when the concrete is poured, and corresponding measures are taken when the free height of the concrete exceeds 3 m. When the post was pour, need the workman to climb to the high place and use bayonet vibrator to insert the interior vibrated concrete of post, the downside also has someone to beat the template at any time simultaneously. The in-process of pouring needs the workman to hold up the straight template at the downside usually for preventing the template slope, consumes a large amount of manpowers, and climbs to the eminence and has certain danger.

Disclosure of Invention

Aiming at the technical defects, the invention provides a column pouring device with a vibrating function, which can overcome the defects.

The invention relates to a column pouring device with a vibration function, which comprises a base body with wheels at the lower side, wherein a driving cavity is arranged in the base body, a driving assembly is arranged in the driving cavity, an adjusting sliding cavity with the front side communicated with the outside is arranged at the upper side of the driving cavity, an adjusting screw rod with opposite threads at the left side and the right side and extending to the driving cavity leftwards is rotatably arranged on the wall at the right end of the adjusting sliding cavity, adjusting sliding blocks are arranged on the adjusting screw rod in a left-right symmetrical sliding mode through thread matching, a connecting rod is hinged at the right side of the adjusting sliding block, the middle of the two connecting rods is hinged, four groups of connecting rods are hinged at the upper side of the connecting rod in a crossed mode to form a lifting mechanism, lifting sliding grooves are symmetrically arranged at the left side and the right side in the base body, lifting support rods are arranged in the, adjust the sliding tray and slide in and be equipped with limit sliding block, limit sliding block right side with the connecting rod is articulated, be equipped with the rotation chamber that the front side passes through vibrations sliding tray and external intercommunication in the lifter, it installs downward extension to rotate chamber upper end wall rotation the lift integral key shaft of lifter downside, rotate intracavity fixedly connected with lift integral key shaft fixed connection's the vibrations cam that contains limit sliding tray, vibrations sliding tray slide in be equipped with limit sliding tray cooperation and the downside that extends forward are connected with the connecting rod that vibrates of piece, still be equipped with in the lifter and pour the subassembly, base member front side bilateral symmetry is equipped with fixed subassembly.

Preferably, pour the subassembly include with rotate chamber upper end wall fixed connection and with lift integral key shaft power connection's pump, the pump right side is connected with L type and goes out native pipe, the pump left side is connected with the connecting pipe, be equipped with into native pipe in the base member, the connecting pipe with it passes through telescopic tube connection to advance native pipe.

Preferably, the driving assembly comprises a motor fixedly connected with the lower end wall of the driving cavity, a driving shaft is dynamically connected with the upper side of the motor, the driving shaft is fixedly connected with a driving transmission gear and a single-tooth gear positioned on the upper side of the driving transmission gear, the lower end wall of the driving cavity is rotatably provided with a lifting transmission shaft positioned on the left side of the driving shaft, the lifting transmission shaft is fixedly connected with an intermittent gear meshed with the single-tooth gear and a driving lifting bevel gear positioned on the upper side of the intermittent gear, a driven lifting bevel gear which is fixedly connected with the adjusting screw and is meshed with the driving lifting bevel gear is arranged in the driving cavity, the upper end wall of the driving cavity is rotatably provided with a vibration transmission shaft positioned on the right side of the driving shaft, the lower side of the vibration transmission shaft is connected with a vibration spline shaft through a vibration spline sleeve, and a reciprocating gear which can be meshed with the driving transmission gear is fixedly connected to the lower side of the vibration spline shaft.

Preferably, drive assembly is still including being located the forked tail sliding tray on drive chamber right side, slide in the forked tail sliding tray be equipped with the forked tail sliding block that the vibrations integral key shaft passes through the bearing and connects, forked tail sliding tray downside is equipped with the electro-magnet, forked tail sliding block downside be equipped with electro-magnet complex iron plate, forked tail sliding block upside with forked tail sliding tray upper end wall passes through dovetail spring coupling, the last fixedly connected with initiative lift belt pulley of vibrations transmission shaft, the lift axis of rotation that the upper and lower both sides of drive chamber up and down end wall rotate and install to extend, be equipped with in the drive chamber with lift axis of rotation fixed connection and with the driven lift belt pulley that the initiative lift belt pulley passes through the lift belt and connects, lift axis of rotation upside pass through the lift spline sleeve with the lift spline.

