CN202133584U - Drop hammer impact anvil combination - Google Patents

Abstract

The utility model discloses a drop hammer impact anvil combination, which comprises a base, a first support table and a second support table respectively arranged at two ends of the top surface of the base, a third support table arranged in the middle of the top surface of the base, a first anvil arranged on the top surface of the base and between the first and the third support tables, and a second anvil arranged on the top surface of the base and between the second and the third support tables. A plurality of anvils are arranged to realize the combination of the drop hammer impact anvils, meanwhile a track seat is arranged and the base slides on the track seat, thus frequent detachment and installation are not required when the drop hammer impact anvils are replaced, the operation in the drop hammer test is more convenient, the geometric accuracy is guaranteed, and the drop hammer test is accelerated.

Description

Combined drop impact anvil block

Technical field

The utility model relates to a kind of experiment with measuring parts, is specifically related to a kind of combined drop impact anvil block.

Background technology

At present, drop-weight test is to be used for the gaging pressure container to produce a kind of test method of brittle fracture with steel, is one of metals such as nuclear power generating equipment, member important means of judging the bead welding performances.

The sample that drops hammer is divided into three types: 1, P1 type; 2, P2 type; 3, P3 type, this shape of dropping hammer of three types is not of uniform size.Dropping hammer of P1 type is bigger, so in process of the test, seldom be used, in fact the specimen types of the main use of drop impact is P2 type and P3 type.

According to these the three kinds dissimilar samples that drop hammer, the anvil block supporting with it also has three kinds of difform types accordingly, and these three kinds of anvil blocks are respectively P-1 anvil block, P-2 anvil block and P-3 anvil block, and wherein the P-1 anvil block is of little use.

As shown in Figure 1, the P-2 anvil block comprises a base 14, and is separately positioned on brace table 11, termination piece 12 and brace table 13 on this base 14.Wherein brace table 11 and brace table 13 are separately positioned on the two ends of base 14 end faces, stop the middle part that piece 12 is arranged on base 14 end faces.P2 type drop impact is on the termination piece 12 of P-2 anvil block.As shown in Figure 2, the P-3 anvil block comprises a base 24, and is separately positioned on brace table 21, termination piece 22 and brace table 23 on this base 24.Wherein brace table 21 and brace table 23 are separately positioned on the two ends of base 24 end faces, stop the middle part that piece 22 is arranged on base 24 end faces.P3 type drop impact is on the termination piece 22 of P-3 anvil block.

In the drop-weight test of prior art; Use the P2 type to drop hammer in a large amount of drop-weight tests or the P3 type sample that drops hammer is indefinite; Need to use and the corresponding anvil block that drops hammer, therefore need frequent replacing P-2 anvil block or P-3 anvil block, yet to change the work of anvil block very loaded down with trivial details at every turn; And anvil block and tup center centering are harmonized difficult, delay the test progress.

The utility model content

The utility model discloses a kind of combined drop impact anvil block, solves to change dissimilar anvil blocks in the drop-weight test, needs the frequent problem that anvil block is unloaded and installs, and can replace anvil block easily, improves test efficiency.

For realizing above-mentioned purpose, the utility model provides a kind of combined drop impact anvil block, is characterized in that this anvil block comprises:

Base;

First brace table and second brace table, this first brace table and second brace table are separately positioned on the two ends on the above-mentioned base top surface;

The 3rd brace table, the 3rd brace table is arranged on the middle part on the above-mentioned base top surface;

First anvil block, this first anvil block is arranged on the end face of described base, and this first anvil block is arranged between above-mentioned first brace table and the 3rd brace table; And,

Second anvil block, this second anvil block is arranged on the end face of above-mentioned base, and this second anvil block is arranged between above-mentioned second brace table and the 3rd brace table.

The first above-mentioned brace table, second brace table, the 3rd brace table, first anvil block and second anvil block are arranged in parallel.

The first above-mentioned brace table, second brace table, the 3rd brace table, first anvil block and second anvil block are arranged on the axis.

The bottom of above-mentioned base is provided with some slide blocks; Some these slide blocks and above-mentioned parallel axes setting.

