CN203076549U

CN203076549U - Double-faced hammer anvil device used for preparing bulk non-crystalline materials

Info

Publication number: CN203076549U
Application number: CN 201320025903
Authority: CN
Inventors: 陈汐
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-01-17
Filing date: 2013-01-17
Publication date: 2013-07-24
Anticipated expiration: 2023-01-17

Abstract

The utility model relates to equipment for preparing non-crystalline materials, in particular to a double-faced hammer anvil device used for preparing the bulk non-crystalline materials. The double-faced hammer anvil device used for preparing the bulk non-crystalline materials comprises an extruding platform I, an extruding platform II, a horizontal sliding mechanism, a longitudinal sliding mechanism and a pressure head component, wherein the extruding platform I is arranged above the extruding platform II, a groove is formed in the extruding platform I, the horizontal sliding mechanism is arranged on the extruding platform I, the longitudinal sliding mechanism is arranged on the horizontal sliding mechanism and moves horizontally along with the horizontal sliding mechanism on the extruding platform I, and the pressure head component is arranged at the lower end of the longitudinal sliding mechanism. When the pressure head corresponds to the groove in the extruding platform I, the longitudinal sliding mechanism makes the pressure head move downwards, and the non-crystalline materials are pressed in the groove. The double-faced hammer anvil device used for preparing the bulk non-crystalline materials achieves the aim of quick pressing and rapid cooling.

Description

A kind of double-faced hammer anvil means that is used to prepare bulk amorphous material

Technical field

The utility model relates to the equipment for preparing non-crystalline material, specifically a kind of double-faced hammer anvil means that is used to prepare bulk amorphous material.

Background technology

Along with the development of society, people have more and more higher requirement to the performance of material.Because the non-crystalline material even tissue, do not have mistake, phase boundary defective, thereby the performance of material can have greatly improved, thereby have high rigidity, high strength, high resiliency, all be widely used in every field.Can the one-tenth sexuality of the affects non-crystaline amorphous metal of cooling velocity affect and prepare large-scale non-crystalline material.Existing machine (traditional electric arc furnaces) can't be realized quick cooling.If cooling velocity is not enough, the material property of working it out will satisfy the large block amorphous requirement of preparation, brings great inconvenience and hidden danger to producing, living.

The utility model content

At the problems referred to above, the purpose of this utility model is to provide a kind of double-faced hammer anvil means that is used to prepare bulk amorphous material.This device is realized the extruding cooling of two-sided liquid towards metal, increases cooling velocity.

To achieve these goals, the utility model is by the following technical solutions:

A kind of double-faced hammer anvil means that is used to prepare bulk amorphous material, comprise extruding platform I, extruding platform II, horizontal slip mechanism, longitudinal sliding motion mechanism and pressure head component, wherein push the top that platform I is arranged at extruding platform II, extruding platform I is provided with groove, described horizontal slip mechanism is arranged on the extruding platform I, described longitudinal sliding motion mechanism is arranged in the horizontal slip mechanism, and on extruding platform I, move horizontally in company with horizontal slip mechanism, described pressure head component is arranged at the lower end of longitudinal sliding motion mechanism, when pressure head component is corresponding with the groove on the extruding platform I, described longitudinal sliding motion mechanism makes pressure head component descending, and non-crystalline material is pressed in the groove.

Described horizontal slip mechanism comprises pipe I, flange I, flange III and spring I, wherein managing I is two, the two ends of each pipe I all are horizontally placed on the extruding platform I by flange I and two pipe I be arranged in parallel, each is managed and all is arranged with spring I and flange III on the I, described flange III with the pipe I be slidingly connected, the two ends of described spring I respectively with flange I and flange III butt.

Described flange III is slidingly connected by linear bearing I and pipe I.Groove on the described extruding platform I is between two pipe I.