Preferably, the fixing component comprises fixed sliding grooves which are arranged in bilateral symmetry and are arranged at the front side of the base body, fixed sliding blocks are arranged in the fixed sliding grooves in a sliding manner, a knocking cavity with the inner side communicated with the outside is arranged in each fixed sliding block, a communicating cavity is communicated with the rear side of the knocking cavity, a transmission cavity between the two fixed sliding grooves is arranged in the base body, a driving transmission belt pulley fixedly connected with the lifting rotating shaft is arranged in the transmission cavity, a fixed driven shaft positioned at the front side of the lifting rotating shaft is rotatably arranged on the lower end wall of the transmission cavity, a driven transmission belt pulley connected with the driving transmission belt pulley through a transmission belt and a driving fixed bevel gear positioned on the upper side of the driven transmission belt pulley are fixedly connected on the fixed driven shaft, and fixed transmission shafts extending outwards are symmetrically and rotatably arranged on the left, and a driven fixed bevel gear which is fixedly connected with the fixed transmission shaft and is meshed with the driving fixed bevel gear is arranged in the transmission cavity.

Preferably, fixed subassembly still include with the fixed transmission shaft outside through fixed spline muffjoint with the fixed spline shaft that the inboard end wall of intercommunication chamber rotated the connection, the intercommunication intracavity be equipped with fixed spline shaft fixed connection's initiative strikes the bevel gear, intercommunication chamber lower extreme wall rotates and installs and strikes the transmission shaft, strike on the transmission shaft fixedly connected with the initiative strikes the driven bevel gear that strikes of bevel gear meshing and is located the driven belt pulley that strikes of driven bevel gear downside, strike chamber lower extreme wall and rotate and install and strike the axis of rotation, strike in the axis of rotation fixedly connected with the initiative strike the belt pulley through the driven belt pulley that strikes and be located the driven cam that strikes the belt pulley upside.

The beneficial effects are that: the device simple structure, high durability and convenient operation, the device is at the during operation, press from both sides tight template through the inside slip of fixed sliding block, prevent that the template slope from influencing and pour the effect, raise elevating system before pouring, the piece that vibrates falls to downside after aiming at the template center with the play native pipe, it vibrates to the concrete to pour vibrations about the in-process piece that vibrates, get rid of the bubble in the concrete, elevating system upwards lifts gradually, strike cam rotation simultaneously and strike template outside lower extreme, do not need the workman to scramble to eminence and pour the vibration, reduce the potential safety hazard, do not need the workman to hold and strike the template in the downside, use manpower sparingly.

Drawings

In order to more clearly illustrate the embodiments of the 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 only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of the D-D structure in FIG. 4 according to an embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a column pouring device with a vibration function, which comprises a base body 10 with wheels 15 at the lower side, wherein a driving cavity 11 is arranged in the base body 10, a driving assembly is arranged in the driving cavity 11, an adjusting sliding cavity 33 with the front side communicated with the outside is arranged at the upper side of the driving cavity 11, an adjusting screw 22 with opposite threads at the left side and the right side and extending to the driving cavity 11 leftwards is rotatably arranged on the right end wall of the adjusting sliding cavity 33, an adjusting sliding block 23 is arranged on the adjusting screw 22 in a bilaterally symmetrical sliding way through thread matching, a connecting rod 24 is hinged at the right side of the adjusting sliding block 23, the middle of the two connecting rods 24 is hinged, four groups of connecting rods 24 are hinged at the upper side of the connecting rod 24 in a crossed way to form a lifting mechanism, lifting sliding grooves 20 are symmetrically arranged at the left side and the right side in the base body 10, lifting support, the left and right symmetry of the lower end of the front side of the lifting block 29 is provided with an adjusting sliding groove 30, a limiting sliding block 31 is arranged in the adjusting sliding groove 30 in a sliding manner, the right side of the limiting sliding block 31 is hinged to the connecting rod 24, a rotating cavity 32 with the front side communicated with the outside through a vibration sliding groove 46 is arranged in the lifting block 29, the upper end wall of the rotating cavity 32 is rotatably provided with a lifting spline shaft 25 extending downwards to the lower side of the lifting block 29, a vibration cam 28 fixedly connected with the lifting spline shaft 25 and containing a limiting sliding groove 26 is fixedly connected in the rotating cavity 32, a vibration connecting rod 44 matched with the limiting sliding groove 26 and extending forwards is arranged in the vibration sliding groove 46 in a sliding manner, a vibration block 43 is connected to the lower side of the vibration connecting rod, a pouring assembly is further arranged in the lifting block 29, a fixing assembly is arranged on the left and right symmetry of the front side of the base body, thereby driving the lifting mechanism to extend upwards, driving the lifting block 29 to slide upwards, driving the adjusting sliding block 23 to slide outwards when the adjusting screw 22 rotates reversely, driving the lifting mechanism to contract downwards, driving the lifting block 29 to slide downwards, and driving the vibrating connecting rod 44 to cooperate with the limiting sliding groove 26 to drive the vibrating connecting rod 44 and the vibrating block 43 to vibrate and vibrate concrete up and down when the lifting spline shaft 25 drives the vibrating cam 28 to rotate.

