CN212331428U

CN212331428U - Foamed light soil preparation station

Info

Publication number: CN212331428U
Application number: CN202020461546.8U
Authority: CN
Inventors: 廖慧明
Original assignee: Guangdong Enshuo Construction Engineering Co ltd
Current assignee: Guangdong Enshuo Construction Engineering Co ltd
Priority date: 2020-04-01
Filing date: 2020-04-01
Publication date: 2021-01-12
Anticipated expiration: 2030-04-01

Abstract

The utility model relates to a building materials preparation field specifically relates to a foam light soil preparation station, including transportation platform truck, foaming device, send bubble device, first tee bend ball valve, first mixing arrangement, second tee bend ball valve, cement apparatus for producing and stuff pump, the device all sets up on the transportation platform truck, and the foaming device bottom is through the connecting pipe and send bubble device input intercommunication, send bubble device output through first tee bend ball valve with mixing arrangement top intercommunication, cement apparatus for producing bottom are through connecting pipe and stuff pump input intercommunication, the stuff pump output pass through second tee bend ball valve with mixing arrangement top intercommunication, the device can prepare foam light soil immediately, and alternately prepare through duplex mixing arrangement, and production efficiency is high.

Description

Foamed light soil preparation station

Technical Field

The utility model relates to a building materials preparation field specifically relates to a foam light soil preparation station.

Background

The foamed light soil is still in the stage of popularization and application in the field of Chinese construction engineering at present. It is a mixture of foam and cement slurry before it sets. The prior preparation method of the foamed light soil comprises two methods, wherein one method comprises the steps of manually stirring cement slurry on site, foaming by adopting a test foaming device, adding foam into a stirring cylinder, stirring and mixing, and pouring the foam into a pre-treated working foundation pit on site, so that one cylinder is stirred and poured, and the construction operation is completed intermittently. This is the most primitive way of construction. And the other one is a special preparation system, which comprises a foam pool provided with a test foaming device for generating foam or a continuous dilution foaming device and a cement slurry pool, wherein pipelines respectively extend out of the foam pool and are connected into the front end of a slurry conveying pump, foam and cement slurry in the pump are mixed and then are conveyed under pressure, the mixture is poured into a working foundation pit which is qualified in advance on site, and light soil is formed after solidification and hardening through physical and chemical actions, so the preparation system is called as a cast-in-situ foam light soil preparation system.

The production equipment is troublesome to install and operate on site, so a mobile foam light soil preparation station is needed at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a foam light soil preparation station is provided, this technical scheme has solved foam light soil preparation problem.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model provides a foam light soil preparation station, is including transport table car, foaming device, send bubble device, first tee bend ball valve, first mixing arrangement, second tee bend ball valve, cement apparatus for producing and stuff pump, the device all sets up on transport table car, and the foaming device bottom is through connecting pipe and send bubble device input intercommunication, send bubble device output through first tee bend ball valve with mixing arrangement top intercommunication, cement apparatus for producing bottom is through connecting pipe and stuff pump input intercommunication, the stuff pump output pass through second tee bend ball valve with mixing arrangement top intercommunication.

Preferably, first mixing arrangement is including agitator tank, driving piece, shock attenuation piece, interior formula agitator that sinks and connecting piece, agitator tank top all with foaming device and cement apparatus for producing output intercommunication, agitator tank bottom end is provided with discharging pipe and ooff valve, interior formula agitator that sinks and the equal coaxial rotation of outer promotion formula agitator set up inside the agitator tank, connecting piece fixed connection is passed through to the agitator upper and lower ends, and the coaxial setting of shock attenuation piece is on the agitator tank top, and the vertical coaxial fixed connection who runs through shock attenuation piece and agitator tank top and interior formula agitator that sinks down in proper order of driving piece output down, and second mixing arrangement is the same with first mixing arrangement structure completely.

Preferably, the driving piece comprises a servo motor and a speed reducer, the output end of the servo motor is coaxially and fixedly connected with the input end of the speed reducer, and the output end of the speed reducer penetrates through the stirring tank and is coaxially connected with the inner sunken stirrer.

Preferably, the shock attenuation piece is including the vibration damping mount, the shock attenuation roof, flexible post, stop block and spring, flexible post is along the fixed setting on the vibration damping mount top of axis, the vibration damping mount sets up on flexible post with the coaxial slip of vibration damping mount, the coaxial setting of stop block is on flexible capital end, the coaxial cover of spring is established on flexible post and both ends respectively butt in vibration damping mount top and shock attenuation roof bottom, the coaxial shock attenuation roof that runs through of driving piece output, vibration damping mount and agitator tank top and the coaxial fixed connection in sunken agitator top.

