CN218131994U - Intelligent digital electronic test box with earthquake-proof performance - Google Patents

Abstract

The utility model provides an intelligent digital electronic test box with shock resistance, which belongs to the technical field of test boxes and aims to solve the problem of potential safety hazards existing when testers take out heating parts in the use of the existing test box, and comprises a test box body, a display screen, a radiating net, a test clapboard, a drive protection box, a drive slot and a drive shaft; the display screen is fixedly connected to the upper right of the test box body; the heat dissipation net is fixedly connected to the lower end of the left side of the test box body; the test clapboard is fixedly connected to the upper part of the left side in the test box body; the drive protection box is fixedly connected below the test box body; the driving groove is formed below the test box body; the drive shaft rotates to be connected at the inside intermediate position of drive protection box, has increased the stability of whole proof box, has avoided vibrations to influence experimental data, has avoided operating personnel mistake to bump scald operating personnel, has increased the security.

Description

Intelligent digital electronic test box with earthquake-proof performance

Technical Field

The utility model belongs to the technical field of the proof box, more specifically say, in particular to intelligence digital electronic test case with shock resistance.

Background

The test box is a general term of products in the environmental test industry, and is used for simulating a natural climate environment in an effective space range, and the test types are as follows: the high-low temperature test chamber, the xenon lamp aging test chamber, the ultraviolet aging test chamber, the box-type rain box, the antirust grease, the water dripping device, the purifying and cleaning storage cabinet, the nitrogen storage cabinet, the non-standard products and the like are adopted as main parts of the products, and the products have the advantages of excellent performance, attractive appearance and good reliability, and are ideal choices for laboratory environment test equipment.

The existing application numbers are: the invention relates to the technical field of test devices, in particular to a constant temperature and humidity test box, and discloses CN 202011458768.5. The constant temperature and humidity test chamber comprises a barrel-shaped test chamber, a base, a heating device, a refrigerating device, a humidifying device and a counterweight piston which are arranged in the vertical direction, wherein the base is provided with a bracket for mounting a sample; a test space is arranged in the test chamber and is positioned between the counterweight piston and the base; the humidifying device is used for adding wet air into the test space and comprises an atomizing device and a compressor, the atomizing device atomizes water in the water tank to generate water vapor, and the compressor presses the water vapor into the test space; the honeycomb type air conditioner also comprises a circulating fan, a honeycomb rotating wheel, a temperature sensor, a humidity sensor and a controller. According to the constant-temperature and constant-humidity test chamber, after water vapor is condensed and liquefied, the air pressure in the test chamber is kept constant due to the effect that the counterweight piston can freely slide under the action of gravity, and the air pressure in the test chamber can be kept stable without using an air pressure sensor

Based on the above, when the existing test box is used, the part is generally placed in the test box to be heated and the like, and after the test detection is completed, the part is taken out, but because a certain amount of heat remains when the part is taken out, when a tester takes out the part, the part can be scalded, and potential safety hazards exist.

Therefore, in view of the above, research and improvement are performed on the existing structure and defects, and an intelligent digital electronic test box with an earthquake-proof performance is provided, so as to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an intelligence digital electronic test case with shock resistance to solve current proof box in use, generally put into the part and add operations such as heat in the proof box, after experimental detection is accomplished, take out the part again, but because the part still remains certain heat when taking out, when the experimenter takes out, can be scalded, there is the problem of potential safety hazard.

The utility model discloses purpose and efficiency of digital electronic test case of intelligence with shock resistance ability reach by following concrete technological means:

the intelligent digital electronic test box with the earthquake-proof performance comprises a test box body, a detection door, a display screen, a heat dissipation net, a test partition plate, a driving protection box, a driving groove and a driving shaft;

the detection door is rotatably connected to the upper left of the test box body;

the display screen is fixedly connected to the upper right of the test box body;

the heat dissipation net is fixedly connected to the lower end of the left side of the test box body;

the test clapboard is fixedly connected to the upper part of the left side in the test box body, and the right side of the test clapboard is provided with a slotted structure;

the drive protection box is fixedly connected below the test box body;

the driving slots are arranged in four groups, and are respectively arranged below the test box body;

the driving shaft is rotatably connected to the middle inside the driving protection box.

Further, the test box body comprises: a wheel assembly;

the wheel components are arranged in four groups, the wheel components are respectively and fixedly connected below the test box body, and the wheel components are of universal wheel component structures with brakes.

Further, the heat dissipation net comprises: a heat dissipation fan;

the heat dissipation fan is fixedly connected inside the test box body.

