CN112697590A - Resistant check out test set that rolls over is pressed in hole of new material - Google Patents

Abstract

The invention relates to a detection device, in particular to a pit-pressing folding-resistant detection device for a new material. The pit-pressing folding-resisting detection equipment of the new material is capable of simultaneously pit-pressing folding-resisting detection and continuously moving. A new material pit pressing folding-resistant detection device comprises: the base is used for mounting the whole device; the transmission assembly is arranged on the base and provides power for transmission; the compression-resistant assembly is arranged on the conveying assembly and used for compression resistance in a sliding mode; the bending assembly is installed on the conveying assembly and bent in a sliding mode. According to the novel material compression detection device, the conveying wheel is matched with the conveying belt, the novel material can be quickly conveyed to a proper position, the L-shaped rod is matched with the extrusion wheel, compression resistance detection can be quickly performed on the novel material, the first pressing block is matched with the second pressing block, the flexibility detection can be performed on the novel material, and the pushing block is matched with the wedge block, so that compression resistance detection can be automatically performed on the novel material.

Description

Resistant check out test set that rolls over is pressed in hole of new material

Technical Field

The invention relates to a detection device, in particular to a pit-pressing folding-resistant detection device for a new material.

Background

The new material means a structural material having excellent properties and a functional material having special properties, which are newly developed or are being developed. The structural material mainly utilizes the mechanical properties of the structural material, such as strength, toughness, hardness, elasticity and the like, and after the new material is detected, workers need to perform pit-pressing folding-resisting detection on the new material.

Patent publication is CN 110987652A's patent discloses a new material detects uses bending strength test device, include the base plate, place seat, bearing and nut, the up end of base plate is provided with places the seat, the up end at the base plate is fixed to the scale plate, the avris interconnect of head rod and work frame, install the contact post on the adjusting block, and the avris of adjusting block is fixed with the side post to the side post runs through the side window, installs the nut on the side post simultaneously, the avris at the work frame is seted up to the side window, the sliding sleeve is installed on the dead lever, and the dead lever is fixed at the up end of base plate. This new material detects uses bending strength test device, such mode can inspect the new material, but can not continue to remove the new material, can not be simultaneously to the folding endurance test of new material pit crush moreover.

Therefore, it is necessary to develop a new material for detecting indentation and folding endurance simultaneously and continuously moving.

Disclosure of Invention

In order to overcome the current mode of going on examining the new material can not continuously remove the new material, can not press the shortcoming of folding endurance test to the new material pit simultaneously, the technical problem that solves: the pit-pressing folding-resisting detection equipment of the new material is capable of simultaneously pit-pressing folding-resisting detection and continuously moving.

The technical scheme is as follows: a new material pit pressing folding-resistant detection device comprises: the base is used for mounting the whole device; the transmission assembly is arranged on the base and provides power for transmission; the compression-resistant assembly is arranged on the conveying assembly and used for compression resistance in a sliding mode; the bending assembly is installed on the conveying assembly and bent in a sliding mode.

Further, the conveying assembly comprises: a frame body mounted on the base; the two conveying wheels are rotatably arranged on the frame body; the conveying belt is arranged between the conveying wheels; the rotating rod is arranged on the conveying wheel; and the direct current motor is arranged on the frame body, and an output shaft of the direct current motor is connected with the rotating rod.

Further, the pressure resistant assembly includes: two rows of connecting blocks are arranged on the frame body; the first sliding sleeve is arranged on the connecting block; the L-shaped rod is slidably arranged in the first sliding sleeve; the first spring is connected between the L-shaped rod and the first sliding sleeve; the extrusion wheel is rotatably arranged on the L-shaped rod; and two transverse plates are arranged and are arranged on the L-shaped rod.

Further, the bending component comprises: two guide rails are arranged on the frame body; the first pressing block is slidably arranged between the guide rails; the movable rod is slidably arranged in the guide rail; two second springs are a group, and two second springs are connected between the movable rod and the frame body; the second pressing block is arranged on the moving rod and matched with the first pressing block; the handles are arranged on the first pressing block and the moving rod.

