CN217573930U - Core pulling structure capable of converting sliding block angle - Google Patents

Abstract

The utility model discloses a conversion slider angle structure of loosing core relates to the slider field, including fixed horizontal pole, the both sides limit symmetric welding of fixed horizontal pole has fixed side, fixing hole has evenly been seted up to the top surface of fixed side, the one end horizontal welding of fixed horizontal pole has the connection inserted bar, the end cover hole has been seted up at the one end level of keeping away from the connection inserted bar to fixed horizontal pole, the utility model discloses utilizing the demand that can the removal drawing of patterns of multiple longer stroke can be satisfied to the formula of splicing structure, pneumatic type's regulation operation makes more labour saving and time saving when adjusting simultaneously, and the flip structure of recess formula makes the upset operation that the angle of upset regulation can be wide-angle, also can satisfy multiple angle modulation needs simultaneously, and the device adopts the formula of accomodating to adjust the needs that the structure had satisfied great angular adjustment, is equipped with electrical operation simultaneously and can high-efficient, can assemble the track length that needs as required at the formula of splicing structure simultaneously, the effectual popularization type that improves the use.

Description

Core pulling structure capable of converting sliding block angle

Technical Field

The utility model relates to a slider technical field specifically is a conversion slider angle structure of loosing core.

Background

The slide block is a mold component which can slide in a direction perpendicular to the mold opening and closing direction or at a certain angle with the mold opening and closing direction during the mold opening action of the mold. When the product structure enables the die to use the slide block under the condition that the die cannot be normally demolded without the slide block. The material has proper hardness and wear resistance and is enough to bear the friction of movement. The cavity or core portion of the slide is of the same hardness as the remainder of the cavity core.

What install when supplementary drawing of patterns is fixed structure to present slider, the appointed mould drawing of patterns position is installed to the immobilization, then accomplish the drawing of patterns operation under the removal of slider, and the structure of immobilization makes unable angle regulation satisfy the processing of loosing core of multi-angle, because some materials need carry out the adjustment many times to the angle when carrying out the drawing of patterns just can, so fixed slider is just when the removal of horizontal direction, it can not come the condition to have caused the drawing of patterns, serious can lead to the fact certain destructiveness to the mould, make the input cost of mould improved, also influence the reuse of mould when can influence the efficiency of mould drawing of patterns, let the mould life intermittent type condition take place, be unfavorable for present mould drawing of patterns and use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a conversion slider angle structure of loosing core, what to put forward in solving above-mentioned background art is the fixed knot structure to what install when the present supplementary drawing of patterns to present slider, the appointed mould drawing of patterns position of installing of immobilization, then accomplish drawing of patterns operation under the removal of slider, and the fixed structure makes can't carry out angle regulation and satisfies the processing of loosing core of multi-angle, because some materials need carry out adjustment many times to the angle when carrying out the drawing of patterns just can, so the slider of immobilization is just when the removal of horizontal direction, caused the drawing of patterns to take off the condition, serious can cause certain destructiveness to the mould, make the input cost of mould improved, also influence the reuse of mould when can influencing the efficiency of mould drawing of patterns, let the mould have the life condition of interrupting to take place, be unfavorable for the problem that present mould drawing of patterns was used.

In order to achieve the above object, the utility model provides a following technical scheme:

