CN116374872A - Device for dismounting top hammer of hexahedral top hydraulic press - Google Patents

Abstract

The invention relates to the technical field of hexahedral hydraulic presses, in particular to a device for disassembling and assembling a top hammer of a hexahedral hydraulic press, which comprises a sliding assembly, a plurality of base assemblies and a lifting appliance assembly, wherein the sliding assembly comprises a fixed rail, a sliding rail, a pull rod and a clamping rail, the plurality of base assemblies comprise a transverse rail, two clamping blocks, a sliding seat and a supporting block, and the supporting block is provided with a hinge groove; the lifting appliance component comprises a supporting frame and a lifting member; the sliding component is used for sliding, unfolding and accommodating, so that occupied space is reduced; the base subassembly quantity is four, is used for supporting four roof pressure machine casings that are located the side respectively, and hoist subassembly mainly used hangs the roof pressure machine casing at top, can high efficiency form the support to roof pressure machine casing and hinge roof beam through this device, conveniently dismantle the top hammer of changing wherein to this device occupation space is little, makes things convenient for the operator to operate, thereby has solved current device roof pressure machine casing and hinge roof beam volume weight big, inconvenient problem when dismouting top hammer.

Description

Device for dismounting top hammer of hexahedral top hydraulic press

Technical Field

The invention relates to the technical field of hexahedral hydraulic presses, in particular to a disassembling and assembling device for a top hammer of a hexahedral hydraulic press.

Background

The six-sided pressing machine principle is that six working cylinders respectively drive six top hammers to extrude raw materials, and simultaneously release high temperature, and the six top hammers are mainly used for processing synthetic diamond, the six top hammers are symmetrical and coaxial in pairs, the raw materials are placed on the bottom top hammer during synthesis, and simultaneously the six working cylinders are started to synchronously extrude six surfaces of the six top hammers, so that artificial synthetic diamond can be realized; the existing hexahedral top press is mostly of a hinge structure, and is small in size, simple in structure and convenient to use.

But the top hammer is in the high temperature high pressure state for a long time, and the wearing and tearing are higher needs often to dismantle the change, and the top hammer is installed inside the top press, need dismantle top press casing and hinge roof beam just can the dismouting top hammer, and top press casing and hinge roof beam are bulky heavy weight, dismantle very inconvenient.

Disclosure of Invention

The invention aims to provide a top hammer dismounting device of a hexahedral top hydraulic press, and aims to solve the problems that the existing device top press shell and a hinge beam are large in volume and weight, and the top hammer is inconvenient to dismount.

In order to achieve the above purpose, the invention provides a top hammer dismounting device of a hexahedral top hydraulic press, which comprises a sliding assembly, a plurality of base assemblies and a lifting appliance assembly, wherein the sliding assembly comprises a fixed rail, a sliding rail, a pull rod and a clamping rail, the plurality of base assemblies comprise transverse rails, two clamping blocks, a sliding seat and a supporting block, and the supporting block is provided with a hinge groove; the lifting appliance assembly comprises a supporting frame and a lifting member; the sliding rail is connected with the fixed rail in a sliding way and is positioned in the fixed rail; the clamping rail is fixed above the sliding rail; the pull rod is fixed on one side of the sliding rail; the transverse rail is arranged above the fixed rail in a sliding way; the two clamping blocks are fixed below the transverse rail and are matched with the clamping rail; the sliding seat is arranged above the transverse rail in a sliding manner; the supporting block is fixed above the sliding seat; the support frame is fixed on one side of the sliding seat; the lifting member is fixed at the end of the transverse rail.

The sliding seat comprises a sliding seat, an extension rail, a hinge ring and a bolt, and the transverse rail is provided with a plurality of backstop grooves; the extension rail is connected to the transverse rail in a sliding manner; the sliding seat is fixed above the extension rail; the hinge ring is fixed on one side of the extension rail; the bolt is inserted in the hinge ring.

The support frame comprises a plurality of upright posts, a plurality of cross beams, a central shaft, a limiting plate and a plurality of support rods, wherein the upright posts are respectively fixed on one sides of the transverse rails; the cross beams are respectively fixed above the upright posts; the central shaft is respectively connected with the cross beams in a rotating way and penetrates through the cross beams; the limiting plate is fixed below the central shaft; the support rods are fixedly connected with the upright posts respectively and the cross beams respectively.

The lifting member comprises a rotating frame, a wire roller, a fixed pulley and a suspension wire, wherein the rotating frame is fixed at the tail end of the transverse rail; the wire roller is rotatably arranged on the rotating frame; the fixed pulley is fixed on the cross beam; the suspension cable is wound on the wire roller.

