CN207290473U - Open tubular column preform molding machines - Google Patents
Open tubular column preform molding machines Download PDFInfo
- Publication number
- CN207290473U CN207290473U CN201721308176.9U CN201721308176U CN207290473U CN 207290473 U CN207290473 U CN 207290473U CN 201721308176 U CN201721308176 U CN 201721308176U CN 207290473 U CN207290473 U CN 207290473U
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- CN
- China
- Prior art keywords
- rotation axis
- tubular column
- bevel gear
- open tubular
- frame
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
The utility model provides a kind of open tubular column preform molding machines, belong to construction engineering technical field, its structure includes speed regulating motor and retarder, speed regulating motor drives retarder, retarder drives line shaft, equi-spaced apart is fixedly installed the first drive bevel gear on line shaft, second drive bevel gear, 3rd drive bevel gear, 4th drive bevel gear, line shaft is horizontal to be erected on horizontal frame, the first rotation axis longitudinally set up is respectively arranged with the longitudinal direction on horizontal frame, second rotation axis, 3rd rotation axis, 4th rotation axis, speed regulating motor and retarder synchronously drive the first rotation axis by line shaft, second rotation axis, 3rd rotation axis, 4th rotation axis synchronously rotates in same direction.During construction usage, coagulation in open tubular column prefabricated component template cylinder due to centrifugal force acts on and away from axis, be uniformly distributed on open tubular column prefabricated component template cylinder inner wall, and the moisture in concrete is extruded, make concrete compaction.
Description
Technical field
Construction engineering technical field is the utility model is related to, specifically a kind of open tubular column preform molding machines.
Background technology
Generally, open tubular column prefabricated component is to use built-in template cylinder or built-in formwork column mostly, coagulation is carried out in its periphery
Filling up, being molded for soil, cures, conserves.This mode is long in time limit, and processing and fabricating quality is unstable.Also there is centrifugation under the prior art
The operated implement of the open tubular column prefabricated component of formula, it is simply equipped, and structure is lack of standardization nonstandard, and working condition is unstable, it is impossible to adds
Work goes out the open tubular column prefabricated component of stabilised quality.
The content of the invention
The technical assignment of the utility model is to solve the deficiencies in the prior art, there is provided a kind of open tubular column preform molding machines.
The technical solution of the utility model realizes in the following manner, the open tubular column preform molding machines, its structure bag
Speed regulating motor and retarder are included,
Speed regulating motor drives retarder, and retarder driving line shaft, equi-spaced apart is fixedly installed first on line shaft
Drive bevel gear, the second drive bevel gear, the 3rd drive bevel gear, the 4th drive bevel gear,
Line shaft is horizontal to be erected on horizontal frame,
The first rotation axis longitudinally set up, the second rotation axis, the 3rd are respectively arranged with the longitudinal direction on horizontal frame
Rotation axis, the 4th rotation axis,
First rotation axis, the second rotation axis, the 3rd rotation axis, the 4th rotation axis are parallel to each other and equi-spaced apart is set,
First rotation axis, the second rotation axis, the 3rd rotation axis, the nearly power end of the 4th rotation axis are pierced by horizontal frame respectively
Laterally near power frame, be pierced by between portion and laterally nearly power frame and be configured with axle sleeve or bearing;
The traversing through end of first rotation axis has been fixedly and coaxially connected the first driven wheel of differential, the first drive bevel gear with first from
Dynamic bevel gear engages;
The traversing through end of second rotation axis has been fixedly and coaxially connected the second driven wheel of differential, the second drive bevel gear with second from
Dynamic bevel gear engages;
The traversing through end of 3rd rotation axis has been fixedly and coaxially connected the 3rd driven wheel of differential, the 3rd drive bevel gear and the 3rd from
Dynamic bevel gear engages;
The traversing through end of 4th rotation axis has been fixedly and coaxially connected the 4th driven wheel of differential, the 4th drive bevel gear with the 4th from
Dynamic bevel gear engages;