Further, the test separator includes: the device comprises a first fixing frame, a second fixing frame, an auxiliary sliding block, a cleaning and taking plate and a transmission rod;

the first fixing frame is fixedly connected to the rear end of the detection door, and a rotating shaft structure is arranged at the upper end of the first fixing frame;

the second fixing frame is fixedly connected to the right end above the test partition plate, and is provided with an L-shaped slotted structure;

the auxiliary sliding block is connected in the groove of the second fixing frame in a sliding manner, and a rotating shaft structure is arranged at the lower end of the auxiliary sliding block;

the cleaning and taking plate is fixedly connected to the left side of the auxiliary sliding block and is in frictional contact with the test partition plate;

the front end of the transmission rod is rotatably connected above the rotating shaft of the first fixing frame, and the rear end of the transmission rod is rotatably connected below the rotating shaft of the auxiliary sliding block.

Further, the test separator further comprises: a temporary collection box;

the temporary collecting box is fixedly connected in front of the test box body, and a slotting structure is arranged above the temporary collecting box.

Further, the drive protection box comprises: the anti-vibration device comprises an operating hand wheel, an anti-vibration worm, an anti-vibration threaded rod, a driving turbine, a supporting block, an anti-slip pad, a first driving conical gear and a second driving conical gear;

the operating hand wheel is coaxially and fixedly connected to the front end of the driving shaft;

the driving protection box is provided with four groups of anti-vibration worms, the anti-vibration worms are respectively and rotatably connected inside the driving protection box, two groups of anti-vibration worms are respectively and rotatably connected at the left end and the right end inside the driving protection box, and the other two groups of anti-vibration worms are respectively and fixedly connected at the front end and the rear end of the driving shaft in a coaxial manner;

the four groups of shockproof threaded rods are arranged, and the upper ends of the shockproof threaded rods are respectively arranged in the driving grooves;

the driving turbines are arranged in four groups, the driving turbines are respectively provided with a threaded hole structure, the upper ends of the driving turbines are respectively and rotatably connected below the test box body, the driving turbines are meshed with the shockproof worm, and the shockproof threaded rod is in threaded connection with the threaded holes of the driving turbines;

the supporting block is fixedly connected below the shockproof threaded rod;

the anti-slip mat is fixedly connected below the supporting block and is of a rubber structure;

the first driving bevel gear is coaxially and fixedly connected to the middle position of the periphery of the driving shaft;

the second driving bevel gears are arranged in two groups, are respectively and rotatably connected inside the driving protection box, and are respectively and coaxially and fixedly connected with the left and right groups of shockproof worms.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses an when needs are tested the part, this moment, place the top of experimental baffle with the part, then close the detection door, realize the detection to the part, and simultaneously, rotate the operation hand wheel, the operation hand wheel rotates and drives the drive shaft and rotate, two sets of worm rotations that take precautions against earthquakes around the drive shaft rotates and drives the drive turbine rotation, the drive turbine rotates and drives the threaded rod downstream that takes precautions against earthquakes, the threaded rod downstream that takes precautions against earthquakes drives the supporting shoe downstream, the supporting shoe downstream drives the slipmat downstream, the slipmat downstream realizes the support to the experimental box, avoided the experimental box to produce vibrations when experimental, the stability of experimental box has been increased.

The utility model discloses a detect the completion back when the part, the pulling detection door forward this moment, it moves forward to detect the door and drives the transfer line and move forward, the transfer line moves forward and drives supplementary slider and move forward, supplementary slider moves forward and drives the board that takes of clearance and move forward, the board that takes of clearance moves forward and drives the part and move forward, when treating the part and shift out experimental baffle, the part drops in the temporary collecting box this moment, the temporary collecting box has realized the collection to the part, operating personnel mistake scald operating personnel has been avoided.

The utility model discloses a support to whole proof box has increased the stability of whole proof box, has avoided vibrations to influence test data, simultaneously, when the part was taken out, the part dropped in the temporary collecting box, and the temporary collecting box has realized the collection to the part, has avoided operating personnel mistake to bump scald operating personnel, has increased the security.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the driving protection box of the present invention.

Fig. 3 is a schematic view of the heat dissipation fan of the present invention.

Fig. 4 is a schematic view of the internal structure of the driving protection box of the present invention.

