CN114715663A - Electric smelting core clamping instrument - Google Patents

Abstract

The invention provides a clamping tool for an electric melting core, and belongs to the technical field of pipeline clamps. The clamping tool solves the problems that the existing clamping tool is low in stability and is not convenient for clamping electric melting cores of different sizes. This electric smelting core clamping instrument, including the mount pad, have on the mount pad along vertical sliding connection's drive rack and two slide bars along horizontal sliding connection, the upper end that the mount pad was stretched out to the upper end of drive rack and can be connected with hoisting equipment, the bottom of slide bar has horizontal protrusion and is used for stretching into the portion of colluding in the electric smelting core, be equipped with between drive rack and the slide bar and drive two slide bars when driving the tooth rebound and keep away from the drive assembly that makes the vertical portion of colluding of inner wall of colluding with the electric smelting core each other. This electric smelting core clamping instrument can be quick take out the electric smelting core, has promoted the conveying efficiency of electric smelting core.

Description

Electric smelting core clamping instrument

Technical Field

The invention belongs to the technical field of clamps, and relates to a clamping tool for an electric melting core.

Background

In the actual use process, two composite pipes are generally required to be welded and connected, and the two composite pipes are directly connected after being melted or connected through an electric melting pipe fitting. Electrofusion pipe fittings refer to a plastic pipe fitting that can be fused to a connection by the temperature generated by an electric current. The electric melting pipe fitting is formed in an injection mould in an injection molding mode, and the electric melting core needs to be taken out after the electric melting pipe is formed, so that the core needs to be taken out of the mould by a clamping tool.

The existing electric melting core is generally small in upper shell and large in lower shell, and the upper shell is positioned on the lower shell; or the electric melting core is internally provided with an abutting block. Because the whole electric smelting core is heavy, a special clamping tool is required to clamp, move and place the electric smelting core in a mold, a lifting device and clamping jaws are generally used for clamping the electric smelting core, but the clamping jaws are generally directly clamped outside the electric smelting core.

Direct outside through the clamping jaw clamp is tight easily to electric smelting core causes wearing and tearing, thereby influence the shaping effect of electric smelting pipe, and when hoisting equipment removed through the electric smelting core after pressing from both sides the clamping jaw, the clamping jaw will keep just good power on the one hand to remove centre gripping electric smelting core, thereby avoid the outside of electric smelting core to cause wearing and tearing, on the other hand still need guarantee to remove the in-process clamping jaw at hoisting equipment and can not produce great not hard up, otherwise electric smelting core can directly deviate from the clamping jaw, make the transportation of electric smelting core unstable, and in the production process, generally need press from both sides the electric smelting core of different models and get, consequently, need remove the clamp force that changes the clamping jaw at every turn, thereby make clamping tool's use difficulty more, thereby be not convenient for transporting the electric smelting core of equidimension.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides an electric melting core clamping tool, which aims to solve the technical problems that: how to solve the lower problem of the electric smelting core of the not unidimensional clamping of just being not convenient for of current clamping instrument stability.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides an electric smelting core clamping instrument, includes the mount pad, its characterized in that, have on the mount pad along vertical sliding connection's drive rack and two slide bars along horizontal sliding connection, the upper end that drives the rack stretches out the mount pad and can be connected with hoisting equipment, the bottom of slide bar has horizontal protrusion and is used for stretching into the portion of colluding in the electric smelting core, be equipped with between drive rack and the slide bar and drive two slide bars when driving the tooth rebound and keep away from the drive assembly that makes the portion of colluding and the vertical catching up of inner wall of electric smelting core each other.