a core pulling structure for converting the angle of a sliding block comprises a fixed cross rod, wherein fixed side strips are symmetrically welded on two side edges of the fixed cross rod, the top surface of each fixed side strip is uniformly provided with a fixed through hole, one end of the fixed cross rod is horizontally welded with a connecting inserted rod, one end of the fixed cross rod, far away from the connecting inserted rod, is horizontally provided with an end sleeve hole, the top surface of the fixed cross rod is horizontally welded with a top clamping strip, the outer side edge of the top clamping strip is sleeved with a sliding clamping block, the top surface of the sliding clamping block is horizontally provided with a cylinder transverse groove, the inner side edge of the cylinder transverse groove is clamped with a turnover cylinder, the top surface of the sliding clamping block is horizontally provided with a turnover sleeve groove, and the inner side edge of the turnover sleeve groove is spliced with a turnover supporting plate, the utility model discloses a turnover mechanism, including upset layer board, cylinder cross slot, upset cover groove, connecting screw, fixed screw, cooperation bottom hole, end cover draw-in groove, stable trepanning has been seted up to the inboard side symmetry of cylinder cross slot, the upset hole has been seted up to the inboard side symmetry of upset cover groove, the both sides limit symmetric welding of upset cylinder has the end to link the inserted bar, the connecting sleeve groove has been seted up to the output level of upset cylinder, the back shroud groove has been seted up to one side of upset layer board, the inboard side level in back shroud groove is pegged graft and is had the interior pole of connection, the both sides limit symmetry of upset layer board is pegged graft and is had the upset angle bar.

As a preferred embodiment of the present invention: the number of fixed side strip is two, and two mutual parallel arrangement, and fixed side strip level is fixed to be set up in the both sides limit bottom surface position of fixed horizontal pole, and the one end of connecting the inserted bar is fixed to be set up in the one end central point of fixed horizontal pole and is put, and connects the inserted bar level and peg graft and set up in the inboard side that corresponds adjacent end trepanning.

As a preferred embodiment of the present invention: the top clamping strip is horizontally and fixedly arranged at the central line position of the top surface of the fixed cross rod, the bottom surface of the sliding clamping block is in butt joint with the top surface of the fixed cross rod, the cylinder transverse groove is horizontally arranged at the central line position of the top surface of the sliding clamping block, one end of the cylinder transverse groove is in butt joint with the central position of one side of the overturning sleeve groove, and the inner side of the cylinder transverse groove and the inner side of the overturning sleeve groove are kept in through joint.

As a preferred embodiment of the present invention: the output of upset cylinder extends to peg graft and sets up at the inboard side of back trepanning, and a side position of keeping away from the cylinder cross slot is seted up to upset trepanning level, and the bottom of fixed screw is perpendicular to the lower one-to-one butt joint setting and is kept leading to and connect the setting on the top of cooperation bottom hole, and the cooperation bottom hole is evenly seted up and is leaned on the one end position of near-end trepanning in the bottom surface of fixed horizontal pole, and the inside of cooperation bottom hole keeps leading to and connects the setting with the inside of pot cover hole.

As a preferred embodiment of the present invention: the bottom sleeve clamping groove is horizontally sleeved on the outer side edge of the top clamping strip, the stable sleeve hole is symmetrically arranged at one end position far away from the overturning sleeve groove, and the overturning hole is symmetrically arranged at one end position far away from the cylinder transverse groove.

As a preferred embodiment of the present invention: the one end of end inserted bar corresponds the grafting setting at the inboard side of stabilizing the trepanning, connects the cover groove and is to run through to set up and the level cup joints the outside limit that sets up in connecting the interior pole, and back cover groove is seted up and is put at a side edge central point of upset layer board, and the one end in back cover groove runs through the side of upset layer board and extends to the outside limit, and the one end of upset angle pole corresponds the grafting setting at the inboard side of upset hole.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a fixed horizontal pole level is placed the assigned position, it fixes fixed side strip at the assigned position to run through fixed through hole through the bolt, pass through bolt fixed connection with the core at the side of upset layer board, with connect screw fixed connection and set up, make after removing the slip block remove the assigned position at the outside limit of top joint strip, make under the extension of upset cylinder or shrink to stimulate and connecting the interior pole motion, let the inboard side upset effect of upset layer board at upset trepanning, let the upset layer board overturn and be convenient for loose core the processing to the assigned angle, and the cylinder cross slot can be accomodate the upset cylinder, the upset trepanning can be accomodate the processing to the upset layer board, and when needs fixed horizontal pole extension, connect the inside that the inserted bar corresponds to pegging graft the end trepanning with the one end of adjacent fixed horizontal pole, run through the cooperation bottom hole and fixed screw thread fixed connection setting through the bolt, the demand of the removal drawing of the drawing of patterns that has utilized the concatenation formula structure can satisfy multiple longer stroke, pneumatic type regulation operation makes more labour saving and time when the regulation, and more the angle can be more efficient splicing operation needs that the regulation needs of the effectual concatenation formula of the operation have also can be carried out the high-up when having utilized, the regulation of the operation needs of the high efficiency that the regulation needs have been adjusted, the operation that the formula needs have been satisfied the efficiency that the regulation needs of the great angle, the regulation needs of the great operation of the formula of the regulation.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of a core pulling structure for converting an angle of a slider;