Fig. 5 is a schematic view of the structure of the transmission rod of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a test box body; 101. a wheel assembly; 2. a detection gate; 3. a display screen; 4. a heat-dissipating web; 401. a heat dissipation fan; 5. testing the partition plate; 501. a first fixing frame; 502. a second fixing frame; 503. an auxiliary slide block; 504. cleaning the taking plate; 505. a transmission rod; 506. a temporary collection box; 6. driving the protection box; 601. driving slotting; 602. operating a hand wheel; 603. a drive shaft; 604. a worm is prevented from being vibrated; 605. a shock-proof threaded rod; 606. driving a turbine; 607. a support block; 608. a non-slip mat; 609. a first drive bevel gear; 610. the second drives the bevel gear.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

Example (b):

as shown in figures 1 to 5:

the utility model provides an intelligent digital electronic test box with shockproof performance, which comprises a test box body 1, a detection door 2, a display screen 3, a heat dissipation net 4, a test clapboard 5, a drive protection box 6, a drive slot 601 and a drive shaft 603;

the detection door 2 is rotatably connected to the upper left of the test box body 1;

the display screen 3 is fixedly connected to the upper right of the test box body 1;

the heat radiating net 4 is fixedly connected to the lower end of the left side of the test box body 1;

the test clapboard 5 is fixedly connected to the upper part of the left side inside the test box body 1, and the right side of the test clapboard 5 is provided with a slotted structure;

the drive protection box 6 is fixedly connected below the test box body 1;

the driving slots 601 are arranged in four groups, and the driving slots 601 are respectively arranged below the test box body 1;

the driving shaft 603 is rotatably coupled to an inner middle position of the driving protection box 6.

Wherein, experimental box 1 is including: a wheel assembly 101;

the wheel assemblies 101 are arranged in four groups, the wheel assemblies 101 are respectively and fixedly connected below the test box body 1, the wheel assemblies 101 are of a universal wheel assembly structure with a brake, and in use, the wheel assemblies 101 facilitate movement of the whole device.

Wherein, radiator 4 is including: a heat radiation fan 401;

heat dissipation fan 401 fixed connection is in the inside of test box 1, and in use, heat dissipation fan 401 can realize the rapid cooling to the experimental cabin of test box 1.

Wherein, experimental baffle 5 includes: a first fixing frame 501, a second fixing frame 502, an auxiliary sliding block 503, a cleaning and taking plate 504 and a transmission rod 505;

the first fixing frame 501 is fixedly connected to the rear end of the detection door 2, and a rotating shaft structure is arranged at the upper end of the first fixing frame 501;

the second fixing frame 502 is fixedly connected to the right end above the test partition plate 5, and the second fixing frame 502 is provided with an L-shaped slotted structure;

the auxiliary sliding block 503 is slidably connected inside the groove of the second fixing frame 502, and a rotating shaft structure is arranged at the lower end of the auxiliary sliding block 503;

the cleaning taking plate 504 is fixedly connected to the left side of the auxiliary sliding block 503, and the cleaning taking plate 504 is in frictional contact with the test partition plate 5;

the front end of the transmission rod 505 is rotatably connected above the rotating shaft of the first fixing frame 501, the rear end of the transmission rod 505 is rotatably connected below the rotating shaft of the auxiliary sliding block 503, in use, when a part needs to be tested, the part is placed above the test partition plate 5 at the moment, then the detection door 2 is closed, detection of the part is realized, after the part is detected, the detection door 2 is pulled forwards at the moment, the detection door 2 moves forwards to drive the transmission rod 505 to move forwards, the transmission rod 505 moves forwards to drive the auxiliary sliding block 503 to move forwards, the auxiliary sliding block 503 moves forwards to drive the cleaning and taking plate 504 to move forwards, the cleaning and taking plate 504 moves forwards to drive the part to move forwards, a driving function is realized, and meanwhile cleaning of the test partition plate 5 is realized.

Wherein, experimental baffle 5 still includes: a temporary collection tank 506;

the temporary collecting box 506 is fixedly connected in front of the test box body 1, a slotted structure is arranged above the temporary collecting box 506, in use, when a part needs to be tested, at the moment, the part is placed above the test partition plate 5, then the detection door 2 is closed, detection of the part is realized, after the part is detected, the detection door 2 is pulled forwards at the moment, the detection door 2 moves forwards to drive the transmission rod 505 to move forwards, the transmission rod 505 moves forwards to drive the auxiliary sliding block 503 to move forwards, the auxiliary sliding block 503 moves forwards to drive the cleaning and taking plate 504 to move forwards, the cleaning and taking plate 504 moves forwards to drive the part to move forwards, when the part moves out of the test partition plate 5, the part drops into the temporary collecting box 506 at the moment, the temporary collecting box 506 realizes collection of the part, and the operator is prevented from being mistakenly touched and scalded.

