CN109500991A - Shearing-force type multilayer green body separator - Google Patents

Abstract

The invention discloses a kind of shearing-force type multilayer green body separators, are related to building materials preparation technical field.The shearing-force type multilayer green body separator includes separation unit, braced frame and guide part.Braced frame is movably arranged on guide part；Separation unit is fixedly installed on the support frame；Separation unit includes the first thrust mechanism and the second thrust mechanism being correspondingly arranged up and down, and the first thrust mechanism is used to push a certain layer for the green body being located in braced frame, and the second thrust mechanism is used to limit the movement of the layer adjacent with a certain layer of green body.Shearing-force type multilayer green body separator of the invention, use the layer of the adhesion of shearing separation green body, and the shear resistance of green body is weaker than tensile capacity, to achieve the purpose that reduce green body layered energy consumption, working efficiency is improved, and overall structure is simple, solves the problems, such as that existing glass severing machine operation consumption is high, has the value promoted and applied.

Description

Shearing-force type multilayer green body separator

Technical field

The present invention relates to building materials preparation technical fields, more particularly to a kind of shearing-force type multilayer green body separator.

Background technique

Aerated concrete blank, plate or the building block for being cut into several normal widths through cutting unit, subsequently into steaming Pressing kettle to carry out, high temperature and pressure is steam-cured, and after the completion of steam-cured, layer and the layer of green body can stick together, and bonding force is larger, needs specially The equipment of door break point.

Currently, glass severing machine includes breaking sub-agencies and fixed frame, breaks sub-agencies and be made of two frames, the two of each frame Side is respectively and fixedly provided with rows of horizontal-clamping oil cylinder, and multiple jackings are arranged for clamping the layer of green body, also, between frame and frame Oil cylinder once breaks point one layer for breaking the layer of point adhesion, and breaks sub-agencies and driven by power device, moves in the vertical direction, It is separated with breaking the layer of all adhesions.

However, existing glass severing machine has the following problems:

One, it is broken point using pulling force, energy consumption is high；

Two, most of to break branch's journey all and be useless, it breaks and is allocated as industry time-consuming；

Three, it clamps and breaks and be divided into absolute construction, structure is complicated.

Summary of the invention

It is existing in the prior art to solve the purpose of the present invention is to provide a kind of shearing-force type multilayer green body separator The high technical problem of glass severing machine operation consumption.

To achieve the goals above, the invention adopts the following technical scheme:

A kind of shearing-force type multilayer green body separator provided by the invention, including separation unit, braced frame and guide part；

The braced frame is movably arranged on the guide part；

The separation unit is fixed in the braced frame；

The separation unit includes the first thrust mechanism and the second thrust mechanism being correspondingly arranged up and down, the first thrust machine Structure is used to push a certain layer for the green body being located in the braced frame, and second thrust mechanism is for limiting and the green body The adjacent layer of a certain layer movement.

Further, the both ends of the braced frame are provided with second thrust mechanism.

Further, the both ends of the braced frame are provided with first thrust mechanism.

Further, the quantity of second thrust mechanism is 2 groups；

First thrust mechanism setting is between the second thrust mechanism described in 2 groups.

Further, the braced frame includes upper support frame and lower bracing frame；

The upper support frame is movably arranged in the lower bracing frame；

First thrust mechanism is fixed on the upper support frame, and second thrust mechanism is fixed at institute It states in lower bracing frame.

It further, further include translatable drive section, the side of the braced frame is arranged in the translatable drive section；

One end of the translatable drive section is arranged on the upper support frame, and the other end setting of the translatable drive section exists In the lower bracing frame.

Further, the side of the braced frame is additionally provided with link mechanism；

The upper support frame is flexibly connected with the lower bracing frame by link mechanism.

Further, the translatable drive section includes hydraulic cylinder structure.

It further, further include torsion driving portion, the end of the braced frame is arranged in the torsion driving portion；

One end of the torsion driving portion is arranged on the upper support frame, and the other end setting of the torsion driving portion exists In the lower bracing frame.

Further, the torsion driving portion includes hydraulic cylinder structure.