FIG. 2 is a schematic structural view of a front section connection detail of a fixed cross bar of a core pulling structure for converting the angle of a sliding block;

FIG. 3 is a schematic structural view of a connection detail of an elevation section of a sliding clamping block of a core-pulling structure for converting an angle of a sliding block;

FIG. 4 is a schematic structural diagram of a connection detail of a side view section of a turnover cylinder of the core-pulling structure for converting the angle of a sliding block;

fig. 5 is a schematic structural diagram of side view connection details of an overturning supporting plate of a slider angle conversion core-pulling structure.

In the figure: 1. fixing the cross bar; 2. fixing the side strips; 3. a fixing through hole; 4. connecting the inserted link; 5. end sleeve holes; 6. ejecting the clamping strip; 7. sliding the clamping block; 8. a cylinder transverse groove; 9. turning over the air cylinder; 10. turning over the sleeve groove; 11. turning over the supporting plate; 12. a connecting screw hole; 13. fixing screw holes; 14. a fitting bottom hole; 15. a clamping groove is sleeved at the bottom; 16. stabilizing the trepanning; 17. turning over the hole; 18. the end is connected with an inserted link; 19. connecting sleeve grooves; 20. a rear sleeve groove; 21. connecting an inner rod; 22. the angle bar is turned over.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, a core pulling structure for changing angles of a slider includes a fixed cross bar 1, two fixed side bars 2 symmetrically welded to two side edges of the fixed cross bar 1, fixing through holes 3 uniformly formed on the top surface of the fixed side bars 2, a connecting inserted bar 4 horizontally welded to one end of the fixed cross bar 1, end sleeve holes 5 horizontally formed at one end of the fixed cross bar 1 away from the connecting inserted bar 4, two fixed side bars 2, and the two fixed side strips are arranged in parallel, the fixed side strips 2 are horizontally and fixedly arranged at the bottom surfaces of the two side edges of the fixed cross bar 1, one end of the connecting inserted bar 4 is fixedly arranged at the central position of one end of the fixed cross bar 1, the connecting inserted bar 4 is horizontally inserted and arranged at the inner side edge of the corresponding adjacent end sleeve hole 5, the top surface of the fixed cross bar 1 is horizontally welded with a top clamping strip 6, the outer side edge of the top clamping strip 6 is sleeved with a sliding clamping block 7, the top surface of the sliding clamping block 7 is horizontally provided with an air cylinder transverse groove 8, the top clamping strip 6 is horizontally and fixedly arranged at the central line position of the top surface of the fixed cross bar 1, the bottom surface of the sliding clamping block 7 is butted and arranged at the top surface of the fixed cross bar 1, the air cylinder transverse groove 8 is horizontally arranged at the central line position of the top surface of the sliding clamping block 7, one end of the cylinder transverse groove 8 is in butt joint with the central position of one side of the turning sleeve groove 10, the inner part of the cylinder transverse groove 8 is communicated with the inner side edge of the turning sleeve groove 10, the turning cylinder 9 is clamped at the inner side edge of the cylinder transverse groove 8, the turning sleeve groove 10 is horizontally arranged on the top surface of the sliding fixture block 7, the output end of the turning cylinder 9 extends and is in inserted connection with the inner side edge of the rear sleeve groove 20, the turning sleeve groove 10 is horizontally arranged at the position of one side edge far away from the cylinder transverse groove 8, the turning support plate 11 is inserted at the inner side edge of the turning sleeve groove 10, and one side edge of the turning support plate 11 is uniformly provided with connecting screw holes 12;

