CN109403211A - A kind of beam sections prestress pipe constructing device - Google Patents
A kind of beam sections prestress pipe constructing device Download PDFInfo
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- CN109403211A CN109403211A CN201811301798.8A CN201811301798A CN109403211A CN 109403211 A CN109403211 A CN 109403211A CN 201811301798 A CN201811301798 A CN 201811301798A CN 109403211 A CN109403211 A CN 109403211A
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- rotation axis
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- bevel gear
- tap water
- cavity
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01D—CONSTRUCTION OF BRIDGES, ELEVATED ROADWAYS OR VIADUCTS; ASSEMBLY OF BRIDGES
- E01D21/00—Methods or apparatus specially adapted for erecting or assembling bridges
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- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Preparation Of Clay, And Manufacture Of Mixtures Containing Clay Or Cement (AREA)
Abstract
The invention discloses a kind of beam sections prestress pipe constructing devices, including main body and beam sections, the first power cavity is installed in the main body, the ice cube entrance for extending downwardly setting is offered in the main body top end surface on the right side of first power cavity, tap water inlets and concrete powder entrance, the tap water inlets are located on the right side of the ice cube entrance, the concrete powder entrance is located on the right side of the tap water inlets, it is connected between the ice cube entry bottom extending end and end wall on the left of the tap water inlets equipped with the first communicating pipe, it is connected between the concrete powder entry bottom extending end and end wall on the right side of the tap water inlets equipped with the second communicating pipe, concrete grout back cavity extended to the right is installed in the main body below first power cavity.
Description
Technical field
The present invention relates to field of bridge construction, specifically a kind of beam sections prestress pipe constructing device.
Background technique
With the development of science and technology, social progress, country promotes always high-tech development, in field of bridge construction,
It always exists a relatively difficult technical problem to be how to be substantially filled to beam sections pipeline, does not remain an air,
Prestress pipe is tightened simultaneously, reaches and applies prestressed effect, existing equipment mostly cannot fill beam sections pipeline
Divide filling or filling quality is not high cannot to make prestress pipe apply prestressing force, therefore a kind of device of urgent need by perfection
Solve problems.
Summary of the invention
Technical problem to be solved by the invention is to provide a kind of beam sections prestress pipe constructing devices, are able to solve
The problems in above-mentioned present technology.
The present invention is achieved through the following technical solutions: a kind of beam sections prestress pipe of the invention, which is constructed, to be filled
It sets, including main body and beam sections, is installed with the first power cavity in the main body, the institute on the right side of first power cavity
It states and offers the ice cube entrance for extending downwardly setting, tap water inlets and concrete powder entrance, institute in main body top end surface
It states tap water inlets to be located on the right side of the ice cube entrance, the concrete powder entrance is located on the right side of the tap water inlets, institute
It states and is connected between ice cube entry bottom extending end and end wall on the left of the tap water inlets equipped with the first communicating pipe, it is described mixed
It is connected between solidifying soil powdering inlet bottom extending end and end wall on the right side of the tap water inlets equipped with the second communicating pipe, is located at
It is installed with concrete grout back cavity extended to the right in the main body below first power cavity, is located at described mixed
Stirring conveyor chamber extended to the right is installed in the main body below solidifying soil paste back cavity, the stirring conveyor chamber is right
Side extending end is connected with tap water inlets bottom extending end, on the right side of the concrete grout back cavity extending end with
End wall is connected on the right side of the tap water inlets, is installed in the main body below the concrete powder entrance dynamic
Power integrates chamber, is installed with the second power cavity, the tap water inlets in the main body below the power integration chamber
Gear transmission cavity is installed in the main body between the power integration chamber, it is solid on end wall on the left of first power cavity
Equipped with first motor, being rotatably assorted to be connected with to control to extend in the wall between first power cavity and the tap water inlets is set
The first rotation axis set, on the left of first rotation axis extending end protrude into first power cavity and with the first motor
Right end face power is cooperatively connected, and extending end protrudes into the tap water inlets and circumferential fixed on the right side of first rotation axis
There is the first agitating roller, being rotatably assorted to be connected with to control to extend in the wall between the tap water inlets and the gear transmission cavity sets
The second rotation axis set, the second rotation axis left side extending end are protruded into the tap water inlets and are stirred with described first
Roller right end face power is cooperatively connected, on the right side of second rotation axis extending end protrude into the gear transmission cavity and with it is described
End wall is rotatably assorted connection on the right side of gear transmission cavity, and circumferential direction is fixed in second rotation axis in the gear transmission cavity
There is the first spur gear, is circumferentially installed with the second spur gear in first rotation axis in first power cavity, it is described
It is rotatably assorted in wall between first power cavity and the ice cube entrance and is connected with the extended third rotation axis in left and right, it is described
Extending end is protruded into first power cavity and is rotatably assorted with end wall on the left of first power cavity on the left of third rotation axis
Connection, third rotation axis right side extending end are protruded into the ice cube entrance and are rotated with end wall on the right side of the ice cube entrance
