CN110856401A - Intensive rack of on-vehicle weapon equipment - Google Patents

Abstract

The invention relates to a vehicle-mounted weapon equipment intensive cabinet, belonging to the field of weapon equipment cabinets; comprises a cabinet and a plurality of combinations which are arranged in the cabinet through guide rails and are combined into a drawer structure or a box body structure; the top of the cabinet is provided with a socket and a heat dissipation port; each combination is provided with a steel belt assembly, the steel belt assembly is arranged in a space between the inner side wall of the cabinet and the outer sides of the combination side plate and the rear plate, and a cable to be inserted is arranged on the steel belt assembly; the steel belt assembly comprises a left steel belt assembly and a right steel belt assembly which are symmetrically arranged, and the left steel belt assembly comprises a steel belt, a hinge and a hoop; the cabinet has the innovative points that cables (cables) inside the cabinet are reasonably arranged in a wiring steel belt mode, the problem of effective utilization of space inside the cabinet is thoroughly solved, the problems of combined outgoing lines and cable accumulation are solved, the problem of arrangement design of large-current thick cables outside the cabinet is solved, and the problem of cable damage caused by drawing combination during combined maintenance is solved.

Description

Intensive rack of on-vehicle weapon equipment

Technical Field

The invention belongs to the field of weapon equipment cabinets, and particularly relates to a vehicle-mounted weapon equipment intensive cabinet.

Background

At present, most weapon equipment control cabinets adopt a combined modular design, and the design mode generally adopts: the first is a cable allowance mode after the cable is directly reserved and combined and pulled out at the rear part of the cabinet; the design has the advantages of simple structure and suitability for the arrangement of the flexible and large-curvature thin cables; the device is suitable for laying of fixed cables; the draw-out type combined cabinet of the weapon equipment (especially the vehicle-mounted weapon equipment cabinet) which needs frequent maintenance has the disadvantages that after the combination is pushed into the cabinet, a large amount of cables are accumulated at the rear part of the combination, and the space is occupied, so that the overall dimension of the combination design is not too deep; the electromagnetic compatibility of the cable is not facilitated; too thick cables are difficult to bend, so that the combination is difficult to push in and pull out of the cabinet, and clamping stagnation occurs in the process; the combination is often pushed and pulled to cause the cable to be irregularly bent in a large angle, and the cable can be damaged.

The second is that the gap between the bottom of each combined box and the panel is arranged by flat cables, and the cables are longitudinally arranged to the combined rear connector from the front bottom of the combination. The design has the advantages that the problem of cable accumulation at the rear part of the combination in the first mode is solved, and the depth space of the combination is expanded; the device is suitable for arrangement of thin cables; when the combination is pushed and pulled, the clamping stagnation problem is avoided, the cable is regularly bent, and the risk of damage is reduced. The compact cabinet has the disadvantages that because the gaps between the bottoms of the combined box bodies and the panel are arranged by using flat cables, and each combination needs to vacate a certain space for cable arrangement in height, the internal size of the cabinet cannot be fully utilized in height, so that the structure arrangement of the compact cabinet is difficult; the flexibility and softness of the thicker cable are considered, and the arrangement of the thicker cable is not facilitated. The middle cabinet refers to a cabinet body for bearing electrical equipment; combining: the drawer or the box body with certain independent functions is inserted into the cabinet through the guide rail, and a plurality of drawers or box bodies are combined to form the cabinet.

In order to expand the overall dimension of the combination and facilitate the internal electrical design, the problem of cable accumulation at the rear part of the combination must be solved, the problem of arrangement design of large-current thick cables possibly existing outside the combination is solved, the height space of the cabinet is effectively utilized, more functional equipment is borne by the drawer type combination cabinet of the weapon equipment (particularly the intensive cabinet of the vehicle-mounted weapon equipment) in a limited space, a set of effective method must be designed to ensure that the cables are reasonably arranged in the cabinet, the requirements are met, and the cables are not damaged during combination and pulling.

