CN215599164U - Test shelter - Google Patents

Abstract

The utility model provides a test shelter for solve some current test bench structures and can not adjust, cause the test bench suitability poor and the technical problem of the test personnel article of different positions on the test bench of not being convenient for take. The method comprises the following steps: the test system comprises a cabin body, a main test room and an auxiliary test room are arranged in the cabin body; a distillation instrument, a thermostat, an ice point instrument, a flash point instrument and an air blast drying box are respectively arranged in the main test chamber; a sky platform and a test bed are respectively arranged in the auxiliary test chamber; the fuel oil performance testing platform is simple in structure and mainly used for testing and detecting fuel oil performance.

Description

Test shelter

Technical Field

The utility model relates to the technical field of sample test detection, in particular to a test shelter.

Background

Before the fuel is used, the performance index of the fuel needs to be detected, and a tester can know whether the fuel is suitable for machines or the types of the machines.

With the continuous development of the technology, the exploration of artificially processed synthetic fuel oil is continuously promoted, the performance index of the synthetic fuel oil needs to be continuously tested and detected in the process of artificially synthesizing the fuel oil, and testers need to test fuel oil samples by means of a test bed in the test and detection process.

The existing test bed has a simple structure, the structure of the test bed can not be adjusted generally, the mode has two obvious defects, one is that the requirements of testers with different heights on the operation height are different, and the existing test bed which can not adjust the height has poor applicability; secondly, the tester needs to frequently walk and change positions to get the articles placed at different positions on the test bed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a test shelter aiming at the defects of the prior art and aims to solve the technical problems that the applicability of a test bed is poor and testers cannot conveniently take articles at different positions on the test bed due to the fact that the structures of the prior test beds cannot be adjusted in the background art.

A test shelter comprising:

the test system comprises a cabin body, a main test room and an auxiliary test room are arranged in the cabin body;

a distillation instrument, a thermostat, an ice point instrument, a flash point instrument and an air blast drying box are respectively arranged in the main test chamber;

a sky platform and a test bed are respectively arranged in the auxiliary test chamber;

the test bench includes montant, many horizontal poles and locates the horizontally board of placing on every horizontal pole, every horizontal pole all with montant sliding connection, and every horizontal pole all can follow the vertical slip of montant, place the board and be the disc structure, place the board and rotate with the horizontal pole that corresponds and be connected, and place the board and can rotate as the center by self axis.

The working principle is as follows:

the tester can place the fuel sample or the semi-finished product of the fuel to be tested in the constant temperature box and the blast drying box according to the requirement for subsequent tests.

The method comprises the following steps that a tester enters the auxiliary test chamber, then a fuel oil sample is detected and tested by means of the test bed, all articles required to be used in the test process are placed on the placing plates respectively by the tester, and then the tester detects and tests the sample on the placing plate positioned at the top.

Before concrete experiment, the tester can many horizontal poles of sliding adjustment to make the horizontal pole drive the vertical slip of the board of placing that corresponds, to the tester will be located the place board sliding adjustment of the top and to the position of suitable tester experimental operating height, and place the board with other polylith and slide to make things convenient for the tester to get the position height of putting article from placing the board.

In the test process, the tester can rotate and place the board to be convenient for the tester to place the article on this board of placing and take.

The utility model has the beneficial effects that:

according to the utility model, firstly, according to the operation requirement of the tester on the test height, the tester can properly slide and adjust the plurality of cross rods, so that the cross rods drive the placing plate to vertically slide on the vertical rods, and then the tester can perform test detection on the highest placing plate.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the test stand of the present invention.