Further, still include the pushing assembly, the pushing assembly includes: the push block is arranged on the rotating rod; two connecting rods are arranged on the L-shaped rod; the wedge block is arranged on the connecting rod, and the push block is matched with the wedge block.

Further, still including buffering subassembly, buffering subassembly includes: two second sliding sleeves are arranged on the frame body; the contact block is slidably arranged between the second sliding sleeves; the third spring is connected between the contact block and the second sliding sleeve; at least two fixed rods are arranged on the frame body; the swash plate is installed on the dead lever, swash plate and conveyer belt cooperation, swash plate and contact piece cooperation.

Has the advantages that: according to the novel material compression-resisting detection device, the conveying wheel is matched with the conveying belt, the novel material can be quickly conveyed to a proper position, the L-shaped rod is matched with the extrusion wheel, compression-resisting detection can be quickly performed on the novel material, the first pressing block is matched with the second pressing block, the flexibility of the novel material can be detected, the pushing block is matched with the wedge block, compression-resisting detection can be automatically performed on the novel material, the contact block is matched with the inclined plate, the falling speed of the novel material can be buffered, and the novel material can be effectively prevented from being damaged.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a perspective view of a third embodiment of the present invention.

Fig. 5 is a perspective view of a fourth embodiment of the present invention.

FIG. 6 is a schematic view of a fifth partial body structure according to the present invention.

Labeled as: 1-base, 2-conveying component, 3-compression-resistant component, 4-bending component, 5-pushing component, 6-buffering component, 21-frame, 22-conveying wheel, 23-conveying belt, 24-rotating rod, 25-direct current motor, 31-connecting block, 32-first sliding sleeve, 33-L-shaped rod, 34-first spring, 35-extrusion wheel, 36-transverse plate, 41-guide rail, 42-first pressing block, 43-moving rod, 44-second spring, 45-second pressing block, 46-handle, 51-pushing block, 52-connecting rod, 53-wedge-shaped block, 61-second sliding sleeve, 62-contact block, 63-third spring, 64-fixing rod and 65-inclined plate.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but the invention is not limited to the scope of protection and application.

Example 1

The utility model provides a new material's resistant check out test set that rolls over of pit pressure, as shown in fig. 1-6, including base 1, transfer module 2, resistance to compression subassembly 3 and the subassembly 4 of buckling, base 1 is used for installing whole device, and 1 upper portion of base is equipped with the transfer module 2 that provides power and carry out the conveying, and 2 tops of transfer module are equipped with the resistance to compression subassembly 3 that carries out the resistance to compression through the slip mode, and 2 middle parts of transfer module are equipped with the subassembly 4 of buckling that carries out the buckling through the slip mode.

When the side is examined with the new material to needs, the staff places the new material on conveying subassembly 2 earlier, then start conveying subassembly 2 and transmit the new material, and simultaneously, the new material lasts to inspect with the subassembly 4 of buckling, then when the new material moved to suitable position, the staff moved the subassembly 4 of buckling and carries out the resistance to compression monitoring to the new material, when the new material moved conveying subassembly 2 rightmost side, the staff took off the new material can, after finishing detecting all new materials, the staff will convey subassembly 2 and close can.

As shown in fig. 1, 2 and 5, the conveying assembly 2 includes a frame 21, two conveying wheels 22, a conveying belt 23, a rotating rod 24 and a dc motor 25, the frame 21 is fixedly connected to the top of the base 1 through bolts, the two conveying wheels 22 are provided, the conveying wheels 22 are rotatably provided in the middle of the frame 21, the conveying belt 23 is wound between the conveying wheels 22, the rotating rod 24 is provided at the front end of the right conveying wheel 22, the dc motor 25 is fixedly connected to the right front of the frame 21 through bolts, and an output shaft of the dc motor 25 is connected to the rotating rod 24.

