CN216729401U - Auxiliary tool of lost foam casting bonding machine - Google Patents

Abstract

The utility model provides an auxiliary tool of a splicing machine for lost foam casting, which comprises a supporting platform, a first cross rod, a second cross rod and a longitudinal rod, wherein the first cross rod is arranged on the supporting platform, the second cross rod is parallel to the first cross rod and is arranged on the supporting platform at intervals, and the longitudinal rod is arranged on the supporting platform, is positioned between the first cross rod and the second cross rod and is vertical to the first cross rod. This lost foam casting is with auxiliary fixtures of splicing machine places on supporting platform through the foam white mould that will wait to bond, and through promote the crossbeam on the sliding component left or right, under the direction and the limiting displacement of slider and linear slide rail, the crossbeam offsets with the foam white mould that waits to bond and holds and makes the foam white mould that waits to bond keep away from one side of sliding component and offsets with first horizontal pole or second horizontal pole and hold, thereby be convenient for fix a position the foam white mould that waits to bond of different sizes fast, and then improved this auxiliary fixtures's practicality.

Description

Auxiliary tool of lost foam casting bonding machine

Technical Field

The utility model relates to the technical field of lost foam casting, in particular to an auxiliary tool of a bonding machine for lost foam casting.

Background

The lost foam casting technology is a high-precision casting method, a mould gasified by heat is filled in a sand mould, a high-temperature molten metal solution is used for pouring the mould, the molten metal is filled in the gasified mould part, a final casting is obtained, the shape of the casting is consistent with that of the mould, and for the casting with a complex shape, the difficulty of casting can be greatly reduced by adopting the lost foam casting technology; before pouring, the foam white die needs to be bonded, a foam bonding machine is usually adopted for bonding, and in order to ensure the product quality of a casting, the bonding precision of the foam white die needs to be improved, so that a tool assembly bonding machine is needed for fixing the foam, and then gluing operation is carried out; because different products correspond different foam white moulds, different foam white moulds need the frock of different size and dimension to fix.

Traditional lost foam casting is with frock of splicing machine single structure, need change different frock to different products in the course of working, cause and waste time and energy, and many sets of frock also obscure easily, lead to using the condition such as inconvenient to take place, so provide the auxiliary fixtures of a lost foam casting with splicing machine and solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model provides an auxiliary tool of an adhering machine for lost foam casting, which is suitable for fixing foam white molds with different sizes.

The technical scheme of the utility model is realized as follows: the utility model provides an auxiliary tool of a splicing machine for lost foam casting, which comprises a supporting platform, a first cross rod, a second cross rod and a longitudinal rod, wherein the first cross rod is arranged on the supporting platform, the second cross rod is parallel to the first cross rod and is arranged on the supporting platform at intervals, the longitudinal rod is arranged on the supporting platform, is positioned between the first cross rod and the second cross rod and is vertical to the first cross rod, and further comprises a sliding assembly;

the sliding assembly is arranged on the supporting platform, is positioned between the first cross rod and the second cross rod, and comprises two linear sliding rails, a sliding block and a cross beam;

the two linear slide rails are arranged on the supporting platform in parallel relative to the longitudinal rod and are positioned between the first cross rod and the second cross rod;

the sliding blocks are arranged in a sliding manner along the axial direction of the linear sliding rail, and the number of the sliding blocks is not less than two;

the both ends of crossbeam are fixed to be set up on the slider and are parallel to each other with first horizontal pole.

On the basis of the above technical scheme, preferably, the outer wall of the linear slide rail and the axial direction of the linear slide rail are provided with guide grooves matched with the slide blocks, the guide grooves are distributed on the linear slide rail in a rectangular array, and the guide grooves are arc-shaped grooves.

On the basis of the technical scheme, the device preferably further comprises a locker; the locker is arranged at one end of the cross beam and selectively propped against the supporting platform, and the locker is used for fixing the cross beam.

Still further preferably, the locker comprises a base, a rotating handle, a connecting block and a mandril; the base is arranged at one end of the cross beam; the rotating handle is hinged on the base; the connecting block is hinged on the outer wall of the rotating handle; the push rod is arranged in the base in an axial sliding mode and is hinged with one end, far away from the rotating handle, of the connecting block.

On the basis of the technical scheme, preferably, the number of the cross beams is not less than two, and the cross beams are connected with the linear slide rail in a sliding mode through the sliding blocks.

