CN217404097U - Temperature shock test case of anticollision - Google Patents

Abstract

The utility model relates to the technical field of test boxes and discloses an anti-collision temperature impact test box, which comprises a box body assembly; a sliding component is arranged in the impact bin; two groups of first fixing blocks are symmetrically arranged in the impact bin, the tops of two first fixing blocks on the same side are provided with first holes, the round-head rods are arranged in the two first holes, and the two round-head rods are respectively embedded into the two test beds; when the sample is taken out to needs, stimulate the handle forward, make the test bench make the outside roll-off of button head pole through the chamfer when sliding forward through the spout, until pulling out the test bench to suitable position and taking out after the sample, promote the handle backward, the resilience force of spring makes behind the button head pole embedding test bench, the fixed action is played to two pairs of test benches in button head pole clearing hole, simple swift sample mode not only does benefit to the sample and can be observed by the staff receiving the very first time after the temperature strikes, still make things convenient for the staff to the placing of sample and take out.

Description

Temperature impact test case of anticollision

Technical Field

The utility model relates to a proof box technical field specifically is a temperature shock test case of anticollision.

Background

Temperature shock test case is metal, plastics, the indispensable test equipment of material trades such as electron, be used for test material structure or combined material, in the twinkling of an eye under the degree of enduring under extreme high temperature and extremely microthermal continuous environment, can detect the chemical change or the physical injury that the sample arouses because of expend with heat and contract with cold in the shortest time, temperature shock test case commonly used has high low temperature shock test case to divide into three box and two box, all be provided with the protection casing, protective apparatus, play the effect of anticollision, but in temperature shock test in-process, it is less when the sample, place on the test bench, inconvenient staff takes out, lead to delaying observation time, can not accomplish the condition that the very first time observation received the sample after the temperature shock test.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a temperature shock test case of anticollision possesses the advantage of making things convenient for the sample, and it is less to have solved the sample, places on the testboard, the inconvenient problem of taking out the observation.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: an anti-collision temperature impact test box comprises a box body assembly;

the box body assembly comprises a protective box body, an impact bin, a bin door, a test bed and a controller; the impact bin is arranged on the protective box body, the bin door is arranged on the front surface of the protective box body, the test beds are symmetrically arranged in the impact bin, the controller is arranged on the front surface of the protective box body, and the sliding assembly is arranged in the impact bin;

the sliding assembly comprises a first fixing block, a sliding chute, a first hole, a round head rod, a spring, a handle and a chamfer; the utility model discloses a test bench, including impact storehouse, fixed block one, every fixed block front surface has all seted up the spout, two the test bench both ends are embedded respectively the spout, homonymy two a fixed block top has all been seted up hole one, two all install in the hole one the button head pole, two the button head pole imbeds two respectively the test bench, two the button head pole lateral wall is all installed the spring, two the test bench front surface all is provided with the handle, two equal symmetry has been seted up on the button head pole the chamfer.

Preferably: the sliding assembly further comprises a second hole; and the second holes are formed in the tops of the two test beds.

When using the sliding assembly through adopting above-mentioned scheme, the test bench slides forward until hole one with the hole coincidence, the resilience force of spring makes the button head pole slide hole two along hole one, make the button head pole through the hole two pairs of test benches play the fixed action, two holes two can be respectively through two fixed test benches of button head pole.

Preferably: the first fixing block is provided with a first adjusting component; the first adjusting assembly comprises a third rod, a first plate, a second fixing block, a first screw and a first hand wheel; the symmetry is provided with in the impact storehouse pole three, every pole three runs through the homonymy fixed block one, two fixed block one looks in opposite directions symmetry rotation respectively connects two board one and two board two, two board one and two board two rotate respectively and connect, two a board side is all installed fixed block two, two fixed block two inside walls respectively with a screw rod lateral wall rotates to be connected and threaded connection, hand wheel one install in a screw rod one end.

When the scheme is adopted and adjustment is needed, the first hand wheel is rotated clockwise, the first hand wheel drives the first screw rod to rotate and simultaneously enables the second fixing block to slide to the second fixing block, the second fixing block slides and simultaneously changes the angles of the first two plates and the second two plates, the first fixing block is pushed by the second two plates, the first fixing block slides upwards through the third rod, the first fixing block slides upwards and simultaneously drives the first fixing block of the test bed to slide upwards, therefore, the height between the two test beds is changed until the height between the two test beds is properly adjusted, the first hand wheel stops rotating, and the height between the two test beds can be adjusted to be low by rotating the first hand wheel anticlockwise.