Shearing-force type multilayer green body separator provided by the invention, to the base being placed on after the completion of steam-cured in braced frame Body is separated, and the second thrust mechanism clamps a certain layer of green body, limits the movement of this layer, the first thrust mechanism is clamped and pushed The adjacent layer with a certain layer of green body that is clamped by the second thrust mechanism props up so that the layer of the adjacent adhesion of green body is separated Support frame frame is moved up and down along guide part, and separation unit is moved in the vertical direction, so that separation unit can be to base The layer of all adhesions of body is separated, the layer of the adhesion of this separator use shearing separation green body, and the shearing resistance energy of green body Power is weaker than tensile capacity, to achieve the purpose that reduce green body layered energy consumption, working efficiency is improved, and overall structure letter It is single, solve the problems, such as that existing glass severing machine operation consumption is high.

Another shearing-force type multilayer green body separator provided by the invention, including separation unit, braced frame and guide part；

The braced frame is movably arranged on the guide part；

The separation unit is fixed in the braced frame；

The separation unit includes the first thrust mechanism, and first thrust mechanism is located in the braced frame for pushing Green body a certain layer, the braced frame is used to limit the movement of the layer adjacent with a certain layer of the green body.

Shearing-force type multilayer green body separator provided by the invention, to the base being placed on after the completion of steam-cured in braced frame Body is separated, and braced frame limits the movement of a certain layer of green body, and the first thrust mechanism clamps and pushes and be supported frame The adjacent layer of a certain layer of the green body of limitation, so that the layer of the adjacent adhesion of green body is separated, braced frame is along guide part Lower movement, enables separation unit to move in the vertical direction, so that separation unit can be to the layer of all adhesions of green body It being separated, this separator separates the layer of the adhesion of green body using shearing, and the shear resistance of green body is weaker than tensile capacity, from And achieve the purpose that reduce green body layered energy consumption, working efficiency is improved, and overall structure is simple, is equally solved existing The high problem of glass severing machine operation consumption.

Detailed description of the invention

It, below will be to specific in order to illustrate more clearly of the specific embodiment of the invention or technical solution in the prior art Embodiment or attached drawing needed to be used in the description of the prior art be briefly described, it should be apparent that, it is described below Attached drawing is some embodiments of the present invention, for those of ordinary skill in the art, before not making the creative labor It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1-Fig. 3 is a kind of course of work signal for shearing-force type multilayer green body separator that the embodiment of the present invention one provides Figure；

Fig. 4-Fig. 6 is a kind of course of work signal of shearing-force type multilayer green body separator provided by Embodiment 2 of the present invention Figure；

Fig. 7 is a kind of shearing-force type multilayer green body separator that provides of the embodiment of the present invention three under a certain working condition Structural schematic diagram；

Fig. 8-Figure 10 is that a kind of course of work for shearing-force type multilayer green body separator that the embodiment of the present invention four provides is shown It is intended to；

Figure 11 is a kind of shearing-force type multilayer green body separator that provides of the embodiment of the present invention five under a certain working condition Overlooking structure diagram.

Appended drawing reference:

000- green body；

100- separation unit；200- braced frame；300- guide part；400- translatable drive section；500- reverses driving portion；

The first thrust mechanism of 101-；The second thrust mechanism of 102-；

201- upper support frame；202- lower bracing frame；203- link mechanism.

Specific embodiment

Technical solution of the present invention is clearly and completely described below in conjunction with attached drawing, it is clear that described implementation Example is a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill Personnel's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" be based on the orientation or positional relationship shown in the drawings, merely to Convenient for description the present invention and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, It is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.In addition, term " first ", " second ", " third " is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

Embodiment one:

In the optinal plan of the present embodiment, as shown in Figure 1 to Figure 3, a kind of shearing-force type multilayer base provided in this embodiment Body separator, including separation unit 100, braced frame 200 and guide part 300；Braced frame 200 is movably arranged on guide part On 300；Separation unit 100 is fixed in braced frame 200；Separation unit 100 includes the first thrust machine being correspondingly arranged up and down Structure 101 and the second thrust mechanism 102, the first thrust mechanism 101 are used to push certain for the green body 000 being located in braced frame 200 One layer, the second thrust mechanism 102 is used to limit the movement of the layer adjacent with a certain layer of green body 000.

