CN110978218A

CN110978218A - Cement foaming machine capable of fully foaming and intensively outputting

Info

Publication number: CN110978218A
Application number: CN201911151719.4A
Authority: CN
Inventors: 戴宗强
Original assignee: Individual
Current assignee: Hunan Shengmei Civil Engineering Co ltd
Priority date: 2019-11-22
Filing date: 2019-11-22
Publication date: 2020-04-10
Anticipated expiration: 2039-11-22
Also published as: CN110978218B

Abstract

The invention provides a cement foaming machine with sufficient foaming and dense output, which structurally comprises a foaming machine, an electric cabinet, a motor, a connecting bottom frame, a rear drive wheel, a dense foaming output device and a front drive wheel, wherein the bottom end of the foaming machine is welded with the connecting bottom frame, the motor is fixedly arranged on the left side of the foaming machine, the front drive wheel is movably arranged on the left side of the connecting bottom frame, the rear drive wheel is mechanically connected with the bottom frame, the expanded splitting net disk can break large bubbles in the cement in a foaming state in advance when the large bubbles are close to the grids, and in the moving process, the gas in the large bubbles is gradually led out and separated, and the gas in the bubbles is densified, so that when the large bubbles are led into a mould frame such as a wall and the like, no area containing large bubble area blocks exists, after the cement layer is solidified, the whole cement layer is in a uniform and fine state, and the effect of the isolation temperature is increased.

Description

Cement foaming machine capable of fully foaming and intensively outputting

Technical Field

The invention belongs to the field of cement processing, and particularly relates to a cement foaming machine capable of fully foaming and intensively outputting cement.

Background

The cement foaming machine mainly fully foams the foaming cement to enable a double electric layer to be formed on the surface of a foamed liquid film, the cement can be fully expanded and then used in a use occasion required by temperature isolation and the like, the cement can be directly output and used after being fully foamed in the foaming machine, and in the foaming process, due to the need of increasing the efficiency, a rapid foaming method is generally adopted.

Based on the above description, the present inventors found that the existing cement foaming machine with sufficient foaming and dense output mainly has the following disadvantages, such as:

although the foamed cement after rapid foaming is sufficiently foamed, a large area block of cement containing a large amount of air exists in the foamed cement, and when the foamed cement is directly discharged and introduced into a mold such as a wall, the area containing the large area block is solidified, and the effect of isolating the temperature is reduced due to the extremely thin cement layer in the area block, and the local temperature may be excessively high or excessively low.

Disclosure of Invention

In order to solve the above-mentioned problems, the present invention provides a cement foaming machine which can sufficiently foam and densely output, and solves the problem that when foamed cement which is rapidly foamed is foamed and is foamed enough, there are many cement large-foam area blocks containing a large amount of air, and when the foamed cement is directly discharged and introduced into a mold frame such as a wall, the area containing the large-foam area blocks is solidified, and the cement layer in the area blocks is extremely thin, so that the effect of isolating the temperature is lowered, and the local temperature is excessively high or excessively low.

Aiming at the defects of the prior art, the invention provides the purpose and the effect of the cement foaming machine with full foaming and dense output, which are achieved by the following specific technical means: the utility model provides a cement foaming machine of abundant intensive output of abundant foaming, its structure includes foaming machine, electric cabinet, motor, connects chassis, rear-drive wheel, intensive foaming output device, forerunner's wheel, foaming machine bottom welds with connecting the chassis mutually, motor fixed mounting is in the foaming machine left side, forerunner's wheel movable mounting is in connection chassis left side, rear-drive wheel and chassis mechanical connection together, the electric cabinet adopts the mode fixed connection in foaming machine left side of electric welding, intensive foaming output device installs inside the foaming machine through the mode of embedding.

The intensive foaming output device comprises an inner pulling block, a turnover plate, a sleeve frame, an output cylinder and a vibration and chopping mechanism, wherein the inner pulling block is fixedly connected with the turnover plate, the outer ring surface of the output cylinder is attached to the inner surface of the sleeve frame, and the vibration and chopping mechanism is fixedly connected with the output cylinder.