It is cooperatively connected, is circumferentially installed with cutting blade in the third rotation axis in the ice cube entrance, be located at described first
Third spur gear, second spur gear and the third spur gear are circumferentially installed in the third rotation axis in power cavity
Engagement is cooperatively connected, and is also rotatably assorted in the wall between the tap water inlets and the gear transmission cavity and is connected with left and right extension
The 4th rotation axis being arranged, the 4th rotation axis are located at below second rotation axis, and the 4th rotation axis extends to the left
End is protruded into the concrete grout back cavity and is rotatably assorted with the concrete grout back cavity left end face and connect, and described
Extending end protrudes into the gear transmission cavity and is circumferentially installed with the 4th spur gear, the 4th spur gear four rotation axis to the right
Mating connection is engaged with first spur gear, it is circumferentially solid in the 4th rotation axis in the concrete grout back cavity
Equipped with the first spiral conveyor rod, be rotatably assorted on end wall the 5th turn for being connected with and being extended to the right on the left of the stirring conveyor chamber
Moving axis, extending end protrudes into the tap water inlets and is circumferentially installed with the second agitating roller the 5th rotation axis to the right, institute
It states and is circumferentially installed with the second spiral conveyor rod in the 5th rotation axis, between the concrete powder entrance and the power integration chamber
Wall in be rotatably assorted and be connected with the 6th up and down extended rotation axis, the 6th rotation axis upwardly extends end and protrudes into institute
It states in concrete powder entrance and is circumferentially installed with grinding turntable, the 6th rotation axis extends downwardly end and protrudes into the power
It integrates in chamber and is circumferentially installed with first bevel gear, be rotatably assorted in the 6th rotation axis in the power integration chamber
It is connected with second bevel gear, the first bevel gear bracket and of symmetrical setting is installed on the second bevel gear bottom end face
Two bevel gear supports are rotatably assorted on the first bevel gear bracket and are connected with the 7th extended rotation axis of one end, described
Third hand tap gear is circumferentially installed on 7th rotation axis extending end, the third hand tap gear is engaged with the first bevel gear matches
Connection is closed, is rotatably assorted on the second bevel gear bracket and is connected with the extended eight revolution moving axis in one end, the eight revolution
The 4th bevel gear is circumferentially installed on moving axis extending end, the 4th bevel gear engages cooperation with the first bevel gear and connects
It connects, is rotatably assorted between the power integration chamber and second power cavity and is connected with the 9th extended up and down rotation axis,
Extending end, which is protruded into the power integration chamber and is rotatably assorted, at the top of 9th rotation axis is connected with the 5th bevel gear, described
5th bevel gear engages mating connection with the third hand tap gear, and the 5th bevel gear engages cooperation with the 4th bevel gear
Connection, the 9th rotation axis bottom extending end protrude into second power cavity and are circumferentially installed with the 6th bevel gear, institute
It states to be rotatably assorted in the wall between power integration chamber and the gear transmission cavity and is connected with the tenth extended rotation axis of left and right,
Extending end and the 4th rotation axis right side extending end power are cooperatively connected on the left of tenth rotation axis, and the described ten turn
It is circumferentially installed with the 7th bevel gear on extending end on the right side of moving axis, the 7th bevel gear engages cooperation with the second bevel gear
It connects, is rotatably assorted in the wall between the tap water inlets and second power cavity and is connected with the left and right is extended the tenth
One rotation axis, the 11st rotation axis left side extending end protrude into the tap water inlets and dynamic with second agitating roller
Force-fitting connection, the 11st rotation axis right side extending end protrude into second power cavity, and second power cavity is right
The second motor is installed on the wall of side, extending end and second motor left side end wall power on the right side of the 11st rotation axis
It is cooperatively connected, is circumferentially installed with the 8th bevel gear in the 11st rotation axis in second power cavity, described the
Eight bevel gears engage mating connection with the 6th bevel gear.
Preferably technical solution connects equipped with first segment beam pipeline and between the beam sections left hand end wall
Two beam sections pipelines, the second section beam pipeline are located at below the first segment beam pipeline, the first segment beam pipeline
It is interior to be equipped with the first extended prestressed pipe of left and right, it is pre- that left and right is extended second is equipped in the second section beam pipeline
Stress tube, being rotatably assorted in the first segment beam pipeline right end is connected with first and screws block, first prestressed pipe
Right side extending end, which passes through described first and screws block and screw block with described first and be threadedly engaged, to be connect, the first segment beam pipe
It is rotatably assorted in road left distal end and is connected with second and screws block, extending end passes through described second on the left of first prestressed pipe
It screws block and screws block with described second and be threadedly engaged and connect, be rotatably assorted connection in the second section beam pipeline right end
There is third to screw block, extending end passes through the third and screws block and screw block with the third on the right side of second prestressed pipe
It is threadedly engaged connection, being rotatably assorted in the second section beam pipeline left distal end is connected with the 4th and screws block, and described second is pre-
Extending end, which passes through the described 4th and screws block and screw block with the described 4th and be threadedly engaged, on the left of stress tube connect.
