CN106968443B

CN106968443B - Building aluminum formwork conveying device

Info

Publication number: CN106968443B
Application number: CN201710312390.XA
Authority: CN
Inventors: 陆永; 唐继勇; 张庆华; 钱跃荣; 叶朋飞
Original assignee: Jiangsu Jialv Industrial Co ltd
Current assignee: Jiangsu Jialv Industrial Co ltd
Priority date: 2017-05-05
Filing date: 2017-05-05
Publication date: 2022-05-20
Anticipated expiration: 2037-05-05
Also published as: CN106968443A

Abstract

The invention discloses a building aluminum template conveying device which comprises two support groups symmetrically arranged in front and back, wherein each support group comprises a longitudinal support I, a longitudinal support II and a transverse support I, the transverse support II is arranged below the transverse support I, two ends of the transverse support II are respectively connected with a connecting shaft II on the longitudinal support I and the longitudinal support II through guide holes, contact switches are arranged in the guide holes, an upper transmission mechanism is arranged between the upper parts of the right side surfaces of the longitudinal supports I, a lower transmission mechanism is arranged between the lower parts of the right side surfaces of the longitudinal supports I, an upper auxiliary wheel mechanism is arranged between the upper parts of the left side surfaces of the longitudinal supports II, a lower auxiliary wheel mechanism is arranged between the lower parts of the left side surfaces of the longitudinal supports II, and a tightening spring is arranged between the bottom of the right side surface of the longitudinal support I and the bottom of the left side surface of the longitudinal supports II. The transmission device triggers the electromagnetic valve under the action of the tightening spring to stop the alternating current motor after the aluminum template completely passes through the space between the lower transmission mechanism and the lower auxiliary wheel mechanism, and workers on the upper floor can easily take the aluminum template away.

Description

Building aluminum formwork conveying device

Technical Field

The invention relates to a transmission device, in particular to a transmission device for a building aluminum template.

Background

In the construction process of the reinforced concrete commercial and residential building, the templates for limiting walls, beams and roofs increasingly adopt aluminum templates, and when the aluminum templates are transported to an upper floor (through holes reserved in the upper floor) after construction of the floor, the aluminum templates adopt a mode of manually lifting the upper floor by a lower floor to catch and pull the upper floor, and because the weight of a single aluminum template reaches about 26kg, the lifting of the lower floor consumes a large amount of power and consumes time, the construction progress is slow.

Disclosure of Invention

The invention aims to provide a building aluminum template transmission device which is reasonable in structure and convenient to operate, so that the transmission efficiency of aluminum templates among floors is improved.

In order to solve the technical problems, the invention adopts the technical scheme that:

a building aluminum template transmission device comprises an alternating current motor and two bracket groups which are symmetrically arranged front and back, wherein each bracket group comprises a longitudinal bracket I, a longitudinal bracket II and a transverse bracket I, the longitudinal bracket I and the longitudinal bracket II are arranged side by side, the transverse bracket I is horizontally arranged, two ends of the transverse bracket I are respectively connected with a connecting shaft I on the longitudinal bracket I and a connecting shaft I on the longitudinal bracket II through round holes, the transverse bracket II is arranged below the transverse bracket I and is parallel to the transverse bracket I, two ends of the transverse bracket I are respectively connected with the connecting shafts II on the longitudinal bracket I and the longitudinal bracket II through guide holes, contact switches are arranged in the guide holes, an upper transmission mechanism is arranged between the upper parts of the right side surfaces of the longitudinal brackets I, a lower transmission mechanism is arranged between the lower parts of the longitudinal brackets I, the upper transmission mechanism is driven by the alternating current motor which is fixed on the longitudinal bracket I, and the alternating current motor is connected with an electromagnetic valve, the electromagnetic valve is electrically connected with the contact switch, a support I is arranged on the left side face of the longitudinal support I, an upper auxiliary wheel mechanism corresponding to the upper transmission mechanism is arranged between the upper portions of the left side faces of the longitudinal support II, a lower auxiliary wheel mechanism corresponding to the lower transmission mechanism is arranged between the lower portions of the left side faces of the longitudinal support II, a support II is arranged on the right side face of the longitudinal support II, the support II and the support I are symmetrically arranged, and a tightening spring is arranged between the bottom of the right side face of the longitudinal support I and the bottom of the left side face of the longitudinal support II.

