CN108858771A

CN108858771A - A kind of Cast-in-place Bent Cap construction method

Info

Publication number: CN108858771A
Application number: CN201810739661.4A
Authority: CN
Inventors: 陈佳佳
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-07-06
Filing date: 2018-07-06
Publication date: 2018-11-23

Abstract

The invention discloses a kind of Cast-in-place Bent Cap construction methods,It uses a kind of construction equipment,The construction equipment includes cabinet,The first drive cavity is provided in the cabinet,First motor is installed in the first drive cavity upper end wall,First motor output shaft lower end is connected by power the line shaft extended downwardly,The line shaft outer surface is installed with sun gear,Planetary gear has symmetrically been engaged at left and right sides of the sun gear,The planetary gear inner surface is installed with the agitating shaft extended downwardly,Rack gear is engaged on the outside of the planetary gear,The gear ring is fixedly connected with the first transmission cavity wall,The first accommodating chamber is symmetrically set in the first drive cavity lower end wall,Stir chamber is provided with and communicated with below first accommodating chamber of left and right two,Present device can improve the preparation efficiency of concrete,Effectively shorten the preparation time of concrete.

Description

A kind of Cast-in-place Bent Cap construction method

Technical field

The present invention relates to building fields, and in particular to a kind of Cast-in-place Bent Cap construction method.

Background technique

With the development of science and technology, social progress, country promotes always high-tech development, in Cast-in-place Bent Cap work progress It needs using a large amount of concrete, existing concrete Preparation equipment is inefficient, needs to take a significant amount of time, and thus may lead Construction delays are caused, therefore are badly in need of a kind of novel equipment.

Summary of the invention

The purpose of the present invention is to provide a kind of Cast-in-place Bent Cap construction methods, can overcome the drawbacks described above of the prior art.

According to the present invention, a kind of Cast-in-place Bent Cap construction method of present device uses a kind of construction equipment, described to apply Construction equipment includes cabinet, and the first drive cavity is provided in the cabinet, and the first electricity is installed in the first drive cavity upper end wall Machine, first motor output shaft lower end are connected by power the line shaft extended downwardly, and the line shaft outer surface is installed with too Sun wheel, be symmetrically engaged planetary gear at left and right sides of the sun gear, and the planetary gear inner surface, which is installed with, to be extended downwardly Rack gear is engaged in agitating shaft, the planetary gear outside, and the gear ring is fixedly connected with the first transmission cavity wall, and described first It is symmetrically set with the first accommodating chamber in drive cavity lower end wall, is provided with and communicated with and stirs below first accommodating chamber of left and right two Chamber is mixed, the agitating shaft is passed down through first accommodating chamber and protrudes into the stir chamber, and the agitating shaft outer surface is uniformly divided Several stirring blades are furnished with, is rotatably assorted in the stir chamber and is connected with rotating box, the line shaft lower end and the rotating box Be rotatably assorted connection, and the support base that left and right extends, the agitating shaft lower end and the support base are installed on the downside of the line shaft Be rotatably assorted connection, is provided with the second drive cavity below the stir chamber, and the second drive cavity lower end wall is rotatably assorted connection There is the rotary shaft upwardly extended, the rotary shaft, which extends upward through the second drive cavity upper end wall and fixes with the rotating box, to be connected It connecing, the rotary shaft outer surface is installed with first bevel gear, it is symmetrically arranged with sliding cavity in the second drive cavity left hand end wall, Sliding block is slidably connected in the sliding cavity, the sliding block is installed with the second motor in the end face of the rotary shaft, Second motor output shaft protrudes into second drive cavity, and second motor output shaft is solid close to one end of the rotary shaft Equipped with second bevel gear, it is provided with and communicated with the second accommodating chamber below the sliding cavity, the sliding block lower end surface is installed with to downward The connecting rod stretched, the second accommodating chamber lower section of left and right two are provided with and communicated with connecting cavity, setting in the connecting cavity lower end wall There is transmission cavity, electric pushrod is installed in the wall of the transmission cavity left end, the push rod right end of the electric pushrod is installed with transmission block, The transmission block and the transmission cavity are slidably connected, and the transmission block upper surface is installed with the company in the connecting cavity Connect block, the link block and the connecting cavity are slidably connected, the connecting rod extend downwardly into second accommodating chamber and with The link block upper surface is fixedly connected；