Preferably technical solution, between the concrete grout back cavity left side end wall and the main body left end face
It is connected and is equipped with the first communication port, is connected between end wall and the main body left end face on the left of the stirring conveyor chamber and is equipped with
Second communication port, described second screws to be connected between block left hand end wall and screws block or so equipped with third connecting mouth, the described 4th
It is connected between end wall equipped with the 4th communication port, described first screws and is connected between block left hand end wall equipped with the 5th communication port,
The third, which screws, to be connected equipped with the 6th communication port, the third connecting mouth and second communication port between block left hand end wall
Between be connected equipped with first connection hose, be connected between first communication port and the 4th communication port equipped with second connect
Hose is connect, is connected between the 5th communication port and the 6th communication port and connects hose equipped with third.
The beneficial effects of the present invention are: rotation described second screws block and described first and screws block, described first is answered in advance
Solenoid screws, and keeps first prestressed pipe exceptionally straight in the first segment beam pipeline, and rotation the described 4th screws block and institute
It states third and screws block, second prestressed pipe is screwed, make second prestressed pipe in the second section beam pipeline
It is exceptionally straight, ice cube is poured into the ice cube entrance, water is poured into the tap water inlets, proportioned concrete powder is fallen
Enter in the concrete powder entrance, the first motor starting drives the first rotation axis rotation, first rotation axis
Rotation successively drives second spur gear, the third spur gear, the third rotation axis and cutting blade rotation, institute
It states cutting blade rotation and ice cubes, rubble ice and water is mixed into mixture of ice and water in the tap water inlets, described the
For the rotation of one rotation axis by driving the 7th bevel gear to rotate after transmission, the 7th bevel gear rotation successively drives described the
Two bevel gears, the third hand tap gear, the 4th bevel gear, the first bevel gear and the 6th rotation axis rotation, institute
It states the second electric motor starting and successively drives the 11st rotation axis, the 8th bevel gear, the 6th bevel gear and described
The rotation of nine rotation axis, the 9th rotation axis rotation successively drive the 5th bevel gear, the first bevel gear and described the
The superfluous power of the rotation of six rotation axis, second motor and the first motor, which combines, drives the 6th rotation axis
Rotation, the 6th rotation axis rotation drive the grinding turntable rotation, and the grinding turntable rotates the concrete powder that will be poured into
End grinding is sent into the tap water inlets after breaing up, and concrete powder mixes in tap water inlets with mixture of ice and water, institute
It states the rotation of the first rotation axis and drives the first agitating roller rotation, concrete is stirred, the 11st rotation axis drives
The second agitating roller rotation, after concrete grout is further sufficiently stirred second agitating roller, second spiral
Concrete grout is sent into the first segment beam pipeline by conveying lever rotation through the first connection hose, then passes through the third
It connects hose to be sent into the second section beam pipeline, is sent into the concrete grout finally by the second connection hose and flows back
In chamber, the concrete to flow back in the concrete grout back cavity is sent into the tap water by the first spiral conveyor rod rotation
In entrance, the concrete of reflux is sent into the first segment beam pipeline after second agitating roller stirring again, by not
Disconnected circulation is passed through concrete grout, closely knit by filling in the second section beam pipeline and the first segment beam pipeline, and by institute
The air stated in first segment beam pipeline and the second section beam pipeline is sufficiently discharged.
Device structure of the invention is simple, easy to operate, drives cutting blade, first simultaneously by using a power source
Agitating roller and the rotation of the first spiral conveyor rod drive the second agitating roller and the second spiral conveyor rod to turn simultaneously using another power source
It is dynamic, while the excess power of two power sources is by driving grinding turntable rotation after integration superposition, by constantly grinding, stir and
Conveying, cement slurry become dense, can be substantially filled in beam sections pipeline, do not remain an air, obtain prestress pipe
To the installation of high quality, the quality and aesthetics of prestress pipe installation are improved, is cooperated between each process and not
It influences, improves device practical performance.
Detailed description of the invention
The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.
Fig. 1 is a kind of schematic diagram of internal structure of beam sections prestress pipe constructing device of the present invention;
Fig. 2 is the partial enlargement diagram of part A in Fig. 1;
Fig. 3 is the cross-sectional view in the direction B-B in Fig. 1.
