CN221056572U - Electric locomotive safety equipment test bench - Google Patents

Abstract

The utility model discloses an electric locomotive safety equipment test board which comprises an equipment mounting mechanism, a first box body and a second box body, wherein the first box body is of a hollow square structure, the equipment mounting mechanism is mounted in the first box body, and the second box body is mounted on the first box body; the equipment installation mechanism comprises an isolation mechanism and a bearing mechanism, the isolation mechanism comprises a transverse partition plate and a vertical partition plate, the first box body is isolated into a plurality of storage areas by the transverse partition plate and the vertical partition plate, sliding parts are arranged on the inner walls of the two sides of each storage area, and the bearing mechanism is installed on the sliding parts and drives the bearing mechanism to slide. According to the utility model, the second box body is arranged on the first box body, meanwhile, the equipment host can be placed on the bearing mechanisms in the storage areas, and the corresponding port of the equipment host in the first box body is connected with the corresponding pipeline port on the second box body through the pipeline for safety test, so that the problem of getting off and repairing after the vehicle-mounted safety equipment get-on experiment is solved.

Description

Electric locomotive safety equipment test bench

Technical Field

The utility model relates to the technical field of test benches, in particular to an electric locomotive safety equipment test bench.

Background

The electric locomotive safety equipment is arranged on locomotives, motor cars and special self-wheel running equipment and is used for directly preventing train running accidents or assisting locomotive crews in improving the running safety capability of operating trains.

At present, a special test bench does not exist in the vehicle-mounted safety equipment, and part of new products or maintenance equipment can only verify the performance of the equipment through a loading experiment, but the method has the hidden trouble of secondary unloading repair and influence on primary operation efficiency, and meanwhile, the connection between the equipment and a pipeline cannot be visually seen when monitoring maintenance personnel are subjected to actual operation training, so that teaching is influenced.

Disclosure of utility model

The utility model aims to overcome the defects in the prior art, and provides an electric locomotive safety equipment test board, wherein a transverse partition plate and a vertical partition plate are arranged in a first box body to isolate the first box body into a plurality of storage areas, equipment hosts can be placed in each storage area, meanwhile, a second box body is arranged on the first box body, and corresponding ports of the equipment hosts in the first box body and corresponding pipeline ports on the second box body are connected through pipelines to carry out safety test, so that the problem of getting off and repairing after a vehicle-mounted safety equipment get-on experiment is solved.

In order to achieve the above purpose, the technical scheme adopted by the utility model is that the electric locomotive safety equipment test board comprises an equipment mounting mechanism, a first box body and a second box body, wherein the first box body is of a hollow square structure, the equipment mounting mechanism is mounted in the first box body, and the second box body is mounted on the upper side of the first box body;

The equipment installation mechanism comprises an isolation mechanism and a bearing mechanism, the bearing mechanism is installed on the isolation mechanism, the isolation mechanism comprises a transverse partition plate and a vertical partition plate, the transverse partition plate is installed on the vertical partition plate, the transverse partition plate and the vertical partition plate are of square structures and are multiple in number, each vertical partition plate is parallel to the side wall of the first box body, each transverse partition plate is perpendicular to the vertical partition plate, the end part of the transverse partition plate is fixedly connected with the side wall of the vertical partition plate, the transverse partition plate and the vertical partition plates isolate the first box body into a plurality of storage areas, sliding parts are arranged on the inner walls of the two sides of the storage areas, and the bearing mechanism is installed on the sliding parts and drives the bearing mechanism to slide.

Preferably, the sliding component is arranged on the side wall of the vertical partition plate and is fixedly connected with the vertical partition plate.

Preferably, the bearing mechanism comprises a plurality of mounting plates which are square in number, the left end and the right end of each mounting plate are respectively arranged on two opposite sliding parts, and the sliding parts support the mounting plates upwards.

Preferably, the first box includes first cabinet door, second cabinet door and pipeline hole, the front side at first box is installed to first cabinet door, the rear side at first box is installed to the second cabinet door, the pipeline hole sets up at the front side top of first box, first cabinet door and second cabinet door are articulated and first cabinet door and second cabinet door are the two doors respectively with first box, the quantity of pipeline hole is a plurality of and is circular through-hole.

Preferably, the second box comprises a first display terminal and a second display terminal, the first display terminal is arranged on the upper side of the second display terminal, the second box is of a hollow square structure, a plurality of mounting grooves are formed in the front side of the second box, fixing grooves are formed in the rear side of the second box, and the second display terminal and the first display terminal are arranged in the mounting grooves after penetrating through the fixing grooves.

Preferably, the sliding component is a sliding rail.

Preferably, the first cabinet door is a glass door.

Preferably, door handles are arranged on the first cabinet door and the second cabinet door.