Furthermore, the upper transmission mechanism comprises a driving wheel I driven by the alternating current motor, an upper driven wheel I and a lower driven wheel I which are symmetrically arranged up and down, the upper driven wheel I and the lower driven wheel I are meshed with the driving wheel I, and two ends of a main shaft of the driving wheel I, the upper driven wheel I and the lower driven wheel I are fixed on the longitudinal support I through wheel seats; lower drive mechanism includes action wheel II, the last from driving wheel II and lower from driving wheel II that the longitudinal symmetry set up, goes up from driving wheel II and lower from driving wheel II and driving wheel II meshing, is equipped with the belt between action wheel II and the action wheel I, action wheel II, go up from driving wheel II and lower both ends of following the main shaft of driving wheel II pass through the wheel seat to be fixed on vertical support I.

Furthermore, the upper auxiliary wheel mechanism comprises an upper auxiliary wheel I and a lower auxiliary wheel I which are symmetrically arranged up and down, the upper auxiliary wheel I is aligned with the upper driven wheel I, the lower auxiliary wheel I is aligned with the lower driven wheel I, and two ends of a main shaft of the upper auxiliary wheel I and two ends of a main shaft of the lower auxiliary wheel I are fixed on the longitudinal support II through wheel seats; lower auxiliary wheel mechanism includes last auxiliary wheel II and lower auxiliary wheel II that the longitudinal symmetry set up, and goes up auxiliary wheel II and last from the setting of alignment of driving wheel II, and lower auxiliary wheel II aligns the setting with lower from driving wheel II, and the both ends of going up auxiliary wheel II and lower auxiliary wheel II's main shaft are passed through the wheel seat and are fixed on vertical support II.

Furthermore, the distance between the lower driven wheel II and the lower auxiliary wheel II is 5-8mm smaller than the thickness of the aluminum template, and the distance between the upper driven wheel I and the upper driven wheel II is smaller than the height of the aluminum template.

Furthermore, the guide hole is a long waist hole.

The invention has the advantages that: the transmission device is reasonable in structure and convenient to operate, the electromagnetic valve is triggered under the action of the tightening spring to stop the alternating current motor after all the aluminum templates pass through the space between the lower transmission mechanism and the lower auxiliary wheel mechanism, the upper portion of each aluminum template is clamped between the upper transmission mechanism and the upper auxiliary wheel mechanism, workers on the upper floor can take the aluminum templates away easily, time and labor are saved, and the transmission efficiency of the aluminum templates among floors is greatly improved.

Drawings

The invention is described in further detail below with reference to the figures and the detailed description.

Fig. 1 is a schematic structural view of the present invention.

The device comprises an alternating current motor 1, an alternating current motor 2, longitudinal supports I and 21, supports I and 3, longitudinal supports II and 31, supports II and 4, transverse supports I and 41, round holes 5, transverse supports II and 51, guide holes 52, a contact switch 6, upper driven wheels I and 61, upper driven wheels II and 7, lower driven wheels I and 71, lower driven wheels II and 8, upper auxiliary wheels I and 81, upper auxiliary wheels II and 9, lower auxiliary wheels I and 91, lower auxiliary wheels II and 10, driving wheels I and 11, driving wheels II and 12, a belt 13, an electromagnetic valve 14, a connecting shaft I and 15, a connecting shaft II and 16, a tightening spring 17, a wheel seat 18 and an aluminum template.

The specific implementation mode is as follows:

as shown in figure 1, the building aluminum template transmission device comprises an alternating current motor 1 and two bracket groups which are symmetrically arranged front and back, wherein the bracket groups comprise a longitudinal bracket I2, a longitudinal bracket II3 and a transverse bracket I4, the longitudinal bracket I2 and the longitudinal bracket II3 are arranged side by side, the transverse bracket I4 is horizontally arranged, two ends of the transverse bracket I4 are respectively connected with a connecting shaft I14 on the longitudinal bracket I2 and the longitudinal bracket II3 through round holes 41, the transverse bracket II5 is arranged below the transverse bracket I4, the transverse bracket II5 is parallel to the transverse bracket I4, two ends of the transverse bracket II 86are respectively connected with a connecting shaft II15 on the longitudinal bracket I2 and the longitudinal bracket II3 through a guide hole 51, the guide hole 51 is preferably a long waist hole, a contact switch 52 is arranged inside, an upper transmission mechanism is arranged between the upper parts of the right side surfaces of the longitudinal bracket I2, a lower transmission mechanism is arranged between the lower parts, the upper transmission mechanism is driven by the alternating current motor 1, the alternating current motor 1 is fixed on a longitudinal support I2, the alternating current motor 1 is connected with a solenoid valve 13, the solenoid valve 13 is electrically connected with a contact switch 52, a support I21 is arranged on the left side surface of a longitudinal support I2, an upper auxiliary wheel mechanism corresponding to an upper transmission mechanism is arranged between the upper parts of the left side surfaces of longitudinal supports II3, a lower auxiliary wheel mechanism corresponding to a lower transmission mechanism is arranged between the lower parts of the left side surfaces of the longitudinal supports II3, a support II31 is arranged on the right side surface of a longitudinal support II3, the support II31 and the support I21 are symmetrically arranged, the alternating current motor 1 is usually fixed on the part of the longitudinal support I2 positioned on the upper floor due to the large height of each floor, a tightening spring 16 is arranged between the bottom of the right side surface of the longitudinal support I2 and the bottom of the left side surface of the longitudinal support II3, and the tightening spring 16 enables the longitudinal support I2 and the longitudinal support II3 to form a shape with a tightened lower end in an initial state.