Wherein, the drive protection box 6 includes: an operating handwheel 602, an anti-vibration worm 604, an anti-vibration threaded rod 605, a driving turbine 606, a supporting block 607, an anti-slip pad 608, a first driving conical gear 609 and a second driving conical gear 610;

the operating handwheel 602 is coaxially and fixedly connected with the front end of the driving shaft 603;

the shockproof worms 604 are arranged in four groups, the shockproof worms 604 are respectively and rotatably connected inside the drive protection box 6, two groups of shockproof worms 604 are respectively and rotatably connected at the left and right ends inside the drive protection box 6, and the other two groups of shockproof worms 604 are respectively and fixedly connected at the front and rear ends of the drive shaft 603 in a coaxial manner;

the shockproof threaded rods 605 are arranged in four groups, and the upper ends of the shockproof threaded rods 605 are respectively arranged in the driving grooves 601;

the driving turbines 606 are arranged in four groups, the driving turbines 606 are respectively provided with a threaded hole structure, the upper ends of the driving turbines 606 are respectively and rotatably connected below the test box body 1, the driving turbines 606 are meshed with the shockproof worm 604, and the shockproof threaded rod 605 is in threaded connection in the threaded hole of the driving turbines 606;

the supporting block 607 is fixedly connected below the shockproof threaded rod 605;

the non-slip mat 608 is fixedly connected below the supporting block 607, and the non-slip mat 608 is of a rubber structure;

the first driving bevel gear 609 is coaxially and fixedly connected to the middle position of the outer periphery of the driving shaft 603;

the two groups of second driving bevel gears 610 are arranged, the second driving bevel gears 610 are respectively and rotatably connected inside the driving protection box 6, and the second driving bevel gears 610 are respectively and coaxially and fixedly connected with the left and right groups of shockproof worms 604, in use, when an experiment operation needs to be performed on the test box body 1, the operation hand wheel 602 is rotated at the moment, the operation hand wheel 602 is rotated to drive the driving shaft 603 to rotate, the driving shaft 603 rotates to drive the front and rear groups of shockproof worms 604 to rotate, the shockproof worms 604 rotates to drive the driving turbine 606 to rotate, the driving turbine 606 rotates to drive the shockproof threaded rod 605 to move downwards, the shockproof threaded rod 605 moves downwards to drive the supporting block 607 to move downwards, the supporting block 607 moves downwards to drive the anti-slip mat 608 to move downwards, the anti-slip mat 608 moves downwards to support the test box body 1, vibration generated during the test of the test box body 1 is avoided, and the stability of the test box body 1 is improved.

The specific use mode and function of the embodiment are as follows:

firstly, when a part needs to be tested, at the moment, the part is placed above the test partition plate 5, then the detection door 2 is closed, the detection of the part is realized, meanwhile, the operation hand wheel 602 is rotated, the operation hand wheel 602 rotates to drive the driving shaft 603 to rotate, the driving shaft 603 rotates to drive the front and rear groups of shockproof worms 604 to rotate, the shockproof worms 604 rotate to drive the driving turbine 606 to rotate, the driving turbine 606 rotates to drive the shockproof threaded rod 605 to move downwards, the shockproof threaded rod 605 moves downwards to drive the supporting block 607 to move downwards, the supporting block 607 moves downwards to drive the anti-slip mat 608 to move downwards, the anti-slip mat 608 moves downwards to realize the support of the test box 1, the test box 1 is prevented from vibrating during the test, and the stability of the test box 1 is improved.

Then, after the part detection is completed, the detection door 2 is pulled forwards at the moment, the detection door 2 moves forwards to drive the transmission rod 505 to move forwards, the transmission rod 505 moves forwards to drive the auxiliary sliding block 503 to move forwards, the auxiliary sliding block 503 moves forwards to drive the cleaning and taking plate 504 to move forwards, the cleaning and taking plate 504 moves forwards to drive the part to move forwards, when the part moves out of the test partition plate 5, the part drops into the temporary collection box 506 at the moment, the temporary collection box 506 realizes the collection of the part, and the operator is prevented from being mistakenly touched to scald the operator.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. Digital electronic test case of intelligence with shock resistance performance, its characterized in that: the device comprises a test box body (1), a detection door (2), a display screen (3), a heat dissipation net (4), a test partition plate (5), a driving protection box (6), a driving groove (601) and a driving shaft (603); the detection door (2) is rotatably connected to the upper left of the test box body (1); the display screen (3) is fixedly connected to the upper right of the test box body (1); the heat radiating net (4) is fixedly connected to the lower end of the left side of the test box body (1); the test partition plate (5) is fixedly connected to the upper portion of the left side inside the test box body (1), and a slotted structure is arranged on the right side of the test partition plate (5); the drive protection box (6) is fixedly connected below the test box body (1); the four groups of driving slots (601) are arranged, and the driving slots (601) are respectively arranged below the test box body (1); the driving shaft (603) is rotatably connected to the middle position in the driving protection box (6).

