CN102248239A - Material-collecting fixture for thermal simulation compression sample during linear cutting and bisecting - Google Patents

Abstract

The invention relates to a material-collecting fixture for a thermal simulation compression sample during linear cutting and bisecting. The material-collecting fixture comprises a hollow rectangular frame body (1a) and a pressure bar component (2) arranged in the rectangular frame body, wherein a longitudinal centering notch (1e) is formed at one end of the rectangular frame body; a through hole (1f) with internal threads is formed in the center of the other end of the rectangular frame body; the pressure bar component comprises a transmission screw rod (2g); one end of the transmission screw rod passes through the through hole (1f) and is in threaded connection with the rectangular frame body; a stepped penetrating cover (2h) is fixedly sleeved at the other end, near the end head (2k), of the transmission screw rod; a cylindrical sleeve (2a) is sleeved on the penetrating cover; one end, near the stepped penetrating cover, of the cylindrical sleeve is opened; an end cover (2a1) is arranged at the other end of the cylindrical sleeve; and a compression spring (2b) is arranged between the end head (2k) and the cylindrical sleeve. The original external cylindrical surface clamping is changed into end face laminated clamping and the end faces are matched with each other well, so the clamping stability is improved and batch processing is realized.

Description

The cutting of a kind of thermal simulation compression sample line is to cuing open with the anchor clamps that gather materials

Technical field

The present invention relates to the cutting of a kind of sample line to cuing open, refer in particular to, thermal simulation cylindrical compression sample is carried out line cut when cuing open the used clamping anchor clamps that gather materials with the anchor clamps that gather materials.

Background technology

In the material analysis field, utilizing molybdenum filament to carrying out the line cutting to cuing open through the cylindrical metal sample after the thermal simulation compressor compresses (hereinafter to be referred as thermal simulation compression sample), is to the set machining operation of this thermal simulation compression sample (Figure 12) tomography structure Metallographic Analysis.This specimen configuration is smaller, and its diameter is that 1.5cm, length are 1.5cm, and cutting accuracy requires than higher, and mismachining tolerance requires in 0.2mm.

Existing linear cutting clamp carries out the line cutting to cuing open to said sample, can only adopt the mode of clamping cylinder, in view of the external cylindrical surface of sample behind the pressurized presents cydariform, when using traditional anchor clamps to carry out clamping, unstability, slip take place easily because of contact area is too small, in cutting process, can cause sample to be cut sth. askew and scrap; Simultaneously, owing to there are differences (diameter difference reaches 0.5mm) with a batch sample cylindrical so range degree, cause and can't use conventional brace that it is implemented the concentrated clamping of polylith, production efficiency can't be guaranteed.

Summary of the invention

Technical problem to be solved by this invention provides the cutting of a kind of thermal simulation compression sample line to cuing open with the anchor clamps that gather materials, and can realize the stable clamping to sample, has prevented that sample from scrapping because of cutting sth. askew.

The technical scheme that the present invention addresses the above problem is as follows:

The cutting of a kind of thermal simulation compression sample line is characterized in that cuing open with the anchor clamps that gather materials:

Comprise the rectangle framework of a hollow and be arranged in the rectangle framework with the depression bar assembly,

One end of described rectangle framework has a vertical centering notch, and the through hole with internal thread is offered at other end center;

Described depression bar assembly comprises a drive lead screw, one end of this drive lead screw passes through hole and is threaded with the formation of rectangle frame body, cover thoroughly near fixing sheathed notch cuttype on the drive lead screw of another termination, this covers sheathed column type sleeve thoroughly, this column type sleeve opens wide near an end of the saturating lid of notch cuttype, the other end has an end cap, and a compression spring is set between the termination of drive lead screw and sleeve.

The cutting of a kind of thermal simulation compression sample line is characterized in that cuing open with the anchor clamps that gather materials:

Comprise the rectangle framework of a hollow and be arranged in the rectangle framework with the depression bar assembly,

One end of described rectangle framework has a vertical centering notch, and through hole is offered at other end center, is embedded a leading screw swivel nut in this through hole;

Described depression bar assembly comprises a drive lead screw, one end of this drive lead screw passes the leading screw swivel nut and is threaded with its formation, the other end covers thoroughly near the fixing sheathed notch cuttype of termination portion, this covers a sheathed column type sleeve thoroughly, this column type sleeve opens wide near an end of the saturating lid of notch cuttype, the other end has an end cap, and a compression spring is set between described termination and column type sleeve.