Specific embodiment
As shown in Figure 1-Figure 3, a kind of beam sections prestress pipe constructing device of the invention, including main body 10 and segment
Beam 77 is installed with the first power cavity 11 in the main body 10, the main body 10 positioned at 11 right side of the first power cavity
The ice cube entrance 55, tap water inlets 51 and concrete powder entrance 46 for extending downwardly setting are offered in top end surface, it is described
Tap water inlets 51 are located at 55 right side of ice cube entrance, and it is right that the concrete powder entrance 46 is located at the tap water inlets 51
Side is connected equipped with the first connection between the 55 bottom extending end of ice cube entrance and the 51 left side end wall of tap water inlets
Pipe 52 is connected between the 46 bottom extending end of concrete powder entrance and the 51 right side end wall of tap water inlets and is equipped with
Second communicating pipe 47, coagulation extended to the right was installed in the main body 10 of 11 lower section of the first power cavity
Soil paste back cavity 17 is installed with extended to the right in the main body 10 of 17 lower section of the concrete grout back cavity
Conveyor chamber 21 is stirred, the 21 right side extending end of stirring conveyor chamber is connected with the 51 bottom extending end of tap water inlets
Logical, the 17 right side extending end of concrete grout back cavity is connected with the 51 right side end wall of tap water inlets, is located at described
It is installed with power integration chamber 42 in the main body 10 of 46 lower section of concrete powder entrance, is located under the power integration chamber 42
It is installed with the second power cavity 39 in the main body 10 of side, between the tap water inlets 51 and the power integration chamber 42
It is installed with gear transmission cavity 43 in the main body 10, is installed with first motor 13 on the 11 left side end wall of the first power cavity,
It is rotatably assorted in wall between first power cavity 11 and the tap water inlets 51 and is connected with left and right is extended first
Rotation axis 53, the 53 left side extending end of the first rotation axis protrude into first power cavity 11 and with the first motor 13
Right end face power is cooperatively connected, and the 53 right side extending end of the first rotation axis protrudes into the tap water inlets 51 and circumferential
It is installed with the first agitating roller 50, is rotatably assorted and is connected in the wall between the tap water inlets 51 and the gear transmission cavity 43
The second extended rotation axis 49 of left and right, the 49 left side extending end of the second rotation axis protrude into the tap water inlets 51
And be cooperatively connected with the 50 right end face power of the first agitating roller, the 49 right side extending end of the second rotation axis protrudes into described
It is rotatably assorted in gear transmission cavity 43 and with the 43 right side end wall of gear transmission cavity and connect, be located in the gear transmission cavity 43
Second rotation axis 49 on be circumferentially installed with the first spur gear 48, described first turn in first power cavity 11
The second spur gear 12 is circumferentially installed on moving axis 53, rotation in the wall between first power cavity 11 and the ice cube entrance 55
It is connected with the extended third rotation axis 56 in left and right, the 56 left side extending end of third rotation axis protrudes into described first
It is rotatably assorted in power cavity 11 and with the 11 left side end wall of the first power cavity and connect, extend end on the right side of the third rotation axis 56
End, which is protruded into the ice cube entrance 55 and is rotatably assorted with the 55 right side end wall of ice cube entrance, to be connect, and the ice cube entrance is located at
It is circumferentially installed with cutting blade 54 in the third rotation axis 56 in 55, the third in first power cavity 11
Third spur gear 57 is circumferentially installed in rotation axis 56, second spur gear 12 engages cooperation with the third spur gear 57 and connects
It connects, is also rotatably assorted in the wall between the tap water inlets 51 and the gear transmission cavity 43 and is connected with what left and right was extended
4th rotation axis 16, the 4th rotation axis 16 are located at 49 lower section of the second rotation axis, and the 4th rotation axis 16 is prolonged to the left
It stretches end and protrudes into the concrete grout back cavity 17 and be rotatably assorted with 17 left end face of concrete grout back cavity and connect,
Extending end protrudes into the gear transmission cavity 43 and is circumferentially installed with the 4th spur gear 41, institute to 4th rotation axis 16 to the right
State the 4th spur gear 41 and engage mating connection with first spur gear 48, in the concrete grout back cavity 17 described in
The first spiral conveyor rod 15, the company of being rotatably assorted on the 21 left side end wall of stirring conveyor chamber are circumferentially installed in 4th rotation axis 16
It is connected to the 5th extended to the right rotation axis 20, extending end protrudes into the tap water inlets to the 5th rotation axis 20 to the right
In 51 and it circumferentially is installed with the second agitating roller 40, the second spiral conveyor rod 19, institute are circumferentially installed in the 5th rotation axis 20
It states to be rotatably assorted in the wall between concrete powder entrance 46 and the power integration chamber 42 and is connected with up and down extended the
Six rotation axis 59, the 6th rotation axis 59 upwardly extend end and protrude into the concrete powder entrance 46 and be circumferentially installed with
Turntable 45 is ground, the 6th rotation axis 59 extends downwardly end and protrudes into the power integration chamber 42 and be circumferentially installed with first
Bevel gear 75 is rotatably assorted in the 6th rotation axis 59 in the power integration chamber 42 and is connected with second bevel gear