Preferably, the inner sinking type stirrer comprises a fixed shaft, a fixed sleeve and a first stirring rod, the fixed shaft and the output end of the driving piece are coaxially and fixedly connected and arranged inside the stirring tank, the inner sinking type stirrer is coaxially arranged on the fixed shaft, the first stirring rod is vertically arranged on the outer circumferential surface of the fixed sleeve along the axial spiral downward direction of the fixed shaft, and the connecting pieces are coaxially arranged at the top end and the bottom end of the fixed sleeve; the outer lifting stirrer comprises a vertical rod and a second stirring rod, the vertical rod is vertically arranged between the upper end and the lower end of the connecting piece along the axial direction, and the second stirring rod is vertically arranged on the inner side of the vertical rod along the axial spiral upward direction of a fixed shaft.

Preferably, the connecting piece comprises a connecting rod and a fixing ring, and the inner circumferential surface of the fixing ring is fixedly connected with the outer circumferential surface of the fixing sleeve in the radial direction through the connecting rod.

Compared with the prior art, the utility model beneficial effect who has is:

the devices are all arranged on a transport trolley, so that a preparation station is convenient to move, when manufacturing is started, a first three-way ball valve and a second three-way ball valve are started, a foaming device, a first mixing device, a cement production device and a first mixing device are respectively communicated, a foam feeding device and a slurry pump are started, so that foam and cement are respectively fed into the first mixing device, after the first mixing device is filled, the foam and the cement are mixed through the first mixing device, the first three-way ball valve and the second mixing device are respectively communicated, the cement production device and the second mixing device are respectively filled, the second mixing device is filled, after the foam and the cement are mixed for a period of time, the foam and the light soil in the first mixing device or the second mixing device is discharged from a discharge end of the first mixing device, the foam and the light soil in the first mixing device or the second mixing device are all required for a period of time, and the foam and light soil mixture can be alternately produced through the first mixing, thereby improving the production efficiency.

The device can prepare foam light soil immediately, and alternately prepares through duplex mixing arrangement, and production efficiency is high.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of a first mixing device of the present invention;

fig. 3 is a side view of a first mixing device of the present invention;

FIG. 4 is a sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic view of the internal structure of the first mixing device of the present invention;

fig. 6 is a perspective view of the shock absorbing member of the present invention.

The reference numbers in the figures are:

1. a transport trolley;

2. a foaming device;

3. a bubble delivery device;

4. a first three-way ball valve;

5. a first mixing device; 5a, a stirring tank; 5a1 discharge pipe; 5a2, switching valve; 5b, a driving piece; 5b1, servo motor; 5b2, speed reducer; 5c, a shock absorbing member; 5c1, damping bottom plate; 5c2, damping top plate; 5c3, telescopic columns; 5c4, stop block; 5c5, spring; 5d, an internal sinking type stirrer; 5d1, fixed axis; 5d2, fixing sleeve; 5d3, first stirring rod; 5e, an external lifting stirrer; 5e1, vertical rod; 5e2, second stirring rod; 5f, connecting pieces; 5f1, connecting rod; 5f2, a fixed ring;

6. a second mixing device;

7. a second three-way ball valve;

8. a cement production device;

9. and (5) a slurry pump.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 6 show a foam light soil preparation station, including transportation platform truck 1, foaming device 2, send bubble device 3, first tee bend ball valve 4, first mixing arrangement 5, second mixing arrangement 6, second tee bend ball valve 7, cement apparatus for producing 8 and stuff pump 9, the device all sets up on transportation platform truck 1, and foaming device 2 bottom is through connecting pipe and send bubble device 3 input intercommunication, send bubble device 3 output through first tee bend ball valve 4 with mixing arrangement top intercommunication, cement apparatus for producing 8 bottoms are through connecting pipe and stuff pump 9 input intercommunication, stuff pump 9 output through second tee bend ball valve 7 with mixing arrangement top intercommunication.