Disclosure of Invention

The technical problem to be solved is as follows:

in order to avoid the defects of the prior art, the invention provides an intensive cabinet for vehicle-mounted weaponry, aiming at the characteristics of the vehicle-mounted weaponry, the upper cabinet is required to bear more function combinations as much as possible, the intensive cabinet adopts a combined cabinet design method, the lossless laying of cables is completed by adopting routing steel belts on two sides of the combination, the upper space of guide rails on two sides of the combination is utilized to reasonably design the routing steel belts, cables are laid on the outer sides of the steel belts, the cables are fixed by utilizing cable clamps on the steel belts, and after the combination is pushed into the cabinet, the cables on two sides are straightened and tiled on two sides of the cabinet combination along with the routing steel belts to achieve the purpose; when the combination is pulled out, the routing steel belts on the two sides and the fixed cables are pulled out along with the combination and are bent by 180 degrees, and at the moment, the cables are still tiled on the outer sides of the routing steel belts, so that the purpose of lossless laying of the cables in the movement process is achieved.

The technical scheme of the invention is as follows: a vehicle-mounted weapon equipment intensive cabinet comprises a cabinet body and a plurality of combinations arranged in the cabinet body through guide rails, wherein the combinations are drawer structures or box body structures; the top of the cabinet is provided with a socket and a heat dissipation port; the method is characterized in that: each combination is provided with a steel belt assembly, the steel belt assembly is arranged in a space between the inner side wall of the cabinet and the outer sides of the combination side plate and the rear plate, and a cable to be inserted is arranged on the steel belt assembly;

the steel belt assembly comprises a left steel belt assembly and a right steel belt assembly which are symmetrically arranged, and the left steel belt assembly comprises a steel belt, a hinge and a hoop; one end of the steel belt is hinged to the inner side wall of the cabinet through a first hinge at a position opposite to the combined side plate, and the other end of the steel belt is hinged to the middle position of the combined rear plate through a second hinge; the plurality of hoops are uniformly distributed along the length direction of the steel belt, fixed on one side of the steel belt, which faces the cabinet, and used for clamping and fixing a cable to be inserted on the steel belt; the right steel belt assembly and the left steel belt assembly are identical in structure.

The further technical scheme of the invention is as follows: the hinge comprises two U-shaped plates, and the top ends of the two support arms of the two U-shaped plates are hinged through pin shafts respectively, so that relative rotation can be realized.

The further technical scheme of the invention is as follows: the U-shaped plate at one end of the first hinge is fixed on the inner side wall of the cabinet, is opposite to the combined side plate and is close to the front panel of the cabinet, and the U-shaped plate at the other end of the first hinge is fixed with the steel belt; and the U-shaped plate at one end of the second hinge is fixed with the steel belt, and the U-shaped plate at the other end of the second hinge is fixed at the middle position of the combined rear plate through a support.

The further technical scheme of the invention is as follows: and a vibration isolator is arranged on the supporting seat at the bottom of the machine cabinet.

The further technical scheme of the invention is as follows: through holes are formed in the positions, located on the two sides of the combined front plate, of the cabinet and are used as threading holes for cables to be vertically arranged in the cabinet and smoothly guided into a space between the combined two side plates and the cabinet.