58, the first bevel gear bracket 60 and second bevel gear branch of symmetrical setting are installed on 58 bottom end face of second bevel gear
Frame 74 is rotatably assorted on the first bevel gear bracket 60 and is connected with the 7th extended rotation axis 64 of one end, and the described 7th
Third hand tap gear 63 is circumferentially installed on 64 extending end of rotation axis, the third hand tap gear 63 is nibbled with the first bevel gear 75
It closes and is cooperatively connected, be rotatably assorted on the second bevel gear bracket 74 and be connected with the extended eight revolution moving axis 72 in one end, institute
It states and is circumferentially installed with the 4th bevel gear 73 on 72 extending end of eight revolution moving axis, the 4th bevel gear 73 and the first cone tooth
75 engagement of wheel is cooperatively connected, and is rotatably assorted between the power integration chamber 42 and second power cavity 39 and is connected with extension up and down
The 9th rotation axis 65 being arranged, the 65 top extending end of the 9th rotation axis, which is protruded into the power integration chamber 42 and rotated, matches
Conjunction is connected with the 5th bevel gear 71, and the 5th bevel gear 71 engages mating connection with the third hand tap gear 63, and the described 5th
Bevel gear 71 engages mating connection with the 4th bevel gear 73, and the 65 bottom extending end of the 9th rotation axis protrudes into described
It is installed in two power cavities 39 and circumferentially the 6th bevel gear 67, between the power integration chamber 42 and the gear transmission cavity 43
It is rotatably assorted in wall and is connected with the tenth extended rotation axis 62 of left and right, the 62 left side extending end of the tenth rotation axis and institute
16 right side extending end power of the 4th rotation axis is stated to be cooperatively connected, it is circumferential fixed on the 62 right side extending end of the tenth rotation axis
There is the 7th bevel gear 61, the 7th bevel gear 61 engages mating connection, the tap water inlets with the second bevel gear 58
It is rotatably assorted in wall between 51 and second power cavity 39 and is connected with the 11st extended rotation axis 66 of left and right, it is described
11st rotation axis, 66 left side extending end protrudes into the tap water inlets 51 and cooperates with 40 power of the second agitating roller
Connection, the 66 right side extending end of the 11st rotation axis protrude into second power cavity 39, and second power cavity 39 is right
The second motor 69, the 66 right side extending end of the 11st rotation axis and 69 left-hand end of the second motor are installed on the wall of side
Wall power is cooperatively connected, and the 8th cone tooth is circumferentially installed in the 11st rotation axis 66 in second power cavity 39
Wheel 68, the 8th bevel gear 68 engages mating connection with the 6th bevel gear 67.
Valuably, it connects between 77 left hand end wall of beam sections equipped with first segment beam pipeline 29 and second section beam
Pipeline 30, the second section beam pipeline 30 are located at 29 lower section of first segment beam pipeline, the first segment beam pipeline 29
Interior to be equipped with the first extended prestressed pipe 27 of left and right, being equipped with that left and right is extended in the second section beam pipeline 30 the
Two prestressed pipes 28, being rotatably assorted in 29 right end of first segment beam pipeline is connected with first and screws block 37, and described
One prestressed pipe, 27 right side extending end, which passes through described first and screws block 37 and screw block 37 with described first and be threadedly engaged, to be connect,
It is rotatably assorted in 29 left distal end of first segment beam pipeline and is connected with second and screws block 23, first prestressed pipe 27 is left
Side extending end, which passes through described second and screws block 23 and screw block 23 with described second and be threadedly engaged, to be connect, the second section beam
It is rotatably assorted in 30 right end of pipeline and is connected with third and screws block 33, the 28 right side extending end of the second prestressed pipe passes through
The third screws block 33 and screws block 33 with the third and be threadedly engaged and connect, 30 left distal end of second section beam pipeline
It is inside rotatably assorted and is connected with the 4th and screws block 25, the 28 left side extending end of the second prestressed pipe passes through the described 4th and screws block
25 and block 25 is screwed with the described 4th be threadedly engaged and connect.
Valuably, it is connected between the 17 left side end wall of concrete grout back cavity and 10 left end face of main body and sets
There is the first communication port 14, is connected between the 21 left side end wall of stirring conveyor chamber and 10 left end face of main body equipped with
Two communication ports 18, described second screws to be connected between 23 left hand end wall of block and screws block equipped with third connecting mouth 76, the described 4th
It is connected between 25 left hand end walls equipped with the 4th communication port 26, described first screws and be connected between 37 left hand end wall of block equipped with
Five communication ports 35, the third, which screws, to be connected equipped with the 6th communication port 31, the third connecting mouth between 33 left hand end wall of block
It is connected between 76 and second communication port 18 equipped with the first connection hose 22, first communication port 14 connects with the described 4th
It is connected between port 26 equipped with the second connection hose 24, is connected between the 5th communication port 35 and the 6th communication port 31
The logical third that is equipped with connects hose 34.
When equipment of the invention is in original state, the first motor 13 and second motor 69 do not start, institute
State cutting blade 54, first agitating roller 50, the grinding turntable 45, first spiral conveyor rod 15, second spiral shell
Rotation conveying lever 19 and second agitating roller 40 do not rotate.