The lifting member further comprises a fixed rod, the wire roller is provided with a plurality of fixed holes, and the rotating frame is provided with a limiting hole; the fixing rod is arranged in the fixing hole.

The lifting member further comprises a labor-saving rod, wherein the labor-saving rod is fixedly connected with the wire roller and is rotatably connected with the rotating frame.

The top hammer dismounting device of the hexahedral top hydraulic press further comprises a moving wheel and a pull ring, wherein the moving wheel is arranged below the sliding seat; the pull ring is fixed on one side of the sliding seat.

According to the dismounting device for the top hammer of the hexahedral top hydraulic press, the sliding assembly is used for sliding, unfolding and accommodating, so that occupied space is reduced, the fixed rail and the sliding rail are both semicircular, wherein the fixed rail is a base, the sliding rail is an extension part, and the splicing shape of the extended sliding rail is circular;

the base assemblies are four in number and are respectively used for supporting four top press shells positioned on the side surfaces, and after the sliding rail is unfolded, the four base assemblies can be distributed on an XY axis; the transverse rail can be used for moving the sliding seat in a straight line to enable the sliding seat to be close to and clamped below the top press shell; the two clamping blocks are arc-shaped, two sides of the clamping blocks can be matched with the fixed rail, the middle part of the clamping blocks can be matched with the clamping rail, and the transverse rail can be conveniently clamped on the fixed rail and the sliding rail while the relative sliding capacity is provided; the hinge groove of the supporting block is used for placing a hinge beam of the top press shell and is clamped to form a supporting and fixing structure; thereby facilitating the removal of the four side press housings;

the lifting appliance assembly is mainly used for suspending a top press shell of the top, the supporting frame is used for supporting the lifting member, the lifting member is mainly suspended through a rope, and the lifting member, the transverse rail and the supporting frame form a triangular structure, so that the top press shell of the top can be rapidly and stably suspended;

can high efficiency form the support to roof pressure machine casing and hinge roof beam through this device, conveniently dismantle the top hammer of changing wherein to this device occupation space is little, makes things convenient for the operator to operate, thereby has solved current device roof pressure machine casing and hinge roof beam volume weight big, inconvenient problem when dismouting top hammer.

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.

Fig. 1 is a schematic structural view of a single base assembly of a top hammer dismounting device of a hexahedral top hydraulic press according to a first embodiment of the present invention.

Fig. 2 is a schematic structural view of a top hammer dismounting device of a hexahedral top hydraulic press according to a first embodiment of the present invention.

Fig. 3 is a partial enlarged view of detail a of a top hammer dismounting device of a hexahedral hydraulic press according to a first embodiment of the present invention.

Fig. 4 is a top view of a top hammer dismounting device of a hexahedral top hydraulic press according to a first embodiment of the present invention.

Fig. 5 is a schematic structural view of a top hammer dismounting device of a hexahedral top hydraulic press according to a second embodiment of the present invention.

Fig. 6 is a schematic structural view of a top hammer dismounting device of a hexahedral top hydraulic press according to a third embodiment of the present invention.

Fig. 7 is a sectional view of a top hammer attaching/detaching device of a cubic hydraulic press according to a third embodiment of the present invention.

101-fixed rail, 102-sliding rail, 103-tie rod, 104-clip rail, 105-transverse rail, 106-clip block, 107-slide, 108-support block, 109-hinge slot, 110-slide seat, 111-extension rail, 112-hinge link, 113-latch, 114-backstop slot, 115-upright, 116-cross beam, 117-central shaft, 118-limit plate, 119-support bar, 120-turret, 121-wire roller, 122-fixed pulley, 123-sling, 124-fixed rod, 125-fixed hole, 126-limit hole, 127-labor-saving rod, 128-support frame, 129-lifting member, 201-moving wheel, 202-pull ring, 301-sliding ring, 302-rotating ring, 303-limit rod, 304-first through hole, 305-second through hole, 306-fixed slot, 307-limit member, 308-first telescopic rod, 309-second telescopic rod, 310-fixed plate, 311-fixed block, 312-clip slot.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

First embodiment

Referring to fig. 1 to 4, fig. 1 is a schematic structural view of a single base assembly of a top hammer dismounting device of a hexahedral top hydraulic press according to a first embodiment of the present invention; fig. 2 is a schematic structural view of a top hammer dismounting device of a hexahedral top hydraulic press according to a first embodiment of the present invention; FIG. 3 is an enlarged partial view of detail A of a top hammer assembly and disassembly device of a cubic hydraulic press according to a first embodiment of the present invention; fig. 4 is a top view of a top hammer dismounting device of a hexahedral top hydraulic press according to a first embodiment of the present invention.