The working principle is as follows: the two sliding rods extend into the electric melting core, the inner part of the existing electric melting core is provided with a leaning step or a leaning block, the two sliding rods are far away from each other to enable the hook parts protruding transversely to hook the leaning step or the leaning block of the electric melting core vertically, and the electric melting core is large, so that the electric melting core clamping tool is usually lifted by a lifting rope of a lifting device in the moving process, at the moment, a driving rack is connected with the lifting rope of the lifting device and always bears upward pulling force, when the driving rack moves upwards, the two gear sets can be driven to rotate and drive the corresponding sliding rods to be far away from each other, after the electric melting core is lifted, the weight of the electric melting core is heavier, the gravity of the electric melting core exerts downward pressure on the sliding rods, and because the sliding rods can only move transversely, the sliding rods cannot move transversely under the action of pressure and always bear downward pressure, therefore, the locking and clamping of the sliding rod are realized, so that the sliding rod can firmly hook the electrofusion core through the hook part, the stable transportation of the electrofusion core is realized, and the transportation stability of the electrofusion core clamping tool is improved; after transporting the electric smelting core in place, only need to make two slide bars draw close each other, the slide bar is reverse to drive the driving rack downstream through the gear train this moment, the slide bar draw close each other to the portion of colluding of slide bar take out from the electric smelting core can to can be quick take out the electric smelting core, promoted the conveying efficiency of electric smelting core.

To the electric smelting core that the size is different, only need the portion of colluding of slide bar can stretch into the electric smelting core and the vertical electric smelting core that catches on of portion of colluding of slide bar just can clip the electric smelting core, consequently can realize carrying out the clamping to the electric smelting core that the size is different, further promotion electric smelting core clamping tool's suitability.

Insert the inside electric smelting core clamp of electric smelting core through the slide bar for the outside of electric smelting core can not wear and tear, thereby has guaranteed the shaping effect of electric smelting pipe.

In foretell electric smelting core clamping instrument, the locating pin has been linked firmly on the mount pad, set up the constant head tank along vertical setting on the drive rack, the locating pin part is located the constant head tank, the drive rack can upwards slide and make the lower cell wall of locating pin and constant head tank support by.

The arrangement of the positioning pin avoids excessive sliding of the driving rack and direct sliding out of the mounting seat, and can limit the sliding rod, so that the stability of the whole electric melting core clamping tool in the use process is higher.

In foretell electric smelting core clamping instrument, the slide bar has the spacing portion and the sliding part of horizontal sliding connection in the mount pad that stretch out the mount pad, the mount pad is along transversely offering the mounting groove that can supply sliding part horizontal slip, the outer end opening of mounting groove.

Through having seted up the mounting groove on the mount pad to the sliding part of slide bar is sliding connection in the mounting groove, and the opening roll-off can be followed to the one end of sliding part when the slide bar is kept away from each other, thereby makes being connected more firm between slide bar and the mount pad, and stretches out the mount pad with spacing portion, makes the slide bar can be fast and stable collude the electric smelting core, promotes the stability of clamping instrument.

In foretell electric smelting core clamping instrument, at least one spout has been seted up along the slip direction to the sliding part, the mount pad is protruding on the cell wall of mounting groove and is formed the draw runner, the draw runner can imbed in the spout and can slide in the spout.

The setting of draw runner and spout can lead the sliding part for the sliding part can be stable slide along the mount pad, thereby has promoted the gliding stability of sliding part.

In foretell electric smelting core clamping instrument, the drive assembly includes the gear one and the gear two that all are connected with the mount pad, gear one and drive rack meshing, gear two and gear one meshing, the diameter of gear one is greater than the diameter of gear two, be equipped with on the slide bar with the two meshing sliding racks of corresponding gear, and two rotations of gear drive slide bar lateral sliding.

The diameter of the first gear is larger than that of the second gear, the first gear is meshed with the driving rack, the second gear can be driven to rotate in an accelerating mode after the first gear rotates, the second gear can rotate more quickly due to the design, and clamping efficiency of the electric melting core clamping tool is further improved.

The first gear and the second gear are arranged, so that the sliding rod is prevented from moving upwards along with the driving rack due to direct engagement of the sliding rod and the driving rack, and the sliding rod and the second gear have a steering effect.

In the electric melting core clamping tool, the upper end of the driving rack is provided with the limiting block, and the driving rack moves downwards to enable the limiting block to abut against the upper end face of the mounting seat.

The setting of stopper for can limit structure when the drive rack moves down, drive the upper and lower spacing of rack, make the regulation of slide bar more stable, further promotion electric smelting core clamping instrument's stability.

In foretell electric smelting core clamping instrument, the portion of colluding of two slide bars all sets up along the orientation of seting up of spout.