Advantageous effects

The invention has the beneficial effects that: the innovation point of the design of the intensive cabinet for the vehicle-mounted weaponry is that the internal cables (cables) of the cabinet are reasonably arranged in a form of routing steel belts, and particularly, the detailed description is shown in fig. 2, 3 and 11. The cables (cables) are arranged through the wiring steel belt, so that the combination can be carried out in the push-pull process, the cables (cables) connected with the connectors at the rear part of the combination are not drawn and damaged in the dynamic motion, and the internal space of the cabinet is effectively utilized. As can be seen from fig. 2, the two routing steel belts are positioned at the left and right sides of the combination and extend to the rear part of the combination close to the middle position, and one end of the steel belt is fixed on the connection end points of the left and right sides of the front end of the cabinet in a hinge mode, so that the cable can be conveniently transferred to the movable steel belt when the cable is arranged up and down on the cabinet; the other end is fixed on the rear part of the combination close to the middle combination connection point in a hinge mode, so that the cable can be conveniently connected to the position of the connector at the rear part of the combination. The cable is fixed in the steel band outside, produces the friction with the cable when avoiding the combination push-and-pull. When the combination is pushed in, the state of figure 2 is presented, the cable can be well paved in the cabinet (particularly above the guide rails at two sides of the combination), the accumulation and the staggering phenomena are avoided, and the space of the cabinet is effectively utilized. When the combination is pulled out, the steel belt is bent into 180 degrees from 90 degrees when the combination is pushed in, as shown in fig. 3 and 4, the combination is located outside the cabinet, the occupied space of the original combination is handed to the steel belt, the cables can be tiled without damage even the bending degree of the steel belt is increased, and the design details of the routing steel belt outside the combination are shown in fig. 11. The maintainable push-pull type combined cabinet (particularly the intensive cabinet of vehicle-mounted weapon equipment) designed in a wiring steel belt mode thoroughly solves the problem of effective utilization of the internal space of the cabinet; the problems of combined outgoing lines and cable accumulation are solved; the problem of arrangement design of large-current thick cables outside the combination is solved; the problem of cable damage caused by pull combination during combination maintenance is solved.

The cabinet has the innovative points that cables (cables) inside the cabinet are reasonably arranged in a wiring steel belt mode, the problem of effective utilization of space inside the cabinet is thoroughly solved, the problems of combined outgoing lines and cable accumulation are solved, the problem of arrangement design of large-current thick cables outside the cabinet is solved, and the problem of cable damage caused by drawing combination during combined maintenance is solved.

Drawings

FIG. 1 is a cabinet profile of the present invention;

FIG. 2 is a top view of a steel strip cabinet with traces (assembled pushed-in state);

FIG. 3 is a schematic view of the combination with the routing steel strip (combination pulled out);

FIG. 4 is a three-dimensional view of a cabinet with a routing strip (pulled out in combination);

FIG. 5 is a detailed schematic diagram of a routing steel strip;

fig. 6 is a three-dimensional external view of the cabinet (assembled push-in state);

FIG. 7 is a rear view of a cabinet backplane;

FIG. 8 is a top view of the cabinet;

FIG. 9 is a schematic view of a combination side rail and steel strip design detail;

FIG. 10 is a detailed view of the steel strap hinge and cabinet connection design (left side steel strap of cabinet);

FIG. 11 is a schematic view showing details of the design of the steel strap hinge and modular connection;

FIG. 12-1 is a detail view of the left steel strap (with hinged connection);

fig. 12-2 is a detail view of the left steel strap (with hinged connection).

Description of reference numerals: 1-top socket, 2-rack, 3-isolator, 4-left side through wires hole, 5-left side walk the line steel band, 6-steel band clamp, 7-backplate, 8-right side walk the line steel band, 9-right side through wires hole, 10-guide rail, 11-combination, 12-hinge and rack hookup location of walking the steel band on the left side, 13-walk the line space, 14-left side is walked line steel band and combined hookup location, 15-cable (cable) of laying in the steel band.

Detailed Description

The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only 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 considered as limiting the present invention.

Referring to fig. 1 to 11, the intensive rack for vehicle-mounted weaponry equipment of the present invention includes a rack 2, a plurality of modules 11 installed therein via guide rails, and a steel belt assembly; the combination 11 is connected with the cabinet body of the cabinet through the guide rail 10, so that the push-pull maintenance of the combination is convenient; the combination 11 is of a drawer structure or a box body structure; the top of the cabinet 2 is provided with a socket 1 and a heat dissipation port; spaces between the inner side wall of the cabinet 2 and the outer sides of the side plates and the rear plate of the combination 11 are used as wiring channels, a steel belt assembly is mounted on each combination 11, the steel belt assembly is arranged in the wiring channels above the guide rails, and cables to be inserted are arranged on the steel belt assemblies;