The invention provides a top hammer dismounting device of a hexahedral top hydraulic press, which comprises: the lifting device comprises a sliding assembly, a plurality of base assemblies and a lifting appliance assembly, wherein the sliding assembly comprises a fixed rail 101, a sliding rail 102, a pull rod 103 and a clamping rail 104, the base assemblies comprise a transverse rail 105, two clamping blocks 106, a sliding seat 107 and a supporting block 108, and the supporting block 108 is provided with a hinge groove 109; the spreader assembly includes a support frame 128 and a lifting member 129; the slide seat 107 comprises a slide seat 110, an extension rail 111, a hinge ring 112 and a latch 113, and the transverse rail 105 is provided with a plurality of backstop grooves 114; the supporting frame 128 comprises a plurality of upright posts 115, a plurality of cross beams 116, a central shaft 117, a limiting plate 118 and a plurality of supporting rods 119, the lifting member 129 comprises a rotating frame 120, a wire roller 121, a fixed pulley 122, a fixed rod 124, a labor-saving rod 127 and a suspension cable 123, the wire roller 121 is provided with a plurality of fixed holes 125, and the rotating frame 120 is provided with a limiting hole 126.

The problem that the existing device top press shell and the hinge beam are large in volume and weight and inconvenient in dismounting the top hammer is solved through the scheme, and it can be understood that the scheme can be used for supporting the top press shell and the hinge beam quickly and effectively, and can be stored and mounted quickly, so that the dismounting efficiency is improved.

In this embodiment, the sliding rail 102 and the fixed rail 101 are slidably connected and located in the fixed rail 101; the clamping rail 104 is fixed above the sliding rail 102; the pull rod 103 is fixed on one side of the sliding rail 102; the fixed rail 101 and the sliding rail 102 are both semicircular, wherein the fixed rail 101 is a base, the sliding rail 102 is an extension part, and the splicing shape is a circular ring after the extension.

Wherein the transverse rail 105 is slidably disposed above the fixed rail 101; the two clamping blocks 106 are fixed below the transverse rail 105 and are matched with the clamping rail 104; the slide seat 107 is slidably mounted above the transverse rail 105; the supporting block 108 is fixed above the slide seat 107; the number of the base assemblies is four, and the base assemblies are respectively used for supporting four top press shells positioned on the side surfaces, and can be distributed on an XY axis after the sliding rail 102 is unfolded; wherein the cross rail 105 can be used to move the slide 107 in a straight line to approach and catch under the top press housing; the two clamping blocks 106 are arc-shaped, two sides of the clamping blocks can be engaged with the fixed rail 101, the middle part of the clamping blocks can be engaged with the clamping rail 104, and the transverse rail 105 can be conveniently clamped on the fixed rail 101 and the sliding rail 102 while the relative sliding capability is provided; the hinge groove 109 of the supporting block 108 is used for placing a hinge beam of the top press shell and is clamped to form a supporting and fixing structure; thereby facilitating removal of the four side press housings.

Secondly, the supporting frame 128 is fixed at one side of the sliding seat 107; the lifting member 129 is fixed to the end of the transverse rail 105; the lifting appliance assembly is mainly used for suspending a top press shell, wherein the supporting frame 128 is used for supporting the lifting member 129, the lifting member 129 is mainly suspended by ropes, and the lifting member 129, the transverse rail 105 and the supporting frame 128 form a triangular structure, so that the top press shell of the top can be suspended quickly and stably.

Again, the elongated rail 111 is slidably coupled to the cross rail 105; the sliding seat 110 is fixed above the extension rail 111; the hinge ring 112 is fixed to one side of the extension rail 111; the bolt 113 is inserted into the hinge ring 112; the extension rail 111 is used for sliding the sliding seat 110 out of the transverse rail 105 by a certain distance to enable the sliding seat 110 to abut against the top press shell, and the bolt 113 sequentially passes through the hinge ring 112 and the retaining groove 114 of the transverse rail 105 to fix the sliding seat 110.

A plurality of the upright posts 115 are fixed to one side of the plurality of the cross rails 105, respectively; a plurality of the cross members 116 are fixed above the plurality of the columns 115, respectively; the central shaft 117 is respectively and rotatably connected with the plurality of cross beams 116 and penetrates through the plurality of cross beams 116; the limiting plate 118 is fixed below the central shaft 117; a plurality of support rods 119 are fixedly connected to the plurality of upright posts 115, respectively, and to the plurality of cross beams 116, respectively; the upright posts 115 are used for supporting the cross beams 116, the upright posts 115 can slide along the transverse rails 105, the cross beams 116 can rotate around the central shafts 117, synchronous arrangement can be achieved when the sliding seats 107 are arranged, occupied space can be reduced after the sliding seats are stored, the supporting rods 119, the upright posts 115 and the cross beams 116 form a triangular structure, and the bearing capacity of the cross beams 116 is increased, so that the device is more stable; wherein the heights of the plurality of upright posts 115 are not identical, and the cross beams 116 do not interfere with each other when rotated.