Beneficially, the pouring assembly comprises a pump 27 fixedly connected with the upper end wall of the rotating cavity 32 and in power connection with the lifting spline shaft 25, the right side of the pump 27 is connected with an L-shaped soil outlet pipe 45, the left side of the pump 27 is connected with a connecting pipe 34, an soil inlet pipe 36 is arranged in the base body 10, the connecting pipe 34 is connected with the soil inlet pipe 36 through a telescopic pipe 35, the lifting spline shaft 25 drives the pump 27 to work, the lower side of the soil inlet pipe 36 is connected with outer concrete, and the outer concrete is poured into the formwork through the L-shaped soil outlet pipe 45.

Advantageously, the driving assembly comprises a motor 13 fixedly connected with the lower end wall of the driving chamber 11, a driving shaft 64 is dynamically connected with the upper side of the motor 13, a driving transmission gear 63 and a single-tooth gear 62 positioned on the upper side of the driving transmission gear 63 are fixedly connected with the driving shaft 64, a lifting transmission shaft 61 positioned on the left side of the driving shaft 64 is rotatably installed on the lower end wall of the driving chamber 11, an intermittent gear 77 engaged with the single-tooth gear 62 and a driving lifting bevel gear 76 positioned on the upper side of the intermittent gear 77 are fixedly connected with the lifting transmission shaft 61, a driven lifting bevel gear 75 fixedly connected with the adjusting screw 22 and engaged with the driving lifting bevel gear 76 is arranged in the driving chamber 11, a vibration transmission shaft 74 positioned on the right side of the driving shaft 64 is rotatably installed on the upper end wall of the driving chamber 11, and a vibration spline shaft 65 is connected with the lower, the lower side of the vibration spline shaft 65 is fixedly connected with a reciprocating gear 66 which can be meshed with the driving transmission gear 63, only a lifting assembly works when the reciprocating gear 66 is not meshed with the driving transmission gear 63, and when the reciprocating gear 66 is meshed with the driving transmission gear 63, the lifting assembly works and pouring and vibrating work are carried out at the same time.

Beneficially, the driving assembly further includes a dovetail sliding groove 69 located on the right side of the driving cavity 11, a dovetail sliding block 72 connected with the vibration spline shaft 65 through a bearing is slidably disposed in the dovetail sliding groove 69, an electromagnet 68 is disposed on the lower side of the dovetail sliding groove 69, an iron block 70 matched with the electromagnet 68 is disposed on the lower side of the dovetail sliding block 72, the upper side of the dovetail sliding block 72 is connected with the upper end wall of the dovetail sliding groove 69 through a dovetail spring 71, a driving lifting pulley 73 is fixedly connected to the vibration transmission shaft 74, a lifting rotating shaft 18 extending upward and downward is rotatably mounted on the upper and lower end walls of the driving cavity 11, a driven lifting pulley 19 fixedly connected with the lifting rotating shaft 18 and connected with the driving lifting pulley 73 through a lifting belt 12 is disposed in the driving cavity 11, the upper side of the lifting rotating shaft 18 is connected with the lifting spline shaft 25 through a lifting spline sleeve 14, when the electromagnet 68 is not electrified, the reciprocating gear 66 is not meshed with the driving transmission gear 63, and when the electromagnet 68 is electrified, the reciprocating gear 66 is meshed with the driving transmission gear 63.

