CN215279872U

CN215279872U - Novel metallurgical energy-saving forming device

Info

Publication number: CN215279872U
Application number: CN202120531323.9U
Authority: CN
Inventors: 黄文飞
Original assignee: Fujian Antarctica Big Data Co ltd
Current assignee: Fujian Antarctica Big Data Co ltd
Priority date: 2021-03-12
Filing date: 2021-03-12
Publication date: 2021-12-24
Anticipated expiration: 2031-03-12

Abstract

The utility model discloses a novel metallurgical energy-saving forming device, belonging to the technical field of metallurgical equipment; the device comprises a processing plate seat, a pressing plate joint and a base, wherein the pressing plate joint is arranged in the middle of the processing plate seat in a penetrating manner, and the base is fixedly arranged on the bottom surface of the processing plate seat; four bolt pipe shafts are annularly distributed on the outer side of the processing plate base and are inserted with the processing plate base, bolt pipe shaft joint rings are sleeved at the upper end and the lower end of the joint of the bolt pipe shafts and the processing plate base, the bolt pipe shaft joint rings are fixedly connected with the processing plate base, compression spring rings are filled in the bolt pipe shaft joint rings, and the compression spring rings are sleeved with the bolt pipe shafts; the left end and the right end of the joint of the pressing plate section and the processing plate seat are symmetrically provided with a pair of T-shaped rod pieces, the inner sides of the T-shaped rod pieces are provided with telescopic shaft tubes in a penetrating mode, the upper ends and the lower ends of the joint of the telescopic shaft tubes and the T-shaped rod pieces are provided with sealing rings in a sleeved mode, the energy-saving forming device can avoid the influence of recoil force on the overall power consumption of the device in the processing process, and therefore the stability of the device during processing is maintained.

Description

Novel metallurgical energy-saving forming device

Technical Field

The utility model relates to a metallurgical equipment technical field, especially a novel energy-conserving shaping of metallurgy device.

Background

Powder metallurgy is a process technology for preparing metal powder or manufacturing metal materials, composite materials and various products by using metal powder (or a mixture of metal powder and nonmetal powder) as a raw material through forming and sintering, wherein in the forming, a special forming machine is required for processing;

in the powder forming process, the forming machine usually needs to sinter and die-cast the metal material, wherein the effect of the forming process is influenced by the overall power of the machine, the sintering and die-casting structure in the traditional forming device is mostly a pressure head and a rigid pressing in a direct contact mode of the material, the die-casting is greatly influenced by recoil force in the actual braking process, and the produced redundant power loss enables the overall braking process to be lower in utilization rate.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems and providing a novel metallurgical energy-saving forming device, which comprises a processing plate seat, a pressing plate joint and a base, wherein the pressing plate joint is arranged in the middle of the processing plate seat in a penetrating way, and the base is fixedly arranged on the bottom surface of the processing plate seat;

four bolt pipe shafts are annularly distributed on the outer side of the machining plate base, the bolt pipe shafts are inserted into the machining plate base, bolt pipe shaft section rings are sleeved at the upper end and the lower end of the joint of the bolt pipe shafts and the machining plate base, the bolt pipe shaft section rings are fixedly connected with the machining plate base, compression spring rings are filled on the inner sides of the bolt pipe shaft section rings, and the compression spring rings are sleeved with the bolt pipe shafts;

a pair of T-shaped rod pieces are symmetrically arranged at the left end and the right end of the joint of the pressing plate section and the processing plate seat, a telescopic shaft tube penetrates through the inner side of each T-shaped rod piece, and sealing rings are sleeved at the upper end and the lower end of the joint of each telescopic shaft tube and the corresponding T-shaped rod piece;

the base is provided with the pressure head with the inboard embedding of processing plate seat junction, the pressure head upper end is pegged graft with the clamp plate festival inboard, the base lower extreme is pegged graft and is provided with the mould seat, the inboard upper end fluting of mould seat is provided with the mould groove, the pressure head lower extreme is pegged graft with the mould groove.

Furthermore, an opening at the upper end of the pressing plate section is provided with a slot.

Furthermore, a limiting ring is embedded at the inner side of the joint of the bolt pipe shaft and the bolt pipe shaft joint ring, and the limiting ring is clamped with the pressure spring ring.

Furthermore, the bolt pipe shaft is a solid steel shaft pipe, and pin holes are etched in the upper end and the lower end of the bolt pipe shaft.

Furthermore, clamping holes are formed in openings of four corners of the bottom surface of the die seat.