referring to fig. 2-5, in an embodiment of the present invention, a core pulling structure for changing angles of a slider is provided, wherein a top surface of a connecting rod 4 is provided with a fixed screw hole 13, a bottom surface of a fixed cross bar 1 is uniformly provided with a matching bottom hole 14, a bottom end of the fixed screw hole 13 is vertically and downwardly in one-to-one correspondence to be butted against and arranged at a top end of the matching bottom hole 14 to maintain a through connection arrangement, the matching bottom hole 14 is uniformly arranged at a position of the bottom surface of the fixed cross bar 1 near an end of the end sleeve hole 5, an inner portion of the matching bottom hole 14 and an inner portion of the end sleeve hole 5 maintain a through connection arrangement, a bottom sleeve slot 15 is horizontally arranged on a bottom surface of a sliding clamping block 7, an inner side edge of a cylinder transverse slot 8 is symmetrically provided with a stabilizing sleeve hole 16, an inner side edge of an overturning sleeve slot 10 is symmetrically provided with an overturning hole 17, the bottom sleeve slot 15 is horizontally sleeved on an outer side edge of a top clamping bar 6, the stabilizing sleeve hole 16 is symmetrically arranged at a position far from the overturning sleeve slot 10, turning hole 17 symmetry is seted up in the one end position of keeping away from cylinder transverse groove 8, the both sides limit symmetric welding of upset cylinder 9 has the end to link inserted bar 18, connecting sleeve groove 19 has been seted up to upset cylinder 9's output level, back cover groove 20 has been seted up to one side of upset layer board 11, the inboard side level of back cover groove 20 is pegged graft and is had interior pole 21 of connection, the both sides limit symmetry of upset layer board 11 is pegged graft and has been had upset angle bar 22, the end links the corresponding inboard side of pegging graft setting at stable trepanning 16 of one end of inserted bar 18, connecting sleeve groove 19 is to run through and sets up and the level cup joints the outside limit that sets up at interior pole 21 of connection, back cover groove 20 is seted up in the marginal central point of one side of upset layer board 11 and is put, and the one end of back cover groove 20 is run through the side of upset layer board 11 and is extended to the outside limit, the one end of upset angle bar 22 corresponds the inboard side of pegging graft setting at turning hole 17.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The utility model discloses a theory of operation is:

the assigned position is placed to fixed horizontal pole 1 level, it fixes fixed side strip 2 at the assigned position to run through fixing hole 3 through the bolt, pass through bolt fixed connection with the core at the side of upset layer board 11, with connect screw 12 fixed connection setting, make after 7 removal sliding fixture block make to move the assigned position in the outside limit of top joint strip 6, make to stimulate connecting interior pole 21 motion under the extension of upset cylinder 9 or shrink, let upset layer board 11 at the inboard side upset effect of upset trepanning 10, let upset layer board 11 overturn the assigned angle and be convenient for loose core the processing, and cylinder cross slot 8 can be accomodate to upset cylinder 9, upset trepanning 10 can be accomodate the processing to upset layer board 11, and when needs fixed horizontal pole 1 extension, connect the inside that inserted bar 4 corresponds the grafting to end trepanning 5 with the one end of adjacent fixed horizontal pole 1, through bolt through cooperation bottom hole 14 and fixed screw 13 screw thread fixed connection setting.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The core pulling structure for converting the angle of the sliding block comprises a fixed cross rod (1) and is characterized in that fixed side strips (2) are symmetrically welded on two side edges of the fixed cross rod (1), fixed through holes (3) are uniformly formed in the top surface of each fixed side strip (2), a connecting inserted rod (4) is horizontally welded at one end of each fixed cross rod (1), an end sleeve hole (5) is horizontally formed in one end, far away from the connecting inserted rod (4), of each fixed cross rod (1), a top clamping strip (6) is horizontally welded on the top surface of each fixed cross rod (1), a sliding clamping block (7) is sleeved on the outer side edge of each top clamping strip (6), an air cylinder transverse groove (8) is horizontally formed in the top surface of each sliding clamping block (7), an overturning air cylinder (9) is clamped on the inner side edge of each air cylinder transverse groove (8), an overturning sleeve groove (10) is horizontally formed in the top surface of each sliding clamping block (7), an overturning supporting plate (11) is inserted on the inner side edge of each overturning sleeve groove (10), a connecting screw hole (12) is uniformly formed in one side edge of the bottom surface of each overturning clamping plate (11), a fixing inserted groove (13) is uniformly formed in the top surface of each overturning clamping groove (14), and a bottom hole (16) is uniformly matched with a stable cylinder transverse groove (14) is formed in the corresponding sliding clamping block (7), turnover holes (17) are symmetrically formed in the inner side edge of the turnover sleeve groove (10), ends of two side edges of the turnover cylinder (9) are symmetrically welded to be connected with insertion rods (18), a connecting sleeve groove (19) is horizontally formed in the output end of the turnover cylinder (9), a rear sleeve groove (20) is formed in one side edge of the turnover supporting plate (11), an inner connecting rod (21) is horizontally inserted into the inner side edge of the rear sleeve groove (20), and turnover angle rods (22) are symmetrically inserted into the two side edges of the turnover supporting plate (11).

