Get final product the guide pillar mounting structure of the brick-making shaping machine of automatic stacking after a kind of moulding
Technical field
The utility model relates to a kind of brick equipment, specifically the guide pillar mounting structure of the brick-making shaping machine in the brick equipment.
Background technology
Brick equipment generally comprises frame, slab feeding mechanism, brick-making shaping machine, workbench, feeding machanism, fragment of brick transmission mechanism, stacking mechanism and self-con-tained unit, and the work schedule of feeding machanism, brick-making shaping machine, slab feeding mechanism, fragment of brick transmission mechanism and stacking mechanism is controlled by self-con-tained unit.
Slab feeding mechanism is located at the rear end of brick-making shaping machine, is used for flat supporting plate is sent to the workbench that is positioned at the brick-making shaping machine below.Feeding machanism is located at a side of brick-making shaping machine, is used for material is delivered in the die cavity that counterdie and supporting plate by mould form; The fragment of brick transmission mechanism is located at the front end of brick-making shaping machine, is used for the fragment of brick after the demoulding is sent workbench together with supporting plate; Stacking mechanism is located at the end of fragment of brick transmission mechanism, is used for fragment of brick is carried out stacking together with supporting plate.
During production, slab feeding mechanism is sent to the tabular supporting plate on the workbench of brick-making shaping machine below, then, the counterdie of brick-making shaping machine drops to be stacked in and forms a die cavity on the supporting plate, the feeding trolley of feeding machanism is sent to the counterdie top along guide rail, material is sent in the above-mentioned die cavity, and workbench vibration is carried out jolt ramming to material, then by carrying out punch forming with the suitable patrix of counterdie.During the demoulding, mould emptier will be carried on the counterdie, makes counterdie be detached into the shaped brick piece, and then will carry on the patrix, just can supporting plate and moulding fragment of brick be sent by the fragment of brick transmission mechanism.
Existing this brick equipment, for the fragment of brick after the moulding is sent to stacking mechanism, the fragment of brick of every mould all must be by the supporting plate delivery to stacking mechanism, it also is one deck supporting plate one deck fragment of brick during piling, the use amount of supporting plate is very large, because the unit price of supporting plate is higher, it is that the fragment of brick manufacturer wishes the problem that solves that the cost that how to reduce supporting plate drops into always.
In order to address the above problem, the applicant designed after a kind of moulding can automatic stacking mobile stripping forming machine, it comprises support arm and forming machine body, be provided with the track that extends along the fragment of brick direction of transfer on the outer frame, be provided with the therewith corresponding pulley of track on the forming machine body, the forming machine body hang on the track by this pulley is unsettled, also is provided with on the outer frame and can promotes the pushing mechanism that the forming machine body slides along track.Like this, just the stacking mechanism of fragment of brick production equipment can be set directly at the rear end of forming machine, after the mold die moulding of forming machine body (before the demoulding), self-con-tained unit control pushing mechanism action by the fragment of brick production equipment, promote the forming machine body and shift to the stacking mechanism that is placed with in advance supporting plate, drop on the supporting plate that places on the stacking mechanism after the fragment of brick demoulding, but fragment of brick direct demold then is stacked on the fragment of brick of a front demoulding, like this, the fragment of brick of multimode can be directly stacking, need not the supporting supporting plate of every modular brick piece (in actual production, generally be the supporting supporting plate of fragment of brick of ten moulds), can significantly reduce the supporting plate use amount, thereby the supporting plate cost that greatly reduces the fragment of brick manufacturer drops into.
The existing forming machine body that is used for the mobile demoulding, its structure as Figure 1-3, comprise frame, upper plate 1, fixed head 2, pressure head guide plate 3, counterdie connector 4, pressure head oil cylinder, demoulding oil jar, patrix 5, counterdie 6 and vertical four guide pillars 7 that arrange, the upper/lower terminal of four guide pillars 7 fixedly is set in respectively four angles of upper plate 1 and counterdie connector 4, and the lower end of four guide pillars 7 penetrates counterdie connector 4 and extends roughly and flush with the bottom of counterdie 6; Fixed head 2 and pressure head guide plate 3 are set in turn between upper plate 1 and the counterdie connector 4 from top to bottom, and four angles of fixed head 1 respectively correspondence wear and be fixed on four guide pillars 7, four angles of pressure head guide plate 3 respectively corresponding activity are set on four guide pillars 7; The two ends of demoulding oil jar are contained in respectively on upper plate 1 and the fixed head 2, drive counterdie 6 liftings by transmission mechanism during work; Patrix 5 is installed on the bottom of pressure head guide plate 3, and the two ends of pressure head oil cylinder are contained in respectively on pressure head guide plate 3 and the fixed head 2, drives patrix 5 liftings during work.