Described method includes following steps：

When equipment operation, the first motor is started to work, and the first motor output shaft drives the line shaft rotation, institute It states line shaft and drives the sun gear rotation, the sun gear drives the planetary gear rotation, stirs described in the planetary gear drive Axis rotation is mixed, the agitating shaft drives the stirring blade rotation, while the line shaft drives the support base rotation, described Support base drives the agitating shaft to rotate around the line shaft, and cement, sand are added into the stir chamber by the feed hopper Equal concrete prepare raw material, add water into the stir chamber by the water inlet pipe, the electric pushrod is started to work, described Electric pushrod drives the transmission block to move right, the transmission block by the link block and the connecting rod drive sliding block to It moves right, the second bevel gear wait be located at left is engaged with the first bevel gear, and the electric pushrod stops working, position Second motor in left is started to work, and second motor driven positioned at left is located at the second cone tooth of left Wheel rotation, to drive the rotary shaft to rotate by the first bevel gear, the rotary shaft drives the rotating box rotation, After reaching preset time, second motor positioned at left stops working, the electric pushrod reverse operation, wait be located at right The second bevel gear engaged with the first bevel gear, the electric pushrod stops working, positioned at described the second of right Motor is started to work, and second motor driven positioned at right is located at the second bevel gear rotation of right, to pass through The first bevel gear drives the rotary shaft to rotate backward, and the rotary shaft drives the rotating box to rotate backward, and reaches pre- If after the time, second motor positioned at right stops working, the working condition of the rotating box is in the manner described above repeatedly It carries out, the preparation until completing concrete, process to be prepared finishes, and the third motor is started to work, and the third motor is defeated Shaft drives the switchboard rotation, to make the stir chamber be connected to the discharge port, thus the coagulation for completing preparation Soil flows out the stir chamber by the discharge nozzle.

Optionally, wherein the lower end wall of the rotating box cavity is internally provided with switch cavity, in the switch cavity lower end wall It is installed with third motor, third motor output shaft upper end has been connected by power switchboard, the switchboard and the rotating box The lower end wall of cavity is rotatably assorted connection, and the lower end wall of the rotating box cavity is provided with the discharging below the switchboard Mouthful, it is provided with annular chamber below the discharge port, is provided with and communicated with the discharging in the annular chamber below the discharge port Pipe.

Optionally, wherein be internally provided with the feed inlet of connection exterior space on the left of the stir chamber upper end wall, it is described into It is provided with and communicated with feed hopper above material mouth, the water inlet of connection exterior space is internally provided on the right side of the stir chamber upper end wall, Water inlet pipe is provided with and communicated with above the water inlet.