2. The angle-conversion sliding block angle core pulling structure is characterized in that the number of the fixed side strips (2) is two, the two fixed side strips are arranged in parallel, the fixed side strips (2) are horizontally and fixedly arranged at the bottom surfaces of two side edges of the fixed cross rod (1), one end of each connecting insertion rod (4) is fixedly arranged at the center of one end of the fixed cross rod (1), and the connecting insertion rods (4) are horizontally inserted and arranged at the inner side edges of the corresponding adjacent end sleeve holes (5).

3. The core pulling structure for converting the angle of the sliding block according to claim 1, wherein the top clamping strip (6) is horizontally and fixedly arranged at the central line position of the top surface of the fixed cross rod (1), the bottom surface of the sliding clamping block (7) is in butt joint with the top surface of the fixed cross rod (1), the cylinder transverse groove (8) is horizontally arranged at the central line position of the top surface of the sliding clamping block (7), one end of the cylinder transverse groove (8) is in butt joint with the central position of one side of the overturning sleeve groove (10), and the inner side of the cylinder transverse groove (8) is in through joint with the inner side edge of the overturning sleeve groove (10).

4. The angle-conversion slider core pulling structure according to claim 1, wherein an output end of the turnover cylinder (9) extends, is inserted and arranged at an inner side edge of the rear sleeve groove (20), the turnover sleeve groove (10) is horizontally arranged at a position of a side edge far away from the cylinder transverse groove (8), a bottom end of the fixed screw hole (13) is vertically and downwards in one-to-one corresponding butt joint with a top end of the matched bottom hole (14) to be communicated, the matched bottom hole (14) is uniformly arranged at a position, close to one end of the bottom surface of the fixed cross rod (1), of the bottom surface of the matched bottom hole (14), and the matched bottom hole and the inside of the end sleeve hole (5) are communicated.

5. The core pulling structure for converting the angle of the sliding block according to claim 1, wherein the bottom sleeve clamping groove (15) is horizontally sleeved on the outer side edge of the top clamping strip (6), the stabilizing sleeve holes (16) are symmetrically formed in one end position far away from the overturning sleeve groove (10), and the overturning holes (17) are symmetrically formed in one end position far away from the cylinder transverse groove (8).

6. The core pulling structure for converting the angle of the sliding block according to claim 1, wherein one end of the end connecting insertion rod (18) is correspondingly inserted and arranged on the inner side of the stabilizing sleeve hole (16), the connecting sleeve groove (19) is formed in a penetrating manner and horizontally sleeved and arranged on the outer side of the connecting inner rod (21), the rear sleeve groove (20) is formed in the center of the edge of one side of the turnover supporting plate (11), one end of the rear sleeve groove (20) penetrates through the side of the turnover supporting plate (11) and extends to the outer side, and one end of the turnover angle rod (22) is correspondingly inserted and arranged on the inner side of the turnover hole (17).

Images