Speed regulating motor and retarder pass through line shaft synchronously the first rotation axis of driving, the second rotation axis, the 3rd rotation axis, the
Four rotation axis synchronously rotate in same direction;
First rotation axis, the second rotation axis, the 3rd rotation axis, the remote power end of the 4th rotation axis respectively penetrate horizontal frame
Horizontal telemechanical power frame, and be configured with axle sleeve or bearing between horizontal telemechanical power frame;
First rotation axis, the second rotation axis, the 3rd rotation axis, the 4th rotation axis axle body on be both provided with coaxial axle body
Roller;
Between the first rotation axis and the second rotation axis, between the second rotation axis and the 3rd rotation axis, the 3rd rotation axis and
Nearly power end fixed frame is both provided with nearly power frame between 4th rotation axis, near-end limit is provided with nearly power end fixed frame
Position disk, near-end position-arresting disk are arranged on the top of nearly power end fixed frame by core shaft;
Between the first rotation axis and the second rotation axis, between the second rotation axis and the 3rd rotation axis, the 3rd rotation axis and
Remote power end fixed frame is both provided with telemechanical power frame between 4th rotation axis, distal end is provided with remote power end fixed frame and is limited
Position disk, distal end position-arresting disk are arranged on the top of remote power end fixed frame by core shaft;
Between first rotation axis and the second rotation axis, between the second rotation axis and the 3rd rotation axis, the 3rd rotation axis and
Equal seat is equipped with the open tubular column prefabricated component template cylinder of longitudinal horizontal between four rotation axis;
Open tubular column prefabricated component template cylinder is arranged between corresponding near-end position-arresting disk and distal end position-arresting disk;
The stack shell of open tubular column prefabricated component template cylinder is seated between adjacent the first rotation axis and the second rotation axis, second turn
Between axle body roller between moving axis and the 3rd rotation axis, between the 3rd rotation axis and the 4th rotation axis.
The wheel week of axle body roller is fixedly installed mute rubber flange.
Near-end position-arresting disk is rotated freely on the top of nearly power end fixed frame by core shaft;Distal end position-arresting disk is in telemechanical
The top of power end fixed frame is rotated freely by core shaft.
Speed regulating motor and retarder are respectively fixedly connected with horizontal frame.
Caused beneficial effect is the utility model compared with prior art:
The open tubular column preform molding machines building engineering construction is in use, the concrete of a certain amount of specific viscosity is inserted
In open tubular column prefabricated component template cylinder, speed regulating motor is started, starts first slow rotation, makes open tubular column prefabricated component template cylinder in horizontal pane
The rotation between centers slow rotation of frame, coagulation in open tubular column prefabricated component template cylinder due to centrifugal force acts on and away from axis, uniformly
It is distributed on open tubular column prefabricated component template cylinder inner wall, and the moisture in concrete is extruded, makes concrete compaction, carried again after closely knit
High rotating speed, increases centrifugal force, compacted concrete, and final concrete forms firm sky on open tubular column prefabricated component template cylinder inner wall
Stem prefabricated component, removes open tubular column prefabricated component template cylinder up to open tubular column prefabricated component, after curing conservation, for construction.
More open tubular column prefabricated component template cylinders can make at the same time on the open tubular column preform molding machines horizontal plane, construction operation
Convenient, field fabrication is simple and reliable.The setting of position-arresting disk can prevent the displacement of open tubular column prefabricated component template cylinder in the axial direction, effectively
Ensure that what is rotated continues, there is provided lasting centrifugal force.The setting of position-arresting disk also effectively prevent what is produced during rotation
The bounce of open tubular column prefabricated component template cylinder.Make the making processing of open tubular column prefabricated component more stable and reliable.
Open tubular column preform molding machines design is reasonable, simple in structure, safe and reliable, easy to use, easy to maintain, has
Good popularizing value.