Preferably, the vibration and chopping mechanism comprises a vibration and chopping disc, a traction strip and a chopping spacer bush, the vibration and chopping disc is fixedly connected with the chopping spacer bush, the traction strip is connected with the vibration and chopping disc, the traction strip is installed at the top end of the chopping spacer bush in an embedding mode, the traction strip is provided with a bifurcation at the connecting position, is firstly embedded in the chopping spacer bush and then connected with the vibration and chopping disc, when the vibration and chopping disc is drawn, the traction strip is clamped and restrained by the connecting end of the chopping spacer bush, so that the traction strip is close to one side of the vibration and chopping disc, and the left and right branch strips have a recovery traction effect on the main strip.

Preferably, the shake cutting disc comprises a sealing ring, a splitting net disc, an outer sleeve ring, a through hole and a regulating and cutting mechanism, the sealing ring is fixedly connected with the splitting net disc, an inner ring of the outer sleeve ring is attached to the sealing ring, the through hole and the outer sleeve ring are of an integrated structure, the regulating and cutting mechanism is installed inside the outer sleeve ring in an embedded mode, the regulating and cutting mechanism can control the splitting net disc to enter a high-speed shake frequency state through the traction of a traction strip, cement which is fully foamed after being pressed passes through can shake rapidly, and the passing bubble can be finer in the process.

As preferred, the segmentation net dish is including cutting the graticule mesh, leading the magnetic stripe, perk branch colludes, the groove block, the perk divides colludes the top and cuts graticule mesh fixed connection together, the perk divides colludes and groove block structure as an organic whole, it installs through the mode of embedding that the perk divides colludes inside to lead the magnetic stripe, the perk divides colludes and loses the magnetic force at the magnetic conduction strip and pin down the back, and the groove block is released passively, and then makes the perk divide to collude towards outside perk, can break it in advance to the big bubble that is close to at the in-process of activity, draw out the separation with the inside gas of big bubble gradually.

Preferably, the adjusting and cutting mechanism comprises a connecting sheet, magnetic cutting strips and a vibration cylinder, the vibration cylinder is provided with three parts, the top end of the vibration cylinder is attached to the bottom end of the magnetic cutting strips, the connecting sheet is provided with two parts, the two parts are fixedly mounted on the left side and the right side of the positive end face of the magnetic cutting strips, and the vibration cylinder is mounted at the top end position inside the outer sleeve ring in an embedded mode.

Preferably, the magnetic cutting strip comprises a magnetic strip, a power-on piece, an insulating pressing piece and an insulating connecting strip, the top end of the magnetic strip is fixedly connected with the insulating pressing piece, and the power-on piece is mechanically connected with the vibration cylinder through the insulating connecting strip.

Compared with the prior art, the invention has the following advantagesAdvantageous effects：

According to the invention, the expanded cutting net disc can break large bubbles in cement in a foaming state in advance when the large bubbles are close to a grid, gas in the large bubbles is gradually led out and separated in the moving process, the large bubbles can be matched with a vibration cylinder through regulation and control of the magnetic cutting strips, the foaming state of the cement can be maintained in the pressing and outputting process of the cement, the gas in the bubbles is densified, and further, when the large bubbles are led into a wall or other mold frames, no region containing large bubble blocks exists, and after the large bubbles are solidified, the whole cement layer can be in a uniform and fine state, so that the effect of the isolation temperature is improved.

Drawings

Fig. 1 is a schematic structural diagram of a cement foaming machine with sufficient foaming and dense output of the invention.

Fig. 2 is a schematic top sectional view of the dense bubbling output device.

FIG. 3 is a schematic diagram of the internal structure of the shattering mechanism.

Fig. 4 is a detailed structural diagram of the inside of the vibration cutting disc.

Fig. 5 is a partial detailed structural diagram of the cutting mesh disk.

Fig. 6 is a detailed structural diagram of a partial side of a cutting mesh disc.

Fig. 7 is a detailed structural diagram of the interior of the adjusting and cutting mechanism.