The beneficial effects of the invention are as follows：When due to equipment operation, the first motor is started to work, and the first motor is defeated Shaft drives the line shaft rotation, and the line shaft drives the sun gear rotation, and the sun gear drives the planetary gear Rotation, the planetary gear drive the agitating shaft rotation, and the agitating shaft drives the stirring blade rotation, while the power Axis drives the support base rotation, and the support base drives the agitating shaft to rotate around the line shaft, passes through the feed hopper The concrete such as cement, sand are added into the stir chamber and prepare raw material, and water is added into the stir chamber by the water inlet pipe, The electric pushrod is started to work, and the electric pushrod drives the transmission block to move right, and the transmission block passes through the company It connects block and connecting rod drives the sliding block to move right, the second bevel gear wait be located at left is nibbled with the first bevel gear It closes, the electric pushrod stops working, and second motor positioned at left is started to work, second motor positioned at left The second bevel gear that driving is located at left rotates, thus drive the rotary shaft to rotate by the first bevel gear, institute It states rotary shaft and drives the rotating box rotation, after reaching preset time, second motor positioned at left stops working, described Electric pushrod reverse operation, the second bevel gear wait be located at right are engaged with the first bevel gear, the electric pushrod It stops working, second motor positioned at right is started to work, and second motor driven positioned at right is located at right The second bevel gear rotation, thus drive the rotary shaft to rotate backward by the first bevel gear, the rotary shaft band It moves the rotating box to rotate backward, after reaching preset time, second motor positioned at right stops working, the rotating box Working condition be repeated in the manner described above, the preparation until completing concrete, process to be prepared finishes, the third electricity Machine is started to work, and the third motor output shaft drives the switchboard rotation, to make the stir chamber and the discharge port Connection, so that the concrete for completing preparation flows out the stir chamber by the discharge nozzle, whole equipment uses MULTIPLE COMPOSITE The design of formula stirring, the stirring blade revolve while rotation around the line shaft, and the rotating box can drive stirring Intracavitary concrete material carries out intermittent positive and negative rotation, to improve the preparation efficiency of concrete, promotes mixing effect, and can have Effect shortens the preparation time of concrete.

The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Detailed description of the invention

It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art Attached drawing needed in technical description is briefly described, it should be apparent that, the accompanying drawings in the following description is only to invent Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is a kind of overall structure diagram of Cast-in-place Bent Cap construction method of the invention；

Fig. 2 is the schematic diagram in the direction A in Fig. 1.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

This specification（Including any accessory claim, abstract and attached drawing）Disclosed in any feature, except non-specifically chatting It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only It is an example in a series of equivalent or similar characteristics.

As shown in Figs. 1-2, a kind of Cast-in-place Bent Cap construction method of the invention uses a kind of construction equipment, the construction Equipment includes cabinet 100, and the first drive cavity 101 is provided in the cabinet 100, is consolidated in 101 upper end wall of the first drive cavity Equipped with first motor 102, the 102 output shaft lower end of first motor is connected by power the line shaft 103 extended downwardly, described dynamic 103 outer surface of power axis is installed with sun gear 104, and 104 left and right sides of sun gear has symmetrically been engaged planetary gear 105, institute It states 105 inner surface of planetary gear and is installed with the agitating shaft 109 extended downwardly, engage rack gear 106, institute on the outside of the planetary gear 105 It states gear ring 106 to be fixedly connected with 101 inner wall of the first drive cavity, bilateral symmetry is set in 101 lower end wall of the first drive cavity It is equipped with the first accommodating chamber 107, is provided with and communicated with stir chamber 108, the agitating shaft below two first accommodating chambers 107 in left and right 109 are passed down through first accommodating chamber 107 and protrude into the stir chamber 108, and 109 outer surface of agitating shaft is evenly distributed with Several stirring blades 110 are rotatably assorted in the stir chamber 108 and are connected with rotating box 112,103 lower end of line shaft and institute It states rotating box 112 to be rotatably assorted connection, the support base 111 that left and right extends, the agitating shaft is installed on the downside of the line shaft 103 109 lower ends are rotatably assorted with the support base 111 and connect, and the second drive cavity 113 is provided with below the stir chamber 108, described Second drive cavity, 113 lower end wall is rotatably assorted the rotary shaft 114 for being connected with and upwardly extending, and the rotary shaft 114 extends upward through institute It states 113 upper end wall of the second drive cavity and is fixedly connected with the rotating box 112,114 outer surface of rotary shaft is installed with first Bevel gear 115 is symmetrically arranged with sliding cavity 116, sliding in the sliding cavity 116 in second drive cavity, 113 left hand end wall It is connected with sliding block 117, the sliding block 117 is installed with the second motor 118 in the end face of the rotary shaft 114, described Second motor, 118 output shaft protrudes into second drive cavity 113, and 118 output shaft of the second motor is close to the rotary shaft 114 One end be installed with second bevel gear 119, the second accommodating chamber 120, the sliding block are provided with and communicated with below the sliding cavity 116 117 lower end surfaces are installed with the connecting rod 121 extended downwardly, are provided with and communicated with below two second accommodating chambers 120 in left and right Chamber 122 is connect, transmission cavity 124 is provided in 122 lower end wall of connecting cavity, is installed in the 124 left end wall of transmission cavity electronic Push rod 125, the push rod right end of the electric pushrod 125 are installed with transmission block 126, the transmission block 126 and the transmission cavity 124 Sliding connection, 126 upper surface of transmission block is installed with the link block 123 in the connecting cavity 122, the connection Block 123 and the connecting cavity 122 are slidably connected, the connecting rod 121 extend downwardly into second accommodating chamber 120 and with institute 123 upper surface of link block is stated to be fixedly connected；