Preferably, the second box body is of a backward inclined structure.

Compared with the prior art, the utility model has the following advantages:

1. According to the utility model, the first box body is isolated into the plurality of storage areas by arranging the transverse partition plates and the vertical partition plates in the first box body, the equipment host machine can be placed in each storage area, meanwhile, the second box body is arranged on the first box body, and the corresponding port of the equipment host machine in the first box body is connected with the corresponding pipeline port on the second box body through the pipeline for safety test, so that the problem of getting off and repairing after the vehicle-mounted safety equipment get-on experiment is solved.

2. According to the utility model, the sliding part is arranged, so that when equipment in the first box body needs to be replaced, the mounting plate for placing the equipment to be replaced is only required to slide out to the outer side of the first box body under the driving of the sliding part, and the equipment to be replaced is moved out of the mounting plate, thereby solving the problem that the equipment to be replaced falls down due to accidents when the equipment to be replaced is moved out of the box body.

3. According to the utility model, the plurality of pipeline holes are arranged, the sizes of the plurality of pipeline holes are not identical, pipeline holes with different sizes can pass through pipelines with different numbers, and the pipelines are tiled at the top of the first box body after passing through the pipeline holes, so that the problem that pipeline connection equipment cannot be distinguished when connecting the pipelines due to the fact that the number of the pipelines is too large is solved.

4. According to the utility model, the first cabinet door is set to be the glass door, so that the connection relation between the equipment hosts can be observed without opening the first cabinet door, and the problem of abnormal test results caused by accidental collision of foreign matters with the host equipment due to opening of the cabinet door is solved.

The utility model is described in further detail below with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic plan view of fig. 1 rotated by a certain angle.

Reference numerals illustrate:

1-a first box; 101-a first cabinet door; 102-a second cabinet door;

103-line hole; 2-a second box; 201-mounting slots;

202-a first display terminal; 203-a second display terminal; 204-a fixed slot;

3-a device mounting mechanism; 301-transverse partition plates; 302-vertical separator;

303-a sliding member; 304-mounting plates; 305-storage area;

7-door handle.

Detailed Description

As shown in fig. 1 and 2, the utility model comprises an equipment mounting mechanism 3, a first box body 1 and a second box body 2, wherein the first box body 1 is of a hollow square structure, the equipment mounting mechanism 3 is mounted in the first box body 1, and the second box body 2 is mounted on the upper side of the first box body 1; the device installation mechanism 3 is used for installing host devices of an electric locomotive, such as a monitoring host, a TAX box, a video host, a standby power supply and the like, the first box 1 isolates each host device in the box, the second box 2 is arranged on the first box 1, and after the connection of each device of the first box 1 is finished, the test result can be checked through the second box 2.

The device installation mechanism 3 comprises an isolation mechanism and a bearing mechanism, the bearing mechanism is installed on the isolation mechanism, the isolation mechanism comprises a transverse partition 301 and a vertical partition 302, the transverse partition 301 is installed on the vertical partition 302, the transverse partition 301 and the vertical partition 302 are of square structures and are multiple in number, the lengths of the transverse partitions 301 are not completely identical, and the lengths of the vertical partitions 302 are not completely identical. Each vertical partition plate 302 is parallel to the side wall of the first box body 1, each transverse partition plate 301 is perpendicular to the vertical partition plate 302, the end portions of the transverse partition plates 301 are fixedly connected with the side wall of the vertical partition plate 302, the first box body 1 is separated into a plurality of storage areas 305 by the plurality of transverse partition plates 301 and the plurality of vertical partition plates 302, the size of each storage area 305 is not identical, host equipment of different sizes is convenient to install, sliding parts 303 are arranged on the inner walls of two sides of each storage area 305, and a bearing mechanism is arranged on the sliding parts 303 and drives the bearing mechanism to slide. The distance between the two opposite sliding parts 303 and the bottom of the first box 1 is the same, so that the bearing mechanism can be parallel to the bottom of the first box 1 after being mounted on the sliding parts 303, and the host equipment can be stably placed on the bearing mechanism.

The sliding member 303 is provided on a side wall of the vertical partition 302 and fixedly connected to the vertical partition 302. Each sliding member 303 is fixedly connected to the vertical partition 302. A plurality of sliding members 303 may be provided on the side wall of each vertical partition 302 at different intervals, or only one sliding member 303 may be provided on the lower portion of the vertical partition 302, and the sliding members 303 may be provided according to the height of the host apparatus. The sliding members 303 are arranged in pairs, and the sliding members 303 with the same height are arranged on the adjacent side walls of the two opposite vertical partition plates 302.