Further preferably, the installation directions of the plurality of cross members are parallel to each other.

On the basis of the technical scheme, the device preferably further comprises a limiting component; the limiting assembly is arranged on the cross beam, drives the foam white mold to be bonded to horizontally slide on the supporting platform along the extending direction of the cross beam, and clamps the foam white mold to be bonded together with the longitudinal rod.

Still further preferably, the limiting assembly comprises a first guide rail, a sliding seat, a second guide rail and a longitudinal beam; the first guide rail is arranged on the cross beam in parallel; the sliding seat is connected with the first guide rail in a sliding manner; the second guide rail is vertically arranged on the sliding seat relative to the first guide rail; the longitudinal beam is arranged on the second guide rail and is parallel to the second guide rail.

Compared with the prior art, the auxiliary tool of the bonding machine for lost foam casting has the following beneficial effects:

(1) the foam white dies to be bonded are placed on the supporting platform, the cross beam on the sliding assembly is pushed leftwards or rightwards, under the guiding and limiting effects of the sliding block and the linear sliding rail, the cross beam is abutted against the foam white dies to be bonded, and one side, away from the sliding assembly, of the foam white dies to be bonded is abutted against the first cross rod or the second cross rod, so that the foam white dies to be bonded with different sizes can be quickly positioned, and the practicability of the auxiliary tool is improved;

(2) the arc-shaped groove on the linear slide rail is meshed with the slide block, the stability of the beam in the adjusting process is improved, and the situation that the positioning accuracy is poor due to poor abutting stability of the beam and a foam white die to be bonded is avoided; finally, the locking device is convenient for locking and positioning the sliding assembly, so that the positioning precision of the auxiliary tool is further improved;

(3) the foam white molds to be bonded are positioned by matching the plurality of cross beams with the locking devices, so that the foam white molds to be bonded at any positions on the supporting platform can be positioned left and right conveniently, and the situation that the positioning precision is poor due to too small abutting contact surface or the existence of an angle between the cross beams and the foam white molds to be bonded is avoided by arranging the plurality of cross beams in parallel; and finally, the foam white die to be bonded is positioned front and back through the matching of the supporting platform and the limiting assembly, so that the positioning precision of the auxiliary tool is further improved, and the limiting assembly is matched with the first guide rail, the sliding seat, the second guide rail and the longitudinal beam for use, so that the cross beam and the longitudinal beam are not influenced mutually in the adjusting process, and the use convenience and the positioning precision of the auxiliary tool are further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a perspective view of an auxiliary tool of a splicing machine for lost foam casting according to the present invention;

FIG. 2 is a structural front view of an auxiliary tool of the bonding machine for lost foam casting of the utility model;

FIG. 3 is a partial enlarged left view of the auxiliary tool of the bonding machine for lost foam casting according to the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 1;

fig. 5 is a perspective view showing the structure of the locker of the present invention;

FIG. 6 is a structural plan view of an auxiliary tool of the bonding machine for lost foam casting according to the present invention;

fig. 7 is an enlarged view of fig. 1 at B.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 and 2, the auxiliary tool for an adhering machine for lost foam casting of the present invention comprises a supporting platform 10, a first cross bar 11, a second cross bar 12 and a longitudinal bar 13, wherein the first cross bar 11 is fixedly installed on the supporting platform 10, the second cross bar 12 is fixedly installed on the supporting platform 10, is spaced from the first cross bar 11 and is parallel to each other, the longitudinal bar 13 is fixedly installed on the supporting platform 10, is positioned between the first cross bar 11 and the second cross bar 12 and is perpendicular to the first cross bar 11, the auxiliary tool further comprises a sliding assembly 2, the sliding assembly 2 is fixedly installed on the supporting platform 10 and is positioned between the first cross bar 11 and the second cross bar 12, the sliding assembly 2 comprises two linear sliding rails 21, a sliding block 22 and a cross beam 23, the linear sliding rails 21 are fixedly installed on the supporting platform 10 and are positioned between the first cross bar 11 and the second cross bar 12, the two linear sliding rails 21 are parallel to the longitudinal bar 13, the slide blocks 22 are slidably mounted on the linear slide rail 21 along the axial direction of the linear slide rail 21, the number of the slide blocks 22 is not less than two, two ends of the cross beam 23 are fixedly mounted on the slide blocks 22, and the mounting direction of the cross beam 23 is parallel to that of the first cross bar 11; the foam white dies to be bonded are placed on the supporting platform 10, the sliding assembly 2 is pushed leftwards or rightwards, the sliding assembly 2 is matched with the supporting platform 10 and the first cross rod 11 or the second cross rod 12 to control the foam white dies to be bonded, the bottom of the foam white dies to be bonded is limited, the foam white dies to be bonded in different sizes can be conveniently and quickly positioned and fixed, the simple and convenient quick positioning and fixing effects are achieved, the sliding assembly 2 is used by matching the two linear sliding rails 21 and the sliding block 22 with the cross beam 23, the cross beam 23 is convenient to quickly and accurately drive the foam white dies to be bonded to be mutually abutted against the first cross rod 11 or the second cross rod 12 in the adjusting process, and the situation that the cross beam 23 is inclined or clamped in the adjusting process to influence the positioning accuracy of the foam white dies to be bonded is avoided.