In the present embodiment, the second thrust mechanism 102 clamps a certain layer for the green body 000 being placed in braced frame 200 To limit this layer movement, the first thrust mechanism 101 is clamped and is pushed a certain with the green body 000 that is clamped by the second thrust mechanism 102 The adjacent layer of layer, so that the layer of the adjacent adhesion of green body 000 is separated；Braced frame 200 moves down along guide part 300 It is dynamic, separation unit 100 is moved in the vertical direction, so that separation unit 100 can be to all adhesions of green body 000 Layer separated；This separator separates the layer of the adhesion of green body 000 using shearing, and the shear resistance of green body 000 is than anti- Drawing ability is weak, so as to be layered required energy consumption lower for green body 000, also, compared to using pulling force, the power needed when using shearing Absolute value it is smaller, the overall structure of device more simplify, working efficiency is also higher.

In use, can be separated since one layer of 000 the top of green body, i.e., separation unit 100 can be at first to green body 000 One layer of the top is separated, and then braced frame 200 is moved down along guide part 300, so that separation unit 100 is by upper Green body 000 is successively separated downwards.

Specifically, the first thrust mechanism 101 is correspondingly arranged with the second about 102 thrust mechanism, and the first thrust mechanism 101 can The top of second thrust mechanism 102 is set, successively the layer of green body 000 can be separated from top to bottom.

Wherein, guide part 300 can be column, can be corresponding with guide part 300 on each side of braced frame 200；Alternatively, Guide part 300 is corresponding on the opposite side of braced frame 200, it is therefore an objective to can guarantee the balance of braced frame 200.

Also, braced frame 200 moves up and down under the drive of lifting driving portion along guide part 300；Go up and down driving portion It may include hydraulic cylinder structure or gear & rack structure.

In the optinal plan of the present embodiment, the both ends of braced frame 200 are provided with the second thrust mechanism 102.

In the present embodiment, second thrust mechanism 102 at 200 both ends of braced frame cooperates, and clamps green body from both ends 000 a certain layer, so that the position of this layer is fixed, so as to more smoothly carry out the separation of adjacent layer.

In the optinal plan of the present embodiment, the both ends of braced frame 200 are provided with the first thrust mechanism 101.

In the present embodiment, second thrust mechanism 102 at 200 both ends of braced frame is matched for clamping tightly a certain layer of green body 000, What first thrust mechanism 101 at 200 both ends of braced frame was also matched for clamping tightly a certain layer of aforementioned green body 000 faces layer, then one end The first thrust mechanism 101 pushrod advances, the push rod of the first thrust mechanism 101 of the other end, which synchronizes, to be moved back, realize green body 000 Adjacent layer separation, separation process stablizes, and energy consumption is few.

Embodiment two:

In the optinal plan of the present embodiment, on the basis of embodiment 1, as shown in Figures 4 to 6, braced frame 200 include left support frame and right support frame；Left support frame is not connected to independently of each other with right support frame, respectively a corresponding guide part 300, receive independent pilot, convenient for controlling respectively, flexibility is high, can adapt to more kinds of operating conditions.

Embodiment three:

In the optinal plan of the present embodiment, on the basis of embodiment 1, as shown in fig. 7, the second thrust mechanism 102 Quantity be 2 groups；First thrust mechanism 101 is arranged between 2 group of second thrust mechanism 102.

In the present embodiment, the first thrust mechanism 101 be arranged in the second thrust mechanism 102 that about 2 groups are correspondingly arranged it Between.

It is separated in use, adjacent three layers of green body 000 can be selected, specifically, 2 group of second thrust mechanism 102 is distinguished Two layers above and below clamping, the first thrust mechanism 101 clamps and pushes one layer among this two layers, so as to from green body 000 Any one layer starts to be separated.

It is appreciated that being also applied for being initially separated from the top of green body 000.

Example IV:

In the optinal plan of the present embodiment, on the basis of embodiment 1, as shown in Fig. 8 to Figure 10, braced frame 200 include upper support frame 201 and lower bracing frame 202；Upper support frame 201 is movably arranged in lower bracing frame 202；First thrust machine Structure 101 is fixed on upper support frame 201, and the second thrust mechanism 102 is fixed in lower bracing frame 202.

In the present embodiment, upper support frame 201 can be moved up and down along guide part 300, while can also be relative to lower support Frame 202 is moved left and right or is rotated；Lower bracing frame 202 can be moved up and down along guide part 300.

Preferably, the first thrust mechanism 101 is fixed at the bottom of upper support frame 201, and the second thrust mechanism 102 is fixed The top of lower bracing frame 202 is set.