When being worked with equipment of the invention, rotation described second screws block 23 and described first and screws block 37, will be described
First prestressed pipe 27 screws, and keeps first prestressed pipe 27 exceptionally straight in the first segment beam pipeline 29, described in rotation
4th screws block 25 and the third screws block 33, and second prestressed pipe 28 is screwed, second prestressed pipe 28 is made
It is exceptionally straight in the second section beam pipeline 30, ice cube is poured into the ice cube entrance 55, water is poured into the tap water and is entered
In mouth 51, proportioned concrete powder is poured into the concrete powder entrance 46, the starting of first motor 13 drives
First rotation axis 53 rotates, and the rotation of the first rotation axis 53 successively drives second spur gear 12, the third straight
Gear 57, the third rotation axis 56 and the cutting blade 54 rotate, and the cutting blade 54 is rotated ice cubes, trash ice
Block and water are mixed into mixture of ice and water in the tap water inlets 51, and the rotation of the first rotation axis 53 after transmission by driving
7th bevel gear 61 rotation, the 7th bevel gear 61 rotation successively drive the second bevel gear 58, third cone
Gear 63, the 4th bevel gear 73, the first bevel gear 75 and the 6th rotation axis 59 rotation, second motor 69
Starting successively drives the 11st rotation axis 66, the 8th bevel gear 68, the 6th bevel gear 67 and 9th turn described
Moving axis 65 rotates, and the 9th rotation axis 65 rotation successively drives the 5th bevel gear 71, the first bevel gear 75 and institute
It states the 6th rotation axis 59 to rotate, the superfluous power of second motor 69 and the first motor 13 combines described in drive
The rotation of 6th rotation axis 59, the 6th rotation axis 59 rotation drive the grinding turntable 45 to rotate, and described 45 turns of grinding turntable
The dynamic concrete powder grinding that will be poured into is sent into the tap water inlets 51 after breaing up, and concrete powder is in tap water inlets 51
Mixture of ice and water mixing is neutralized, the rotation of the first rotation axis 53 drives first agitating roller 50 to rotate, concrete is carried out
Stirring, the 11st rotation axis 66 drive second agitating roller 40 to rotate, second agitating roller 40 by concrete grout into
After row is further sufficiently stirred, concrete grout is sent by the rotation of the second spiral conveyor rod 19 through the first connection hose 22
In the first segment beam pipeline 29, then hose 34 is connected by the third and is sent into the second section beam pipeline 30, most
It is sent into the concrete grout back cavity 17 by the second connection hose 24 afterwards, first spiral conveyor rod 15 rotates,
The concrete to flow back in the concrete grout back cavity 17 is sent into the tap water inlets 51, the concrete of reflux passes through again
Second agitating roller 40 is sent into the first segment beam pipeline 29 after stirring, and is passed through concrete grout by constantly recycling, will
Filled in the second section beam pipeline 30 and the first segment beam pipeline 29 it is closely knit, and by the first segment beam pipeline 29
It is sufficiently discharged with the air in the second section beam pipeline 30.
The beneficial effects of the present invention are: rotation described second screws block and described first and screws block, described first is answered in advance
Solenoid screws, and keeps first prestressed pipe exceptionally straight in the first segment beam pipeline, and rotation the described 4th screws block and institute
It states third and screws block, second prestressed pipe is screwed, make second prestressed pipe in the second section beam pipeline
It is exceptionally straight, ice cube is poured into the ice cube entrance, water is poured into the tap water inlets, proportioned concrete powder is fallen
Enter in the concrete powder entrance, the first motor starting drives the first rotation axis rotation, first rotation axis
Rotation successively drives second spur gear, the third spur gear, the third rotation axis and cutting blade rotation, institute
It states cutting blade rotation and ice cubes, rubble ice and water is mixed into mixture of ice and water in the tap water inlets, described the
For the rotation of one rotation axis by driving the 7th bevel gear to rotate after transmission, the 7th bevel gear rotation successively drives described the
Two bevel gears, the third hand tap gear, the 4th bevel gear, the first bevel gear and the 6th rotation axis rotation, institute
It states the second electric motor starting and successively drives the 11st rotation axis, the 8th bevel gear, the 6th bevel gear and described
The rotation of nine rotation axis, the 9th rotation axis rotation successively drive the 5th bevel gear, the first bevel gear and described the
The superfluous power of the rotation of six rotation axis, second motor and the first motor, which combines, drives the 6th rotation axis
Rotation, the 6th rotation axis rotation drive the grinding turntable rotation, and the grinding turntable rotates the concrete powder that will be poured into
End grinding is sent into the tap water inlets after breaing up, and concrete powder mixes in tap water inlets with mixture of ice and water, institute
It states the rotation of the first rotation axis and drives the first agitating roller rotation, concrete is stirred, the 11st rotation axis drives
The second agitating roller rotation, after concrete grout is further sufficiently stirred second agitating roller, second spiral
Concrete grout is sent into the first segment beam pipeline by conveying lever rotation through the first connection hose, then passes through the third
It connects hose to be sent into the second section beam pipeline, is sent into the concrete grout finally by the second connection hose and flows back
In chamber, the concrete to flow back in the concrete grout back cavity is sent into the tap water by the first spiral conveyor rod rotation
In entrance, the concrete of reflux is sent into the first segment beam pipeline after second agitating roller stirring again, by not
Disconnected circulation is passed through concrete grout, closely knit by filling in the second section beam pipeline and the first segment beam pipeline, and by institute
The air stated in first segment beam pipeline and the second section beam pipeline is sufficiently discharged.