Preferably: a second adjusting component is arranged in the impact bin; the second adjusting assembly comprises a bearing seat, a second screw rod, a fourth rod, a second hand wheel, a sliding block and a third plate; the bottom surface of the interior of the impact bin is symmetrically provided with the bearing seats, two inner side walls of the bearing seats are all rotationally connected with the screw rod II, two the bearing seats are symmetrically provided with the rod IV, the hand wheel II is arranged at one end of the screw rod II, the outer side wall of the screw rod is provided with the sliding block, the top of the sliding block is rotationally connected with the three ends of the plate, and the other ends of the plate are rotationally connected with the fixed block I.

When the two test benches are required to be adjusted, the hand wheel II is rotated clockwise, the hand wheel II drives the screw rod II to rotate and simultaneously drives the sliding block to slide forwards, the sliding block is limited by the two rods four to only slide transversely, the sliding block pushes the plate three when sliding forwards, the plate three is connected with the fixed block I in a rotating mode, the fixed block I is pushed to slide upwards through the rod three, the fixed block I drives the test bench and the other fixed block I to slide upwards while sliding upwards, the two fixed block I passes through the adjusting component I while sliding upwards, the other two fixed block I are pushed to slide upwards, the height of the two test benches is adjusted, and the hand wheel II can be rotated anticlockwise to reduce the height of the two test benches.

Preferably: the third rod is tightly attached to the inner side wall of the first fixed block.

By adopting the scheme, in the sliding process of the first fixing block, the third rod is tightly attached to the first fixing block, so that the first fixing block can more stably drive the test bed and the other first fixing block to slide upwards.

Preferably, the following components: the two handles can correspondingly disassemble the two test beds.

Through adopting above-mentioned scheme when needs are dismantled, direct pulling handle forward can make the test bench roll-off in following the spout, and two handles can correspond respectively and dismantle a test bench, facilitate the use.

(III) advantageous effects

Compared with the prior art, the utility model provides a temperature shock test case of anticollision possesses following beneficial effect:

the utility model discloses possess the advantage of convenient sample, when needs take out the sample, stimulate the handle forward, make the test bench make the outside roll-off of button head pole through the chamfer when sliding forward through the spout, until pull out the test bench to suitable position and take out after the sample, promote the handle backward, the resilience force of spring makes behind the button head pole embedding test bench, the fixed action is played to two pairs of test benches in button head pole clearing hole, simple swift sample mode, not only do benefit to the very first time that the sample can be after receiving the temperature impact and observed by the staff, still make things convenient for the staff to place and take out the sample, it is less to have solved the sample, place on the testboard, the inconvenient problem of observing of taking out.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection structure of the side portion of the sliding assembly according to the present invention;

FIG. 3 is a schematic view of a portion of the enlarged structure of FIG. 1;

fig. 4 is a schematic side view of a first adjusting assembly according to the present invention;

fig. 5 is a schematic side view of the second adjusting assembly of the present invention.

In the figure: 1. a case assembly; 11. a protective box body; 12. an impact bin; 13. a bin gate; 14. a test stand; 15. a controller;

2. a sliding assembly; 21. a first fixed block; 22. a chute; 23. a first hole; 24. a round head bar; 25. a spring; 26. a handle; 27. chamfering; 28. a second hole;

3. a first adjusting component; 31. a third rod; 32. a first plate; 33. a second plate; 34. a second fixing block; 35. a first screw rod; 36. a first hand wheel;

4. a second adjusting component; 41. a bearing seat; 42. a second screw; 43. a fourth rod; 44. a second hand wheel; 45. a slider; 46. and (5) a third plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

An anti-collision temperature impact test box comprises a box body assembly 1; the box body assembly 1 comprises a protective box body 11, an impact bin 12, a bin door 13, a test bed 14 and a controller 15; the impact bin 12 is arranged on the protection box body 11, the bin door 13 is arranged on the front surface of the protection box body 11, the test beds 14 are symmetrically arranged in the impact bin 12, the controller 15 is arranged on the front surface of the protection box body 11, and the sliding assembly 2 is arranged in the impact bin 12;