This forming machine body, the lower end of its four guide pillars penetrates below the bottom that the counterdie connector extends counterdie, because pressing mold aftershaping machine body need move to stacking mechanism, like this, four guide pillars will be avoided the workbench of forming machine body below, spacing between guide pillar is larger, causes the volume of forming machine body comparatively huge.
Large and cause the comparatively huge problem of volume of forming machine body in order to solve spacing between above-mentioned guide pillar, the applicant has applied for after a kind of moulding the guide pillar mounting structure of brick-making shaping machine that can automatic stacking, shown in Fig. 4-6, it comprises upper plate 1, fixed head 2, pressure head guide plate 3, counterdie connector 4 and vertical four guide pillars 7 that arrange, the upper end of four guide pillars 7 fixedly is set in respectively four angles of upper plate 1, fixed head 2 and pressure head guide plate 3 are set in turn in upper plate 1 below from top to bottom, and four angles of fixed head 2 respectively correspondence wear and are fixed on four guide pillars 7, four angles of pressure head guide plate 3 respectively corresponding activity are set on four guide pillars 7, and counterdie connector 4 is arranged at the below of pressure head guide plate 3; Be provided with guide pillar mount pad 9 between pressure head guide plate 3 and the counterdie connector 4, particularly, the week of counterdie connector 4 is provided with support bar 8 along extending upwardly, guide pillar mount pad 9 is set up in support bar 8 upper ends, the lower end activity for 91, four guide pillars 7 of passage of feeding trolley turnover of leaving between the counterdie 6 of guide pillar mount pad 9 and brick-making shaping machine is set on this guide pillar mount pad 9 and does not exceed the bottom of this guide pillar mount pad 9.This guide pillar mounting structure is because the lower end of four guide pillars is hidden, when pressing mold aftershaping machine body need move to stacking mechanism, the workbench of four guide pillars and forming machine body below is irrelevant mutually, thereby can dwindle the spacing between guide pillar, so that the forming machine body construction is comparatively compact, small volume.
But this guide pillar mounting structure, also be provided with support bar 8 and guide pillar mount pad 9 on its counterdie connector 4, complicated structure not only, and, guide pillar mount pad 9 and support bar 8 block around above the counterdie, are unfavorable for when brick-making shaping machine is produced the forming machine body course of work being monitored.
The utility model content
The purpose of this utility model provides after a kind of moulding the guide pillar mounting structure of brick-making shaping machine that can automatic stacking, it not only can make the forming machine body construction comparatively compact, small volume, and, more simplify on the structure, and be beneficial to when brick-making shaping machine is produced the forming machine body course of work is monitored.
To achieve these goals, the technical solution of the utility model is such:
Get final product the guide pillar mounting structure of the brick-making shaping machine of automatic stacking after a kind of moulding, comprise upper plate, fixed head, pressure head guide plate, counterdie connector and vertical four guide pillars that arrange, the upper end of four guide pillars fixedly is set in respectively four angles of upper plate, fixed head and pressure head guide plate are set in turn in the upper plate below from top to bottom, and four angles of fixed head respectively correspondence wear and are fixed on four guide pillars, four angles of pressure head guide plate respectively corresponding activity are set on four guide pillars, and the counterdie connector is arranged at the below of pressure head guide plate; Above-mentioned counterdie connector is the outer die sleeve of counterdie that is located in the forming machine body, the upper surface of the upper surface of the opposite side that this die sleeve is corresponding with the direct of travel of feeding trolley and the counterdie of forming machine body flushes or a little less than the upper surface of the counterdie of forming machine body, the lower end activity of above-mentioned four guide pillars is set on this die sleeve and does not exceed the bottom of this die sleeve.
Above-mentioned four guide pillars be distributed in twos on the above-mentioned die sleeve with the perpendicular opposite side of the direct of travel of feeding trolley on.
Above-mentioned die sleeve is frame shape structure, and the counterdie of forming machine body is embedded in this frame shape structure and locks together.