2. The intelligent digital electronic test chamber with earthquake-proof capability as set forth in claim 1, wherein: the test box body (1) comprises: a wheel assembly (101); the wheel assemblies (101) are arranged in four groups, the wheel assemblies (101) are respectively and fixedly connected below the test box body (1), and the wheel assemblies (101) are of universal wheel assembly structures with brakes.

3. The intelligent digital electronic test chamber with earthquake-proof capability as set forth in claim 1, wherein: the heat dissipation net (4) comprises: a heat radiation fan (401); the heat dissipation fan (401) is fixedly connected inside the test box body (1).

4. The intelligent digital electronic test chamber with earthquake-proof capability as set forth in claim 1, wherein: the test separator (5) comprises: the device comprises a first fixing frame (501), a second fixing frame (502), an auxiliary sliding block (503), a cleaning and taking plate (504) and a transmission rod (505); the first fixing frame (501) is fixedly connected to the rear end of the detection door (2), and a rotating shaft structure is arranged at the upper end of the first fixing frame (501); the second fixing frame (502) is fixedly connected to the right end above the test partition plate (5), and the second fixing frame (502) is provided with an L-shaped slotted structure; the auxiliary sliding block (503) is connected in the groove of the second fixing frame (502) in a sliding manner, and a rotating shaft structure is arranged at the lower end of the auxiliary sliding block (503); the cleaning and taking plate (504) is fixedly connected to the left side of the auxiliary sliding block (503), and the cleaning and taking plate (504) is in frictional contact with the test partition plate (5); the front end of the transmission rod (505) is rotatably connected above the rotating shaft of the first fixing frame (501), and the rear end of the transmission rod (505) is rotatably connected below the rotating shaft of the auxiliary sliding block (503).

5. The intelligent digital electronic test chamber with earthquake-proof capability as set forth in claim 1, wherein: the test separator (5) further comprises: a temporary collection tank (506); the temporary collecting box (506) is fixedly connected in front of the test box body (1), and a slotted structure is arranged above the temporary collecting box (506).

6. The intelligent digital electronic test chamber with earthquake-proof capability as set forth in claim 1, wherein: the drive protection box (6) comprises: the anti-vibration device comprises an operating hand wheel (602), an anti-vibration worm (604), an anti-vibration threaded rod (605), a driving turbine (606), a supporting block (607), an anti-slip pad (608), a first driving conical gear (609) and a second driving conical gear (610); the operation hand wheel (602) is coaxially and fixedly connected to the front end of the driving shaft (603); the four groups of shockproof worms (604) are arranged, the shockproof worms (604) are respectively and rotatably connected inside the drive protection box (6), two groups of shockproof worms (604) are respectively and rotatably connected at the left and right ends inside the drive protection box (6), and the other two groups of shockproof worms (604) are respectively and fixedly connected at the front and rear ends of the drive shaft (603) in a coaxial manner; the four groups of shockproof threaded rods (605) are arranged, and the upper ends of the shockproof threaded rods (605) are respectively arranged in the driving grooves (601); the four groups of driving turbines (606) are arranged, the driving turbines (606) are respectively provided with a threaded hole structure, the upper ends of the driving turbines (606) are respectively and rotatably connected below the test box body (1), the driving turbines (606) are meshed with the shockproof worm (604), and the shockproof threaded rod (605) is in threaded connection in the threaded hole of the driving turbines (606); the supporting block (607) is fixedly connected below the shockproof threaded rod (605); the anti-skid pad (608) is fixedly connected below the supporting block (607), and the anti-skid pad (608) is of a rubber structure; the first driving conical gear (609) is coaxially and fixedly connected to the middle position of the outer periphery of the driving shaft (603); the second driving bevel gears (610) are arranged in two groups, the second driving bevel gears (610) are respectively and rotatably connected inside the driving protection box (6), and the second driving bevel gears (610) are respectively and coaxially and fixedly connected with the left and right groups of shockproof worms (604).

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