Device structure of the invention is simple, easy to operate, drives cutting blade, first simultaneously by using a power source
Agitating roller and the rotation of the first spiral conveyor rod drive the second agitating roller and the second spiral conveyor rod to turn simultaneously using another power source
It is dynamic, while the excess power of two power sources is by driving grinding turntable rotation after integration superposition, by constantly grinding, stir and
Conveying, cement slurry become dense, can be substantially filled in beam sections pipeline, do not remain an air, obtain prestress pipe
To the installation of high quality, the quality and aesthetics of prestress pipe installation are improved, is cooperated between each process and not
It influences, improves device practical performance.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention
Protection scope should be determined by the scope of protection defined in the claims.
Claims (3)
1. a kind of beam sections prestress pipe constructing device of the invention, including main body and beam sections, it is characterised in that: described
It is installed with the first power cavity in main body, is opened up in the main body top end surface on the right side of first power cavity oriented
Extended ice cube entrance, tap water inlets and concrete powder entrance, the tap water inlets are located at the ice cube and enter down
On the right side of mouthful, the concrete powder entrance is located on the right side of the tap water inlets, the ice cube entry bottom extending end and institute
State and be connected on the left of tap water inlets between end wall equipped with the first communicating pipe, the concrete powder entry bottom extending end with
The master being connected between end wall equipped with the second communicating pipe, below first power cavity on the right side of the tap water inlets
Concrete grout back cavity extended to the right, the host below the concrete grout back cavity are installed in body
It is installed with stirring conveyor chamber extended to the right in vivo, extending end and the tap water inlets on the right side of the stirring conveyor chamber
Bottom extending end is connected, and extending end is connected with end wall on the right side of the tap water inlets on the right side of the concrete grout back cavity
It is logical, it is installed with power integration chamber in the main body below the concrete powder entrance, is located at the power integration
The second power cavity is installed in the main body below chamber, it is described between the tap water inlets and the power integration chamber
It is installed with gear transmission cavity in main body, is installed with first motor, first power on end wall on the left of first power cavity
It is rotatably assorted in wall between chamber and the tap water inlets and is connected with the first extended rotation axis of left and right, described first turn
Extending end is protruded into first power cavity and is cooperatively connected with the first motor right end face power on the left of moving axis, described
Extending end protrudes into the tap water inlets and is circumferentially installed with the first agitating roller on the right side of first rotation axis, and the tap water enters
It is rotatably assorted in wall between mouth and the gear transmission cavity and is connected with the second extended rotation axis of left and right, described second turn
Extending end is protruded into the tap water inlets and is cooperatively connected with the first agitating roller right end face power on the left of moving axis, institute
Extending end on the right side of the second rotation axis is stated to protrude into the gear transmission cavity and match with end wall rotation on the right side of the gear transmission cavity
Connection is closed, is circumferentially installed with the first spur gear in second rotation axis in the gear transmission cavity, is located at described the
The second spur gear, first power cavity and the ice cube entrance are circumferentially installed in first rotation axis in one power cavity
Between wall in be rotatably assorted and be connected with the extended third rotation axis in left and right, extending end is stretched on the left of the third rotation axis
Enter in first power cavity and be rotatably assorted with end wall on the left of first power cavity to connect, prolong on the right side of the third rotation axis
It stretches end and protrudes into the ice cube entrance and be rotatably assorted with end wall on the right side of the ice cube entrance and connect, positioned at the ice cube entrance
In the third rotation axis on be circumferentially installed with cutting blade, in the third rotation axis in first power cavity
It circumferentially is installed with third spur gear, second spur gear engages mating connection with the third spur gear, and the tap water enters
It is also rotatably assorted in wall between mouth and the gear transmission cavity and is connected with the 4th extended rotation axis of left and right, the described 4th
Rotation axis is located at below second rotation axis, and extending end protrudes into the concrete grout back cavity to the 4th rotation axis to the left
In and be rotatably assorted and connect with the concrete grout back cavity left end face, extending end protrudes into institute to the 4th rotation axis to the right
It states in gear transmission cavity and is circumferentially installed with the 4th spur gear, the 4th spur gear, which engages to cooperate with first spur gear, to be connected
It connects, is circumferentially installed with the first spiral conveyor rod in the 4th rotation axis in the concrete grout back cavity, it is described to stir
It mixes to be rotatably assorted on end wall on the left of conveyor chamber and is connected with the 5th extended to the right rotation axis, the 5th rotation axis is prolonged to the right
It stretches end to protrude into the tap water inlets and be circumferentially installed with the second agitating roller, is circumferentially installed in the 5th rotation axis
Two spiral conveyor rods, being rotatably assorted in the wall between the concrete powder entrance and the power integration chamber, it is downward to be connected with
The 6th rotation axis of setting is stretched, the 6th rotation axis upwardly extends end and protrudes into the concrete powder entrance and circumferentially consolidate
Equipped with grinding turntable, the 6th rotation axis extends downwardly end and protrudes into the power integration chamber and be circumferentially installed with the first cone
Gear is rotatably assorted in the 6th rotation axis in the power integration chamber and is connected with second bevel gear, and described second