Further, the pressure head is an alloy steel block, the appearance specification of the pressure head is matched with the die groove, and the pressure head is connected with the inner wall of the pressing plate section in a sliding mode.

Due to the adoption of the technical scheme, the utility model discloses following beneficial effect has:

the utility model provides a novel energy-conserving forming device of metallurgy, this energy-conserving forming device compares in the die-casting mode of tradition direct drive, can be in die-casting in-process through the pressure head of the inboard upper end of clamp plate festival, come along clamp plate festival inner wall, the base is impressed in the mould groove in the mould seat, the bolt tube axle that the outside distributes when utilizing the pressure head to be pressed simultaneously stretches out and draws back from top to bottom, make the cooperation pressure head of pressure spring circle in bolt tube axle and the bolt tube axle festival ring junction, the flexible activity after the pressure head festival carries out the pressurized with the processing plate seat, when the material contact in pressure head and the mould groove, the recoil strength acts on through following the pressure head, the clamp plate festival influences to the processing plate seat, utilize the flexible central siphon that sets up between clamp plate festival and the processing plate seat, T type pole spare is flexible, further avoid the pressure head to add the loss of reaction to direct drive die-casting power man-hour, and then guarantee the device's consumption utilization ratio.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a schematic view of the internal structure of the bolt tube shaft section ring of the present invention.

In the attached drawing, 1-processing a plate seat, 2-pressing plate sections, 3-base, 4-bolt tubular shaft section rings, 5-die seat, 6-bolt tubular shaft, 7-T-shaped rod pieces, 8-die grooves, 9-pressure head, 10-telescopic shaft tube, 11-sealing ring, 12-clamping hole, 13-pressure spring ring and 14-limiting ring.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

With reference to fig. 1-3, the utility model discloses a novel metallurgical energy-saving forming device, which comprises a processing plate seat 1, a pressing plate joint 2 and a base 3, wherein the pressing plate joint 2 is arranged in the middle of the processing plate seat 1 in a penetrating way, and the base 3 is fixedly arranged on the bottom surface of the processing plate seat 1;

four bolt pipe shafts 6 are annularly distributed on the outer side of the machining plate base 1, the bolt pipe shafts 6 are inserted into the machining plate base 1, bolt pipe shaft joint rings 4 are sleeved at the upper and lower ends of the joint of the bolt pipe shafts 6 and the machining plate base 1, the bolt pipe shaft joint rings 4 are fixedly connected with the machining plate base 1, spring pressing rings 13 are filled on the inner sides of the bolt pipe shaft joint rings 4, and the spring pressing rings 13 are sleeved with the bolt pipe shafts 6;

a limiting ring 14 is embedded at the inner side of the joint of the bolt tube shaft 6 and the bolt tube shaft joint ring 4, and the limiting ring 14 is clamped with the compression spring ring 13;

the bolt pipe shaft 6 is a solid steel shaft pipe, and pin holes are etched in the upper end and the lower end of the bolt pipe shaft 6;

the forming device is inserted and fixed with a frame of a processing machine table through pin holes which are vertically arranged on a bolt tube shaft 6, wherein a die-casting power source of the processing machine table is inserted and fixed with a pressing plate section 2 through an upper end slot of the pressing plate section 2, when the die-casting power source feeds downwards, the bolt tube shaft 6 is synchronously pressed through the downward movement of the power source, so that a bolt tube shaft 6 and a side pressure spring ring 13 in a bolt tube shaft joint ring 4 are contracted, a limit ring 14 is arranged for fixing the connecting position of the pressure spring ring 13 and the bolt tube shaft 6, the pressure spring ring 13 is prevented from being separated from the bolt tube shaft joint ring 4, and through the mode that the bolt tube shaft 6 is contracted and matched with the die-casting feeding movement, the situation that the reaction force and the die-casting power are mutually offset after the rigid contact in a die-casting direct-driving mode, the power loss is increased is avoided, and the energy conservation of the device is ensured to a certain extent;

a pair of T-shaped rod pieces 7 are symmetrically arranged at the left end and the right end of the joint of the pressing plate section 2 and the processing plate base 1, a telescopic shaft tube 10 penetrates through the inner side of each T-shaped rod piece 7, and sealing rings 11 are sleeved at the upper end and the lower end of the joint of each telescopic shaft tube 10 and each T-shaped rod piece 7;

an opening at the upper end of the pressure plate section 2 is provided with a slot;