In order to further improve the positioning accuracy of the auxiliary tool; specifically, the outer wall of the linear slide rail 21 and the extending direction of the linear slide rail 21 are provided with four guide grooves a adapted to the slider 22, the four guide grooves a are distributed in a rectangular array on the outer wall of the linear slide rail 21, and the guide grooves a are arc-shaped grooves, as shown in fig. 3; the stress area between the sliding block 22 and the linear sliding rail 21 is increased through the guide grooves a, and the four guide grooves a are distributed on the outer wall of the linear sliding rail 21 in a rectangular array mode, so that the sliding block 22 and the linear sliding rail 21 are further stably occluded, and the situation that the positioning accuracy of the bonded foam white die is poor due to the fact that the gap between the sliding block 22 and the linear sliding rail 21 is too large and the cross beam 23 is used for treating the bonded foam white die is avoided.

In order to further improve the positioning precision of the auxiliary tool; specifically, the device further comprises a locking device 3, as shown in fig. 4, the locking device 3 is fixedly installed at one end of the cross beam 23 and is abutted against the supporting platform 10, the cross beam 23 and the supporting platform 10 are conveniently fixed through the locking device 3, and the situation that the cross beam 23 slides to influence the positioning accuracy in the positioning process of the foam white mold to be bonded is avoided.

In order to further improve the positioning precision of the auxiliary tool; specifically, the locker 3 comprises a base 31, a rotating handle 32, a connecting block 33 and a push rod 34, wherein the base 31 is fixedly arranged at one end of the cross beam 23, the rotating handle 32 is hinged on the base 31, the connecting block 33 is hinged on the outer wall of the rotating handle 32, the push rod 34 is axially and slidably arranged in the base 31 and is hinged with one end of the connecting block 33, which is far away from the rotating handle 32, and a rubber pad is arranged at the bottom of the push rod 34, as shown in fig. 5; through rotating the rotating handle 32, the ejector rod 34 drives the rubber pad on the ejector rod 34 to abut against the supporting platform 10 through the connecting block 33 or make the rubber pad break away from the supporting platform 10, so that the cross beam 23 is convenient to fix and adjust, and the situation that the locker 3 and the supporting platform 10 are unstable to affect the poor positioning accuracy of the foam white mold to be bonded is avoided.

In order to further improve the positioning precision of the auxiliary tool; specifically, the number of the cross beams 23 is not less than two, and the cross beams 23 are connected with the linear slide rail 21 in a sliding manner through the slide blocks 22; through setting up a plurality of crossbeams 23 for this auxiliary fixtures is convenient for treat the location of bonding's foam white mould with arbitrary one crossbeam 23 in a plurality of crossbeams 23 as the basic point, and then has improved this auxiliary fixtures's positioning accuracy.

In order to further improve the positioning precision of the auxiliary tool; specifically, the mounting directions of the plurality of cross beams 23 are parallel to each other, so that the contact areas of the end surfaces of the cross beams 23 and the foam white molds to be bonded are larger and parallel to each other, and the condition that the contact areas between the cross beams 23 and the foam white molds to be bonded are too small or included angles exist to cause the poor positioning accuracy of the foam white molds to be bonded is avoided.