FIG. 8 is a top view of the magnetic stripe cutter showing the detailed structure.

FIG. 9 is a detailed structural diagram of the interior of the energizing piece at the magnetic cutting position.

In the figure: foaming machine-1, electric cabinet-2, motor-3, connecting bottom frame-4, rear driving wheel-5, dense foaming output device-6, front driving wheel-7, inner pulling block-a 1, turning plate-a 2, sleeve frame-a 3, output cylinder-a 4, vibration and chopping mechanism-a 5, vibration and chopping disk-a 51, pulling strip-a 52, fragmentation and separation sleeve-a 53 and sealing ring-a 511, the device comprises a cutting net disc-a 512, an outer sleeve ring-a 513, a through hole-a 514, a cutting mechanism-a 515, a cutting net-aa 1, a magnetic conducting strip-aa 2, a warping and cutting hook-aa 3, a groove block-aa 4, a connecting sheet-51, a magnetic cutting strip-52, a vibration cylinder-53, a magnetic strip-521, an electrified sheet-522, an insulating pressing sheet-523 and an insulating connecting strip-524.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

As shown in figures 1 to 9:

the invention provides a cement foaming machine with sufficient foaming and dense output, which structurally comprises a foaming machine 1, an electric cabinet 2, a motor 3, a connecting bottom frame 4, a rear driving wheel 5, a dense foaming output device 6 and a front driving wheel 7, wherein the bottom end of the foaming machine 1 is welded with the connecting bottom frame 4, the motor 3 is fixedly arranged on the left side of the foaming machine 1, the front driving wheel 7 is movably arranged on the left side of the connecting bottom frame 4, the rear driving wheel 5 is mechanically connected with the bottom frame 4, the electric cabinet 2 is fixedly connected to the left side of the foaming machine 1 in an electric welding mode, and the dense foaming output device 6 is arranged inside the foaming machine 1 in an embedding mode.

The dense foaming output device 6 comprises an inner pulling block a1, a turnover plate a2, a sleeve frame a3, an output cylinder a4 and a vibration and chopping mechanism a5, wherein the inner pulling block a1 is fixedly connected with the turnover plate a2, the outer ring surface of the output cylinder a4 is attached to the inner surface of the sleeve frame a3, and the vibration and chopping mechanism a5 is fixedly connected with the output cylinder a4

The earthquake chopping mechanism a5 comprises an earthquake chopping disk a51, a traction strip a52 and a chopping spacer a53, the earthquake chopping disk a51 is fixedly connected with the chopping spacer a53, the traction strip a52 is connected with the earthquake chopping disk a51, the traction strip a52 is installed at the top end of the chopping spacer a53 in an embedding mode, the traction strip a52 is provided with a branch at the connecting position, the branch is firstly embedded in the chopping spacer a53 and then connected with the earthquake chopping disk a51, when the earthquake chopping disk a51 is dragged, the traction strip a52 is clamped and restrained by the connecting end of the chopping spacer a53, the traction strip a52 is close to one side of the earthquake chopping disk a51, and the left and right branch strips have a traction effect on the recovery of a main strip.

The vibration cutting disc a51 comprises a sealing ring a511, a cutting mesh disc a512, an outer sleeve ring a513, a through hole a514 and a cutting adjusting mechanism a515, the sealing ring a511 and the cutting mesh disc a512 are fixedly connected together, an inner ring of the outer sleeve ring a513 is attached to the sealing ring a511, the through hole a514 and the outer sleeve ring a513 are of an integrated structure, the cutting adjusting mechanism a515 is installed inside the outer sleeve ring a513 in an embedded mode, and the cutting adjusting mechanism a515 can control the cutting mesh disc a512 to enter a high-speed vibration frequency state through the traction of a52, so that the cement which is fully foamed after being pressed passes can be rapidly shaken, and the bubbles in the cement can be finer in the passing process.