the steel belt assembly comprises a left steel belt assembly and a right steel belt assembly which are symmetrically arranged, and the left steel belt assembly comprises a steel belt 5, a hinge and a hoop 6; one end of the steel belt 5 is hinged to the inner side wall of the cabinet 2 through a first hinge, is opposite to the side plate of the combination 11 and is close to the front panel of the cabinet, and the other end of the steel belt is hinged to the middle of the rear plate of the combination 11 through a second hinge; the plurality of hoops 6 are uniformly distributed along the length direction of the steel belt 5, fixed on one side of the steel belt facing the cabinet and used for clamping and fixing a cable to be inserted on the steel belt, and friction between the cable and the hoop when the cable is pushed and pulled in a combined mode is avoided. The right steel belt assembly and the left steel belt assembly are bilaterally symmetrical pieces with the same structure and are not described in a repeated manner.

The hinge comprises two U-shaped plates, and the top ends of the two support arms of the two U-shaped plates are hinged through pin shafts respectively, so that relative rotation can be realized.

The following are specific designs and embodiments:

fig. 1 shows an outline view of the cabinet, wherein 1U represents height 44.15mm and vibration isolator height 120 mm. As can be seen from the figure, no gap exists between the combination and the combination, a flat cable wiring space does not need to be reserved below the combination, the space of the combination in the cabinet is fully utilized, the height of the cabinet is 1.4m (comprising vibration isolators), 27U combinations (combinations 1-7 and a bottom junction box) can be installed except for 40mm of each upper frame and each lower frame, each combination can be subjected to push-pull maintenance, and the cabinet accommodating space is very large.

Figure 2 shows a top view of a steel strip cabinet with traces. As can be seen from the figure, the left and right threading holes are positioned at two sides of the front panel of the cabinet, the two routing steel belts are positioned at the left and right sides of the combination and extend to the rear part of the combination close to the middle position, one end of the steel belt is fixed on the connection end points of the left and right sides of the front end of the cabinet in a hinge mode, and the cables can be conveniently transferred to the movable steel belt when the cables are wired up and down on the cabinet; the other end is fixed on the rear part of the combination close to the middle combination connection point in a hinge mode, so that the cable can be conveniently connected to the position of the connector at the rear part of the combination. The cable is fixed in the steel band outside, produces the friction with the cable when avoiding the combination push-and-pull. The cable adopts the clamp interval to fix, and when the clamp was fixed, also can adopt the layering form to reach better electromagnetic compatibility effect. When the combination is pushed in, the state of figure 2 is presented, the cable can be well paved in the cabinet (particularly above the guide rails at two sides of the combination), and the phenomena of accumulation and interlacing are avoided. When the combination is pulled out, the steel belt is bent into 180 degrees from 90 degrees when being pushed in, as shown in fig. 3 and 4, the combination is located outside the cabinet, the occupied space of the original combination is handed over to the steel belt, and at the moment, the cable can still be tiled without damage although the bending degree of the steel belt is increased. All the design purposes are achieved, and the problem of effective utilization of the internal space of the cabinet is thoroughly solved; the problems of combined outgoing lines and cable accumulation are solved; the problems of arrangement design and electromagnetic compatibility of large-current thick cables outside the combination are solved; the problem of cable damage caused by pull combination during combination maintenance is solved.

Figure 5 shows a detailed schematic diagram of the routing strip. The detailed design of the hinge and clip can be seen in the figures. The steel belt is suggested to be made of stainless steel or a material which is not easy to rust, and the steel belt is required to be not sunk, soft in lateral direction, convenient to bend and the like after the cable is bundled.

The design of the cabinet with the routing steel strip is different from the design of a common cabinet, and the following aspects need to be paid attention:

1) combined side rail and steel strip design

The combined side rail and strip design is shown in fig. 9 (only the left strip is illustrated and the right strip is not shown).

Walk the line steel band and be located the combination guide rail top, the steel band width should not exceed the combination upper plane, and steel band + clamp thickness will be less than the combination and push the horizontal space in rack both sides, generally is not more than guide rail thickness.