In order to further improve the positioning precision of the auxiliary tool; specifically, the device also comprises a limiting component 4, wherein the limiting component 4 is fixedly arranged on the cross beam 23 and used for driving the foam white die to be bonded to abut against the longitudinal rod 13, as shown in fig. 6; through promoting spacing subassembly 4 backward, spacing subassembly 4 offsets with the foam white mould of waiting to bond to make the foam white mould of waiting to bond keep away from one side of spacing subassembly 4 and offset with vertical pole 13 and hold, thereby treat the foam white mould of bonding and carry out multistage spacing, and then improved this auxiliary fixtures's positioning accuracy.

In order to further improve the positioning precision of the auxiliary tool; specifically, the limiting assembly 4 includes a first guide rail 41, a sliding seat 42, a second guide rail 43 and a longitudinal beam 44, the first guide rail 41 is fixedly mounted on the cross beam 23 and is parallel to the cross beam 23, the sliding seat 42 is axially slidably mounted on the first guide rail 41 along the first guide rail 41, the second guide rail 43 is perpendicular to the first guide rail 41 and is slidably mounted on the sliding seat 42 along the axial direction thereof, the longitudinal beam 44 is fixedly mounted on the second guide rail 43 and is parallel to the second guide rail 43, as shown in fig. 7; the first guide rail 41, the sliding seat 42, the second guide rail 43 and the longitudinal beam 44 are matched for use through the limiting assembly 4, so that the longitudinal beam 44 and the cross beam 23 are not influenced mutually in the adjusting process, and the positioning accuracy of the auxiliary tool is further improved.

The application method of the technical scheme comprises the following steps:

the method is specifically divided into two cases according to the placement mode of the foam white mold to be bonded:

placing the foam white molds to be bonded rightwards or leftwards in sequence by taking the right side of the first cross bar 11 or the left side of the second cross bar 12 as a base point:

firstly, the rotating handle 32 on the locking device 3 is rotated, the rotating handle 32 drives the rubber pad on the ejector rod 34 to be separated from the supporting platform 10 through the connecting block 33, so that the position of the cross beam 23 on the supporting platform 10 is convenient to adjust, and then the foam white mold to be bonded is placed on the supporting platform 10, so that the foam white mold to be bonded is positioned between the first cross beam 11 and the cross beam 23 or between the second cross beam 12 and the cross beam 23 and is positioned on the rear side of the longitudinal beam 44;

then, by pushing the cross beam 23 leftwards or rightwards, the cross beam 23 drives the sliding block 22 to slide leftwards or rightwards on the linear sliding rail 21, so that the cross beam 23 is matched with the supporting platform 10 and the first cross bar 11 or the second cross bar 12 to support the left side, the right side and the bottom of the foam white mold to be bonded;

then, by pushing the longitudinal beam 44 backwards, the longitudinal beam 44 drives the sliding seat 42 to slide backwards on the first guide rail 41 through the second guide rail 43, and the longitudinal beam 44 abuts against the foam white mold to be bonded and drives one side of the foam white mold to be bonded, which is far away from the longitudinal beam 44, to abut against the longitudinal rod 13;

finally, by rotating the rotating handle 32 of the locking device 3 on the cross beam 23, the rotating handle 32 drives the rubber pad on the mandril 34 to abut against the supporting platform 10 through the connecting block 33, so that the cross beam 23 and the supporting platform 10 are conveniently locked, and the effects of simple and convenient adjustment and quick positioning are further realized;

secondly, the foam white molds to be bonded are sequentially placed leftwards or rightwards by taking the left side or the right side of any one beam 23 as a base point:

firstly, the rotating handle 32 on the locker 3 is rotated and adjusted, the rotating handle 32 drives the rubber pad on the mandril 34 to be separated from the supporting platform 10 through the connecting block 33, so that the position of the cross beam 23 on the supporting platform 10 can be adjusted conveniently, and the foam white mold to be bonded is placed on the supporting platform 10 by taking one cross beam 23 as a base point and fixing the cross beam through the locker 3, so that the foam white mold to be bonded is positioned in the middle of the cross beams 23 and at the rear side of the longitudinal beam 44;

then, pushing the unfixed cross beam 23 leftwards or rightwards, the cross beam 23 driving the sliding block 22 to slide leftwards or rightwards on the linear sliding rail 21, so that the cross beams 23 are matched with the supporting platform 10 to support against the left side, the right side and the bottom of the foam white die to be bonded;