In the invention, the upper transmission mechanism comprises a driving wheel I10 driven by an alternating current motor 1, an upper driven wheel I6 and a lower driven wheel I7 which are symmetrically arranged up and down, wherein the upper driven wheel I6 and the lower driven wheel I7 are meshed with the driving wheel I10, and two ends of a main shaft of the driving wheel I10, the upper driven wheel I6 and the lower driven wheel I7 are fixed on a longitudinal support I2 through a wheel seat 17; the lower transmission mechanism comprises a driving wheel II11, an upper driven wheel II61 and a lower driven wheel II71 which are arranged in an up-and-down symmetrical mode, an upper driven wheel II61 and a lower driven wheel II71 are meshed with the driving wheel II11, a belt 12 is arranged between the driving wheel II11 and the driving wheel I10, power is transmitted to the driving wheel II11 through the belt 12, then the upper driven wheel II61 and the lower driven wheel II71 are driven to rotate, the aluminum template 18 is upwards transmitted together with the lower auxiliary wheel mechanism, and two ends of a main shaft of the driving wheel II11, the upper driven wheel II61 and the lower driven wheel II71 are fixed on the longitudinal support I2 through a wheel seat 17.

The upper auxiliary wheel mechanism comprises an upper auxiliary wheel I8 and a lower auxiliary wheel I9 which are arranged in an up-down symmetrical mode, the upper auxiliary wheel I8 is arranged in an aligned mode with the upper driven wheel I6, the lower auxiliary wheel I9 is arranged in an aligned mode with the lower driven wheel I7, and two ends of a main shaft of the upper auxiliary wheel I8 and two ends of a main shaft of the lower auxiliary wheel I9 are fixed on the longitudinal support II3 through wheel seats 17; the lower auxiliary wheel mechanism comprises an upper auxiliary wheel II81 and a lower auxiliary wheel II91 which are arranged in an up-down symmetrical mode, the upper auxiliary wheel II81 is arranged in an aligned mode with the upper driven wheel II61, the lower auxiliary wheel II91 is arranged in an aligned mode with the lower driven wheel II71, two ends of a main shaft of the upper auxiliary wheel II81 and two ends of a main shaft of the lower auxiliary wheel II91 are fixed on the longitudinal support II3 through wheel seats 17, and stability of the aluminum template 18 in the upward conveying process is guaranteed.

When the aluminum template is used, the aluminum template positioning device is positioned on the edge of a hole reserved in an upper floor through the support I21 and the support II31, and the positioning performance of the support I21 and the support II31 is not affected basically because the distance between the lower driven wheel II71 and the lower auxiliary wheel II91 is only 5-8mm smaller than the thickness of the aluminum template 18. In the initial state, the lower ends of the longitudinal support I2 and the longitudinal support II3 are tightened by the tightening spring 16, the longitudinal support I2 is pressed against the right end face of the guide hole 51, the longitudinal support II3 is pressed against the left end face of the guide hole 51, when a worker in a lower floor stands the aluminum template 18 between the lower driven wheel II71 and the lower auxiliary wheel II91, the aluminum template 18 props the longitudinal support I2 and the longitudinal support II3 and contacts with the contact switch 52, the electromagnetic valve 13 is triggered to start the alternating current motor 1 to drive the driving wheel I10 to rotate, then the driving wheel II11 is driven to rotate, the aluminum template 18 is removed from between the lower driven wheel II71 and the lower auxiliary wheel II91, in the process of uploading, the upper driven wheel II61 and the upper auxiliary wheel II81 play a role of fixing and vertical guiding, so that the aluminum template 18 is not swung left and right and accurately pressed between the lower driven wheel I7 and the lower auxiliary wheel I9, and the distance between the lower driven wheel I7 and the lower auxiliary wheel I9 is slightly larger than the thickness of the aluminum template 18 mm, the aluminum formwork 18 is provided with allowance for dimensional errors, and since the distance between the upper driven wheel I6 and the upper driven wheel II61 is smaller than the height of the aluminum formwork 18, workers on an upper floor can easily take the aluminum formwork 18 away from the position between the upper driven wheel I6 and the upper auxiliary wheel I8, a large amount of manpower and material resources are saved, and the longitudinal support I2 and the longitudinal support II3 are restored to the original state by the tightening springs 16 at the moment to convey the next aluminum formwork 18.