the sliding assembly 2 comprises a first fixing block 21, a sliding groove 22, a first hole 23, a round head rod 24, a spring 25, a lifting handle 26 and a chamfer 27; two groups of first fixed blocks 21 are symmetrically arranged in the impact bin 12, the sliding groove 22 is formed in the front surface of each first fixed block 21, two ends of each test bed 14 are respectively embedded into the sliding groove 22, the first hole 23 is formed in the tops of the two first fixed blocks 21 on the same side, the round head rods 24 are arranged in the two first holes 23, the two round head rods 24 are respectively embedded into the two test beds 14, the springs 25 are arranged on the outer side walls of the two round head rods 24, the lifting handles 26 are arranged on the front surfaces of the two test beds 14, and the chamfers 27 are symmetrically formed on the two round head rods 24; the sliding assembly 2 further comprises a second hole 28; the second holes 28 are formed in the tops of the two test beds 14; the third rod 31 is tightly attached to the inner side wall of the first fixing block 21; two handles 26 can correspondingly disassemble two test beds 14.

Referring to fig. 1-5, when a sample needs to be taken out, the handle 26 is pulled forward directly, the handle 26 drives the test bed 14 to slide forward through the chute 22, when the chute 22 slides forward, the first hole 23 contacts the chamfer 27 on the round-head rod 24 first, the handle 26 is pulled forward continuously, the round-head rod 24 can slide outward along the first hole 23 through the first hole 23, the spring 25 is pulled while the round-head rod 24 slides outward until the test bed 14 is pulled out to a proper position and the sample is taken out, the handle 26 is pushed backward, the handle 26 pushes the test bed 14 to slide backward, until the resilience force of the spring 25 passes through the first hole 23, the round-head rod 24 is embedded into the test bed 14, the round-head rod 24 plays a fixing role for the test bed 14 through the first hole 23, and the two handles 26 can be pulled out of the two test beds 14 correspondingly; when the sliding assembly 2 is used, the test bed 14 slides forwards until the first hole 23 and the second hole 28 are overlapped, the round head rod 24 slides into the second hole 28 along the first hole 23 due to the resilience force of the spring 25, so that the round head rod 24 can fix the test bed 14 through the second hole 28, and the two second holes 28 can fix the two test beds 14 through the two round head rods 24 respectively; in the sliding process of the first fixing block 21, the third rod 31 is tightly attached to the first fixing block 21, so that the first fixing block 21 can more stably drive the test bed 14 and the other first fixing block 21 to slide upwards; when the test bed is required to be disassembled, the lifting handles 26 are pulled forwards directly, so that the test bed 14 can slide out of the sliding grooves 22, and the two lifting handles 26 can respectively correspondingly disassemble one test bed 14, so that the test bed is convenient to use.

Example two

The function of regulation is added on the basis of the first embodiment;

the first fixing block 21 is provided with a first adjusting component 3; the adjusting assembly I3 comprises a third rod 31, a first plate 32, a second plate 33, a second fixed block 34, a first screw rod 35 and a first hand wheel 36; strike the interior symmetry in storehouse 12 and be provided with pole three 31, every pole three 31 runs through the homonymy fixed block one 21, two fixed block one 21 opposite face symmetry rotation respectively connects two board one 32 and two board two 33, two board one 32 and two board two 33 rotate respectively and connect, two board one 32 side is all installed fixed block two 34, two fixed block two 34 inside walls respectively with screw rod one 35 lateral wall rotates to be connected and threaded connection, hand wheel one 36 install in screw rod one 35 one end.

Referring to fig. 1-5, when adjustment is needed, the first hand wheel 36 is rotated clockwise, the first hand wheel 36 drives the first screw 35 to rotate and simultaneously enables the second fixing block 34 to slide to the second fixing block 34, the second fixing block 34 slides and simultaneously changes the angles of the first two plates 32 and the second two plates 33, the second two plates 33 push the first fixing block 21, the first fixing block 21 slides upwards through the third rod 31, the first fixing block 21 slides upwards and simultaneously drives the first fixing block 21 of the test bed 14 to slide upwards, therefore, the height between the two test beds 14 is changed until the height is adjusted properly, the first hand wheel 36 stops rotating, and the first hand wheel 36 rotates anticlockwise to reduce the height between the two test beds 14.

EXAMPLE III

The function of regulation is added on the basis of the second embodiment;

a second adjusting component 4 is arranged in the impact bin 12; the second adjusting assembly 4 comprises a bearing seat 41, a second screw 42, a fourth rod 43, a second hand wheel 44, a sliding block 45 and a third plate 46; the inside bottom surface symmetry in impact storehouse 12 is installed bearing frame 41, two the inside wall of bearing frame 41 is all rotated and is connected screw rod two 42, two the symmetry is installed between the bearing frame 41 pole four 43, hand wheel two 44 install in screw rod two 42 one end, screw rod two 42 lateral walls are provided with slider 45, slider 45 top is rotated and is connected board three 46 one end, the board three 46 other end is rotated and is connected fixed block one 21.

