CN201036885Y - Bidirectional pressing mechanism for brick machine - Google Patents
Bidirectional pressing mechanism for brick machine Download PDFInfo
- Publication number
- CN201036885Y CN201036885Y CNU200720006310XU CN200720006310U CN201036885Y CN 201036885 Y CN201036885 Y CN 201036885Y CN U200720006310X U CNU200720006310X U CN U200720006310XU CN 200720006310 U CN200720006310 U CN 200720006310U CN 201036885 Y CN201036885 Y CN 201036885Y
- Authority
- CN
- China
- Prior art keywords
- walking beam
- built
- following
- power
- mold core
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Landscapes
- Press-Shaping Or Shaping Using Conveyers (AREA)
Abstract
The utility model relates to a device for treating or processing forming product, in particular to a two-way pressing mechanism of brick press, comprising an upper fixed beam, a lower fixed beam, a guide column and a power mechanism. The utility model has the following key structural points: the device also comprises an upper movable beam and a lower movable beam; both ends of the guide column are respectively arranged on the upper fixed beam and the lower fixed beam; the upper movable beam and the lower movable beam are positioned between the upper fixed beam and the lower fixed beam and slide along the guide column; the upper mould core, the lower mould core and the mould frame of a mould are arranged on the upper movable beam, the lower movable beam and one of the fixed beams; the power mechanism comprises an upper movable beam power and a lower movable beam power with the upper movable beam power connected with the upper movable beam and the lower movable beam power connected with the lower movable beam. Through controlling the motion of the mould frame and one of the mould cores, the utility model can realize both single-side pressing and double-side pressing along with tight brick pressing and high quality of shaped brick; moreover, the utility model only needs one main power and has a simple and compact structure, light weight, low cost and convenience for operation.
Description
Technical field
The utility model relates to the bidirectional pressing mechanism of the equipment, particularly a kind of brick machine of a kind of processing or machine-shaping goods.
Technical background
The briquetting machine of the brick machine of prior art generally comprises upper beam, underbeam, guide upright post and actuating unit, mould has upper mold core, lower mold core and framed, upper mold core is installed on the upper beam, lower mold core is installed on the underbeam, when pressing brick, perhaps put the beams in place and slide at the effect lower edge of actuating unit guide upright post, drive the framed interior blank of the downward punching press of upper mold core, and underbeam, lower mold core and framed maintaining static, perhaps underbeam slides at the effect lower edge of actuating unit guide upright post, drive the lower mold core blank of punching press in framed that make progress, and put the beams in place, upper mold core and framed maintaining static.Such brick machine only pressurizes from the single face of blank, and the adobe density unevenness that causes extruding is spared, and compression face is closely knit but not compression face loose, influences the quality of brick.
Summary of the invention
Technical problem to be solved in the utility model is to provide a kind of can either carry out the single face pressurization as required, can two-sidedly pressurize again, presses brick closely knit, makes the bidirectional pressing mechanism of the measured brick machine of forming brick matter.
The utility model is realized by following approach.
The bidirectional pressing mechanism of brick machine, comprise built-in beam, following built-in beam, guide upright post and actuating unit, its structural feature is: also comprise walking beam and following walking beam, the two ends of guide upright post are installed on respectively on built-in beam and the following built-in beam, last walking beam and following walking beam are between last built-in beam and following built-in beam, and slide along guide upright post, the upper mold core of mould, lower mold core and framed being installed on walking beam and following walking beam and one of them built-in beam, actuating unit comprises walking beam power and following walking beam power, last walking beam power is connected with last walking beam, and following walking beam power is connected with following walking beam.
Like this, upper mold core with mould, lower mold core and framed being installed on respectively on two walking beams and the built-in beam, therefore, framed and one of them core rod of mould is for movably, when pressing brick, can control the framed speed of service and position by actuating unit, by adjusting speed difference framed and the core rod motion, can realize single face compacting (when framed translational speed<<the core rod translational speed, framed translational speed ≈ core rod translational speed) and two-sided compacting (when framed translational speed=0.5 core rod translational speed), obtain packing base substrate comparatively uniformly.And, utilize mode framed and that core rod moves to realize two-way compacting, only need an active force, simple and compact for structure, in light weight, cost is low, and is easy to operate.
Structure of the present utility model can be specially:
Upper mold core, mounting means framed and lower mold core have two kinds:
First kind is
Perhaps upper mold core is fixed on the walking beam, the framed time walking beam that is fixed in, and lower mold core is fixed on the following built-in beam.