Beneficially, the fixing assembly includes fixing sliding grooves 47 symmetrically arranged at the front side of the base body 10, a fixing sliding block 50 is slidably arranged in the fixing sliding groove 47, a knocking cavity 52 with an inner side communicated with the outside is arranged in the fixing sliding block 50, a communicating cavity 51 is communicated with the rear side of the knocking cavity 52, a transmission cavity 16 between the two fixing sliding grooves 47 is arranged in the base body 10, a driving transmission pulley 17 fixedly connected with the lifting rotation shaft 18 is arranged in the transmission cavity 16, a fixed driven shaft 38 located at the front side of the lifting rotation shaft 18 is rotatably arranged at the lower end wall of the transmission cavity 16, a driven transmission pulley 39 connected with the driving transmission pulley 17 through a transmission belt 37 and a driving fixing bevel gear 40 located at the upper side of the driven transmission pulley 39 are fixedly connected to the fixed driven shaft 38, the left end wall and the right end wall of the transmission cavity 16 are symmetrically and rotatably provided with fixed transmission shafts 42 extending outwards, driven fixed bevel gears 41 which are fixedly connected with the fixed transmission shafts 42 and meshed with the driving fixed bevel gears 40 are arranged in the transmission cavity 16, and fixed templates are slidably fixed in the fixed sliding grooves 47 by the fixed sliding blocks 50, so that the pouring effect is prevented from being influenced by the inclination of the templates.

Advantageously, the fixing assembly further comprises a fixed spline shaft 59 connected with the outer side of the fixed transmission shaft 42 through a fixed spline sleeve 60 and rotatably connected with the inner side end wall of the communicating chamber 51, a driving tapping bevel gear 48 fixedly connected with the fixed spline shaft 59 is arranged in the communicating chamber 51, a tapping transmission shaft 49 is rotatably mounted on the lower end wall of the communicating chamber 51, a driven tapping bevel gear 58 engaged with the driving tapping bevel gear 48 and a driving tapping pulley 57 positioned on the lower side of the driven tapping bevel gear 58 are fixedly connected to the tapping transmission shaft 49, a tapping rotating shaft 54 is rotatably mounted on the lower end wall of the tapping chamber 52, a driven tapping pulley 53 connected with the driving tapping pulley 57 through a tapping belt 56 and a tapping cam 55 positioned on the upper side of the driven tapping pulley 53 are fixedly connected to the tapping rotating shaft 54, the knocking rotating shaft 54 drives the knocking cam 55 to rotate, and the knocking cam 55 intermittently knocks the template.

In the initial state, the fixed slide block 50 is located at the outermost side, the adjusting slide block 23 is located at the outermost side, the lifting mechanism is in the contracted state, the lifting block 29 is located at the lowermost side, the electromagnet 68 is not energized, the dovetail groove spring 71 is in the normal stretched state, and the reciprocating gear 66 is not meshed with the driving transmission gear 63.