Brief description of the drawings
Attached drawing 1 is the vertical view layout structure schematic diagram of the utility model;
Attached drawing 2 is the main view partial layout structure diagram of the utility model.
Mark in attached drawing represents respectively:
1st, speed regulating motor, 2, retarder, 3, line shaft,
4th, the first drive bevel gear, the 5, second drive bevel gear, the 6, the 3rd drive bevel gear, the 7, the 4th drive bevel gear,
8th, horizontal frame,
9th, the first rotation axis, the 10, second rotation axis, the 11, the 3rd rotation axis, the 12, the 4th rotation axis,
13rd, nearly power end, 14, horizontal nearly power frame, 15, axle sleeve or bearing,
16th, the first driven wheel of differential, the 17, second driven wheel of differential, the 18, the 3rd driven wheel of differential, the 19, the 4th from mantle tooth
Wheel,
20th, remote power end, 21, horizontal telemechanical power frame,
22nd, axle body roller,
23rd, nearly power end fixed frame, 24, near-end position-arresting disk, 25, core shaft,
26th, remote power end fixed frame, 27, distal end position-arresting disk,
28th, open tubular column prefabricated component template cylinder, 29, mute rubber flange.
Embodiment
The open tubular column preform molding machines of the utility model are described in detail below below in conjunction with the accompanying drawings.
As shown in drawings, the open tubular column preform molding machines of the utility model, its structure include speed regulating motor 1 and retarder
2,
Speed regulating motor 1 drives retarder 2, and retarder 2 drives line shaft 3, and equi-spaced apart is fixedly installed on line shaft 3
First drive bevel gear 4, the second drive bevel gear 5, the 3rd drive bevel gear 6, the 4th drive bevel gear 7,
Line shaft 3 is horizontal to be erected on horizontal frame 8,
In the longitudinal direction on horizontal frame 8 be respectively arranged with the first rotation axis 9 longitudinally set up, the second rotation axis 10,
3rd rotation axis 11, the 4th rotation axis 12,
First rotation axis 9, the second rotation axis 10, the 3rd rotation axis 11, the 4th rotation axis 12 is parallel to each other and equi-spaced apart
Set,
First rotation axis 9, the second rotation axis 10, the 3rd rotation axis 11, the nearly power end 13 of the 4th rotation axis 12 are worn respectively
Go out the laterally near power frame 14 of horizontal frame, be pierced by between portion and laterally nearly power frame and be configured with axle sleeve or bearing 15;
The traversing through end of first rotation axis has been fixedly and coaxially connected the first driven wheel of differential 16, the first drive bevel gear and first
Driven wheel of differential engages;
The traversing through end of second rotation axis has been fixedly and coaxially connected the second driven wheel of differential 17, the second drive bevel gear and second
Driven wheel of differential engages;
The traversing through end of 3rd rotation axis has been fixedly and coaxially connected the 3rd driven wheel of differential 18, the 3rd drive bevel gear and the 3rd
Driven wheel of differential engages;
The traversing through end of 4th rotation axis has been fixedly and coaxially connected the 4th driven wheel of differential 19, the 4th drive bevel gear and the 4th
Driven wheel of differential engages;
Speed regulating motor 1 and retarder 2 by first rotation axis 9 of the synchronous driving of line shaft 3, the second rotation axis 10, the 3rd turn
Moving axis 11, the 4th rotation axis 12 synchronously rotate in same direction;
First rotation axis, the second rotation axis, the 3rd rotation axis, the remote power end 20 of the 4th rotation axis respectively penetrate horizontal pane
The horizontal telemechanical power frame 21 of frame, and it is configured with axle sleeve or bearing between horizontal telemechanical power frame;
First rotation axis, the second rotation axis, the 3rd rotation axis, the 4th rotation axis axle body on be both provided with coaxial axle body
Roller 22;
Between the first rotation axis and the second rotation axis, between the second rotation axis and the 3rd rotation axis, the 3rd rotation axis and
Nearly power end fixed frame 23 is both provided with nearly power frame between 4th rotation axis, near-end is provided with nearly power end fixed frame
Position-arresting disk 24, near-end position-arresting disk are arranged on the top of nearly power end fixed frame by core shaft 25;