Like this, with upper mold core and framed being installed on the walking beam, make upper mold core and framed for movable, when pressing brick, upper mold core and framed moving downward, lower mold core is fixed, when framed translational speed<<during the upper mold core translational speed, be the single face compacting, and close pine down on the base substrate, when framed translational speed ≈ core rod translational speed, also be the single face compacting, and Panasonic is close on the base substrate, when framed translational speed=0.5 core rod translational speed, then be two-sided compacting, the base substrate packing is comparatively even.
When upper mold core is fixed in walking beam, the framed walking beam down that is fixed in, when lower mold core was fixed in down on the built-in beam, actuating unit or be installed on the built-in beam was perhaps installed down on the built-in beam.
Last walking beam power and following walking beam power are a kind of hydraulic cylinder, one of them of the hydraulic cylinder stiff end of last walking beam power or flexible end is installed on the built-in beam, another then is connected with last walking beam, following walking beam power has two hydraulic cylinders, one of them of its stiff end or flexible end is installed on the two ends of built-in beam or following built-in beam, and another then is connected with the two ends of following walking beam.
Like this, when upper mold core was installed on the walking beam, last walking beam power was active force, and last walking beam dynamic fixation end is installed on the built-in beam.Following walking beam power is two liquid parting cylinder pressures, and two hydraulic cylinder stiff ends both can be installed on the last built-in beam of top, also can be installed on the following built-in beam of below.
Second kind of mounting means of upper mold core, framed and lower mold core:
Perhaps upper mold core is fixed on the built-in beam, framed being fixed on the walking beam, and lower mold core is fixed on the following walking beam.
Like this,, make lower mold core and framed for movable with lower mold core and framed being installed on the walking beam, when pressing brick, lower mold core and framed moving upward, upper mold core is fixed, thereby can realize single face compacting and two-sided compacting equally.
When upper mold core is fixed on the built-in beam, framed being fixed on the walking beam, when lower mold core was fixed in down on the walking beam, actuating unit or install on the built-in beam perhaps was installed on down on the built-in beam.
Last walking beam power and following walking beam power are a kind of hydraulic cylinder, last walking beam power has two hydraulic cylinders, one of them of its stiff end or flexible end is installed on the two ends of built-in beam or following built-in beam, its flexible end is connected with the two ends of last walking beam, one of them of the stiff end of the hydraulic cylinder of following walking beam or flexible end is installed on down on the built-in beam, and another then is connected with following walking beam.
Same, when lower mold core was installed on down on the walking beam, following walking beam power was active force, following walking beam power is installed on down on the built-in beam.Last walking beam power is two liquid parting cylinder pressures, and two hydraulic cylinder stiff ends both can be installed on the last built-in beam of top, also can be installed on the following built-in beam of below.
In sum, the utility model has following advantage compared to prior art: by controlling framed and motion one of them core rod, thereby can either realize the single face compacting, can realize two-sided compacting again, the pressure brick is closely knit, the forming brick quality is good, and, only need an active force, simple and compact for structure, in light weight, cost is low, and is easy to operate.
Description of drawings
Fig. 1 is a structural representation of the present utility model.
Fig. 2 is the right view of Fig. 1.
Fig. 3 be framed translational speed of the present utility model<<the pressure brick schematic diagram of upper mold core translational speed.
Fig. 4 is the pressure brick schematic diagram of framed translational speed ≈ upper mold core translational speed of the present utility model.
Fig. 5 is the pressure brick schematic diagram of framed translational speed of the present utility model=0.5 upper mold core translational speed.
Wherein, on 1 on 2 times built-in beams of built-in beam, 3 guide upright posts, 4 actuating units 41 on 42 times walking beam power 5 of walking beam power 6 times walking beams of walking beam, 7 upper mold core, 8 lower mold core 9 framed.
