CN216930623U - Safety protection device for electromechanical communication - Google Patents

Abstract

The utility model discloses an electromechanical communication safety protection device, which comprises a protection box: the power box is installed to the bottom of guard box inner chamber, the top of the inner chamber of power box is provided with water cooling module, water cooling module is including installing the water pump in power box inner chamber top center department, the end intercommunication of intaking of water pump has collects the pipe, collect the pipe and keep away from the one end of water pump and extend to the bottom of power box inner chamber, the play water end intercommunication of water pump has the conveyer pipe, the top intercommunication on conveyer pipe surface has two cooling tubes, the one end that the conveyer pipe was kept away from to the cooling tube runs through to the top of power box. The power box and the water cooling assembly are matched for use, so that the temperature in the inner cavity of the protective box is reduced, and meanwhile, under the action of the uniform mixing assembly, the temperature of cooling water entering the inner cavity of the cooling pipe is relatively uniform, and the aims of effectively reducing the temperature and continuously providing over-temperature protection can be fulfilled.

Description

Safety protection device for electromechanical communication

Technical Field

The utility model belongs to the technical field of electromechanical communication, and particularly relates to an electromechanical communication safety protection device.

Background

The concept of electromechanical integration technology, that is, combining application of mechanical technology and electronic technology, along with rapid development and wide application of computer technology, electromechanical integration technology has not been developed before, and becomes a system technology integrating intersection of computer and information technology, automatic control technology, sensing detection technology, servo transmission technology, mechanical technology and the like, the development is moving towards the optical electromechanical integration technology, the application range is wider and wider, and in the electromechanical communication, a protection device is adopted to ensure the safety of electromechanical communication equipment.

The existing electromechanical communication is protected by the protection device generally, the heat generated in the use process of internal electrical elements or in special environments cannot be cooled and protected, if the heat in the equipment is not processed in time, the normal operation of the communication electromechanical equipment is affected, even the communication electromechanical equipment is damaged to a certain extent, and then the subsequent normal work is affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an electromechanical communication safety protection device, which has the advantages of effectively cooling and continuously providing over-temperature protection, and solves the problems that the conventional electromechanical communication protection device generally adopts external protection, cannot cool and protect heat generated in the use process of internal electrical elements or in a special environment, and can affect the normal operation of communication electromechanical equipment and even damage the communication electromechanical equipment to a certain extent if the heat in the equipment is not timely treated, so that the subsequent normal operation is affected.

The technical scheme for solving the technical problems is as follows: an electromechanical communication safety shield, comprising a shield box: the power box is arranged at the bottom of the inner cavity of the protection box, the water cooling component is arranged at the top of the inner cavity of the power box, the water cooling component comprises a water pump arranged at the center of the top of the inner cavity of the power box, the water inlet end of the water pump is communicated with a collecting pipe, one end of the collecting pipe, which is far away from the water pump, extends to the bottom of the inner cavity of the power box, the water outlet end of the water pump is communicated with a conveying pipe, the top of the surface of the conveying pipe is communicated with two cooling pipes, one end of each cooling pipe, which is far away from the conveying pipe, penetrates through the top of the power box, one end of the cooling pipe, which is far away from the conveying pipe, penetrates through the inner cavity of the power box and is communicated with the power box, two sides between the two cooling pipes are communicated with communicating pipes, the left side of headstock inner chamber is provided with the mixing subassembly, the inner chamber fixedly connected with of protective housing has a plurality of installation support plates, the refrigerator is installed to the bottom of headstock inner chamber.

The utility model is used for the electromechanical communication safety protection device as described above, and further comprises: mixing subassembly includes the left waterproof casing of fixed connection at the headstock inner chamber, micro motor is installed to the inner chamber of waterproof casing.

The utility model is used for the electromechanical communication safety protection device as described above, and further comprises: the output shaft fixedly connected with bull stick of micro motor, the surface of bull stick is provided with a plurality of mixing boards.

The safety protection device for electromechanical communication, provided by the utility model, further comprises: the mounting support plate is located between the two cooling pipes, and a plurality of screw holes are formed in the top of the mounting support plate.

The utility model is used for the electromechanical communication safety protection device as described above, and further comprises: the right side of the top of the power box is communicated with an adding pipe, and an inner cavity of the adding pipe is in threaded connection with an air-ventilation water-blocking plug.

The utility model is used for the electromechanical communication safety protection device as described above, and further comprises: the both sides on protection box positive surface all articulate there is sealing door, sealing door's surface has been seted up the rectangle and has been dialled the groove

The safety protection device for electromechanical communication, provided by the utility model, further comprises: the top and the bottom of the two sides of the cooling pipe are fixedly connected with reinforcing rods, and one ends, far away from the cooling pipe, of the reinforcing rods are welded with the inner wall of the protective box.

The utility model is used for the electromechanical communication safety protection device as described above, and further comprises: two heat dissipation holes are formed in the two sides of the inner cavity of the protection box, and a dust screen is installed in the inner cavity of each heat dissipation hole.