Referring to fig. 1-5, when adjustment is needed, the second hand wheel 44 is rotated clockwise, the second hand wheel 44 drives the second screw rod 42 to rotate and simultaneously drives the sliding block 45 to slide forward, the two rods four 43 limit that the sliding block 45 can only slide transversely, the sliding block 45 pushes the plate three 46 when sliding forward, the plate three 46 is connected with the first fixed block 21 in a rotating mode, the first fixed block 21 is pushed to slide upwards through the rod three 31, the first fixed block 21 drives the test bed 14 and the other first fixed block 21 to slide upwards when sliding upwards, the other two fixed blocks 21 are pushed to slide upwards through the first adjusting assembly while sliding upwards, therefore, the heights of the two test beds 14 are adjusted, and the heights of the two test beds 14 can be adjusted to be lowered by rotating the second hand wheel 44 anticlockwise.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a temperature shock test case of anticollision which characterized in that: comprises a box body component (1);

the box body assembly (1) comprises a protective box body (11), an impact bin (12), a bin door (13), a test bed (14) and a controller (15); the impact bin (12) is arranged on the protective box body (11), the bin door (13) is installed on the front surface of the protective box body (11), the test beds (14) are symmetrically arranged in the impact bin (12), the controller (15) is installed on the front surface of the protective box body (11), and the sliding assembly (2) is installed in the impact bin (12);

the sliding assembly (2) comprises a first fixing block (21), a sliding groove (22), a first hole (23), a round head rod (24), a spring (25), a lifting handle (26) and a chamfer (27); it installs two sets ofly to strike symmetry in storehouse (12) fixed block (21), every fixed block (21) front surface has all been seted up spout (22), two test bench (14) both ends are embedded respectively spout (22), homonymy two fixed block (21) top has all been seted up hole (23), two all install in hole (23) button head pole (24), two button head pole (24) imbed two respectively test bench (14), two button head pole (24) lateral wall all is installed spring (25), two test bench (14) front surface all is provided with handle (26), two equal symmetry has been seted up on button head pole (24) chamfer (27).

2. The crash-proof temperature impact test chamber according to claim 1, wherein: the sliding assembly (2) further comprises a second hole (28); the second hole (28) is formed in the top of each of the two test beds (14).

3. The crash-proof temperature impact test chamber according to claim 1, wherein: a first adjusting component (3) is arranged on the first fixing block (21); the first adjusting assembly (3) comprises a third rod (31), a first plate (32), a second plate (33), a second fixing block (34), a first screw rod (35) and a first hand wheel (36); strike interior symmetry in storehouse (12) and be provided with pole three (31), every pole three (31) run through the homonymy fixed block one (21), two fixed block one (21) opposite surface symmetry respectively rotates to connect two board one (32) and two board two (33), two board one (32) and two board two (33) rotate respectively to connect, two board one (32) side is all installed fixed block two (34), two fixed block two (34) inside wall respectively with screw rod one (35) lateral wall rotates to be connected and threaded connection, hand wheel one (36) install in screw rod one (35) one end.

4. The crash-proof temperature impact test chamber according to claim 1, wherein: a second adjusting component (4) is arranged in the impact bin (12); the second adjusting assembly (4) comprises a bearing seat (41), a second screw rod (42), a fourth rod (43), a second hand wheel (44), a sliding block (45) and a third plate (46); strike inside bottom surface symmetry in storehouse (12) and install bearing frame (41), two bearing frame (41) inside wall all rotates to be connected screw rod two (42), two the symmetry is installed between bearing frame (41) pole four (43), hand wheel two (44) install in screw rod two (42) one end, screw rod two (42) lateral wall is provided with slider (45), slider (45) top is rotated and is connected board three (46) one end, board three (46) other end is rotated and is connected fixed block one (21).

5. The crash-proof temperature impact test chamber according to claim 3, wherein: the third rod (31) is tightly attached to the inner side wall of the first fixing block (21).

6. The crash-proof temperature impact test chamber according to claim 1, wherein: the two handles (26) can correspondingly disassemble the two test beds (14).

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