Described method includes following steps：

When equipment operation, the first motor 102 is started to work, and 102 output shaft of first motor drives the line shaft 103 rotations, the line shaft 103 drive the sun gear 104 to rotate, and the sun gear 104 drives 105 turns of the planetary gear Dynamic, the planetary gear 105 drives the agitating shaft 109 to rotate, and the agitating shaft 109 drives the stirring blade 110 to rotate, together Shi Suoshu line shaft 103 drives the support base 111 to rotate, and the support base 111 drives the agitating shaft 109 around the power Axis 103 rotates, and adds the concrete such as cement, sand into the stir chamber 108 by the feed hopper 207 and prepares raw material, passes through The water inlet pipe 208 adds water into the stir chamber 108, and the electric pushrod 125 is started to work, the electric pushrod 125 The transmission block 126 is driven to move right, the transmission block 126 drives the cunning by the link block 123 and connecting rod 121 Block 117 moves right, and the second bevel gear 119 wait be located at left is engaged with the first bevel gear 115, described electronic to push away Bar 125 stops working, and second motor 118 positioned at left is started to work, and second motor 118 positioned at left drives The second bevel gear 119 positioned at left rotates, to drive 114 turns of the rotary shaft by the first bevel gear 115 Dynamic, the rotary shaft 114 drives the rotating box 112 to rotate, second motor after reaching preset time, positioned at left 118 stop working, 125 reverse operation of electric pushrod, and the second bevel gear 119 and described first wait be located at right are bored Gear 115 engages, and the electric pushrod 125 stops working, and second motor 118 positioned at right is started to work, and is located at the right side The second bevel gear 119 that second motor 118 driving of side is located at right rotates, to pass through the first bevel gear 115 drive the rotary shaft 114 to rotate backward, and the rotary shaft 114 drives the rotating box 112 to rotate backward, and reaches default After time, second motor 118 positioned at right stops working, and the working condition of the rotating box 112 is in the manner described above It is repeated, the preparation until completing concrete, process to be prepared finishes, and the third motor 202 is started to work, the third 202 output shaft of motor drives the switchboard 203 to rotate, so that it is connected to the stir chamber 108 with the discharge port 209, from And the concrete for completing preparation flows out the stir chamber 108 by the discharge nozzle 204.

Optionally, wherein the lower end wall of 112 cavity of rotating box is internally provided with switch cavity 201, the switch cavity Third motor 202 is installed in 201 lower end walls, the 202 output shaft upper end of third motor has been connected by power switchboard 203, institute It states switchboard 203 and is rotatably assorted with the lower end wall of 112 cavity of rotating box and connect, the lower end wall of 112 cavity of rotating box It is provided with the discharge port 209 for being located at 203 lower section of switchboard, is provided with annular chamber 205 below the discharge port 209, it is described The discharge nozzle 204 being provided with and communicated with below discharge port 209 in the annular chamber 205.