The devices are all arranged on a transport trolley 1, so that a preparation station is convenient to move, when manufacturing is started, a first three-way ball valve 4 and a second three-way ball valve 7 are started, a foaming device 2 and a first mixing device 5, a cement production device 8 and a first mixing device 5 are respectively communicated, a foam feeding device 3 and a slurry pump 9 are started, so that foam and cement are respectively fed into the first mixing device 5, after the first mixing device 5 is filled, the foam and the cement are mixed through the first mixing device 5, the first three-way ball valve 4 and the second mixing device 6 are respectively communicated, the cement production device 8 and the second mixing device 6 are filled, after a period of mixing, the foam and the cement are discharged from a discharge end of the first mixing device 5, the foam and the light soil in the first mixing device 5 or the second mixing device 6 are discharged, the period of injection, the period of mixing, the foam and the mixing can be alternately produced through the first mixing device 5 and the second mixing device 6, thereby improving the production efficiency.

First mixing arrangement 5 is including agitator tank 5a, driving piece 5b, damper 5c, interior formula agitator 5d that sinks and connecting piece 5f, agitator tank 5a top all with foaming device 2 and the 8 output intercommunication of cement apparatus for producing, agitator tank 5a bottom is provided with discharging pipe 5a1 and ooff valve 5a2, interior formula agitator 5d that sinks and the equal coaxial rotation setting of outer promotion formula agitator 5e inside agitator tank 5a, connecting piece 5f fixed connection is passed through to the agitator upper and lower end, and the coaxial setting of damper 5c is on agitator tank 5a top, and the vertical shock attenuation 5c and the agitator tank 5a top of running through in proper order down of driving piece 5b output and the coaxial fixed connection of interior formula agitator 5d, and second mixing arrangement 6 is the same with first mixing arrangement 5 structure completely.

The top end of the stirring tank 5a is communicated with the output ends of the foaming device 2 and the cement production device 8, the bottom end of the stirring tank 5a is provided with a discharge pipe 5a1 and a switch valve 5a2, an inner sunken stirrer 5d and an outer lifting stirrer 5e are coaxially and rotatably arranged inside the stirring tank 5a, the upper end and the lower end of the stirrer are fixedly connected through a connecting piece 5f, a damping piece 5c is coaxially arranged at the top end of the stirring tank 5a, the output end of a driving piece 5b vertically and downwards sequentially penetrates through the damping piece 5c and the top end of the stirring tank 5a and is coaxially and fixedly connected with the inner sunken stirrer 5d, the second mixing device 6 is completely identical to the first mixing device 5 in structure, so that when the foam and cement are injected into the first mixing device 5 or the second mixing device 6 by the foam feeding device 3 and the cement production device 8, the driving piece 5b is started, and the inner sunken stirrer 5d coaxially rotates inside the stirring tank 5a, thereby make cement and foam down stir in the effect of sunken agitator 5d, and the lower extreme passes through connecting piece 5f setting outside sunken agitator 5d in the outer promotion agitator 5e, thereby make outer promotion agitator 5e along with sunken agitator 5d synchronous revolution in the inner, thereby make bottom mud upwards stir under the effect of outer promotion agitator 5e, thereby make the stirring, thereby be convenient for prepare bubble water light soil, bumper shock absorber 5c is used for eliminating the vibrations that driving piece 5b produced at the start-up in-process, thereby make the structure more stable.

The driving piece 5b comprises a servo motor 5b1 and a speed reducer 5b2, the output end of the servo motor 5b1 is coaxially and fixedly connected with the input end of the speed reducer 5b2, and the output end of the speed reducer 5b2 penetrates through the stirring tank 5a and is coaxially connected with the internally sinking stirrer 5 d.

The output end of the servo motor 5b1 is coaxially and fixedly connected with the input end of the speed reducer 5b2, the output end of the speed reducer 5b2 penetrates through the stirring tank 5a and is coaxially connected with the internally sinking stirrer 5d, and the rotating force output by the servo motor 5b1 is acted on the internally sinking stirrer 5d through the speed reducer 5b2, so that the rotating force is more stable.

The damping piece 5c comprises a damping bottom plate 5c1, a damping top plate 5c2, a telescopic column 5c3, a stop block 5c4 and a spring 5c5, the damping piece 5c is coaxially arranged at the top end of the stirring tank 5a, the telescopic column 5c3 is fixedly arranged at the top end of the damping bottom plate 5c1 along the axis, the damping top plate 5c2 and the damping bottom plate 5c1 are coaxially and slidably arranged on the telescopic column 5c3, the stop block 5c4 is coaxially arranged at the top end of the telescopic column 5c3, the spring 5c5 is coaxially sleeved on the telescopic column 5c3, two ends of the spring are respectively abutted against the top end of the damping bottom plate 5c1 and the bottom end of the damping top plate 5c2, and the output end of the driving piece 5b coaxially penetrates through the damping top plate 5c2, the damping bottom plate 5c1 and the top end of the stirring tank 5.