The rotating frame 120 is fixed at the end of the transverse rail 105; the wire roller 121 is rotatably installed on the rotating frame 120; the fixed pulley 122 is fixed on the beam 116; the suspension cord 123 is wound around the cord roller 121; the rotating frame 120 is used for supporting and limiting the wire roller 121, and the wire roller 121 can wind or release a suspension cable 123 for suspending a top press shell; the fixed pulley 122 is used to adjust the angle of the sling 123 at the corner so that it does not wear out by direct contact with the beam 116.

The fixing rod 124 is disposed in the fixing hole 125; the fixing rod 124 sequentially passes through the adjacent limiting hole 126 and the fixing hole 125, so as to fix the wire roller 121, thereby avoiding the secondary rotation in the suspension process.

The labor-saving rod 127 is fixedly connected with the wire roller 121 and is rotatably connected with the rotating frame 120; the laborsaving lever 127 is used to facilitate the operator in rotating the wire roller 121.

In the process of disassembling and assembling the top hammer of the hexahedral top press by using the device, the sliding rail 102 is slidingly unfolded, so that the four base assemblies can be symmetrically distributed on the XY axis; wherein the transverse rail 105 can enable the sliding seat 107 to approach and be clamped below the top press shell, and the hinge groove 109 of the supporting block 108 is matched with the hinge beam of the top press shell; then the four side press shells are conveniently detached by fixing through the bolts 113; the lifting device assembly is mainly used for suspending a top press shell, wherein the supporting frame 128 is used for supporting the lifting member 129, the lifting member 129 is mainly suspended through the suspending rope 123, one end of the suspending rope 123 and the top press shell at the top are fixed, and then the wire roller 121 is rotated to suspend after a hinge is removed; the lifting member 129, the transverse rail 105 and the supporting frame 128 form a triangle structure, so that the top press shell at the top can be quickly and stably suspended; can high efficiency form the support to roof pressure machine casing and hinge roof beam through this device, conveniently dismantle the top hammer of changing wherein to this device occupation space is little, makes things convenient for the operator to operate, thereby has solved current device roof pressure machine casing and hinge roof beam volume weight big, inconvenient problem when dismouting top hammer.

Second embodiment

Referring to fig. 5, fig. 5 is a schematic structural diagram of a top hammer dismounting device of a hexahedral top hydraulic press according to a second embodiment of the present invention.

The top hammer dismounting device of the hexahedral top hydraulic press further comprises a moving wheel 201 and a pull ring 202 on the basis of the first embodiment.

The moving wheel 201 is disposed below the sliding seat 110; the pull ring 202 is fixed on one side of the sliding seat 110; the moving wheel 201 can facilitate the movement of the sliding seat 110, and simultaneously form a support for the extending part of the sliding seat 110, so as to provide better bearing capacity; the pull ring 202 is located on a side surface of the sliding seat 110, so that the sliding seat 110 can be pulled out conveniently, and installation efficiency is improved.

Third embodiment

Referring to fig. 6 to 7, fig. 6 is a schematic structural diagram of a top hammer dismounting device of a hexahedral top hydraulic press according to a third embodiment of the present invention; fig. 7 is a sectional view of a top hammer attaching/detaching device of a cubic hydraulic press according to a third embodiment of the present invention.

On the basis of the second embodiment, the top hammer dismounting device of the hexahedral top hydraulic press further comprises a sliding ring 301, a rotating ring 302, a limiting rod 303 and a limiting member 307, wherein the sliding ring 301 is provided with a first through hole 304, the rotating ring 302 is provided with a plurality of second through holes 305, and the upright post 115 is provided with a plurality of fixing grooves 306; the limiting member 307 includes a first telescopic rod 308, a second telescopic rod 309, a fixing plate 310, and a fixing block 311; the first telescoping rod 308 has a plurality of detents 312.