Between the first rotation axis and the second rotation axis, between the second rotation axis and the 3rd rotation axis, the 3rd rotation axis and
Remote power end fixed frame 26 is both provided with telemechanical power frame between 4th rotation axis, distal end is provided with remote power end fixed frame
Position-arresting disk 27, distal end position-arresting disk are arranged on the top of remote power end fixed frame by core shaft;
Between first rotation axis and the second rotation axis, between the second rotation axis and the 3rd rotation axis, the 3rd rotation axis and
Equal seat is equipped with the open tubular column prefabricated component template cylinder 28 of longitudinal horizontal between four rotation axis;
Open tubular column prefabricated component template cylinder is arranged between corresponding near-end position-arresting disk and distal end position-arresting disk;
The stack shell of open tubular column prefabricated component template cylinder is seated between adjacent the first rotation axis and the second rotation axis, second turn
Between axle body roller between moving axis and the 3rd rotation axis, between the 3rd rotation axis and the 4th rotation axis.
The wheel week of axle body roller is fixedly installed mute rubber flange 29.
Near-end position-arresting disk is rotated freely on the top of nearly power end fixed frame by core shaft;Distal end position-arresting disk is in telemechanical
The top of power end fixed frame is rotated freely by core shaft.
Speed regulating motor and retarder are respectively fixedly connected with horizontal frame.
In building engineering construction in use, the concrete of a certain amount of specific viscosity is inserted open tubular column prefabricated component template
In cylinder 28, speed regulating motor is started, starts first slow rotation, makes open tubular column prefabricated component template cylinder slow in the rotation between centers of horizontal frame
Speed rotates, and it is pre- to be uniformly distributed in open tubular column due to centrifugal force effect and away from axis for the coagulation in open tubular column prefabricated component template cylinder
On product template cylinder inner wall, and by concrete moisture extrude, make concrete compaction, rotating speed improved again after closely knit, increase from
Mental and physical efforts, compacted concrete, final concrete form firm open tubular column prefabricated component on open tubular column prefabricated component template cylinder inner wall, tear open
Except open tubular column prefabricated component template cylinder is up to open tubular column prefabricated component, after curing conservation, for construction.
Claims (4)
1. open tubular column preform molding machines, it is characterised in that including speed regulating motor and retarder,
Speed regulating motor drives retarder, and retarder driving line shaft, equi-spaced apart is fixedly installed first actively on line shaft
Bevel gear, the second drive bevel gear, the 3rd drive bevel gear, the 4th drive bevel gear,
Line shaft is horizontal to be erected on horizontal frame,
The first rotation axis longitudinally set up, the second rotation axis, the 3rd rotation are respectively arranged with the longitudinal direction on horizontal frame
Axis, the 4th rotation axis,
First rotation axis, the second rotation axis, the 3rd rotation axis, the 4th rotation axis are parallel to each other and equi-spaced apart is set,
First rotation axis, the second rotation axis, the 3rd rotation axis, the nearly power end of the 4th rotation axis are pierced by the horizontal stroke of horizontal frame respectively
To nearly power frame, it is pierced by between portion and laterally nearly power frame and is configured with axle sleeve or bearing;
The traversing through end of first rotation axis has been fixedly and coaxially connected the first driven wheel of differential, and the first drive bevel gear is with first from mantle
Gear engages;
The traversing through end of second rotation axis has been fixedly and coaxially connected the second driven wheel of differential, and the second drive bevel gear is with second from mantle
Gear engages;
The traversing through end of 3rd rotation axis has been fixedly and coaxially connected the 3rd driven wheel of differential, and the 3rd drive bevel gear and the 3rd is from mantle
Gear engages;