When the work is started, the base body 10 is moved to surround the formwork, the two side fixing sliding blocks 50 are moved inwards to enable the inner end walls of the fixing sliding blocks 50 to be matched with the formwork to fix the formwork, the motor 13 is started to rotate forwards to drive the driving shaft 64 to rotate, the single-tooth gear 62 is driven to rotate, the intermittent gear 77 is driven to rotate, the lifting transmission shaft 61 is driven to rotate, the driving lifting bevel gear 76 is driven to rotate, the driven lifting bevel gear 75 is driven to rotate, the adjusting screw 22 is driven to rotate, the adjusting sliding block 23 is driven to slide inwards, the lifting mechanism extends, the lifting block 29, the lifting support rod 21, the vibrating connecting rod 44 and the L-shaped soil discharging pipe 45 slide upwards, the base body 10 is moved to enable the lower sides of the vibrating block 43 and the L-shaped soil discharging pipe 45 to be located at the center of the wood board when the lowest sides of the vibrating block 43 and the L-, The lifting support rod 21, the vibrating connecting rod 44 and the L-shaped soil discharging pipe 45 slide downwards, when the vibrating block 43 and the L-shaped soil discharging pipe 45 slide to the lowest side, the motor 13 stops, the electromagnet 68 is electrified to attract the iron block 70, the dovetail groove spring 71 stretches, the reciprocating gear 66 is meshed with the driving transmission gear 63, the motor 13 is started to rotate forwards, the lifting block 29, the lifting support rod 21, the vibrating connecting rod 44 and the L-shaped soil discharging pipe 45 are driven to slide upwards gradually, meanwhile, the driving shaft 64 drives the driving transmission gear 63 to rotate, the reciprocating gear 66 is driven to rotate, the vibrating spline shaft 65 is driven to rotate, the vibrating spline shaft 74 is driven to rotate, the driving lifting pulley 73 is driven to rotate, the driven lifting pulley 19 is driven to rotate, the lifting rotating shaft 18 is driven to rotate the spline shaft 25, the pump 27 is driven to work, and concrete passes through the soil inlet pipe 36 from the outside, The extension tube 35 and the connection tube 34 are sucked into the wood board from the L-shaped soil discharging tube 45, and the lifting spline shaft 25 drives the vibration cam 28 to rotate, thereby driving the vibration connecting rod 44 to vibrate the concrete up and down, and the lifting rotating shaft 18 drives the driving transmission pulley 17 to rotate, thereby driving the driven transmission pulley 39 to rotate, thereby driving the fixed driven shaft 38 to rotate, thereby driving the driving fixed bevel gear 40 to rotate, thereby driving the driven fixed bevel gear 41 to rotate, thereby driving the fixed transmission shaft 42 to rotate, thereby driving the fixed spline shaft 59 to rotate, thereby driving the driving knocking bevel gear 48 to rotate, thereby driving the driven knocking bevel gear 58 to rotate, thereby driving the knocking transmission shaft 49 to rotate, thereby driving the driving knocking pulley 57 to rotate, thereby driving the driven knocking pulley 53 to rotate, thereby driving the knocking rotating shaft 54 to rotate, thereby driving the knocking cam 55 to knock the, air bubbles in the concrete are removed, when the vibrating block 43 and the L-shaped soil discharging pipe 45 are exposed out of the upper side of the template, the motor 13 is stopped, the electromagnet 68 is powered off, the reciprocating gear 66 is not meshed with the driving transmission gear 63 under the action of the dovetail groove spring 71, the fixed sliding block 50 slides outwards, the base body 10 is moved away from the template, the motor 13 is started to rotate reversely, and therefore the lifting block 29, the lifting support rod 21, the vibrating connecting rod 44 and the L-shaped soil discharging pipe 45 are driven to slide downwards, and the device is reset.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a device is pour to post that contains function of vibrating, includes that the downside contains the base member of wheel, its characterized in that: the base body is internally provided with a driving cavity, a driving assembly is arranged in the driving cavity, the upper side of the driving cavity is provided with an adjusting sliding cavity with the front side communicated with the outside, the right end wall of the adjusting sliding cavity is rotationally provided with an adjusting screw rod with opposite threads on the left side and extending to the driving cavity leftwards, the adjusting screw rod is provided with an adjusting sliding block through threaded matching bilateral symmetry sliding, the right side of the adjusting sliding block is hinged with a connecting rod, two connecting rods are hinged in the middle, four groups of connecting rods are hinged on the upper side of the connecting rod in a crossed manner to form a lifting mechanism, the left side and the right side in the base body are symmetrically provided with lifting sliding grooves, lifting support rods are arranged in the lifting sliding grooves in a sliding manner, lifting blocks are fixedly connected between the two lifting support rods, the lower end of, spacing sliding block right side with the connecting rod is articulated, be equipped with the rotation chamber that the front side passes through vibrations sliding tray and external intercommunication in the elevator, it installs downward extension to rotate chamber upper end wall rotation the lift integral key shaft of elevator downside, rotate intracavity fixedly connected with lift integral key shaft fixed connection's the vibrations cam that contains spacing sliding tray, vibrations sliding tray in slide be equipped with spacing sliding tray cooperation and the downside that extends forward are connected with the connecting rod that vibrates of piece, still be equipped with in the elevator and pour the subassembly, base member front side bilateral symmetry is equipped with fixed subassembly.