The specific embodiment
Most preferred embodiment:
With reference to Fig. 1, Fig. 2, the bidirectional pressing mechanism of brick machine, comprise built-in beam 1, following built-in beam 2, guide upright post 3 and actuating unit 4, also comprise walking beam 5 and following walking beam 6, the two ends of guide upright post 3 are installed on respectively on built-in beam 1 and the following built-in beam 2, last walking beam 5 and following walking beam 6 are between last built-in beam 1 and following built-in beam 2, and along guide upright post 3 slips, actuating unit 4 comprises walking beam power 41 and following walking beam power 42, upper mold core 7 is fixed on the walking beam 5, framed 9 are fixed in following walking beam 6, and lower mold core 8 is fixed on the following built-in beam 2.Last walking beam power 41 and following walking beam power 42 are a kind of hydraulic cylinder, last walking beam power 41 is active force, its hydraulic cylinder stiff end is installed on the built-in beam 1, its flexible end is connected with last walking beam 5, following walking beam power 42 is that two hydraulic cylinders are demoulding power, the stiff end of its hydraulic cylinder is installed on the two ends of built-in beam 1, and its flexible end is connected with the two ends of following walking beam 6.
With reference to Fig. 3, upper mold core 7 and framed 9 is installed on the walking beam, make upper mold core 7 and framed 9 for movable, when pressing brick, upper mold core 7 and framed 9 moves downward, and lower mold core 8 is fixing, when framed 9 translational speeds<<during upper mold core 7 translational speeds, be the single face compacting, close pine down on the base substrate.
With reference to Fig. 4, upper mold core 7 and framed 9 is installed on the walking beam, make upper mold core 7 and framed 9 for movable, when pressing brick, upper mold core 7 and framed 9 moves downward, and lower mold core 8 is fixing, when framed translational speed ≈ core rod translational speed, also be the single face compacting, Panasonic is close on the base substrate.
With reference to Fig. 5, upper mold core 7 and framed 9 is installed on the walking beam, make upper mold core 7 and framed 9 for movable, when pressing brick, upper mold core 7 and framed 9 moves downward, and lower mold core 8 is fixing, when framed translational speed=0.5 core rod translational speed, then be two-sided compacting, the base substrate packing is comparatively even.
It is same as the prior art that the utility model is not stated part.
Claims (7)
1. the bidirectional pressing mechanism of brick machine, comprise built-in beam (1), following built-in beam (2), guide upright post (3) and actuating unit (4), it is characterized in that, also comprise walking beam (5) and following walking beam (6), the two ends of guide upright post (3) are installed on respectively on built-in beam (1) and the following built-in beam (2), last walking beam (5) and following walking beam (6) are positioned between built-in beam (1) and the following built-in beam (2), and slide along guide upright post (3), the upper mold core of mould (7), lower mold core (8) and framed (9) are installed on walking beam (5) and following walking beam (6) and one of them built-in beam, actuating unit (4) comprises walking beam power (41) and following walking beam power (42), last walking beam power (41) is connected with last walking beam (5), and following walking beam power (42) is connected with following walking beam (6).
2. the bidirectional pressing mechanism of brick machine according to claim 1 is characterized in that, perhaps upper mold core is fixed on the walking beam (5), the framed time walking beam (6) that is fixed in, and lower mold core is fixed on the following built-in beam.
3. the bidirectional pressing mechanism of brick machine according to claim 2 is characterized in that, actuating unit (4) or be installed on the built-in beam (1) is perhaps installed down on the built-in beam (2).
4. the bidirectional pressing mechanism of brick machine according to claim 3, it is characterized in that, last walking beam power (41) and following walking beam power (42) are a kind of hydraulic cylinder, one of them of the stiff end of the hydraulic cylinder of last walking beam power or flexible end is installed on the built-in beam (1), another then is connected with last walking beam, following walking beam power has two hydraulic cylinders, one of them of its stiff end or flexible end is installed on the two ends of built-in beam (1) or following built-in beam (2), and another then is connected with the two ends of following walking beam.
5. the bidirectional pressing mechanism of brick machine according to claim 1 is characterized in that, perhaps upper mold core is fixed on the built-in beam (1), framed being fixed on the walking beam (5), and lower mold core is fixed on the following walking beam (6).
6. the bidirectional pressing mechanism of brick machine according to claim 5 is characterized in that, actuating unit (4) or install on the built-in beam (1) perhaps is installed on down on the built-in beam (2).