It further include translatable drive section 400 in the optinal plan of the present embodiment, translatable drive section 400 is arranged in support frame The side of frame 200；One end of translatable drive section 400 is arranged on upper support frame 201, and the other end of translatable drive section 400 is arranged In lower bracing frame 202.

In the present embodiment, translatable drive section 400 can drive upper support frame 201 to translate relative to lower bracing frame 202, from And the first thrust mechanism 101 is enabled to translate relative to the second thrust mechanism 102, so that respectively by the first thrust mechanism 101 Adjacent adhering layer is separated from each other with the green body 000 of the second thrust mechanism 102 clamping.

By translatable drive section 400 make upper support frame 201 relative to lower bracing frame 202 translate so that respectively by Relative translation occurs for the adjacent adhering layer of the green body 000 that the first thrust mechanism 101 and the second thrust mechanism 102 clamp, and then makes Adjacent adhering layer is obtained to be separated from each other；The shearing of layering, the first thrust mechanism 101 and the are provided by translatable drive section 400 Two thrust mechanisms 102 are merely responsible for clamping, and especially the first thrust mechanism 101 need not further collaboration be flexible after clamping, point Layer operation easily facilitates control.

In the optinal plan of the present embodiment, the side of braced frame 200 is additionally provided with link mechanism 203；Upper support frame 201 are flexibly connected with lower bracing frame 202 by link mechanism 203.

In the present embodiment, one end of link mechanism 203 is movably connected in the side of upper support frame 201, link mechanism 203 The other end be movably connected in the ipsilateral of corresponding lower bracing frame 202；The setting of link mechanism 203 can limit upper support frame 201 translating stroke relative to lower bracing frame 202 has defencive function, improves the safety of device operation.

Also, link mechanism 203 has certain flexible stroke, it is therefore an objective to guarantee when translatable drive section 400 works, on Support frame 201 only translates, without being propped up in the vertical direction by link mechanism 203.

In the optinal plan of the present embodiment, translatable drive section 400 includes hydraulic cylinder structure.

In the present embodiment, hydraulic cylinder structure is stable, steadily carries out convenient for hierarchical operations, and can be realized fine Control.

Embodiment five:

In the optinal plan of the present embodiment, on the basis of embodiment 1, as shown in figure 11, braced frame 200 is wrapped Include upper support frame 201 and lower bracing frame 202；Upper support frame 201 is movably arranged in lower bracing frame 202；First thrust mechanism 101 It is fixed on upper support frame 201, the second thrust mechanism 102 is fixed in lower bracing frame 202.

In the present embodiment, upper support frame 201 can be moved up and down along guide part 300, while can also be relative to lower support Frame 202 is moved left and right or is rotated；Lower bracing frame 202 can be moved up and down along guide part 300.

Preferably, the first thrust mechanism 101 is fixed at the bottom of upper support frame 201, and the second thrust mechanism 102 is fixed The top of lower bracing frame 202 is set.

It further include torsion driving portion 500 in the optinal plan of the present embodiment, torsion driving portion 500 is arranged in support frame The end of frame 200；The one end for reversing driving portion 500 is arranged on upper support frame 201, the other end setting of torsion driving portion 500 In lower bracing frame 202.

In the present embodiment, torsion driving portion 500 can drive upper support frame 201 relative to lower bracing frame 202 in level Rotation in surface, so that the first thrust mechanism 101 is rotated relative to the second thrust mechanism 102, so that respectively by first The adjacent adhering layer of the green body 000 that thrust mechanism 101 and the second thrust mechanism 102 clamp is separated from each other.

By reverse driving portion 500 make upper support frame 201 relative to lower bracing frame 202 rotate so that respectively by The adjacent adhering layer of the green body 000 that first thrust mechanism 101 and the second thrust mechanism 102 clamp relatively rotates, and then makes Adjacent adhering layer is obtained to be separated from each other；The shearing of layering, the first thrust mechanism 101 and the are provided by torsion driving portion 500 Two thrust mechanisms 102 are merely responsible for clamping, and especially the first thrust mechanism 101 need not further collaboration be flexible after clamping, point Layer operation easily facilitates control.

In the optinal plan of the present embodiment, torsion driving portion 500 includes hydraulic cylinder structure.

In the present embodiment, hydraulic cylinder structure is stable, steadily carries out convenient for hierarchical operations, and can be realized fine Control.