Description of reference numerals: the device comprises a cabin body 1, a main test room 2, an auxiliary test room 3, a distiller 4, a thermostat 5, a freezing point instrument 6, a flash point instrument 7, a blast drying box 8, a balance 9, a test bed 10, a vertical rod 11, a placing plate 12, a mounting plate 13, a mounting hole 14, a cavity rod 15, a penetrating rod 16, a placing groove 17, a storage chamber 18, a storage cabinet 19, an oil sample cabinet 20, a power distribution chamber 21, a copper sheet corrosion tester 22, a sliding groove 23, a sliding block 24, a first bolt 25, a first bearing 26, a plug column 27, a second bearing 28, a partition plate 29, a sliding door 30 and a second bolt 31.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

As shown in fig. 1, a test shelter comprises:

cabin body 1 is equipped with main laboratory 2, vice laboratory 3, storage chamber 18 and electricity distribution room 21 in this cabin body 1, be equipped with three baffles 29 in the cabin body 1, three these baffles 29 will the cabin body 1 divides into in proper order electricity distribution room 21, vice laboratory 3, main laboratory 2 with storage chamber 18, all be equipped with on the baffle 29 and open sliding door 30, 2 one sides in main laboratory also are equipped with and open sliding door 30.

As shown in FIG. 1, a distillation apparatus 4, a thermostat 5, a freezing point instrument 6, a flash point instrument 7, an air-blast drying oven 8 and a copper sheet corrosion tester 22 are respectively arranged in the main laboratory 2.

As shown in fig. 1, a storage cabinet 19 and an oil sample cabinet 20 are provided in the storage chamber 18.

As shown in fig. 1, a balance 9 and a test stand 10 are provided in the sub-laboratory 3, respectively.

As shown in fig. 2, the test bed 10 includes a vertical rod 11, a plurality of horizontal rods and a horizontal placing plate 12 disposed on each horizontal rod, each horizontal rod is connected with the vertical rod 11 in a sliding manner, each horizontal rod can vertically slide along the vertical rod 11, the placing plate 12 is of a disc structure, the placing plate 12 is connected with the corresponding horizontal rod in a rotating manner, and the placing plate 12 can rotate around the axis of the placing plate 12.

As shown in fig. 2, the testing device further comprises a mounting plate 13, the bottom of the vertical rod 11 is rotatably connected with the mounting plate 13, a plurality of mounting holes 14 are formed in the mounting plate 13, a second bearing 28 is arranged on the mounting plate 13, the bottom of the vertical rod 11 is fixedly arranged in a central hole of the second bearing 28 in a penetrating manner, a tester can fix the mounting plate 13 in the cabin body 1 through the mounting holes 14, and then the tester can adjust the positions of the plurality of placing plates 12 in a rotating manner before or during a test, so that the testing device can better adapt to the space design requirements in the auxiliary test room 3, the structure of the testing device can further flexibly adapt to the operation requirements of the tester during the test, the test operation requirements of the tester are met, and the practicability, the applicability and the flexibility are stronger.

As shown in fig. 2, each of the cross bars includes a transverse cavity bar 15 and a transverse through bar 16, one end of the cavity bar 15 is slidably connected with the vertical bar 11, the through bar 16 is inserted into the cavity bar 15 from the other end of the cavity bar 15, the through bar 16 can slide transversely and its end portion extends out of the cavity bar 15, the placing plate 12 is rotatably connected with the end portion of the through bar 16 extending out of the cavity bar 15, the cavity bar 15 is threadedly connected with a second bolt 31 screwed in and then can abut against the through bar 16, after the test is finished, the tester can push the through bar 16 into the cavity bar 15, and then the through bar 16 drives the placing plate 12 to move towards the vertical bar 11, the design method can further save the placing space of the structure, and is also beneficial to adjust different placing plates 12 to different distances from the vertical bar 11, thereby being more beneficial to the tester to take the articles on the lower placing plate 12, vertical spout 23 is opened on the montant 11, cavity pole 15 end fixing has slider 24, and this slider 24 slides and locates in spout 23, and threaded connection one on this slider 24 precession back can with the first bolt 25 of spout 23 inner wall butt. Wear to establish the pole 16 tip and be equipped with first bearing 26, place board 12 bottom and be fixed with vertical spliced pole 27, this spliced pole 27 is fixed wears to establish in the centre bore of first bearing 26, and this kind of mode of setting is favorable to reducing and places the friction that board 12 rotation in-process produced to laborsaving more.

As shown in fig. 2, each of the placing plates 12 is opened with a plurality of placing slots 17, and the placing slots 17 are used for placing the articles, thereby being beneficial to preventing the articles from falling off the placing plates 12 during the process of rotating the placing plates 12.