When placing new material in conveyer belt 23 left side, start direct current motor 25 and rotate, drive bull stick 24 and rotate, and then drive transfer wheel 22 and rotate, drive conveyer belt 23 and remove to the right for new material removes to the right, so, can carry out quick conveying to suitable position for the new material.

As shown in fig. 1 and 3, the compression-resistant assembly 3 includes a connecting block 31, two rows of first sliding sleeves 32, an L-shaped rod 33, a first spring 34, two extrusion wheels 35 and a transverse plate 36, the connecting block 31 has two rows, the connecting block 31 is fixedly connected to the top of the frame body 21 through screws, the first sliding sleeve 32 is fixedly connected to the top of the connecting block 31 through screws, the L-shaped rod 33 is slidably arranged in the first sliding sleeve 32, the first spring 34 is connected between the L-shaped rod 33 and the first sliding sleeve 32, the extrusion wheels 35 are rotatably arranged on the inner side of the L-shaped rod 33, the transverse plates 36 have two numbers, and the transverse plate 36 is fixedly connected between the outer ends of the L-shaped rod 33 through.

When the new material moved right, the new material contacted with extrusion wheel 35, promoted extrusion wheel 35 and rotated, simultaneously, pulling diaphragm 36 outwards removed, drove L shape pole 33 and outwards slided, first spring 34 compresses, and then drove extrusion wheel 35 and outwards removed, and when the new material stopped to remove, the staff loosened diaphragm 36, drove L shape pole 33 and the device on it inwards removed and resets under the effect of first spring 34, so, can be quick carry out the resistance to compression detection to the new material.

As shown in fig. 1 and 4, the bending assembly 4 includes two guide rails 41, a first pressing block 42, two moving rods 43, a second spring 44, a second pressing block 45 and a handle 46, the number of the guide rails 41 is two, the guide rails 41 are fixedly connected to the outer side of the frame 21 through screws, the first pressing block 42 is slidably arranged between the guide rails 41, the moving rods 43 are slidably arranged in the guide rails 41, the second springs 44 are in a group, the two second springs are in two groups, the second spring 44 is connected between the moving rods 43 and the frame 21, the second pressing block 45 is fixedly connected between the inner ends of the moving rods 43 through screws, the second pressing block 45 is matched with the first pressing block 42, the number of the handles 46 is two, and the handles 46 are welded to the rear sides of the first pressing block 42 and the.

When the new material is located second briquetting 45 below and stops, the staff pressed handle 46 and inwards moved, drove first briquetting 42 and upwards slided, simultaneously, drove carriage release lever 43 and downwards slided, and second spring 44 compresses, drove second briquetting 45 and downwards moves, and first briquetting 42 and the contact of second briquetting 45 carry out the resistance to compression and detect, so, can carry out the nature of buckling to the new material and detect.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 5, the device further comprises a pushing assembly 5, wherein the pushing assembly 5 comprises a pushing block 51, two connecting rods 52 and a wedge block 53, the pushing block 51 is arranged on the rotating rod 24, the two connecting rods 52 are arranged, the connecting rod 52 is welded at the bottom of the rightmost L-shaped rod 33, the wedge block 53 is fixedly connected to the tail end of each connecting rod 52 through a screw, and the pushing block 51 is matched with the wedge block 53.

When the rotating rod 24 rotates, the pushing block 51 is driven to rotate, the wedge block 53 is pushed to move inwards, the connecting rod 52 is driven to move inwards, the L-shaped rod 33 is driven to move inwards, and when the pushing block 51 and the wedge block 53 are separated, the connecting rod 52 and the upper device thereof are driven to move outwards and reset under the action of the L-shaped rod 33, so that the new material can be automatically subjected to compression resistance detection.