then, by pushing the longitudinal beam 44 backwards, the longitudinal beam 44 drives the sliding seat 42 to slide backwards on the first guide rail 41 through the second guide rail 43, and the longitudinal beam 44 abuts against the foam white mold to be bonded and drives one side of the foam white mold to be bonded, which is far away from the longitudinal beam 44, to abut against the longitudinal rod 13;

finally, the rotating handle 32 of the locking device 3 on the cross beam 23 is rotated, and the rotating handle 32 drives the mandril 34 to abut against the supporting platform 10 through the connecting block 33, so that the cross beam 23 and the supporting platform 10 are conveniently locked, and the effects of simple and convenient adjustment and quick positioning are further realized.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. The utility model provides an disappearance die casting is with auxiliary fixtures of bonder, it includes supporting platform (10), first horizontal pole (11), second horizontal pole (12) and vertical pole (13), first horizontal pole (11) set up on supporting platform (10), second horizontal pole (12) set up on supporting platform (10) for first horizontal pole (11) are parallel and the interval, vertical pole (13) set up on supporting platform (10) and be located between first horizontal pole (11) and second horizontal pole (12) and with first horizontal pole (11) mutually perpendicular, its characterized in that: a sliding component (2) is also included;

the sliding assembly (2) is arranged on the supporting platform (10), is positioned between the first cross rod (11) and the second cross rod (12), and comprises two linear sliding rails (21), a sliding block (22) and a cross beam (23);

the two linear sliding rails (21) are arranged on the supporting platform (10) in parallel relative to the longitudinal rod (13) and are positioned between the first cross rod (11) and the second cross rod (12);

the sliding blocks (22) are arranged in a sliding manner along the axial direction of the linear sliding rail (21), and the number of the sliding blocks (22) is not less than two;

two ends of the cross beam (23) are fixedly arranged on the sliding block (22) and are parallel to the first cross rod (11).

2. The auxiliary tool of the bonding machine for lost foam casting as claimed in claim 1, wherein: the outer wall of the linear slide rail (21) is positioned on the axial direction of the linear slide rail (21) and is provided with a guide groove (a) matched with the slide block (22), the guide groove (a) is distributed on the linear slide rail (21) in a rectangular array manner, and the guide groove (a) is an arc-shaped groove.

3. The auxiliary tool of the bonding machine for lost foam casting as claimed in claim 1, wherein: the device also comprises a locker (3);

the locker (3) is arranged at one end of the cross beam (23) and selectively propped against the supporting platform (10), and the locker (3) is used for fixing the cross beam (23).

4. The auxiliary tool of the bonding machine for lost foam casting as claimed in claim 3, wherein: the locker (3) comprises a base (31), a rotating handle (32), a connecting block (33) and a push rod (34);

the base (31) is arranged at one end of the cross beam (23);

the rotating handle (32) is hinged on the base (31);

the connecting block (33) is hinged on the outer wall of the rotating handle (32);

the push rod (34) is arranged in the base (31) in a sliding manner along the axial direction and is hinged with one end of the connecting block (33) far away from the rotating handle (32).

5. The auxiliary tool of the bonding machine for lost foam casting as claimed in claim 1, wherein: the number of the cross beams (23) is not less than two, and the cross beams (23) are connected with the linear slide rail (21) in a sliding mode through the sliding blocks (22).

6. The auxiliary tool of the bonding machine for lost foam casting as claimed in claim 5, wherein: the mounting directions of the plurality of cross beams (23) are parallel to each other.

7. The auxiliary tool of the bonding machine for lost foam casting as claimed in claim 1, wherein: the device also comprises a limiting component (4);

the limiting assembly (4) is arranged on the cross beam (23) and drives the foam white mould to be bonded to horizontally slide on the supporting platform (10) along the extending direction of the cross beam (23) and clamp the foam white mould to be bonded together with the longitudinal rod (13).

8. The auxiliary tool of the bonding machine for lost foam casting as claimed in claim 7, wherein: the limiting assembly (4) comprises a first guide rail (41), a sliding seat (42), a second guide rail (43) and a longitudinal beam (44);

a first guide rail (41) arranged in parallel on the cross beam (23);

a sliding seat (42) which is connected with the first guide rail (41) in a sliding way;

a second guide rail (43) which is arranged on the sliding seat (42) and is vertical to the first guide rail (41);

the longitudinal beam (44) is arranged on the second guide rail (43) and is parallel to the second guide rail (43).

Images