The working principle is as follows:

the tester can place the fuel oil sample or the fuel oil semi-finished product to be tested in the constant temperature box 5 and the air-blast drying box 8 according to the requirement for subsequent tests.

After entering the auxiliary laboratory 3, the tester performs a test on the fuel sample by using the test stand 10, places all the articles to be used in the test process in the placing plates 12 in the placing grooves 17, and then performs a sample test on the placing plate 12 located at the uppermost position.

Before concrete experiment, the experimenter can many horizontal poles of sliding adjustment to make the horizontal pole drive the corresponding board 12 vertical slip of placing, to the experimenter will be located the board 12 sliding adjustment of placing of the top and to the position of suitable experimenter experimental operation height, and place board 12 with other polylith and slide to make things convenient for the experimenter to get the position height of putting article from placing board 12.

Then, the tester appropriately pulls the penetrating rod 16 according to actual operation requirements, so that the penetrating rod 16 drives the placing plate 12 to slide to a proper distance from the vertical rod 11.

In the test process, the tester can rotate the placing plate 12, so that the tester can take the articles placed on the placing plate 12 conveniently.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (10)

1. A test shelter, comprising:

the test system comprises a cabin body (1), wherein a main test room (2) and an auxiliary test room (3) are arranged in the cabin body (1);

a distillation instrument (4), a thermostat (5), a freezing point instrument (6), a flash point instrument (7) and an air-blast drying box (8) are respectively arranged in the main test room (2);

a platform (9) and a test bed (10) are respectively arranged in the auxiliary test room (3);

test bench (10) include montant (11), many horizontal poles and locate the horizontally on every horizontal pole place board (12), every horizontal pole all with montant (11) sliding connection, and every horizontal pole all can follow montant (11) vertical slip, place board (12) and be the disc structure, place board (12) and the horizontal pole that corresponds and rotate and be connected, and place board (12) and can self axis rotate as the center.

2. A test shelter as claimed in claim 1 wherein: the novel vertical rod is characterized by further comprising a mounting plate (13), the bottom of the vertical rod (11) is rotatably connected with the mounting plate (13), and a plurality of mounting holes (14) are formed in the mounting plate (13).

3. A test shelter as claimed in claim 1 wherein: every the horizontal pole all includes horizontal cavity pole (15) and horizontal pole (16) of wearing to establish, and cavity pole (15) one end and montant (11) sliding connection wear to establish pole (16) and wear to establish in cavity pole (15) from the other end of cavity pole (15), but should wear to establish pole (16) lateral sliding and its tip and stretch out cavity pole (15), place board (12) with the tip rotation connection of wearing to establish pole (16) and stretching out cavity pole (15).

4. A test shelter as claimed in claim 1 wherein: each placing plate (12) is provided with a plurality of placing grooves (17).

5. A test shelter as claimed in claim 1 wherein: the cabin body (1) is also internally provided with a storage chamber (18), and the storage chamber (18) is internally provided with a storage cabinet (19) and an oil sample cabinet (20).

6. A test shelter as claimed in claim 1 wherein: the cabin (1) further comprises a power distribution room (21).

7. A test shelter as claimed in claim 1 wherein: and a copper sheet corrosion tester (22) is also arranged in the main test chamber (2).

8. A test shelter as claimed in claim 3 wherein: vertical spout (23) have been opened on montant (11), cavity pole (15) end fixing has slider (24), and this slider (24) slide locate spout (23) in, and threaded connection one on this slider (24) screw-in back can with first bolt (25) of spout (23) inner wall butt.

9. A test shelter as claimed in claim 3 wherein: the end part of the penetrating rod (16) is provided with a first bearing (26), the bottom of the placing plate (12) is fixed with a vertical inserting column (27), and the inserting column (27) is fixedly arranged in a central hole of the first bearing (26).

10. A test shelter as claimed in claim 2, wherein: be equipped with second bearing (28) on mounting panel (13), the fixed centre bore of wearing to establish in second bearing (28) in montant (11) bottom.

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