The utility model is used for the electromechanical communication safety protection device as described above, and further comprises: the center department fixedly connected with hoist and mount seat at headstock inner chamber top, hoist and mount seat and water pump, collect pipe and conveyer pipe fixed connection.

The utility model has the beneficial effects that:

1. the utility model reduces the temperature in the inner cavity of the protective box by the matching use of the power box and the water cooling component, simultaneously ensures that the temperature of the cooling water entering the inner cavity of the cooling pipe is relatively uniform under the action of the uniform mixing component, thus achieving the purposes of effectively cooling and continuously providing over-temperature protection, and solving the problems that the conventional electromechanical communication protective device generally adopts external protection, cannot cool and protect heat generated in the use process of internal electrical elements or in special environments, and can affect the normal operation of communication electromechanical equipment and even damage the communication electromechanical equipment to a certain extent if the heat in the equipment is not timely treated, thereby further affecting the subsequent normal work.

2. According to the utility model, through the arrangement of the mixing component, the micro motor, the rotating rod and the mixing plate are matched for use, so that the cooling water entering the inner cavity of the power box is mixed uniformly, the temperature of the cooling water in the inner cavity of the power box is further uniform, and the temperature in the inner cavity of the protective box can be reduced to the greatest extent after the cooling water enters the inner cavity of the cooling pipe.

3. The electric element mounting structure has the advantages that through the arrangement of the screw holes, a user can conveniently mount the electric element on the top of the mounting support plate, and meanwhile, due to the arrangement of the position of the mounting support plate, the electric element positioned on the top of the mounting support plate can be cooled by the cooling pipe at the first time, so that a good high-temperature protection effect is achieved.

4. The power box is characterized in that the power box is provided with an air inlet pipe and an air outlet pipe, the air inlet pipe is connected with the air outlet pipe, the air outlet pipe is connected with the air inlet pipe, and the air outlet pipe is connected with the air inlet pipe.

5. According to the utility model, through the matching use of the heat dissipation holes and the dust screen, the air in the inner cavity of the protection box has better circulation with the outside air, so that high-temperature gas in the inner cavity of the protection box can be quickly dissipated.

Drawings

The above and/or other advantages of the utility model will become more apparent and more readily appreciated from the following detailed description taken in conjunction with the accompanying drawings, which are given by way of illustration only and not by way of limitation, and in which:

FIG. 1 is a schematic front sectional view of an embodiment of the present invention;

FIG. 2 is a schematic perspective view of an embodiment of a power kit, water cooling assembly and mounting plate;

FIG. 3 is a schematic sectional front view of a power box, a water cooling assembly and a blending assembly according to an embodiment.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the protective housing, 2, headstock, 3, water cooling module, 31, water pump, 32, collect the pipe, 33, conveyer pipe, 34, cooling tube, 35, communicating pipe, 4, mixing subassembly, 41, waterproof casing, 42, micromotor, 43, bull stick, 44, mixing board, 5, installation support plate, 6, screw, 7, add the pipe, 8, the water blocking of ventilating, 9, the refrigerator, 10, sealing door, 11, anchor strut, 12, the louvre, 13, the dust screen, 14, the hoist and mount seat.

Detailed Description

Hereinafter, embodiments of the electromechanical communications safety shield apparatus of the present invention will be described with reference to the accompanying drawings.

The examples described herein are specific embodiments of the present invention, are intended to be illustrative and exemplary in nature, and are not to be construed as limiting the scope of the utility model. In addition to the embodiments described herein, those skilled in the art will be able to employ other embodiments that are obvious based on the disclosure of the claims and the specification herein, including those that employ any obvious substitutions and modifications to the embodiments described herein.

The drawings in the present specification are schematic views to assist in explaining the concept of the present invention, and schematically show the shapes of respective portions and their mutual relationships. It is noted that the drawings are not necessarily to the same scale, emphasis instead being placed upon clearly illustrating the structure of various elements of embodiments of the present invention. Like reference numerals are used to denote like parts.