The traversing through end of 4th rotation axis has been fixedly and coaxially connected the 4th driven wheel of differential, and the 4th drive bevel gear is with the 4th from mantle
Gear engages;
Speed regulating motor and retarder by line shaft synchronously the first rotation axis of driving, the second rotation axis, the 3rd rotation axis, the 4th turn
Moving axis synchronously rotates in same direction;
First rotation axis, the second rotation axis, the 3rd rotation axis, the remote power end of the 4th rotation axis respectively penetrate the horizontal stroke of horizontal frame
To telemechanical power frame, and axle sleeve or bearing are configured between horizontal telemechanical power frame;
First rotation axis, the second rotation axis, the 3rd rotation axis, the 4th rotation axis axle body on be both provided with coaxial axle body rolling
Wheel;
Between the first rotation axis and the second rotation axis, between the second rotation axis and the 3rd rotation axis, the 3rd rotation axis and the 4th
Nearly power end fixed frame is both provided with nearly power frame between rotation axis, it is spacing to be provided with near-end on nearly power end fixed frame
Disk, near-end position-arresting disk are arranged on the top of nearly power end fixed frame by core shaft;
Between the first rotation axis and the second rotation axis, between the second rotation axis and the 3rd rotation axis, the 3rd rotation axis and the 4th
Remote power end fixed frame is both provided with telemechanical power frame between rotation axis, it is spacing that distal end is provided with remote power end fixed frame
Disk, distal end position-arresting disk are arranged on the top of remote power end fixed frame by core shaft;
Between first rotation axis and the second rotation axis, between the second rotation axis and the 3rd rotation axis, the 3rd rotation axis and the 4th turn
Equal seat is equipped with the open tubular column prefabricated component template cylinder of longitudinal horizontal between moving axis;
Open tubular column prefabricated component template cylinder is arranged between corresponding near-end position-arresting disk and distal end position-arresting disk;
The stack shell of open tubular column prefabricated component template cylinder is seated between adjacent the first rotation axis and the second rotation axis, the second rotation axis
And the 3rd between rotation axis, between the axle body roller between the 3rd rotation axis and the 4th rotation axis.
2. open tubular column preform molding machines according to claim 1, it is characterised in that:The wheel week fixed setting of axle body roller
There is mute rubber flange.
3. open tubular column preform molding machines according to claim 1, it is characterised in that:Near-end position-arresting disk is consolidated in nearly power end
The top for determining frame is rotated freely by core shaft;Distal end position-arresting disk the top of remote power end fixed frame by core shaft from
By rotating.
4. open tubular column preform molding machines according to claim 1, it is characterised in that:Speed regulating motor and retarder are solid respectively
Surely it is connected on horizontal frame.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201721308176.9U CN207290473U (en) | 2017-10-12 | 2017-10-12 | Open tubular column preform molding machines |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201721308176.9U CN207290473U (en) | 2017-10-12 | 2017-10-12 | Open tubular column preform molding machines |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN207290473U true CN207290473U (en) | 2018-05-01 |
Family
ID=62413939
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201721308176.9U Expired - Fee Related CN207290473U (en) | 2017-10-12 | 2017-10-12 | Open tubular column preform molding machines |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN207290473U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111618995A (en) * | 2020-05-22 | 2020-09-04 | 江苏蓝圈新材料股份有限公司 | Anti-crack concrete prefabricated part and demolding equipment and demolding method thereof |
-
2017
- 2017-10-12 CN CN201721308176.9U patent/CN207290473U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111618995A (en) * | 2020-05-22 | 2020-09-04 | 江苏蓝圈新材料股份有限公司 | Anti-crack concrete prefabricated part and demolding equipment and demolding method thereof |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180501 Termination date: 20181012 |