On the basis of embodiment 1, as shown in fig. 1 and 6, the conveyor belt further comprises a buffer assembly 6, the buffer assembly 6 comprises a second sliding sleeve 61, two second sliding sleeves 62, two third springs 63, fixing rods 64 and an inclined plate 65, the second sliding sleeves 61 are fixedly connected to the outer side of the right portion of the frame body 21 through screws, the contact blocks 62 are slidably arranged between the second sliding sleeves 61, the third springs 63 are connected between the contact blocks 62 and the second sliding sleeves 61, the number of the fixing rods 64 is three, the fixing rods 64 are welded to the right side of the frame body 21, the inclined plate 65 is fixedly connected to the top end of each fixing rod 64 through screws, the inclined plate 65 is matched with the conveyor belt 23, and the inclined plate 65 is matched with the contact blocks 62.

When new material moves to the rightmost side of the frame body 21 through the conveyor belt 23, the new material is in contact with the contact block 62, the contact block 62 is pushed to move rightwards, the third spring 63 is compressed, when the new material is separated from the contact block 62, the new material falls onto the inclined plate 65, and meanwhile the contact block 62 and the upper device of the contact block are driven to move leftwards to reset under the action of the third spring 63.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (6)

1. The utility model provides a resistant check out test set of rolling over of hole pressure of new material which characterized in that, including: a base (1) for mounting the entire device;

the transmission assembly (2) is arranged on the base (1) and provides power for transmission;

the compression-resistant assembly (3) is arranged on the conveying assembly (2) and is used for compression resistance in a sliding mode;

and the bending component (4) is arranged on the conveying component (2) and bends in a sliding mode.

2. A indentation crush test apparatus for new material as claimed in claim 1, characterized in that the conveyor assembly (2) comprises:

a frame (21) attached to the base (1);

two conveying wheels (22), wherein the two conveying wheels (22) are rotatably arranged on the frame body (21);

a conveyor belt (23) mounted between the conveyor wheels (22);

a rotating rod (24) mounted on the conveying wheel (22);

and a DC motor (25) mounted on the frame body (21), wherein the output shaft of the DC motor (25) is connected with the rotating rod (24).

3. A pit crush resistance test apparatus for new material as claimed in claim 2, wherein the crush resistance assembly (3) comprises:

two rows of connecting blocks (31) are arranged on the frame body (21);

the first sliding sleeve (32) is arranged on the connecting block (31);

an L-shaped rod (33) slidably mounted in the first sliding sleeve (32);

a first spring (34) connected between the L-shaped rod (33) and the first sliding sleeve (32);

an extrusion wheel (35) rotatably mounted on the L-shaped rod (33);

two transverse plates (36) are arranged on the L-shaped rod (33).

4. A indentation crush test device for new material as claimed in claim 3, characterized in that the bending member (4) comprises: two guide rails (41), wherein the two guide rails (41) are arranged on the frame body (21);

a first pressing block (42) which is slidably mounted between the guide rails (41);

a moving rod (43) which is installed in the guide rail (41) in a sliding manner;

two second springs (44) are connected between the moving rod (43) and the frame body (21), and two second springs (44) are in one group;

the second pressing block (45) is arranged on the moving rod (43), and the second pressing block (45) is matched with the first pressing block (42);

and two handles (46) are arranged on the first pressing block (42) and the moving rod (43).

5. A indentation crush resistance detection apparatus for new material according to claim 4, characterized in that the apparatus further comprises a pushing member (5), and the pushing member (5) comprises:

a push block (51) mounted on the rotating rod (24);

two connecting rods (52), wherein the two connecting rods (52) are arranged on the L-shaped rod (33);

the wedge block (53) is arranged on the connecting rod (52), and the push block (51) is matched with the wedge block (53).

6. A indentation crush resistance detection apparatus for new material according to claim 5, characterized in that the apparatus further comprises a buffer member (6), and the buffer member (6) comprises:

two second sliding sleeves (61), wherein the two second sliding sleeves (61) are arranged on the frame body (21);

a contact block (62) slidably mounted between the second sliding sleeves (61);

a third spring (63) connected between the contact block (62) and the second sliding sleeve (61);

at least two fixing rods (64), which are arranged on the frame body (21), are arranged on the frame body (64);

the inclined plate (65) is arranged on the fixing rod (64), the inclined plate (65) is matched with the conveyor belt (23), and the inclined plate (65) is matched with the contact block (62).

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