Described longitudinal sliding motion mechanism comprises pipe III, flange II and spring II, wherein managing III is two, each pipe III passes through a flange II and is connected with side flange III respectively, each is managed III and all is slidingly connected perpendicular to horizontal plane and with flange II, the lower ends of two pipe III are connected with the two ends of described pressure head component respectively, and described spring II is sheathed on the pipe III and between flange II and pressure head component.Described pipe III is slidingly connected by linear bearing II and flange II.

Described horizontal slip mechanism is fixed on the extruding platform I by fixture.Described fixture comprises pipe II, pin and nut, wherein manages II and is arranged on the extruding platform I, and described pin inserts in the earrings and pipe II that longitudinal sliding motion mechanism is provided with successively, horizontal slip mechanism is fixed in that extruding platform I goes up and by nut check.Described pressure head component is slidingly connected with extruding platform I.

Advantage of the present utility model and beneficial effect are:

1. the utility model is realized the extruding cooling of two-sided liquid towards metal, increases cooling velocity.

2. the utility model is simple in structure, enhances productivity.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the A-A cutaway view among Fig. 1;

Fig. 3 is the B-B cutaway view among Fig. 1;

Fig. 4 is the C-C cutaway view among Fig. 1.

Wherein: 1 is flange I, and 2 is spring I, and 3 is flange III, 4 is linear bearing I, and 5 is flange II, and 6 is bearing block, 7 are pipe I, and 8 are pipe II, and 9 is nut, 10 is pin, and 11 is linear bearing II, and 12 is spring II, 13 are pipe II, and 14 is boron nitride, and 15 is pressure head component, 16 are extruding platform I, and 17 are extruding platform II, and 18 is groove.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is further described.

Shown in Fig. 1-4, the utility model comprises extruding platform I 16, extruding platform II 17, horizontal slip mechanism, longitudinal sliding motion mechanism and pressure head component 15, wherein push the top that platform I 16 is arranged at extruding platform II17, extruding platform I 16 is provided with groove 18.Described horizontal slip mechanism is arranged on the extruding platform I 16, and described longitudinal sliding motion mechanism is arranged in the horizontal slip mechanism, moves horizontally on extruding platform I 16 in company with horizontal slip mechanism.Pressure head component 15 is arranged at the lower end of longitudinal sliding motion mechanism and is slidingly connected with extruding platform I 16, when the groove on pressure head component 15 and the extruding platform I 16 18 is corresponding, described longitudinal sliding motion mechanism makes pressure head component 15 descending, and non-crystalline material is pressed in the groove 18.

Described horizontal slip mechanism comprises pipe I 7, flange I 1, flange III 3 and spring I 2, wherein managing I 7 is two, the two ends of each pipe I 7 all are horizontally placed on the extruding platform I 16 by flange I 1 and two pipe I 7 be arranged in parallel, each is managed and all is arranged with spring I 2 and flange III 3 on the I 7, flange III 3 is slidingly connected by linear bearing I 4 and pipe I 7, the two ends of spring I 2 respectively with flange I 1 and flange III 3 butts.Groove 18 on the extruding platform I 16 is between two pipe I 7, and groove 18 is vertical with pipe I 7.

Described longitudinal sliding motion mechanism comprises pipe III13, flange II 5 and spring II 12, wherein managing III 13 is two, each pipe III13 is connected with the flange III 3 of homonymy by a flange II 5 respectively, and each is managed III13 and all is slidingly connected perpendicular to horizontal plane and by linear bearing II 11 and flange II 5.The lower end of two pipe III 13 is connected with the two ends of pressure head component 15 respectively, and spring II 12 is sheathed on the pipe III 13 and between flange II 5 and pressure head component 15, spring II 12 is in compressive state.

Described horizontal slip mechanism is fixed on the extruding platform I 16 by fixture, described fixture comprises pipe II 8, pin 10 and nut 9, wherein managing II 8 is arranged on the extruding platform I 16, pin 10 inserts in the earrings and pipe II 8 that longitudinal sliding motion mechanism is provided with successively, with horizontal slip mechanism be fixed on the extruding platform I 16, and by nut 9 lockings.At this moment, spring I 2 is in compressive state.