7. the bidirectional pressing mechanism of brick machine according to claim 6, it is characterized in that, last walking beam power (41) and following walking beam power (42) are a kind of hydraulic cylinder, last walking beam power has two hydraulic cylinders, one of them of its stiff end or flexible end is installed on the two ends of built-in beam (1) or following built-in beam (2), another then is connected with the two ends of last walking beam, one of them of the stiff end of the hydraulic cylinder of following walking beam or flexible end is installed on down on the built-in beam (1), and another then is connected with following walking beam.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNU200720006310XU CN201036885Y (en) | 2007-02-09 | 2007-02-09 | Bidirectional pressing mechanism for brick machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNU200720006310XU CN201036885Y (en) | 2007-02-09 | 2007-02-09 | Bidirectional pressing mechanism for brick machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201036885Y true CN201036885Y (en) | 2008-03-19 |
Family
ID=39209393
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNU200720006310XU Expired - Lifetime CN201036885Y (en) | 2007-02-09 | 2007-02-09 | Bidirectional pressing mechanism for brick machine |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN201036885Y (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101195237B (en) * | 2007-02-09 | 2011-06-08 | 福建海源自动化机械股份有限公司 | Bidirectional pressing mechanism of brick machine |
| CN107696258A (en) * | 2017-10-25 | 2018-02-16 | 湖北亿佳欧电子陶瓷股份有限公司 | A kind of resistor ceramic mud rod formation system |
-
2007
- 2007-02-09 CN CNU200720006310XU patent/CN201036885Y/en not_active Expired - Lifetime
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101195237B (en) * | 2007-02-09 | 2011-06-08 | 福建海源自动化机械股份有限公司 | Bidirectional pressing mechanism of brick machine |
| CN107696258A (en) * | 2017-10-25 | 2018-02-16 | 湖北亿佳欧电子陶瓷股份有限公司 | A kind of resistor ceramic mud rod formation system |
| CN107696258B (en) * | 2017-10-25 | 2024-01-23 | 湖北亿佳欧电子陶瓷股份有限公司 | Resistor ceramic mud rod forming system |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN101195237B (en) | Bidirectional pressing mechanism of brick machine | |
| CN202963201U (en) | Blank drawing die | |
| CN208305871U (en) | A kind of braking panel forming machine | |
| CN109016599A (en) | A kind of adjustable punching mechanism using more forming blocks molds of lower mold height | |
| CN201036885Y (en) | Bidirectional pressing mechanism for brick machine | |
| CN206124064U (en) | Inferior gram force board is with drawing of patterns all -in -one of exerting pressure | |
| CN203418626U (en) | Inorganic fireproof heat insulation plate forming device | |
| CN206186214U (en) | Hydraulic press with a collection die sinking, compress tightly, device that three functions of leveling are integrative | |
| CN206124269U (en) | A automatic adjustment type biasing means for ya keli board | |
| CN206251813U (en) | A kind of semi-automatic moon cake press | |
| CN206884214U (en) | A kind of secondary ejecting mechanism for the board mold that rubs | |
| CN209505170U (en) | A kind of platemaking equipment | |
| CN1322972C (en) | Top pressure pressurizing mechanism for powder-forming press | |
| CN104875479B (en) | A kind of laterally opened continuous screen printing device | |
| CN207474255U (en) | A kind of integrated inductor molding machine | |
| CN202399374U (en) | Bidirectional counter-pressing ceramic powder forming hydraulic press | |
| CN215969734U (en) | Pressure forming mould box molding press | |
| CN1583385A (en) | Pressing apparatus for large-size ceramic thin-plates (bricks) | |
| CN108749295A (en) | A kind of cardboard imprinting apparatus | |
| CN201566032U (en) | Fully-automatic bidirectional pressure adding brick making machine | |
| CN208469119U (en) | A kind of cold press overlayed for mark diaphragm | |
| CN220661511U (en) | Soundproof cotton mould pressing device | |
| JPH0314559B2 (en) | ||
| CN207985403U (en) | Soft package positioning and collecting device | |
| CN217495307U (en) | Hydraulic machinery extrusion equipment |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C56 | Change in the name or address of the patentee |
Owner name: FUJIAN HAIYUAN AUTOMATION MACHINERY CO. Free format text: FORMER NAME OR ADDRESS: HAIYUAN AUTOMATIC MACHINERY EQUIPMENT CO., LTD., FUJIAN |
|
| CP03 | Change of name, title or address |
Address after: Tieling industrial concentration area, Fujian, Minhou Province, China: 350100 Patentee after: Fujian Haiyuan Automatization Machinery Co., Ltd. Address before: Jinshan Industrial Zone, Cangshan District, Fujian, Fuzhou Province, China: 350000 Patentee before: Fujian Haiyaun Automatic Machines Equipment Co., Ltd. |
|
| AV01 | Patent right actively abandoned |
Granted publication date: 20080319 Effective date of abandoning: 20070209 |