The first bevel gear bracket and second bevel gear bracket of symmetrical setting, the first cone tooth are installed on bevel gear bottom end face
It is rotatably assorted on wheel support and is connected with the 7th extended rotation axis of one end, it is circumferentially solid on the 7th rotation axis extending end
Equipped with third hand tap gear, the third hand tap gear engages mating connection, the second bevel gear bracket with the first bevel gear
On be rotatably assorted and be connected with the extended eight revolution moving axis in one end, the is circumferentially installed on the eight revolution moving axis extending end
Four bevel gears, the 4th bevel gear engage mating connection, the power integration chamber and described second with the first bevel gear
It is rotatably assorted between power cavity and is connected with the 9th extended up and down rotation axis, extending end is stretched at the top of the 9th rotation axis
Enter in the power integration chamber and be rotatably assorted and be connected with the 5th bevel gear, the 5th bevel gear nibbles with the third hand tap gear
It closes and is cooperatively connected, the 5th bevel gear engages mating connection with the 4th bevel gear, and the 9th rotation axis bottom extends
Protrude into second power cavity and be circumferentially installed with the 6th bevel gear, the power integration chamber and the gear transmission cavity in end
Between wall in be rotatably assorted and be connected with the tenth extended rotation axis of left and right, on the left of the tenth rotation axis extending end with
Extending end power is cooperatively connected on the right side of 4th rotation axis, is circumferentially installed on extending end on the right side of the tenth rotation axis
7th bevel gear, the 7th bevel gear engage mating connection with the second bevel gear, the tap water inlets and described the
It is rotatably assorted in wall between two power cavities and is connected with the 11st extended rotation axis of left and right, the 11st rotation axis is left
Side extending end is protruded into the tap water inlets and is cooperatively connected with the second agitating roller power, the 11st rotation axis
Right side extending end protrudes into second power cavity, is installed with the second motor on end wall on the right side of second power cavity, described
Extending end and second motor left side end wall power are cooperatively connected on the right side of 11st rotation axis, are located at second power cavity
In the 11st rotation axis on be circumferentially installed with the 8th bevel gear, the 8th bevel gear engages with the 6th bevel gear
It is cooperatively connected.
2. a kind of beam sections prestress pipe constructing device according to claim 1, it is characterised in that: the beam sections are left
It is connected between right end wall equipped with first segment beam pipeline and second section beam pipeline, the second section beam pipeline is located at described
It is equipped with the first extended prestressed pipe of left and right below first segment beam pipeline, in the first segment beam pipeline, described the
The second extended prestressed pipe of left and right, rotation in the first segment beam pipeline right end are equipped in two beam sections pipelines
It is connected with first and screws block, extending end passes through described first and screws block and with described the on the right side of first prestressed pipe
One, which screws block, is threadedly engaged connection, and being rotatably assorted in the first segment beam pipeline left distal end is connected with second and screws block, institute
It states extending end on the left of the first prestressed pipe and passes through described second and screw block and screw block with described second and be threadedly engaged and connect, institute
It states to be rotatably assorted in second section beam pipeline right end and is connected with third and screws block, extend end on the right side of second prestressed pipe
End screws block across the third and screws block with the third and be threadedly engaged and connect, the second section beam pipeline left distal end
Inside be rotatably assorted and be connected with the 4th and screw block, on the left of second prestressed pipe extending end pass through the described 4th screw block and with
Described 4th, which screws block, is threadedly engaged connection.
3. a kind of beam sections prestress pipe constructing device according to claim 1, it is characterised in that: the concrete grout
It is connected between end wall and the main body left end face on the left of back cavity equipped with the first communication port, the stirring conveyor chamber left side
It is connected between end wall and the main body left end face and screws phase between block left hand end wall equipped with the second communication port, described second
Connection is equipped with third connecting mouth, and the described 4th screws and be connected between block left hand end wall equipped with the 4th communication port, first rotation
It is connected between tight block left hand end wall equipped with the 5th communication port, the third, which screws, to be connected between block left hand end wall equipped with the 6th
Communication port is connected equipped with the first connection hose, first connection between the third connecting mouth and second communication port
Mouthful be connected between the 4th communication port equipped with the second connection hose, the 5th communication port and the 6th communication port it
Between be connected equipped with third connect hose.
Priority Applications (1)
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CN201811301798.8A CN109403211A (en) | 2018-11-02 | 2018-11-02 | A kind of beam sections prestress pipe constructing device |
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CN201811301798.8A CN109403211A (en) | 2018-11-02 | 2018-11-02 | A kind of beam sections prestress pipe constructing device |
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CN201811301798.8A Withdrawn CN109403211A (en) | 2018-11-02 | 2018-11-02 | A kind of beam sections prestress pipe constructing device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110130827A (en) * | 2019-06-03 | 2019-08-16 | 杭州桥遇文化传播有限公司 | A kind of dendrobium officinale health wine production cellar |
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2018
- 2018-11-02 CN CN201811301798.8A patent/CN109403211A/en not_active Withdrawn
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110130827A (en) * | 2019-06-03 | 2019-08-16 | 杭州桥遇文化传播有限公司 | A kind of dendrobium officinale health wine production cellar |
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