2) Connection design of steel belt hinge and cabinet

The steel belt hinge and cabinet 2 connection design is shown in fig. 10. The U-shaped plate at one end of the first hinge is fixed on the inner side wall of the cabinet 2, is opposite to the combined 11 side plate and is close to the position of the front panel of the cabinet, and the U-shaped plate at the other end of the first hinge is fixed with the steel belt.

The steel belt hinge and the cabinet connecting position are located at the connecting positions of the two sides of the front panel and the side panel of the cabinet, and the design can enable the steel belt to be arranged in a wiring mode, so that the steel belt has the largest front and back moving space, and the combination can be pulled out of the cabinet completely to prevent the vertical wiring cables from being pulled. After the hinge is fixed with the cabinet, the steel belt can move horizontally and freely.

3) Steel belt hinge and combined connection design

The steel strap hinge and modular connection design is shown in fig. 9 and 11 (only the left strap is shown and the right strap is not shown). And the U-shaped plate at one end of the second hinge is fixed with the steel belt, and the U-shaped plate at the other end of the second hinge is fixed at the middle position of the rear plate of the combination 11 through a support.

The steel belt hinge and the combination connecting position are located in the middle of the rear portion of the combination, a cable penetrating space is reserved between the hinge and the steel belt, and the cable is connected to the combination rear portion connector after penetrating. After the hinge and the combination are fixed, the steel belt can move horizontally and freely, and when the combination is pushed and pulled, the cable and the steel belt are driven to move horizontally and synchronously, so that the cable is ensured to move without damage.

4) Cabinet connector and cable wiring design

The cable arrangement of the common cabinet adopts the mode of top outgoing line, bottom outgoing line or both outgoing lines. Now, taking top outgoing lines as an example, the wiring method of the cabinet of the present invention is described:

firstly, the positions of connectors are reasonably arranged at the top of a cabinet according to signal characteristics, the problem of electromagnetic compatibility of signals is mainly considered, high-current strong signals are intensively arranged nearby, low-current weak signals are intensively arranged nearby, and the analog signals and the digital signals are distinguished. In order to achieve a better electromagnetic compatibility effect, the cable can be selected to be a shielding cable, and single-point grounding or multi-point grounding is carried out according to signal characteristics. The connector position of the connection combination with the inside of the cabinet is required to be considered when the top connectors are arranged, namely, the top left socket is correspondingly connected with the combined rear left socket, and the top right socket is correspondingly connected with the combined rear right socket, so that the cable is prevented from crossing at the top or the combined rear of the cabinet, the smooth laying is ensured, and meanwhile, the electromagnetic compatibility requirement is met. The same rules apply for the wiring from combination to combination.

When the cable is laid downwards from the top socket along the two sides of the cabinet, the cable must enter threading holes (or threading channels) on the left side and the right side of the front panel of the cabinet, when the cable reaches the layer to be connected and combined, the cable is shifted to the corresponding wiring steel belt, the cable is positioned on the outer side of the steel belt and fixed by the clamp at intervals, and thus the purpose that the cable is prevented from being damaged by friction between the combination and the steel belt in the combined push-pull process can be achieved. Here, it is to be emphasized that: 1) the cables must enter threading holes (or threading passages) on the left and right sides of the front panel of the cabinet. If the through wires hole (or threading passageway) is at the vertical tiling of rack both sides to concentrate on the position (this position is used for installing the steel band hinge) that is close to the rack front panel, roll into the line steel band of walking that corresponds when the cable, pull out along with the combination, the whole all motion of steel band can stimulate and keep away from rack front panel through wires downthehole wiring, causes the cable damage. 2) A certain gap is formed between the steel belt and the cabinet, so that the cables are not extruded after being laid, and the gap is determined by the reserved space, the number of the cables, the thickness of the cables and the thickness of the guide rail during the design of the cabinet and is generally 25-30 mm.