The bearing mechanism comprises a plurality of mounting plates 304, the number of the mounting plates 304 is a square structure, the lengths of the plurality of mounting plates 304 are not identical, the left end and the right end of each mounting plate 304 are respectively arranged on two opposite sliding parts 303, and the sliding parts 303 support the mounting plates 304 upwards. The mounting plate 304 can slide back and forth on the vertical partition plate 302 through the sliding component 303, and the upward supporting effect of the sliding component 303 on the mounting plate 304 enables the mounting plate 304 to have a certain bearing capacity. Limiting blocks (not shown in the figure) are arranged at the front end and the rear end of the sliding component 303, and the limiting blocks at the front end can limit the sliding-out length of the mounting plate 304 when the mounting plate 304 slides outwards, so that the problem of equipment falling caused by excessive sliding-out of the sliding component 303 of the mounting plate 304 is avoided. The limiting block at the rear end can prevent the mounting plate 304 from reversely sliding out of the first box 1 when the mounting plate slides into the first box 1.

The first box 1 includes first cabinet door 101, second cabinet door 102 and pipeline hole 103, first cabinet door 101 installs the front side at first box 1, the rear side at first box 1 is installed to second cabinet door 102, pipeline hole 103 sets up at the front side top of first box 1, leave the clearance between the front side of first cabinet door 101 and equipment installation mechanism 3, this clearance is convenient for the ascending or walk down of various pipelines of host computer equipment, the equipment pipeline of upwards walking passes behind pipeline hole 103 and reaches the top of first box 1, the pipeline of walking down is connected with the wiring port of lower part equipment, first cabinet door 101 and second cabinet door 102 are articulated with first box 1 respectively and first cabinet door 101 and second cabinet door 102 are two to open the door, equipment in the first box 1 can be operated to when first cabinet door 101 and second cabinet door 102 are opened, equipment in the first box 1 can be avoided receiving the collision and lead to equipment to unusual when closing, the quantity of pipeline hole 103 is a plurality of and is circular through-hole. The plurality of pipeline holes 103 may be arranged in order on the top of the front side of the first casing 1, the plurality of pipeline holes 103 may be not identical in size, and different numbers of equipment pipelines may pass through the pipeline holes 103 which are not identical in size.

The second box 2 comprises a first display terminal 202 and a second display terminal 203, the first display terminal 202 is arranged on the upper side of the second display terminal 203, the second box 2 is of a hollow square structure, a plurality of mounting grooves 201 are formed in the front side of the second box 2, the mounting grooves 201 are internally and externally communicated, a fixing groove 204 is formed in the rear side of the second box 2, and the second display terminal 203 and the first display terminal 202 penetrate through the fixing groove 204 and then are arranged in the mounting grooves 201. The first display terminal 202 is used for displaying a stored circuit diagram and the like, and the second display terminal 203 is used for displaying a data result after the equipment is connected, wherein the data result can be chart display, abnormal early warning and the like. The front side of the second box 2 is further provided with various pipeline interfaces, the first display terminal 202 and the second display terminal 203 are connected with corresponding pipeline interfaces, the equipment pipeline passing through the pipeline hole 103 is placed on the top of the first box 1, and according to the equipment wiring schematic diagram displayed by the first display terminal 202, the pipeline passing through the pipeline hole 103 is connected with the corresponding pipeline interface on the second box 2, and the connection result is displayed on the second display terminal 203.

The sliding member 303 is a slide rail, and the mounting plate 304 is mounted on the sliding member 303 so as to slide out of and into the first casing 1.

The first cabinet door 101 is a glass door, and according to the transparent property of glass, the pipeline connection relation between all devices can be intuitively observed under the condition that the first cabinet door 101 is not opened.

The door handles 7 are arranged on the first cabinet door 101 and the second cabinet door 102. The first cabinet door 101 and the second cabinet door 102 can be opened and closed more conveniently by the door handle 7.

The second casing 2 is a backward inclined structure, and the backward inclined structure can better display contents on the first display terminal 202 and the second display terminal 203.