The cutting net disc a512 comprises a cutting net aa1, a magnetic conductive strip aa2, a warping part hook aa3 and a groove block aa4, the top end of the warping part hook aa3 is fixedly connected with the cutting net aa1, the warping part hook aa3 and the groove block aa4 are of an integrated structure, the magnetic conductive strip aa2 is installed inside the warping part hook aa3 in an embedded mode, after the magnetic conductive strip aa2 loses magnetic force, the groove block aa4 is passively released, the warping part hook aa3 faces towards the outside, large air bubbles close to the large air bubbles can be broken in advance, and in the moving process, air inside the large air bubbles is gradually led out and separated.

The adjusting and cutting mechanism a515 comprises a connecting sheet 51, magnetic cutting strips 52 and a vibration cylinder 53, the vibration cylinder 53 is provided with three parts and the top end of the vibration cylinder is attached to the bottom end of the magnetic cutting strips 52, the connecting sheet 51 is provided with two parts and fixedly mounted on the left side and the right side of the positive end face of the magnetic cutting strips 52, the vibration cylinder 53 is mounted at the top end position inside the outer sleeve ring a513 in an embedded mode, the bottom of the vibration cylinder 53 is connected with a grid cutting aa1, the power supply connecting end of the vibration cylinder 53 is released in the sliding process through the magnetic cutting strips 52, a contact power supply can be enabled to be converted into electric energy, the electric energy is output to the grid cutting aa1, the sub-control reduction step can be realized to a great extent through joint control, and the coordination among the working procedures is more coordinated.

The magnetic cutting strip 52 comprises a magnetic strip 521, an electrified piece 522, an insulating pressing piece 523 and an insulating connecting strip 524, the top end of the magnetic strip 521 is fixedly connected with the insulating pressing piece 523, the electrified piece 522 is mechanically connected with the vibration cylinder 53 through the insulating connecting strip 524, and the insulating pressing piece 523 can actively press the electrified piece 522 when the magnetic strip 521 slides out of the passive influence range of the electrified piece 522, so that the conduction stability of the electrified piece 522 is effectively prevented from being influenced by the vibration relation.

When the magnetic strip 521 is in a conventional state, the bottom end of the inner ring of the magnetic strip 521 is attached to the magnetic conducting strip aa2, so that the magnetic property of the magnetic strip aa2 can be influenced to enable the magnetic strip to have the same adsorption force, the state of the warping part hook aa3 can be influenced, the warping part hook is close to the cutting grid aa1, the cement attached to the warping part hook can be removed by the gradually facing end, and the residual cement can be embrittled and shed through next warping expansion of the warping part hook aa3 after solidification.

The specific use mode and function of the embodiment are as follows:

in the invention, when the turning plate a2 is opened, the inner pulling block a1 is connected with the pulling strip a52 and can pull the pulling strip a towards the outside for a fixed distance, the pulling strip a52 is also clamped and restricted by the connecting end of the fragmentation spacer sleeve a53, so that the pulling strip a52 is close to one side of the vibration cutting disc a51, the left and right sub strips have the function of restoring and pulling the main strip and mainly used for releasing the turning plate a2 and can pull the main strip a52 to contract towards the inside, two ends of the magnetic strip 521 are connected with the pulling strip a52 through the connecting sheet 51, the magnetic strip 521 slides for a distance according to the pulling direction and angle of the magnetic strip 521, and two variables occur in the sliding process of the magnetic strip 521, one of which is originally contacted with the magnetic strip 521 to control the magnetic conduction strip aa2 which attracts and pulls the sub strip aa3 to approach to itself, so that the inherent state of the lifting sub strip aa3 cannot be controlled, the tilting hook aa3 spreads out the slot block aa4 and tilts outwards, so that the approaching large bubble can be broken in advance, and in the process of movement, the air in the large bubble is gradually led out and separated, secondly, the conducting piece 522 which is arranged at the top end of the vibration cylinder 53 in a passive isolated power-off state and connected with the vibration cylinder 53 through the insulating connecting strip 524 is originally attracted by the magnet 521 and can be kept away from the vibration cylinder 53, when it moves out of the receiving area of the energizing piece 522, it approaches the vibration cylinder 53 by its own weight, and turns on its power, meanwhile, the vibration cylinder 53 is pressed by the insulating pressing sheet 523 and is stably in a connection state, and the vibration cylinder 53 is connected with the control cutting net disk a512, so that the control cutting net disk a512 can be controlled to enter a high-speed vibration frequency state, the cement which is fully foamed after being pressed to pass through is quickly shaken, so that bubbles in the cement can be finer in the passing process.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a cement foaming machine of intensive output of abundant foaming, its structure includes foaming machine (1), electric cabinet (2), motor (3), connects chassis (4), rear-guard wheel (5), intensive foaming output device (6), forerunner's wheel (7), its characterized in that:

the bottom end of the foaming machine (1) is welded with the connecting bottom frame (4), the motor (3) is fixedly installed on the left side of the foaming machine (1), the front driving wheel (7) is movably installed on the left side of the connecting bottom frame (4), the rear driving wheel (5) is mechanically connected with the bottom frame (4), the electric cabinet (2) is fixedly connected to the left side of the foaming machine (1) in an electric welding mode, and the dense foaming output device (6) is installed inside the foaming machine (1) in an embedded mode;

the dense foaming output device (6) comprises an inner pulling block (a1), a turnover plate (a2), a sleeve frame (a3), an output cylinder (a4) and a vibration and chopping mechanism (a5), wherein the inner pulling block (a1) is fixedly connected with the turnover plate (a2), the outer ring surface of the output cylinder (a4) is attached to the inner surface of the sleeve frame (a3), and the vibration and chopping mechanism (a5) is fixedly connected with the output cylinder (a 4).

2. A cement foaming machine with sufficient foaming and dense output according to claim 1, characterized in that: the shattering and shredding mechanism (a5) comprises a shattering disc (a51), a traction strip (a52) and a shattering spacer bush (a53), the shattering disc (a51) and the shattering spacer bush (a53) are fixedly connected together, the traction strip (a52) is connected with the shattering disc (a51), and the traction strip (a52) is installed at the top end of the shattering spacer bush (a53) in an embedded mode.

3. A cement foaming machine with sufficient foaming and dense output according to claim 2, characterized in that: the vibration cutting disc (a51) comprises a sealing ring (a511), a cutting mesh disc (a512), an outer sleeve ring (a513), a through hole (a514) and a cutting mechanism (a515), wherein the sealing ring (a511) is fixedly connected with the cutting mesh disc (a512), an inner ring of the outer sleeve ring (a513) is attached to the sealing ring (a511), the through hole (a514) and the outer sleeve ring (a513) are of an integrated structure, and the cutting mechanism (a515) is installed inside the outer sleeve ring (a513) in an embedded mode.

4. A cement foaming machine with sufficient foaming and dense output according to claim 3, characterized in that: segmentation net dish (a512) including cut graticule mesh (aa1), magnetic conduction strip (aa2), stick up and divide collude (aa3), groove block (aa4), stick up and divide collude (aa3) top and cut graticule mesh (aa1) fixed connection together, stick up and divide collude (aa3) and groove block (aa4) as integrated structure, it installs through the mode of embedding to lead magnetic strip (36aa 2) and sticks up to divide collude (aa3) inside.

5. A cement foaming machine with sufficient foaming and dense output according to claim 3, characterized in that: transfer cutting mechanism (a515) including connection piece (51), magnetism slitting (52), shake a section of thick bamboo (53) and be equipped with three and its top all with the laminating of magnetism slitting (52) bottom altogether, connection piece (51) are equipped with two and fixed mounting in magnetism slitting (52) positive terminal surface left and right sides altogether, shake a section of thick bamboo (53) and install the inside top position in outer collar (a513) through the mode of embedding.

6. A cement foaming machine with sufficient foaming and dense output according to claim 5, characterized in that: the magnetic cutting strip (52) comprises a magnetic strip (521), an electrified piece (522), an insulating pressing piece (523) and an insulating connecting strip (524), the top end of the magnetic strip (521) is fixedly connected with the insulating pressing piece (523), and the electrified piece (522) is mechanically connected with the vibration cylinder (53) through the insulating connecting strip (524).