Claims

1. The utility model provides a building aluminum mould board transmission device which characterized in that: the device comprises an alternating current motor and two support groups which are symmetrically arranged front and back, wherein each support group comprises a longitudinal support I, a longitudinal support II and a transverse support I, the longitudinal support I and the longitudinal support II are arranged side by side, the transverse support I is horizontally arranged, two ends of the transverse support I are respectively connected with a connecting shaft I on the longitudinal support I and a connecting shaft I on the longitudinal support II through round holes, the transverse support II is arranged below the transverse support I, the transverse support II is parallel to the transverse support I, two ends of the transverse support II are respectively connected with the connecting shafts II on the longitudinal support I and the longitudinal support II through guide holes, a contact switch is arranged in each guide hole, an upper transmission mechanism is arranged between the upper parts of the right side surfaces of the longitudinal supports I, a lower transmission mechanism is arranged between the lower parts of the right side surfaces of the longitudinal supports I, the upper transmission mechanism is driven by the alternating current motor, and the alternating current motor is fixed on the longitudinal support I, the alternating current motor is connected with an electromagnetic valve, the electromagnetic valve is electrically connected with the contact switch, a support I is arranged on the left side face of the longitudinal support I, an upper auxiliary wheel mechanism corresponding to the upper transmission mechanism is arranged between the upper portions of the left side faces of the longitudinal support II, a lower auxiliary wheel mechanism corresponding to the lower transmission mechanism is arranged between the lower portions of the left side faces of the longitudinal support II, a support II is arranged on the right side face of the longitudinal support II, the support II and the support I are symmetrically arranged, and a tightening spring is arranged between the bottom of the right side face of the longitudinal support I and the bottom of the left side face of the longitudinal support II.

2. The building aluminum template conveying device as claimed in claim 1, wherein: the upper transmission mechanism comprises a driving wheel I driven by an alternating current motor, an upper driven wheel I and a lower driven wheel I which are symmetrically arranged up and down, the upper driven wheel I and the lower driven wheel I are meshed with the driving wheel I, and two ends of a main shaft of the driving wheel I, the upper driven wheel I and the lower driven wheel I are fixed on the longitudinal support I through wheel seats; lower drive mechanism includes action wheel II, the upper driven wheel II that the longitudinal symmetry set up and follows the driving wheel II down, go up from driving wheel II and follow driving wheel II and mesh with action wheel II down, be equipped with the belt between action wheel II and the action wheel I, action wheel II, the upper driven wheel II and follow the both ends of the main shaft of driving wheel II down pass through the wheel seat and fix on vertical support I.

3. The building aluminum formwork conveying device according to claim 1 or 2, wherein: the upper auxiliary wheel mechanism comprises an upper auxiliary wheel I and a lower auxiliary wheel I which are symmetrically arranged up and down, the upper auxiliary wheel I is aligned with the upper driven wheel I, the lower auxiliary wheel I is aligned with the lower driven wheel I, and two ends of a main shaft of the upper auxiliary wheel I and two ends of a main shaft of the lower auxiliary wheel I are fixed on the longitudinal support II through wheel seats; the lower auxiliary wheel mechanism comprises an upper auxiliary wheel II and a lower auxiliary wheel II which are symmetrically arranged from top to bottom, the upper auxiliary wheel II is aligned with the upper driven wheel II, the lower auxiliary wheel II is aligned with the lower driven wheel II, and two ends of a main shaft of the upper auxiliary wheel II and the lower auxiliary wheel II are fixed on the longitudinal support II through wheel seats.

4. The building aluminum template conveying device according to claim 3, characterized in that: the distance between the lower driven wheel II and the lower auxiliary wheel II is 5-8mm smaller than the thickness of the aluminum template, and the distance between the upper driven wheel I and the upper driven wheel II is smaller than the height of the aluminum template.

5. The building aluminum template conveying device according to claim 1, characterized in that: the guiding hole is a long waist hole.