As further improvement, axially offer chute along the both sides of sleeve cylinder, the two side of rectangle framework is equipped with flat head bolt or the flat key that prevents that sleeve from rotating.This structure can play the effect of supporting the depression bar assembly, also can make things convenient for the clamping operation of depression bar assembly to sample.

Further improve and be, sheathed successively thrust bearing moving-coil between described termination and the holddown spring, fixedly jump ring, thrust bearing retainer and thrust bearing end and enclosing.Like this in clamping process, can guarantee that spring is compressed and does not rotate.

The end face of described sleeve is offered semicircular vertically to further groove, described vertically to the diameter of further groove greater than molybdenum filament diameter 1mm～2mm.This structure can prevent that molybdenum filament from hurting chuck body when being cut to the sample end.

The width of described vertical centering notch is greater than molybdenum filament diameter 1mm～2mm.

The length of described rectangle framework is 6～15cm, and wide is 2～4cm.The rectangle framework can 2～8 thermal simulations of clamping be compressed sample like this, improves working (machining) efficiency.

The present invention to the course of work of sample is, the rotation drive lead screw, cylindrical sleeve is slid onto the appropriate location, between the mutually stacked end face that is placed on sleeve and framework of sample, be further rotated drive lead screw, the active force that utilizes built-in compression press spring realizes that to sample clamping presses, and will cover thoroughly at last to be screwed in the inner thread sleeve, with two-part connection before and after finishing.

To sum up, advantage of the present invention is, changed the installation way of sample, and original external cylindrical surface clamping is changed into facing layer closed assembly folder, utilizes the incompatible raising clamping of the excellent fit stability of its end face, and realized batch machining, significantly promoted working (machining) efficiency.

Description of drawings

Fig. 1 structural upright schematic diagram of the present invention.

Fig. 2 is the explosive decomposition figure of rectangle framework of the present invention.

Fig. 3 is explosive decomposition figure of the present invention.

Fig. 4 is the explosive decomposition figure of drive lead screw of the present invention.

Fig. 5 is the main full sectional view of looking of the present invention.

Fig. 6 is the local vertical view cutaway drawing of the present invention.

Fig. 7 is a side-looking full sectional view of the present invention.

Fig. 8 is a clamping view of the present invention.

Fig. 9 is a leading screw swivel nut schematic perspective view of the present invention.

Figure 10 is the schematic perspective view of the saturating lid of the present invention.

Figure 11 is a cylindrical sleeve schematic perspective view of the present invention.

Figure 12 is the schematic perspective view of thermal simulation compression sample of the present invention.

Among the figure: 1a is the rectangle framework, and 1b is a flat head bolt, and 1c is the leading screw swivel nut, and 1d is the swivel nut trip bolt, 1e is vertical centering notch, and 1f is a through hole, the 2nd, and the depression bar assembly, 2a is a cylindrical sleeve, and 2b is a holddown spring, and 2c is that thrust bearing ends circle, 2d is a thrust bearing retainer, and 2e is a fixedly jump ring of bearing moving-coil, and 2f is the thrust bearing moving-coil, 2g is a drive lead screw, and 2h is a lid, and 2i is a chute, 2j is vertically to further groove, and 2k is the termination, and 2l covers flange.

The specific embodiment

Extremely shown in Figure 5 as Fig. 1, the cutting of a kind of thermal simulation compression sample line is to cuing open with the anchor clamps that gather materials, comprise the rectangle framework 1a of a hollow and be arranged in the rectangle framework with depression bar assembly 2, one end of described rectangle framework has a vertical centering notch 1e, and the width of this vertical centering notch is greater than molybdenum filament diameter 1mm～2mm.

The through hole 1f with internal thread is offered at framework other end center, described depression bar assembly 2 comprises a drive lead screw 2g, one end of this drive lead screw passes through hole 1f and is threaded with the formation of rectangle frame body, fix sheathed stepped lid 2h near on the drive lead screw of another termination 2k, this covers sheathed column type sleeve 2a thoroughly, this column type sleeve opens wide near an end of the saturating lid of notch cuttype, and the other end has an end cap 2a1, and this end cap can be selected totally-enclosed or semiclosed.One compression spring 2b is set between the termination 2k of drive lead screw and sleeve.The length of described rectangle framework is 6～15cm, and wide is 2～4cm.

In addition, also can be embedded a leading screw swivel nut 1c in through hole 1f, an end of drive lead screw passes the leading screw swivel nut and is threaded with its formation.During practical operation, can offer the ladder mating holes with brill, ream mode in this endface position of rectangle framework, around drilling through 4 through holes, hole wall articulation screw thread carries out fastening with attachment screw 1d to leading screw swivel nut 1c around the hole slot.