Optionally, wherein the feed inlet 206 of connection exterior space is internally provided on the left of 108 upper end wall of stir chamber, It is provided with and communicated with feed hopper 207 above the feed inlet 206, it is outer that connection is internally provided on the right side of 108 upper end wall of stir chamber The water inlet 210 in portion space is provided with and communicated with water inlet pipe 208 above the water inlet 210.

Claims

1. a kind of Cast-in-place Bent Cap construction method uses a kind of construction equipment, the construction equipment includes cabinet, and feature exists In：It is provided with the first drive cavity in the cabinet, first motor, first electricity are installed in the first drive cavity upper end wall Machine output shaft lower end is connected by power the line shaft extended downwardly, and the line shaft outer surface is installed with sun gear, the sun The wheel left and right sides has symmetrically been engaged planetary gear, and the planetary gear inner surface is installed with the agitating shaft extended downwardly, the row Rack gear is engaged on the outside of star-wheel, the gear ring is fixedly connected with the first transmission cavity wall, the first drive cavity lower end wall It is inside symmetrically set with the first accommodating chamber, is provided with and communicated with stir chamber below first accommodating chamber of left and right two, it is described to stir It mixes axis to be passed down through first accommodating chamber and protrude into the stir chamber, the agitating shaft outer surface is evenly distributed with several stirrings Blade is rotatably assorted in the stir chamber and is connected with rotating box, and the line shaft lower end is rotatably assorted with the rotating box to be connect, The support base that left and right extends is installed on the downside of the line shaft, the agitating shaft lower end is rotatably assorted with the support base to be connect, It is provided with the second drive cavity below the stir chamber, the second drive cavity lower end wall is rotatably assorted the rotation for being connected with and upwardly extending Shaft, the rotary shaft extend upward through the second drive cavity upper end wall and are fixedly connected with the rotating box, the rotary shaft Outer surface is installed with first bevel gear, is symmetrically arranged with sliding cavity in the second drive cavity left hand end wall, in the sliding cavity It is slidably connected with sliding block, the sliding block is installed with the second motor, second motor in the end face of the rotary shaft Output shaft protrudes into second drive cavity, and second motor output shaft is installed with the second cone tooth close to one end of the rotary shaft Wheel, the sliding cavity lower section are provided with and communicated with the second accommodating chamber, and the sliding block lower end surface is installed with the connecting rod extended downwardly, left It is provided with and communicated with connecting cavity below right two second accommodating chambers, is provided with transmission cavity in the connecting cavity lower end wall, it is described Be installed with electric pushrod in the wall of transmission cavity left end, the push rod right end of the electric pushrod is installed with transmission block, the transmission block with The transmission cavity sliding connection, the transmission block upper surface is installed with the link block in the connecting cavity, the company Block and the connecting cavity is connect to be slidably connected, the connecting rod extend downwardly into second accommodating chamber and on the link block End face is fixedly connected；

Described method includes following steps：

2. a kind of Cast-in-place Bent Cap construction method as described in claim 1, it is characterised in that：The lower end wall of the rotating box cavity It is internally provided with switch cavity, third motor, third motor output shaft upper end power are installed in the switch cavity lower end wall It is connected with switchboard, the switchboard is rotatably assorted with the lower end wall of the rotating box cavity and connect, the rotating box cavity Lower end wall is provided with the discharge port below the switchboard, is provided with annular chamber, the discharge port below the discharge port Lower section is provided with and communicated with the discharge nozzle in the annular chamber.

3. a kind of Cast-in-place Bent Cap construction method as described in claim 1, it is characterised in that：In on the left of the stir chamber upper end wall Portion is provided with the feed inlet of connection exterior space, is provided with and communicated with feed hopper, the stir chamber upper end wall above the feed inlet Right side is internally provided with the water inlet of connection exterior space, is provided with and communicated with water inlet pipe above the water inlet.