Also be provided with railroad shoe under the above-mentioned base; This railroad shoe is provided with some tracks; Some these tracks and some the corresponding one by one settings of above-mentioned slide block; The structure of some these tracks is corresponding one by one adaptive with above-mentioned slide block.

The top of the first above-mentioned anvil block is provided with the notch with above-mentioned parallel axes.

The top of the second above-mentioned anvil block is provided with the notch with above-mentioned parallel axes.

The spacing distance that is provided with between the first above-mentioned brace table, second brace table, the 3rd brace table, first anvil block and second anvil block equates.

When replacing is dropped hammer, through sliding bottom on railroad shoe, realize dropping hammer and corresponding second anvil block or the corresponding setting of first anvil block, carry out drop-weight test.

The combined drop impact anvil block of the utility model is compared with the anvil block of prior art drop impact, and its advantage is that the utility model is provided with several anvil blocks; Realize several drop impact anvil block combinations, be provided with railroad shoe simultaneously, on this railroad shoe, slide through base; Need not carry out loaded down with trivial details dismounting and installation when realizing changing the drop impact anvil block; Make the operation in the drop-weight test easier, geometric accuracy is guaranteed, and accelerates the drop-weight test progress.

Description of drawings

Fig. 1 is the structural representation of P-2 type anvil block in the prior art;

Fig. 2 is the structural representation of P-3 type anvil block in the prior art;

Fig. 3 is the front view of the combined drop impact anvil block of the utility model;

Fig. 4 is the base of the combined drop impact anvil block of the utility model and the structural representation of railroad shoe;

Fig. 5 is the vertical view of the combined drop impact anvil block of the utility model.

Embodiment

Embodiment below in conjunction with description of drawings the utility model.

The utility model has been explained a kind of combined drop impact anvil block, has solved the drop impact anvil block in drop-weight test, needs frequent change, uses loaded down with trivial details problem.

As shown in Figure 3, a kind of embodiment of combined drop impact anvil block, it comprises base 36, first brace table 31, second brace table 34, the 3rd brace table 33, first anvil block 32, second anvil block 35 and railroad shoe 37.

As depicted in figs. 1 and 2; The brace table 13 of P-2 anvil block and the shape equal and opposite in direction of the brace table 23 of P-3 anvil block; So method through a shared equal-sized brace table of shape in the present embodiment; With P-2 anvil block and the combination of P-3 anvil block, form a kind of embodiment of the combined drop impact anvil of the utility model by P-2 anvil block and P-3 anvil block.

Base 36 adopts rectangular structure, and first brace table 31, second brace table 34, the 3rd brace table 33, first anvil block 32 and second anvil block 35 are separately fixed on the end face of base 36.

This first brace table 31, second brace table 34, the 3rd brace table 33, first anvil block 32 and second anvil block 35 are provided with along axis parallel with the long limit of this base 36 on the base 36.

Simultaneously, between this first brace table 31, second brace table 34, the 3rd brace table 33, first anvil block 32 and second anvil block 35 with identical distance apart from setting.

Laterally arrange between this first brace table 31, second brace table 34, the 3rd brace table 33, first anvil block 32 and second anvil block 35.

First brace table 31 and second brace table 34 are separately positioned on the two ends on base 36 end faces, respectively near two minor face settings on base 36 end faces.

The 3rd brace table 33 is arranged on the middle part on base 36 end faces, and the distance between the 3rd brace table 33 to first brace tables 31 equates with distance between the 3rd brace table 33 to second brace tables 34.

First anvil block 32 is fixed between first brace table 31 and the 3rd brace table 33, and this first anvil block 32 adopts P-3 type anvil block in the present embodiment.

Second anvil block 35 is fixed between second brace table 34 and the 3rd brace table 33, and this second anvil block 35 adopts P-2 type anvil block in the present embodiment.

Above-mentioned first anvil block 32 is different with the size of second anvil block 35.

As shown in Figure 4; The bottom of base 36 is provided with the identical slide block 361 of two strips size; Two long limits of this two slide blocks 361 and base 36, and the axis of first brace table 31, second brace table 34, the 3rd brace table 33, first anvil block 32 and second anvil block 35 parallels setting.