2. The column pouring device with the vibrating function according to claim 1, wherein: the pouring assembly comprises a pump which is fixedly connected with the upper end wall of the rotating cavity and is in power connection with the lifting spline shaft, the right side of the pump is connected with an L-shaped soil outlet pipe, the left side of the pump is connected with a connecting pipe, a soil inlet pipe is arranged in the base body, and the connecting pipe is connected with the soil inlet pipe through a telescopic pipe.

3. The column pouring device with the vibrating function according to claim 1, wherein: the driving assembly comprises a motor fixedly connected with the lower end wall of the driving cavity, the upper side of the motor is in power connection with a driving shaft, the driving shaft is fixedly connected with a driving transmission gear and a single-tooth gear positioned on the upper side of the driving transmission gear, the lower end wall of the driving cavity is rotatably provided with a lifting transmission shaft positioned on the left side of the driving shaft, the lifting transmission shaft is fixedly connected with an intermittent gear meshed with the single-tooth gear and a driving lifting bevel gear positioned on the upper side of the intermittent gear, a driven lifting bevel gear which is fixedly connected with the adjusting screw and is meshed with the driving lifting bevel gear is arranged in the driving cavity, the upper end wall of the driving cavity is rotatably provided with a vibration transmission shaft positioned on the right side of the driving shaft, the lower side of the vibration transmission shaft is connected with a vibration spline shaft through a vibration spline sleeve, and a reciprocating gear which can be meshed with the driving transmission gear is fixedly connected to the lower side of the vibration spline shaft.

4. The column pouring device with the vibrating function according to claim 3, wherein: drive assembly still including being located the forked tail sliding tray on drive chamber right side, slide in the forked tail sliding tray be equipped with the forked tail sliding block that the vibrations integral key shaft passes through the bearing and connects, forked tail sliding tray downside is equipped with the electro-magnet, forked tail sliding block downside be equipped with electro-magnet complex iron plate, forked tail sliding block upside with forked tail sliding tray upper end wall passes through dovetail spring coupling, the last fixedly connected with initiative lift belt pulley of vibrations transmission shaft, the lift axis of rotation that the upper and lower both sides of drive chamber up and down end wall rotated and installs and extend, be equipped with in the drive chamber with lift axis of rotation fixed connection and with the driven lift belt pulley that initiative lift belt pulley passes through the lift belt and connects, lift axis of rotation upside pass through the lift spline sleeve with the lift spline shaft.

5. The column pouring device with the vibrating function according to claim 1, wherein: the fixing component comprises fixed sliding grooves which are arranged in bilateral symmetry and are arranged at the front side of the base body, fixed sliding blocks are arranged in the fixed sliding grooves in a sliding manner, a knocking cavity with the inner side communicated with the outside is arranged in each fixed sliding block, a communicating cavity is communicated with the rear side of the knocking cavity, a transmission cavity between the two fixed sliding grooves is arranged in the base body, a driving transmission belt pulley fixedly connected with the lifting rotating shaft is arranged in the transmission cavity, a fixed driven shaft positioned at the front side of the lifting rotating shaft is rotatably arranged on the lower end wall of the transmission cavity, a driven transmission belt pulley connected with the driving transmission belt pulley through a transmission belt and a driving fixed bevel gear positioned at the upper side of the driven transmission belt pulley are fixedly connected on the fixed driven shaft, and fixed transmission shafts extending outwards are symmetrically and rotatably arranged on the, and a driven fixed bevel gear which is fixedly connected with the fixed transmission shaft and is meshed with the driving fixed bevel gear is arranged in the transmission cavity.

6. The column pouring device with the vibrating function as claimed in claim 5, wherein: fixed subassembly still include with the fixed transmission shaft outside through fixed spline muffjoint with the inboard end wall of intercommunication chamber rotates the fixed spline shaft of connecting, the intercommunication intracavity be equipped with fixed spline shaft fixed connection's initiative strikes the bevel gear, intercommunication chamber lower extreme wall rotates installs and strikes the transmission shaft, strike on the transmission shaft fixedly connected with the initiative strikes bevel gear meshing driven and is located the initiative of driven bevel gear downside is strikeed the belt pulley, strike chamber lower extreme wall and rotate and install and strike the axis of rotation, strike in the axis of rotation fixedly connected with the initiative is strikeed the driven belt pulley of strikeing that the belt pulley is connected through strikeing the belt and is located the cam that strikes of driven belt pulley upside.