The setting of this structure for two slide bars can be caught on the electric smelting core through hooking the stable one with colluding portion after keeping away from each other, further promotion electric smelting core clamping instrument's stability.

In foretell electric smelting core clamping instrument, the mount pad includes preceding installation shell and back installation shell, preceding installation shell surrounds with the back installation shell and forms the inner chamber that can supply transmission assembly to place, preceding installation shell passes through the fastener with the back installation shell and is connected.

The setting of this structure for the assembly of drive rack and gear train is more convenient, breaks down when gear train or drive rack, and the preceding installation shell of will being quick is disassembled with the back installation shell and is maintained it, thereby makes the equipment of electric smelting core clamping instrument and maintains more convenient.

In foretell electric smelting core clamping instrument, two spacing portion opposite faces are the plane, collude the one end that the mount pad was kept away from in spacing portion setting.

The arrangement of the structure enables the overall strength of the sliding rod to be higher, and the lightweight design of the sliding rod is realized to the maximum extent.

In foretell electric smelting core clamping instrument, this electric smelting core clamping instrument still including can support with the butt piece that leans on of electric smelting core inside wall, support to lean on the piece and collude the portion and pass through bolt transverse connection.

Support the setting of block for the slide bar can be faster and stable collude the electric smelting core, and in long-term use, if support the block and have wearing and tearing to lead to unable stable colluding the electric smelting core, can directly take off the bolt, and will have wearing and tearing support to the block change can, thereby reach the effect that prolongs the life of slide bar.

Compared with the prior art, the invention has the following advantages:

1. after hoisting the electrofusion core, the weight of electrofusion core itself is heavier, and the decurrent pressure is applyed for the slide bar to the gravity of electrofusion core, because the slide bar can only lateral shifting, consequently the slide bar can't lateral shifting and receive decurrent pressure under the pressure effect always to realized that the locking of slide bar is tight, consequently the slide bar can firmly be caught on the electrofusion core through colluding the portion, thereby realized transporting of electrofusion core stability, promoted the stability that the clamping instrument of electrofusion core transferred.

2. The arrangement of the positioning pin avoids excessive sliding of the driving rack and direct sliding out of the mounting seat, and can limit the sliding rod, so that the stability of the whole electric melting core clamping tool in the use process is higher.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 2 is a partial structural schematic diagram of the first embodiment of the present invention.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic view of the structure of the slide bar in the present invention.

Fig. 5 is a cross-sectional view of a conventional electrofusion core.

In the figure, 1, a mounting seat; 11. an inner cavity; 12. a front mounting housing; 13. a rear mounting housing; 14. a slide bar; 15. mounting grooves; 2. a transmission assembly; 21. a first gear; 22. a second gear; 3. a slide bar; 31. a hook part; 32. a leaning block; 33. a sliding part; 33a, a chute; 34. a limiting part; 35. meshing teeth; 4. a drive rack; 41. positioning a groove; 42. a limiting block; 5. positioning pins; 6. a bolt; 7. a fastener; 8. electrically melting the core; 81. and an abutting block.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Example one

As shown in fig. 1, the electric melting core clamping tool comprises a mounting seat 1, wherein the mounting seat 1 comprises a front mounting shell 12 and a rear mounting shell 13, the front mounting shell 12 and the rear mounting shell 13 surround to form an inner cavity 11 for placing a transmission assembly 2, and the front mounting shell 12 is connected with the rear mounting shell 13 through a fastening piece 7.

Specifically, as shown in fig. 1 to 5, the mounting base 1 is provided with a driving rack 4 connected in a vertical sliding manner and two sliding rods 3 connected in a transverse sliding manner, the upper end of the driving rack 4 extends out of the upper end of the mounting base 1 and can be connected with a hoisting device, the bottom of the sliding rod 3 is provided with a hook portion 31 protruding in a transverse direction and used for extending into the electric melting core 8, and a transmission assembly 2 is arranged between the driving rack 4 and the sliding rod 3, wherein the transmission assembly drives the two sliding rods 3 to be away from each other when the driving rack 4 moves upwards so that the hook portion 31 is hooked with the inner wall of the electric melting core 8 in a vertical direction.