The sliding ring 301 is slidably mounted on the upright 115; the rotating ring 302 is rotatably connected with the sliding ring 301 and wraps the outer side of the sliding ring 301; the limiting member 307 is fixed to the rotating ring 302; the limiting rod 303 is arranged in the second through hole 305 of the rotating ring 302; the sliding ring 301 is round and inward and can slide up and down on the upright post 115, and the rotating ring 302 can rotate relative to the sliding ring 301; the limiting rod 303 can sequentially pass through the second through hole 305, the first through hole 304 and the fixing groove 306, so that the rotating ring 302 and the sliding ring 301 are both fixed, and when the sliding ring 301 is pulled out, the sliding rod can flexibly rotate and slide, thereby being convenient for adjusting the limiting member 307; the limiting member 307 rotates along with the rotating ring 302, and serves to limit the upper ends of the four side press housings, and after the top press housing is removed, the limiting member 307 limits the top press housings, thereby increasing stability.

The first telescopic rod 308 is fixed on the side surface of the rotating ring 302; the second telescopic rod 309 is slidably connected with the first telescopic rod 308; the fixing plate 310 is fixed below the second telescopic rod 309; the fixed block 311 is slidably connected with the second telescopic rod 309; the first telescopic rod 308 and the second telescopic rod 309 are used for adjusting the length, the fixing block 311 can be flexibly inserted into the adjacent clamping groove 312 to fix the first telescopic rod 308 and the second telescopic rod 309, and the fixing plate 310 is used for being clamped at the upper end of the shell of the side pressing machine, so that the fixing plate is prevented from inclining inwards, and the stability of the device is improved.

The above disclosure is only a preferred embodiment of the present invention, and it should be understood that the scope of the invention is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present invention.

Claims (7)

1. A top hammer dismounting device of a hexahedral top hydraulic press is characterized in that,

the lifting device comprises a sliding assembly, a plurality of base assemblies and a lifting appliance assembly;

the sliding assembly comprises a fixed rail, a sliding rail, a pull rod and a clamping rail, wherein the sliding rail is in sliding connection with the fixed rail and is positioned in the fixed rail; the clamping rail is fixed above the sliding rail; the pull rod is fixed on one side of the sliding rail;

the base assembly comprises a transverse rail, two clamping blocks, a sliding seat and a supporting block, wherein the supporting block is provided with a hinge groove; the transverse rail is arranged above the fixed rail in a sliding way; the two clamping blocks are fixed below the transverse rail and are matched with the clamping rail; the sliding seat is arranged above the transverse rail in a sliding manner; the supporting block is fixed above the sliding seat;

the lifting appliance assembly comprises a supporting frame and a lifting member, and the supporting frame is fixed on one side of the sliding seat; the lifting member is fixed at the end of the transverse rail.

2. The top hammer dismounting device of the hexahedral top hydraulic press according to claim 1, wherein,

the sliding seat comprises a sliding seat, an extension rail, a hinge ring and a bolt, and the transverse rail is provided with a plurality of retaining grooves; the extension rail is connected to the transverse rail in a sliding manner; the sliding seat is fixed above the extension rail; the hinge ring is fixed on one side of the extension rail; the bolt is inserted in the hinge ring.

3. A top hammer dismounting device of a hexahedral top hydraulic press as set forth in claim 2, wherein,

the supporting frame comprises a plurality of upright posts, a plurality of cross beams, a central shaft, a limiting plate and a plurality of supporting rods, wherein the upright posts are respectively fixed on one sides of the transverse rails; the cross beams are respectively fixed above the upright posts; the central shaft is respectively connected with the cross beams in a rotating way and penetrates through the cross beams; the limiting plate is fixed below the central shaft; the support rods are fixedly connected with the upright posts respectively and the cross beams respectively.

4. A top hammer dismounting device of a hexahedral top hydraulic press as set forth in claim 3, wherein,

the lifting member comprises a rotating frame, a wire roller, a fixed pulley and a suspension wire, and the rotating frame is fixed at the tail end of the transverse rail; the wire roller is rotatably arranged on the rotating frame; the fixed pulley is fixed on the cross beam; the suspension cable is wound on the wire roller.

5. The top hammer dismounting device of the hexahedral top hydraulic press according to claim 4, wherein,

the lifting member further comprises a fixed rod, the wire roller is provided with a plurality of fixed holes, and the rotating frame is provided with a limiting hole; the fixing rod is arranged in the fixing hole.

6. The top hammer dismounting device of the hexahedral top hydraulic press according to claim 5, wherein,

the lifting member further comprises a labor-saving rod, and the labor-saving rod is fixedly connected with the wire roller and is rotatably connected with the rotating frame.

7. The top hammer dismounting device of a hexahedral top hydraulic press according to claim 6, wherein,

the top hammer dismounting device of the hexahedral top hydraulic press further comprises a moving wheel and a pull ring, wherein the moving wheel is arranged below the sliding seat; the pull ring is fixed on one side of the sliding seat.

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