In the design, the other end of the steel belt is connected with the middle position of the rear part of the combination in a hinge mode, the cable enters the other end of the steel belt and then is led out from the hinge position, and then is connected into a socket at the rear part of the combination nearby, so that the laying of the cable is completed. The steel belt is not required to be directly connected into the combined socket from the middle of the steel belt, and the steel belt is required to be led out from the hinge position, so that the steel belt can move in accordance with the cable, and the cable damage caused by the fact that the steel belt moves and is connected with the cable through some sockets and pulled is avoided.

The outlet wire at the bottom of the cabinet adopts a special combination for cable switching, for example, a bottom junction box is designed, and a through-wall switching socket is arranged in the junction box and used for switching cables inside and outside the cabinet.

5) Combined connector and steel belt space design

When the cabinet is designed, the depth of all combined connectors (including sockets, plugs and tail clamps) and the curvature of corresponding plug cables need to be considered, the spatial depth size of the combined connectors and the steel belt is calculated, and after the combination is pushed into the cabinet, the steel belt has enough movement allowance so as not to interfere with the connectors and cables arranged at the rear part of the combination.

The invention ensures that the drawer type combined cabinet of the weapon equipment (especially the intensive cabinet of the vehicle-mounted weapon equipment) can accommodate a large-capacity combination, fully utilizes the limited space in the cabinet as far as possible and thoroughly solves the problems of combined outgoing line and cable accumulation; the problems of arrangement design and electromagnetic compatibility of large-current thick cables outside the combination are solved; the problem of cable damage caused by pull combination during combination maintenance is solved. The invention is already used in a vehicle-mounted defense weapon system with a certain key type in China, and in the vehicle-mounted weapon system, a cabinet with the height of 1.4m bears 8 combinations, which is specifically shown in figure 1. Therefore, the space of the combination is fully utilized, and the cables are reasonably laid. The invention is suitable for all military and civil cabinet designs.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made in the above embodiments by those of ordinary skill in the art without departing from the principle and spirit of the present invention.

Claims (5)

1. A vehicle-mounted weapon equipment intensive cabinet comprises a cabinet body and a plurality of combinations arranged in the cabinet body through guide rails, wherein the combinations are drawer structures or box body structures; the top of the cabinet is provided with a socket and a heat dissipation port; the method is characterized in that: each combination is provided with a steel belt assembly, the steel belt assembly is arranged in a space between the inner side wall of the cabinet and the outer sides of the combination side plate and the rear plate, and a cable to be inserted is arranged on the steel belt assembly;

the steel belt assembly comprises a left steel belt assembly and a right steel belt assembly which are symmetrically arranged, and the left steel belt assembly comprises a steel belt, a hinge and a hoop; one end of the steel belt is hinged to the inner side wall of the cabinet through a first hinge at a position opposite to the combined side plate, and the other end of the steel belt is hinged to the middle position of the combined rear plate through a second hinge; the plurality of hoops are uniformly distributed along the length direction of the steel belt, fixed on one side of the steel belt, which faces the cabinet, and used for clamping and fixing a cable to be inserted on the steel belt; the right steel belt assembly and the left steel belt assembly are identical in structure.

2. The on-board weaponry equipment dense cabinet of claim 1, wherein: the hinge comprises two U-shaped plates, and the top ends of the two support arms of the two U-shaped plates are hinged through pin shafts respectively, so that relative rotation can be realized.

3. The on-board weaponry equipment dense cabinet of claim 2, wherein: the U-shaped plate at one end of the first hinge is fixed on the inner side wall of the cabinet and is opposite to the combined side plate and close to the front panel of the cabinet, and the U-shaped plate at the other end of the first hinge is fixed with the steel belt; and the U-shaped plate at one end of the second hinge is fixed with the steel belt, and the U-shaped plate at the other end of the second hinge is fixed at the middle position of the combined rear plate through a support.

4. The on-board weaponry equipment dense cabinet of claim 1, wherein: and a vibration isolator is arranged on the supporting seat at the bottom of the machine cabinet.

5. The on-board weaponry equipment dense cabinet of claim 1, wherein: the cabinet is provided with through holes at the positions of two sides of the combined front plate, and the through holes are used as threading holes for penetrating cables into spaces between the combined two side plates and the cabinet.

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