The working principle is as follows: two sliding rods 3 extend into an electric melting core 8, an abutting step 81 or an abutting block is arranged in the existing electric melting core 8, at the moment, the two sliding rods 3 are far away from each other to enable a hook part 31 protruding transversely to vertically hook the abutting step 81 or the abutting block of the electric melting core 8, and the electric melting core 8 is large, so that an electric melting core clamping tool is usually lifted by a lifting rope of a lifting device in the moving process, at the moment, a driving rack 4 is connected with the lifting rope of the lifting device and always bears upward pulling force, when the driving rack 4 moves upwards, the two gear sets 2 can be driven to rotate and drive the corresponding sliding rods 3 to be far away from each other, after the electric melting core 8 is lifted, the weight of the electric melting core 8 is heavier, the gravity of the electric melting core 8 exerts downward pressure on the sliding rods 3, and because the sliding rods 3 can only move transversely, the sliding rods 3 cannot move transversely under the action of pressure and always bear downward pressure, therefore, the locking and clamping of the sliding rod 3 are realized, so that the sliding rod 3 can firmly hook the electrofusion core 8 through the hook part 31, the stable transportation of the electrofusion core 8 is realized, and the transportation stability of the electrofusion core clamping tool is improved; after transporting electric smelting core 8 in place, only need to make two slide bar 3 draw close each other, slide bar 3 is reverse to drive rack 4 downstream through gear train 2 this moment, slide bar 3 draw close each other to the portion 31 that colludes of slide bar 3 take out in the electric smelting core 8 can to can be quick take out electric smelting core 8, promoted electric smelting core 8's conveying efficiency.

To the less electric smelting core 8 of internal diameter, only need the portion 31 of colluding of slide bar 3 can stretch into electric smelting core 8 and the portion 31 of colluding of slide bar 3 vertically collude electric smelting core 8 and just can clip electric smelting core 8, consequently can realize carrying out the clamping to the less electric smelting core 8 of internal diameter, further promotion electric smelting core clamping tool's suitability.

Insert 8 inside getting 8 clamps of electric smelting core through slide bar 3 for 8 outsides of electric smelting core can not wear and tear, thereby guaranteed the shaping effect of electric smelting pipe.

As shown in fig. 1 and fig. 2, a positioning pin 5 is fixedly connected to the mounting seat 1, a positioning groove 41 vertically arranged is formed in the driving rack 4, the positioning pin 5 is partially located in the positioning groove 41, the driving rack 4 can slide upwards to enable the sliding rod 3 to be partially located in the mounting seat 1 all the time when the positioning pin 5 abuts against the lower groove wall of the positioning groove 41, a limiting block 42 is arranged at the upper end of the driving rack 4, and the driving rack 4 can move downwards to enable the limiting block 42 to abut against the upper end face of the mounting seat 1.

As shown in fig. 2-4, the sliding rod 3 has a limiting portion 34 extending out of the mounting seat 1 and a sliding portion 33 connected in the mounting seat 1 in a transverse sliding manner, the mounting seat 1 is transversely provided with a mounting groove 15 for the sliding portion 33 to slide transversely, the outer end of the mounting groove 15 is open, the sliding portion 33 is provided with at least one sliding groove 33a along the sliding direction, the mounting seat 1 protrudes on the groove wall of the mounting groove 15 to form a sliding strip 14, and the sliding strip 14 can be embedded into the sliding groove 33a and can slide in the sliding groove 33 a.

As shown in fig. 2 and 3, the transmission assembly 2 includes a first gear 21 and a second gear 22 both disposed in the inner cavity 11 and connected to the mounting base 1, the first gear 21 is engaged with the driving rack 4, the first gear 21 is engaged with the second gear 22, a diameter of the first gear 21 is larger than a diameter of the second gear 22, rotation directions of the first gear 21 and the second gear 22 are opposite, engaging teeth 35 engaged with the corresponding second gear 22 are disposed on an upper surface of the sliding portion 33, and the second gear 22 rotates to drive the sliding rod 3 to slide laterally.

As shown in fig. 1, 3 and 4, the clamping tool for the electric melting core further comprises an abutting block 32 which can abut against the inner side wall of the electric melting core 8, the abutting block 32 and the hook part 31 are transversely connected through a bolt 6, and the hook parts 31 of the two sliding rods 3 are arranged along the opening direction of the sliding groove 33 a.