The course of work of the present utility model is:

During the utility model work, draw back pin 10, spring I 2 promotes the horizontal slip device and slides along pipe I 7, and pressure head component 15 is slided along extruding platform I 16 simultaneously.When running into groove 18, spring II12 promotes pressure head component 15 and moves down, and non-crystalline material is pressed in the groove 18, realizes compacting and cooling purpose fast rapidly.

Claims

1. double-faced hammer anvil means that is used to prepare bulk amorphous material, it is characterized in that: comprise extruding platform I (16), extruding platform II (17), horizontal slip mechanism, longitudinal sliding motion mechanism and pressure head component (15), wherein push the top that platform I (16) is arranged at extruding platform II (17), extruding platform I (16) is provided with groove (18), described horizontal slip mechanism is arranged on the extruding platform I (16), described longitudinal sliding motion mechanism is arranged in the horizontal slip mechanism, and in extruding platform I (16), move horizontally in company with horizontal slip mechanism, described pressure head component (15) is arranged at the lower end of longitudinal sliding motion mechanism, when pressure head component (15) is corresponding with the groove (18) on the extruding platform I (16), described longitudinal sliding motion mechanism makes pressure head component (15) descending, and non-crystalline material is pressed in the groove (18).

2. by the described double-faced hammer anvil means that is used to prepare bulk amorphous material of claim 1, it is characterized in that: described horizontal slip mechanism comprises pipe I (7), flange I (1), flange III (3) and spring I (2), wherein managing I (7) is two, the two ends of each pipe I (7) all are horizontally placed on the extruding platform I (16) by flange I (1), and two pipe I (7) be arranged in parallel, each is managed and all is arranged with spring I (2) and flange III (3) on the I (7), described flange III (3) with the pipe I (7) be slidingly connected, the two ends of described spring I (2) respectively with flange I (1) and flange III (3) butt.

3. by the described double-faced hammer anvil means that is used to prepare bulk amorphous material of claim 2, it is characterized in that: described flange III (3) is slidingly connected by linear bearing I (4) and pipe I (7).

4. by the described double-faced hammer anvil means that is used to prepare bulk amorphous material of claim 2, it is characterized in that: the groove (18) on the described extruding platform I (16) is positioned between two pipe I (7).

5. by the described double-faced hammer anvil means that is used to prepare bulk amorphous material of claim 1, it is characterized in that: described longitudinal sliding motion mechanism comprises pipe III (13), flange II (5) and spring II (12), wherein managing III (13) is two, each pipe III (13) passes through a flange II (5) and is connected with side flange III (3) respectively, each manages III (13) all perpendicular to horizontal plane, and be slidingly connected with flange II (5), the lower end of two pipe III (13) is connected with the two ends of described pressure head component (15) respectively, and described spring II (12) is sheathed on the pipe III (13), and be positioned between flange II (5) and the pressure head component (15).

6. by the described double-faced hammer anvil means that is used to prepare bulk amorphous material of claim 5, it is characterized in that: described pipe III (13) is slidingly connected by linear bearing II (11) and flange II (5).

7. by claim 1 or the 2 described double-faced hammer anvil meanses that are used to prepare bulk amorphous material, it is characterized in that: described horizontal slip mechanism is fixed on the extruding platform I (16) by fixture.

8. by the described double-faced hammer anvil means that is used to prepare bulk amorphous material of claim 7, it is characterized in that: described fixture comprises pipe II (8), pin (10) and nut (9), wherein managing II (8) is arranged on the extruding platform I (16), described pin (10) inserts in the earrings and pipe II (8) that longitudinal sliding motion mechanism is provided with successively, extruding platform I (16) is fixed in horizontal slip mechanism goes up, and by nut (9) locking.

9. by claim 1 or the 5 described double-faced hammer anvil meanses that are used to prepare bulk amorphous material, it is characterized in that: described pressure head component (15) is slidingly connected with extruding platform I (16).