When in use, each host device to be tested is firstly placed on a proper mounting plate 304 according to the size, the wiring terminal of the device is close to the first cabinet door 101, the first display terminal 202 and the second display terminal 203 are mounted in the mounting groove of the second box body 2, and two wiring ports are respectively arranged at two ends of the pipeline, and are called a first wiring port and a second wiring port. The pipeline port of the host equipment to be tested is connected with the corresponding first wiring port of the pipeline, the second wiring port of the pipeline passes through the pipeline hole 103 upwards and then is connected with the corresponding pipeline port on the second box body 2, and after a power supply is started, the test result of the host equipment to be tested after being connected is displayed on the second display terminal 203. If the connection relation among the host devices to be tested needs to be observed, the first cabinet door 101 can be directly observed by opening, and the further first cabinet door 101 is a glass door, so that the connection condition of pipelines can be observed outside without opening the first cabinet door 101; if the connection relationship between the hosts to be tested needs to be changed, the first cabinet door 101 is opened, and the host devices are reconnected according to the wiring schematic diagram on the first display terminal 202. If the host equipment needs to be replaced, the first cabinet door 101 is opened, the first wiring port of the pipeline on the host equipment to be replaced is pulled out, then the second cabinet door 102 is opened, the mounting plate 304 for placing the host equipment to be replaced slides out to the outer side of the first box body 1 along the sliding component 303, after the host equipment to be replaced is removed, the mounting plate 304 slides into the first box body 1 along the sliding component 303, the ready host equipment to be tested is placed on the proper mounting plate 304, the mounting plate 304 slides into the first box body 1 along the sliding component 303, the second cabinet door 102 is closed, the first cabinet door 101 is opened to connect the pipeline port of the host equipment to be tested after the replacement, and the second display terminal 203 can display the test result after the connection is finished. The sliding component 303 is arranged on the vertical partition plate 302, the mounting plate 304 is mounted on the sliding component 303, the sliding component 303 can drive the mounting plate 304 to slide in and slide out, so that the equipment host is convenient to replace, and the problem that the equipment to be replaced falls due to accidents when the equipment to be replaced is moved out of the box body is solved.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, and any simple modification, variation and equivalent structural transformation of the above embodiment according to the technical substance of the present utility model still fall within the scope of the technical solution of the present utility model.

Claims (9)

1. An electric locomotive safety equipment testboard which is characterized in that: the device comprises a device mounting mechanism (3), a first box body (1) and a second box body (2), wherein the first box body (1) is of a hollow square structure, the device mounting mechanism (3) is mounted in the first box body (1), and the second box body (2) is mounted on the upper side of the first box body (1);

The device mounting mechanism (3) comprises an isolation mechanism and a bearing mechanism, the bearing mechanism is mounted on the isolation mechanism, the isolation mechanism comprises a transverse partition plate (301) and a vertical partition plate (302), the transverse partition plate (301) is mounted on the vertical partition plate (302), the transverse partition plate (301) and the vertical partition plate (302) are of square structures and are multiple in number, each vertical partition plate (302) is parallel to the side wall of the first box body (1), each transverse partition plate (301) is perpendicular to the vertical partition plate (302), the end portion of the transverse partition plate (301) is fixedly connected with the side wall of the vertical partition plate (302), the transverse partition plate (301) and the vertical partition plates (302) isolate the first box body (1) into a plurality of storage areas (305), sliding parts (303) are arranged on the inner walls of two sides of each storage area (305), and the bearing mechanism is mounted on the sliding parts (303) and drives the bearing mechanism to slide.

2. The electric locomotive safety equipment test stand of claim 1, wherein: the sliding component (303) is arranged on the side wall of the vertical partition plate (302) and is fixedly connected with the vertical partition plate (302).

3. The electric locomotive safety equipment test stand of claim 1 or 2, wherein: the bearing mechanism comprises mounting plates (304), the number of the mounting plates (304) is multiple, the bearing mechanism is of a square structure, the left end and the right end of each mounting plate (304) are respectively mounted on two sliding parts (303) in opposite directions, and the sliding parts (303) support the mounting plates (304) upwards.

4. The electric locomotive safety equipment test stand of claim 1, wherein: the utility model provides a first box (1) is including first cabinet door (101), second cabinet door (102) and pipeline hole (103), the front side at first box (1) is installed to first cabinet door (101), the rear side at first box (1) is installed to second cabinet door (102), pipeline hole (103) set up at the front side top of first box (1), first cabinet door (101) and second cabinet door (102) are articulated mutually and first cabinet door (101) and second cabinet door (102) are two to open the door respectively with first box (1), the quantity of pipeline hole (103) is a plurality of and is circular through-hole.

5. The electric locomotive safety equipment test stand of claim 1, wherein: the second box (2) includes first display terminal (202) and second display terminal (203), the upside at second display terminal (203) is installed to first display terminal (202), second box (2) are cavity square structure, the front side of second box (2) is provided with a plurality of mounting grooves (201), the rear side of second box (2) is provided with fixed slot (204), install in mounting groove (201) after second display terminal (203) and first display terminal (202) all pass fixed slot (204).

6. The electric locomotive safety equipment test stand of claim 1 or 2, wherein: the sliding component (303) is a sliding rail.

7. The electric locomotive safety equipment test stand of claim 4, wherein: the first cabinet door (101) is a glass door.

8. The electric locomotive safety equipment test stand of claim 4, wherein: door handles (7) are arranged on the first cabinet door (101) and the second cabinet door (102).

9. The electric locomotive safety equipment test stand of claim 5, wherein: the second box body (2) is of a backward inclined structure.