After adopting such scheme, guide pillar mounting structure of the present utility model, its counterdie connector is the outer die sleeve of counterdie that is located in the forming machine body, the upper surface of the upper surface of the opposite side that this die sleeve is corresponding with the direct of travel of feeding trolley and the counterdie of forming machine body flushes or a little less than the upper surface of the counterdie of forming machine body, the lower end activity of four guide pillars is set on this die sleeve and does not exceed the bottom of this die sleeve.Compared with prior art, this design of guide pillar mounting structure of the present utility model, because the lower end of four guide pillars is hidden, when pressing mold aftershaping machine body need move to stacking mechanism, the workbench of four guide pillars and forming machine body below is irrelevant mutually, thereby can dwindle the spacing between guide pillar, so that the forming machine body construction is comparatively compact, small volume.And guide pillar is directly installed on the die sleeve, and structure is more simplified, and does not have shelter around the top of the counterdie of forming machine body again, is beneficial to when brick-making shaping machine is produced the forming machine body course of work is monitored.
Description of drawings
Fig. 1 is the front view of existing forming machine body;
Fig. 2 is the left view of existing forming machine body;
Fig. 3 is the stereogram of existing forming machine body;
Fig. 4 is the front view of another forming machine body;
Fig. 5 is the left view of another forming machine body;
Fig. 6 is the stereogram of another forming machine body.
Fig. 7 is the front view of the forming machine body of use guide pillar mounting structure of the present utility model;
Fig. 8 is the left view of the forming machine body of use guide pillar mounting structure of the present utility model;
Fig. 9 is the stereogram of the forming machine body of use guide pillar mounting structure of the present utility model.
Among the figure:
The 1-upper plate
The 2-fixed head
3-pressure head guide plate
4-counterdie connector
The 4a-die sleeve
The 4a1-installing plate
The 4a2-substrate
The 5-patrix
The 6-counterdie
The 7-guide pillar
71-guide pillar Connection Block
The 8-support bar
9-guide pillar mount pad
The 91-passage
The specific embodiment
Get final product the guide pillar mounting structure of the brick-making shaping machine of automatic stacking after a kind of moulding of the utility model, shown in Fig. 7-9, comprise upper plate 1, fixed head 2, pressure head guide plate 3, die sleeve 4a and vertical four guide pillars 7 that arrange.
The upper end of four guide pillars 7 fixedly is set in respectively four angles of upper plate 1, fixed head 2 and pressure head guide plate 3 are set in turn in upper plate 1 below from top to bottom, and four angles of fixed head 2 respectively correspondence wear and are fixed on four guide pillars 7, four angles of pressure head guide plate 3 respectively corresponding activity are set on four guide pillars 7, patrix 5 is installed on the bottom of pressure head guide plate 3, the two ends of pressure head oil cylinder are contained in respectively on pressure head guide plate 3 and the fixed head 2, drive patrix 5 liftings during work.Die sleeve 4a is located in outside the counterdie 6 and by securing member and locks together, and it is upper and do not exceed the bottom of this die sleeve 4a that the upper surface of the opposite side that die sleeve 4a is corresponding with the direct of travel of feeding trolley and the upper surface of counterdie 6 flushes or a little less than the upper surface of counterdie 6, the lower end activity of four guide pillars 7 are set in this die sleeve 4a.The two ends of demoulding oil jar are contained in respectively on upper plate 1 and the fixed head 2, drive die sleeve 4 by transmission mechanism during work and drive counterdie 6 liftings.
Particularly, the square box shape structure of die sleeve 4a for being formed by connecting by a pair of installing plate 4a1 and a pair of substrate 4a2, a pair of substrate 4a2 is arranged on the counterdie 6 outer opposite sides corresponding with the direct of travel of feeding trolley, the two ends of this substrate 4a2 are recessed formation step respectively, a pair of installing plate 4a1 is arranged on the perpendicular opposite side of counterdie 6 direct of travels outer and feeding trolley, and the two ends of installing plate 4a1 are set up in respectively on the step at aforesaid substrate 4a2 two ends, adjacent installing plate 4a1 and substrate 4a2 link together by securing member respectively, form above-mentioned square box shape structure, counterdie 6 is embedded in this frame shape structure and by securing member and locks together.And the upper surface of the upper surface of substrate 4a2 and counterdie 6 flushes or a little less than the upper surface of counterdie 6, the upper surface of installing plate 4a1 can flush with the upper surface of substrate 4a2.The lower end that is respectively equipped with 71, four guide pillars 7 of guide pillar Connection Block near the place at its two ends on each installing plate 4a1 respectively activity is set in the corresponding guide pillar Connection Block 71.
Above-described embodiment and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field all should be considered as not breaking away from patent category of the present utility model to its suitable variation or modification of doing.