As shown in Figure 6 and Figure 7, axially offer chute 2i along the both sides of sleeve cylinder, the two side of rectangle framework is equipped with flat head bolt 1b or the flat key that prevents that sleeve from rotating.Flat head bolt or flat key are in order to the rotary freedom of restriction sleeve.Sleeve end face is offered semicircular vertically to further groove 2j with frame saw butt formula.The diameter of groove is greater than molybdenum filament diameter 1mm～2mm.This structure can prevent that molybdenum filament from hurting chuck body when being cut to the sample end.

As shown in Figure 4, sheathed successively thrust bearing moving-coil 2f between the termination 2k of drive lead screw and the holddown spring, fixedly jump ring 2e, thrust bearing retainer 2d and thrust bearing only enclose 2c,

The flange 2l of described lid is provided with screw thread as shown in figure 10, and the nozzle of column type sleeve shown in Figure 11 has the internal thread that matches with the flange screw thread.

The present invention to the course of work of sample is, the rotation drive lead screw, cylindrical sleeve is slid onto the appropriate location, between the mutually stacked end face that is placed on sleeve and framework of sample, be further rotated drive lead screw, the active force that utilizes built-in compression press spring realizes that to sample clamping presses, and will cover thoroughly at last to be screwed in the inner thread sleeve, with two-part connection before and after finishing.

Claims (8)

1. thermal simulation compression sample line cutting is characterized in that cuing open with the anchor clamps that gather materials:

Comprise the rectangle framework (1a) of a hollow and be arranged in the rectangle framework with depression bar assembly (2),

One end of described rectangle framework has a vertical centering notch (1e), and the through hole (1f) with internal thread is offered at other end center;

Described depression bar assembly comprises a drive lead screw (2g), one end of this drive lead screw passes through hole (1f) and is threaded with the formation of rectangle frame body, the other end covers (2h) thoroughly near the fixing sheathed notch cuttype of termination (2k) portion, this covers a sheathed column type sleeve (2a) thoroughly, this column type sleeve opens wide near an end of the saturating lid of notch cuttype, the other end has an end cap (2a1), and a compression spring (2b) is set between described termination (2k) and column type sleeve.

2. thermal simulation compression sample line cutting is characterized in that cuing open with the anchor clamps that gather materials:

Comprise the rectangle framework (1a) of a hollow and be arranged in the rectangle framework with depression bar assembly (2),

One end of described rectangle framework has a vertical centering notch (1e), and through hole (1f) is offered at other end center, is embedded a leading screw swivel nut (1c) in this through hole;

Described depression bar assembly comprises a drive lead screw (2g), one end of this drive lead screw passes the leading screw swivel nut and is threaded with its formation, the other end covers (2h) thoroughly near the fixing sheathed notch cuttype of termination (2k) portion, this covers a sheathed column type sleeve (2a) thoroughly, this column type sleeve opens wide near an end of the saturating lid of notch cuttype, the other end has an end cap (2a1), and a compression spring (2b) is set between described termination (2k) and column type sleeve.

3. the anchor clamps that gather materials according to claim 1 and 2 is characterized in that: the both sides along the sleeve cylinder axially offer chute (2i), and the two side of rectangle framework is equipped with flat head bolt (1b) or the flat key that prevents that sleeve from rotating.

4. the anchor clamps that gather materials according to claim 1 and 2 is characterized in that: sheathed successively thrust bearing moving-coil (2f) between described termination (2k) and the holddown spring, fixedly jump ring (2e), thrust bearing retainer (2d) and thrust bearing end circle (2c).

5. the anchor clamps that gather materials according to claim 1 and 2 is characterized in that: the end face of described cylindrical sleeve (2a) is offered semicircular vertically to further groove (2j), described vertically to the diameter of further groove greater than molybdenum filament diameter 1mm～2mm.

6. the anchor clamps that gather materials according to claim 1 and 2 is characterized in that: the flange of described lid (21) is provided with screw thread, and the nozzle of column type sleeve has the internal thread that matches with the flange screw thread.

7. the anchor clamps that gather materials according to claim 1 and 2 is characterized in that: the width of described vertical centering notch (1e) is greater than molybdenum filament diameter 1mm～2mm.

8. the anchor clamps that gather materials according to claim 1 and 2 is characterized in that: the length of described rectangle framework is 6～15cm, and wide is 2～4cm.

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