The opposite surfaces of the two limiting parts 34 are planes, and the two limiting parts 34 can be attached to each other.

Example two

The content of this embodiment is substantially the same as that of the first embodiment, and the difference is that: drive assembly 2 is including setting up two belt pulleys in mount pad 1 and along horizontal setting, and the belt pulley can be along horizontal transmission, and the belt pulley all wraps outward and has the drive rack with drive rack 4 meshing, and the one end of slide bar 3 is connected near the one end that drives drive rack 4 with the drive rack, and the drive rack drives 3 lateral shifting of slide bar under the drive of drive rack 4.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (10)

1. The utility model provides an electric smelting core clamping instrument, includes mount pad (1), its characterized in that, have on mount pad (1) along vertical sliding connection's drive rack (4) and two slide bar (3) along horizontal sliding connection, the upper end that drives drive rack (4) stretches out mount pad (1) and can be connected with the equipment of lifting by crane, the bottom of slide bar (3) has horizontal protrusion and is used for stretching into portion of colluding (31) in electric smelting core (8), be equipped with between drive rack (4) and slide bar (3) and drive two slide bar (3) and keep away from each other when drive rack (4) rebound and make transmission assembly (2) that collude the inner wall vertical portion of colluding (31) and electric smelting core (8).

2. The electric melting core clamping tool according to claim 1, wherein the mounting seat (1) is fixedly connected with a positioning pin (5), the driving rack (4) is provided with a positioning groove (41) which is vertically arranged, the positioning pin (5) is partially positioned in the positioning groove (41), and the driving rack (4) can slide upwards to enable the positioning pin (5) to abut against the lower groove wall of the positioning groove (41).

3. The electric melting core clamping tool according to claim 1, wherein the sliding rod (3) has a limiting portion (34) extending out of the mounting seat (1) and a sliding portion (33) transversely slidably connected in the mounting seat (1), the mounting seat (1) is transversely provided with a mounting groove (15) for the sliding portion (33) to transversely slide, and the outer end of the mounting groove (15) is open.

4. The electric melting core clamping tool according to claim 3, wherein the sliding portion (33) is provided with at least one sliding groove (33a) along the sliding direction, the mounting seat (1) protrudes from the groove wall of the mounting groove (15) to form a sliding bar (14), and the sliding bar (14) can be embedded into the sliding groove (33a) and can slide in the sliding groove (33 a).

5. The electric melting core clamping tool according to claim 3 or 4, wherein the transmission assembly (2) comprises a first gear (21) and a second gear (22) which are both connected with the mounting base (1), the first gear (21) is meshed with the driving rack (4), the second gear (22) is meshed with the first gear (21), the diameter of the first gear (21) is larger than that of the second gear (22), meshing teeth (35) meshed with the corresponding second gear (22) are arranged on the upper surface of the sliding part (33), and the second gear (22) rotates to drive the sliding rod (3) to slide transversely.

6. The electric melting core clamping tool according to claim 1 or 2, wherein a limiting block (42) is arranged at the upper end of the driving rack (4), and the driving rack (4) can move downwards to enable the limiting block (42) to abut against the upper end face of the mounting seat (1).

7. The electrofusion core clamping tool according to claim 1 or 2, characterised in that the hooks (31) of both sliding bars (3) are arranged along the opening direction of the sliding grooves (33 a).

8. The electric melting core clamping tool according to claim 1 or 2, wherein the mounting seat (1) comprises a front mounting shell (12) and a rear mounting shell (13), the front mounting shell (12) and the rear mounting shell (13) surround to form an inner cavity (11) for the transmission assembly (2) to be placed, and the front mounting shell (12) is connected with the rear mounting shell (13) through a fastener (7).

9. The electric melting core clamping tool according to claim 8, wherein the opposite surfaces of the two limiting portions (34) are both flat surfaces, and the hook portion (31) is arranged at one end of the limiting portion (34) far away from the mounting seat (1).

10. The electric melting core clamping tool according to claim 1 or 2, further comprising an abutting block (32) capable of abutting against the inner side wall of the electric melting core (8), wherein the abutting block (32) is transversely connected with the hook part (31) through a bolt (6).

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