These two slide blocks 361 are symmetrical set with the axis of first brace table 31, second brace table 34, the 3rd brace table 33, first anvil block 32 and second anvil block 35.

Base also is provided with railroad shoe 37 36 times.This railroad shoe 37 adopts the rectangular structure that is slightly larger than base 36.The setting of fitting smoothly of the bottom surface of the end face of railroad shoe 37 and base 36.

The end face of railroad shoe 37 is provided with two tracks 371.The set position of this two tracks 371 is corresponding with above-mentioned two slide blocks 361, makes base 36 be arranged on 37 last times of railroad shoe, and two tracks 371 just in time are set on two slide blocks 361 accordingly.The shape of these two tracks 371 size is suitable with the shape sizes of above-mentioned two slide blocks 361 simultaneously, make two slide blocks 361 respectively in two tracks 371 along axis of an orbit to being free to slide.

As shown in Figure 5, the axis at first anvil block, 32 tops is provided with notch, and the axis of the opening direction of this notch and first anvil block 32 parallels.

The axis at second anvil block, 35 tops is provided with notch, and the axis of the opening direction of this notch and second anvil block 35 parallels.

The operation workflow of this embodiment is following: when adopting P2 to drop hammer to carry out drop-weight test; Sliding bottom 36 on railroad shoe 37, with second anvil block 35, i.e. P-2 type anvil block; Corresponding with the position of dropping hammer, use P2 to drop hammer to cooperate and carry out drop-weight test with second anvil block 35.

When adopting P3 to drop hammer to carry out drop-weight test, sliding bottom 36 on railroad shoe 37, and with first anvil block 32, promptly P-3 type anvil block is corresponding with the position of dropping hammer, and use P3 to drop hammer to cooperate with the 3rd anvil block 32 to carry out drop-weight test.

Although the content of the utility model has been done detailed introduction through above-mentioned preferred embodiment, will be appreciated that above-mentioned description should not be considered to the restriction to the utility model.After those skilled in the art have read foregoing, for the multiple modification of the utility model with to substitute all will be conspicuous.Therefore, the protection domain of the utility model should be limited appended claim.

Claims (8)

1. combined drop impact anvil block is characterized in that this anvil block comprises:

Base (36);

First brace table (31) and second brace table (34), this first brace table (31) and second brace table (34) are separately positioned on the two ends on described base (36) end face;

The 3rd brace table (33), the 3rd brace table (33) are arranged on the middle part on described base (36) end face;

First anvil block (32), this first anvil block (32) is arranged on the end face of described base (36), and this first anvil block (32) is arranged between described first brace table (31) and the 3rd brace table (33); And,

Second anvil block (35), this second anvil block (35) is arranged on the end face of described base (36), and this second anvil block (35) is arranged between described second brace table (34) and the 3rd brace table (33).

2. combined drop impact anvil block as claimed in claim 1 is characterized in that, described first brace table (31), second brace table (34), the 3rd brace table (33), first anvil block (32) and second anvil block (35) are arranged in parallel.

3. combined drop impact anvil block as claimed in claim 1 is characterized in that, described first brace table (31), second brace table (34), the 3rd brace table (33), first anvil block (32) and second anvil block (35) are arranged on the axis.

4. combined drop impact anvil block as claimed in claim 3 is characterized in that the bottom of described base (36) is provided with some slide blocks (361); Some described slide blocks (361) and described parallel axes setting.

5. combined drop impact anvil block as claimed in claim 4 is characterized in that, also is provided with railroad shoe (37) under the described base (36); Described railroad shoe (37) is provided with some tracks (371); Some described tracks (371) and the corresponding one by one setting of some described slide blocks (361); The structure of some described tracks (371) is corresponding one by one adaptive with described slide block (361).

6. combined drop impact anvil block as claimed in claim 4 is characterized in that the top of described first anvil block (32) is provided with the notch with described parallel axes.

7. combined drop impact anvil block as claimed in claim 4 is characterized in that the top of described second anvil block (35) is provided with the notch with described parallel axes.

8. combined drop impact anvil block as claimed in claim 1; It is characterized in that the spacing distance that is provided with between described first brace table (31), second brace table (34), the 3rd brace table (33), first anvil block (32) and second anvil block (35) equates.

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