The shock absorbing piece 5c is coaxially arranged at the top end of the stirring tank 5a, the telescopic column 5c3 is fixedly arranged at the top end of the shock absorbing bottom plate 5c1 along the axis, the shock absorbing top plate 5c2 and the shock absorbing bottom plate 5c1 are coaxially and slidably arranged on the telescopic column 5c3, the stop block 5c4 is coaxially arranged at the top end of the telescopic column 5c3, the spring 5c5 is coaxially sleeved on the telescopic column 5c3, two ends of the spring are respectively abutted against the top end of the shock absorbing bottom plate 5c1 and the bottom end of the shock absorbing top plate 5c2, the output end of the driving piece 5b coaxially penetrates through the shock absorbing top plate 5c2, the shock absorbing bottom plate 5c1 and the top end of the stirring tank 5a and the top end of the inwardly sinking stirrer 5d to be coaxially and fixedly connected, when the driving piece 5b generates shock, the shock absorbing top plate 5c2 moves downwards under the elastic force of the spring 5c5 to eliminate the shock, and the stop block 5c 58.

The internally sinking type stirrer 5d comprises a fixed shaft 5d1, a fixed sleeve 5d2 and a first stirring rod 5d3, wherein the fixed shaft 5d1 and the output end of a driving piece 5b are coaxially and fixedly connected and arranged inside the stirring tank 5a, the internally sinking type stirrer 5d is coaxially arranged on the fixed shaft 5d1, the first stirring rod 5d3 is vertically arranged on the outer circumferential surface of the fixed sleeve 5d2 along the axial spiral downward direction of the fixed shaft 5d1, and the connecting pieces 5f are coaxially arranged at the top end and the bottom end of the fixed sleeve 5d 2; the outer lifting type stirrer 5e comprises a vertical rod 5e1 and a second stirring rod 5e2, wherein the vertical rod 5e1 is vertically arranged between the upper end and the lower end connecting pieces 5f along the axial direction, and the second stirring rod 5e2 is vertically arranged inside the vertical rod 5e1 along the axial spiral upward direction of the fixed shaft 5d 1.

The fixed shaft 5d1 and the output end of the driving piece 5b are coaxially and fixedly connected and arranged inside the stirring tank 5a, the inward sinking stirrer 5d is coaxially arranged on the fixed shaft 5d1, the first stirring rod 5d3 is vertically arranged on the outer circumferential surface of the fixed sleeve 5d2 along the axial spiral downward direction of the fixed shaft 5d1, and the connecting piece 5f is coaxially arranged at the top end and the bottom end of the fixed sleeve 5d 2; the outer lifting type stirrer 5e comprises a vertical rod 5e1 and a second stirring rod 5e2, wherein the vertical rod 5e1 is vertically arranged between the upper end and the lower end connecting pieces 5f along the axial direction, the second stirring rod 5e2 is vertically arranged on the inner side of the vertical rod 5e1 along the axial spiral upward direction of the fixed shaft 5d1, when the fixed shaft 5d1 rotates coaxially, the fixed sleeve 5d2 rotates coaxially, so that the first stirring rod 5d3 arranged along the spiral direction rotates along the axial direction, so that the first stirring rod 5d3 pushes the upper layer mixture to the bottom, and the outer lifting type stirrer 5e rotates coaxially, so that the second stirring rod 5e2 arranged along the spiral direction pushes the bottom layer mixture to the upper part, so that the mixture continuously flows up and down in the stirring tank 5a, and the mixture is uniformly mixed.

The connecting piece 5f comprises a connecting rod 5f1 and a fixed ring 5f2, and the inner circumferential surface of the fixed ring 5f2 is fixedly connected with the outer circumferential surface of the fixed sleeve 5d2 in the radial direction through the connecting rod 5f 1.

The inner circumferential surface of the fixed ring 5f2 and the outer circumferential surface of the fixed sleeve 5d2 are fixedly connected in the radial direction by a connecting rod 5f1, and the inner sunken type stirrer 5d and the outer lifting type stirrer 5e are fixedly connected by a connecting piece 5f, so that the stirrers can synchronously stir.