Embodiment six:

In the optinal plan of the present embodiment, a kind of shearing-force type multilayer green body separator provided in this embodiment, difference In embodiment one, including separation unit 100, braced frame 200 and guide part 300；Braced frame 200 is movably arranged on guide part On 300；Separation unit 100 is fixed in braced frame 200；Separation unit 100 includes the first thrust mechanism 101, the first thrust Mechanism 101 is used to push a certain layer for the green body 000 being located in braced frame 200, and braced frame 200 is for limitation and green body The movement of the adjacent layer of 000 a certain layer.

In the present embodiment, braced frame 200 limits the movement of a certain layer for the green body 000 being placed in it, and first pushes away Force mechanisms 101 clamp and push and be supported the adjacent layer of a certain layer of green body 000 of the limitation of frame 200, so that 000 phase of green body The layer of adjacent adhesion is separated；Braced frame 200 is moved up and down along guide part 300, enables separation unit 100 in vertical side It moves up, so that separation unit 100 can separate the layer of all adhesions of green body 000；This separator uses The layer of the adhesion of shearing separation green body 000, and the shear resistance of green body 000 is weaker than tensile capacity, thus needed for green body 000 is layered Energy consumption it is lower, also, compared to using pulling force, the absolute value of the power needed when using shearing is smaller, the overall structure of device More simplify, working efficiency is also higher.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；To the greatest extent Pipe present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: its according to So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into Row equivalent replacement；And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution The range of scheme.

Claims (10)

1. a kind of shearing-force type multilayer green body separator, which is characterized in that including separation unit (100), braced frame (200) and lead To portion (300)；

The braced frame (200) is movably arranged on the guide part (300)；

The separation unit (100) is fixed on the braced frame (200)；

The separation unit (100) includes the first thrust mechanism (101) and the second thrust mechanism (102) being correspondingly arranged up and down, institute The first thrust mechanism (101) are stated for pushing a certain layer of the green body (000) in the braced frame (200), described the Two thrust mechanisms (102) are used to limit the movement of the layer adjacent with a certain layer of the green body (000).

2. shearing-force type multilayer green body separator according to claim 1, which is characterized in that the braced frame (200) Both ends be provided with second thrust mechanism (102).

3. shearing-force type multilayer green body separator according to claim 1 or 2, which is characterized in that the braced frame (200) both ends are provided with first thrust mechanism (101).

4. shearing-force type multilayer green body separator according to claim 1, which is characterized in that second thrust mechanism (102) quantity is 2 groups；

First thrust mechanism (101) setting is between the second thrust mechanism (102) described in 2 groups.

5. shearing-force type multilayer green body separator according to claim 1, which is characterized in that the braced frame (200) Including upper support frame (201) and lower bracing frame (202)；

The upper support frame (201) is movably arranged on the lower bracing frame (202)；

First thrust mechanism (101) is fixed on the upper support frame (201), second thrust mechanism (102) It is fixed on the lower bracing frame (202).

6. shearing-force type multilayer green body separator according to claim 5, which is characterized in that further include translatable drive section (400), side of translatable drive section (400) setting in the braced frame (200)；

One end of the translatable drive section (400) is arranged on the upper support frame (201), the translatable drive section (400) The other end is arranged on the lower bracing frame (202).

7. shearing-force type multilayer green body separator according to claim 6, which is characterized in that the braced frame (200) Side be additionally provided with link mechanism (203)；

The upper support frame (201) is flexibly connected with the lower bracing frame (202) by link mechanism (203).

8. shearing-force type multilayer green body separator according to claim 6, which is characterized in that the translatable drive section It (400) include hydraulic cylinder structure.

9. shearing-force type multilayer green body separator according to claim 5, which is characterized in that further include torsion driving portion (500), end of torsion driving portion (500) setting in the braced frame (200)；

One end of torsion driving portion (500) is arranged on the upper support frame (201), torsion driving portion (500) The other end is arranged on the lower bracing frame (202).

10. a kind of shearing-force type multilayer green body separator, which is characterized in that including separation unit (100), braced frame (200) and Guide part (300)；

The braced frame (200) is movably arranged on the guide part (300)；

The separation unit (100) is fixed on the braced frame (200)；

The separation unit (100) includes the first thrust mechanism (101), and first thrust mechanism (101) is located at institute for pushing The a certain layer of the green body (000) in braced frame (200) is stated, the braced frame (200) is for limiting and the green body (000) The adjacent layer of a certain layer movement.