the pressure head 9 is an alloy steel block, the appearance specification of the pressure head 9 is matched with that of the die groove 8, and the pressure head 9 is connected with the inner wall of the pressure plate section 2 in a sliding manner;

on the basis, after the pressure head 9 is fed by a pressure casting power source, the pressure head slides downwards along the inner wall of the pressure plate section 2, the pressure plate section 2 and the processing plate seat 1 are pressed in the process, the telescopic shaft tube 10 in the T-shaped rod 7 is forced to contract synchronously, and further, in the feeding state, the movement of the pressed joint of the pressure plate section 2 and the processing plate seat 1 is buffered by utilizing the synchronous contraction of the telescopic shaft tube 10 along the T-shaped rod 7, so that the influence of the pressure casting reaction force on the overall structure of the device is further avoided while the structural strength of the main body of the device is ensured to be stable, and the power consumption of the device during working is ensured to be stable;

a pressing head 9 is embedded into the inner side of the joint of the base 3 and the processing plate seat 1, the upper end of the pressing head 9 is inserted into the inner side of the pressing plate joint 2, a die seat 5 is inserted into the lower end of the base 3, a die groove 8 is formed in the upper end of the inner side of the die seat 5, and the lower end of the pressing head 9 is inserted into the die groove 8;

the equal opening in 5 bottom surfaces four corners of mould seat is provided with the card and presss from both sides hole 12, and mould seat 5 and base 3 are the swing joint structure of plug-in formula in the device, and wherein clamping hole 12 that mould seat 5 arranged through the bottom surface is pegged graft fixedly with processing board station surface, and the mould groove 8 that the fluting set up in mould seat 5 holds as the placing of material, and when pressure head 9 fed, pressure head 9 will follow 2 inner walls of clamp plate festival and impress in the mould groove 8, accomplish the die-casting.

Claims

1. The utility model provides a novel metallurgical energy-conserving shaping device, includes processing plate seat (1), clamp plate festival (2) and base (3), clamp plate festival (2) run through set up in processing plate seat (1) middle part, base (3) are fixed to be set up in processing plate seat (1) bottom surface, its characterized in that:

four bolt pipe shafts (6) are annularly distributed on the outer side of the machining plate base (1), the bolt pipe shafts (6) are inserted into the machining plate base (1), bolt pipe shaft section rings (4) are sleeved at the upper end and the lower end of the joint of the bolt pipe shafts (6) and the machining plate base (1), the bolt pipe shaft section rings (4) are fixedly connected with the machining plate base (1), compression spring rings (13) are filled in the inner sides of the bolt pipe shaft section rings (4), and the compression spring rings (13) are sleeved with the bolt pipe shafts (6);

a pair of T-shaped rods (7) is symmetrically arranged at the left end and the right end of the joint of the pressing plate section (2) and the processing plate seat (1), a telescopic shaft tube (10) penetrates through the inner side of each T-shaped rod (7), and the upper end and the lower end of the joint of each telescopic shaft tube (10) and each T-shaped rod (7) are respectively sleeved with a sealing ring (11);

base (3) are provided with pressure head (9) with the inboard embedding of processing plate seat (1) junction, pressure head (9) upper end is pegged graft with clamp plate festival (2) inboard, base (3) lower extreme is pegged graft and is provided with mould seat (5), mould seat (5) inboard upper end fluting is provided with mould groove (8), pressure head (9) lower extreme is pegged graft with mould groove (8).

2. The novel metallurgical energy-saving forming device of claim 1, wherein: the upper end opening of the pressing plate section (2) is provided with a slot.

3. The novel metallurgical energy-saving forming device of claim 1, wherein: the inner side of the joint of the bolt pipe shaft (6) and the bolt pipe shaft joint ring (4) is embedded with a limiting ring (14), and the limiting ring (14) is clamped with a compression spring ring (13).

4. The novel metallurgical energy-saving forming device of claim 1, wherein: the bolt pipe shaft (6) is a solid steel shaft pipe, and pin holes are etched in the upper end and the lower end of the bolt pipe shaft (6).

5. The novel metallurgical energy-saving forming device of claim 1, wherein: clamping holes (12) are formed in openings of four corners of the bottom surface of the die seat (5).

6. The novel metallurgical energy-saving forming device of claim 1, wherein: pressure head (9) are the alloy steel piece, pressure head (9) appearance specification and mould groove (8) phase-match, pressure head (9) and clamp plate festival (2) inner wall sliding connection.