The utility model discloses a theory of operation:

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a foam light soil preparation station, its characterized in that, including transportation platform truck (1), foaming device (2), send bubble device (3), first tee bend ball valve (4), first mixing arrangement (5), second mixing arrangement (6), second tee bend ball valve (7), cement apparatus for producing (8) and thick liquid pump (9), the device all sets up on transportation platform truck (1), and foaming device (2) bottom is through connecting pipe and send bubble device (3) input intercommunication, send bubble device (3) output through first tee bend ball valve (4) with mixing arrangement top intercommunication, cement apparatus for producing (8) bottom is through connecting pipe and thick liquid pump (9) input intercommunication, thick liquid pump (9) output through second tee bend ball valve (7) with mixing arrangement top intercommunication.

2. The station for preparing foamed lightweight soil according to claim 1, wherein the first mixing device (5) comprises a stirring tank (5a), a driving member (5b), a shock absorbing member (5c), an inner sinking type stirrer (5d) and a connecting member (5f), the top end of the stirring tank (5a) is communicated with the output ends of the foaming device (2) and the cement production device (8), the bottom end of the stirring tank (5a) is provided with a discharge pipe (5a1) and a switch valve (5a2), the inner sinking type stirrer (5d) and the outer lifting type stirrer (5e) are coaxially and rotatably arranged inside the stirring tank (5a), the upper end and the lower end of the stirrer are fixedly connected through the connecting member (5f), the shock absorbing member (5c) is coaxially arranged at the top end of the stirring tank (5a), the output end of the driving member (5b) vertically and sequentially penetrates through the shock absorbing member (5c) and the top end of the stirring tank (5a) and the inner sinking type stirrer (5d) in a coaxial and fixed connection, the second mixing device (6) and the first mixing device (5) have the same structure.

3. The station for preparing foamed lightweight soil according to claim 2, wherein the driving member (5b) comprises a servo motor (5b1) and a speed reducer (5b2), the output end of the servo motor (5b1) is coaxially and fixedly connected with the input end of the speed reducer (5b2), and the output end of the speed reducer (5b2) penetrates through the stirring tank (5a) and is coaxially connected with the internally sinking stirrer (5 d).

4. The station for preparing the foamed lightweight soil according to claim 2, wherein the shock absorbing member (5c) comprises a shock absorbing bottom plate (5c1), a shock absorbing top plate (5c2), a telescopic column (5c3), a stop block (5c4) and a spring (5c5), the telescopic column (5c3) is fixedly arranged at the top end of the shock absorbing bottom plate (5c1) along the axis, the shock absorbing top plate (5c2) and the shock absorbing bottom plate (5c1) are coaxially and slidably arranged on the telescopic column (5c3), the stop block (5c4) is coaxially arranged at the top end of the telescopic column (5c3), the spring (5c5) is coaxially sleeved on the telescopic column (5c3) and two ends of the spring are respectively abutted against the top end of the shock absorbing bottom plate (5c1) and the bottom end of the shock absorbing top plate (5c2), the output end of the driving piece (5b) coaxially penetrates through the damping top plate (5c2), the damping bottom plate (5c1) and the top end of the stirring tank (5a) and is coaxially and fixedly connected with the top end of the inner sinking type stirrer (5 d).

5. The station for preparing foamed lightweight soil according to claim 2, wherein the internally sinking agitator (5d) comprises a fixed shaft (5d1), a fixed sleeve (5d2) and a first agitating rod (5d3), the fixed shaft (5d1) and the output end of the driving member (5b) are coaxially and fixedly connected and arranged inside the agitating tank (5a), the internally sinking agitator (5d) is coaxially arranged on the fixed shaft (5d1), the first agitating rod (5d3) is vertically arranged on the outer circumferential surface of the fixed sleeve (5d2) along the axial spiral downward direction of the fixed shaft (5d1), and the connecting member (5f) is coaxially arranged at the top end and the bottom end of the fixed sleeve (5d 2); the outer lifting type stirrer (5e) comprises vertical rods (5e1) and a second stirring rod (5e2), wherein the vertical rods (5e1) are vertically arranged between the upper end connecting piece and the lower end connecting piece (5f) along the axial direction, and the second stirring rod (5e2) is vertically arranged on the inner side of the vertical rod (5e1) along the axial spiral upward direction of the fixed shaft (5d 1).

6. The station as claimed in claim 2, wherein the connector (5f) comprises a connecting rod (5f1) and a fixing ring (5f2), and the inner circumferential surface of the fixing ring (5f2) and the outer circumferential surface of the fixing sleeve (5d2) are fixedly connected in the radial direction by the connecting rod (5f 1).