FIG. 1-3 show an electromechanical communication safety protection device according to an embodiment of the present invention, which comprises a protection box 1, two heat dissipation holes 12 are formed on both sides of an inner cavity of the protection box 1, a dust screen 13 is installed in the inner cavity of each heat dissipation hole 12, air in the inner cavity of the protection box 1 has good circulation with outside air through the cooperation of the heat dissipation holes 12 and the dust screen 13, so that high temperature gas in the inner cavity of the protection box 1 can be quickly dissipated, sealing doors 10 are hinged on both sides of the front surface of the protection box 1, rectangular grooves are formed on the surfaces of the sealing doors 10, a power box 2 is installed at the bottom of the inner cavity of the protection box 1, a lifting seat 14 is fixedly connected to the center of the top of the inner cavity of the power box 2, the lifting seat 14 is fixedly connected to a water pump 31, a collection pipe 32 and a delivery pipe 33, an addition pipe 7 is communicated to the right side of the top of the power box 2, and the inner cavity of the addition pipe 7 is in threaded connection with an air-through water blocking plug 8, through the matching use of the adding pipe 7 and the ventilation water-blocking plug 8, a user can conveniently inject cooling water into the inner cavity of the power box 2, and simultaneously, under the action of the ventilation water-blocking plug 8, the phenomenon that the cooling water cannot circulate due to negative pressure formed in the inner cavity of the power box 2 is avoided, the top of the inner cavity of the power box 2 is provided with the water cooling assembly 3, the water cooling assembly 3 comprises a water pump 31 arranged at the center of the top of the inner cavity of the power box 2, the water inlet end of the water pump 31 is communicated with a collecting pipe 32, one end, far away from the water pump 31, of the collecting pipe 32 extends to the bottom of the inner cavity of the power box 2, the water outlet end of the water pump 31 is communicated with a conveying pipe 33, the top of the surface of the conveying pipe 33 is communicated with two cooling pipes 34, the top and the bottom of two sides of each cooling pipe 34 are fixedly connected with a reinforcing rod 11, one end, far away from the cooling pipe 34, of the reinforcing rod 11 is welded with the inner wall of the protection box 1, one end, far away from the conveying pipe 33, penetrates to the top of the power box 2, one end of each cooling pipe 34, which is far away from the conveying pipe 33, penetrates through the inner cavity of the power box 2 and is communicated with the power box 2, two sides between the two cooling pipes 34 are communicated with communicating pipes 35, the left side of the inner cavity of the power box 2 is provided with a uniformly mixing component 4, the uniformly mixing component 4 comprises a waterproof casing 41 fixedly connected to the left side of the inner cavity of the power box 2, the inner cavity of the waterproof casing 41 is provided with a micro motor 42, an output shaft of the micro motor 42 is fixedly connected with a rotating rod 43, the surface of the rotating rod 43 is provided with a plurality of uniformly mixing plates 44, and through the arrangement of the uniformly mixing component 4, the micro motor 42, the rotating rod 43 and the uniformly mixing plates 44 are matched for use to uniformly mix cooling water entering the inner cavity of the power box 2, so that the temperature of the cooling water in the inner cavity of the power box 2 is more uniform, the temperature in the inner cavity of the protection box 1 can be reduced to the greatest extent after the cooling water enters the inner cavity of the cooling pipes 34, the inner chamber fixedly connected with of protective housing 1 has a plurality of installation support plates 5, installation support plate 5 is located between two cooling tubes 34, a plurality of screws 6 have been seted up at the top of installation support plate 5, through the setting of screws 6, made things convenient for the user to install electrical components at the top of installation support plate 5, simultaneously because the position setting of installation support plate 5, make the electrical components who is located installation support plate 5 top can receive the cooling effect of cooling tube 34 the very first time, thereby reach good high temperature protection effect, refrigerator 9 is installed to the bottom of headstock 2 inner chamber.

The working principle is as follows: when the refrigerator is used, a user opens the sealing door 10 through the rectangular groove on the surface of the sealing door 10, then the user installs the electric elements on the top of the installation carrier plate 5 through the screw holes 6, opens the ventilation water blocking plug 8, injects cooling water into the inner cavity of the power box 2 from the adding pipe 7, opens the refrigerator 9, and refrigerates the cooling water in the inner cavity of the power box 2 through the arrangement of the refrigerator 9;

then, the water pump 31 and the waterproof case 41 are opened, the water pump 31 is started, cooling water is extracted from the inner cavity of the power box 2 through the collecting pipe 32 and is conveyed to the inner cavity of the cooling pipe 34 through the conveying pipe 33, the cooling water entering the inner cavity of the cooling pipe 34 circulates in the inner cavity of the protection box 1 along the cooling pipe 34, the temperature in the inner cavity of the protection box 1 is reduced while the cooling water circulates, the cooling water located in the inner cavity of the cooling pipe 34 finally enters the inner cavity of the power box 2 again from the right side of the top of the inner cavity of the power box 2, the cooling water forms water circulation, the micro motor 42 drives the rotating rod 43 and the uniform mixing plate 44 to turn over in the inner cavity of the power box 2, then, the cooling water entering the inner cavity of the power box 2 for the second time is uniformly mixed, and the temperature of the cooling water is relatively uniform.

In summary, the following steps: this electromechanical communication safety device, cooperation through headstock 2 and water-cooling subassembly 3 is used, make the temperature in the 1 inner chamber of protective housing reduce, simultaneously under mixing subassembly 4's effect, make the cooling water temperature who gets into in the 34 inner chambers of cooling tube relatively even, can reach effective cooling and continuously provide the purpose of excess temperature protection, the electromechanical communication of having solved current is at protector, generally adopt outside protection, can't cool down the protection to the heat that produces in the inside electrical component use or under the special environment, if the heat of equipment inside is untimely to be handled, can cause the influence to the normal operating of communication electromechanical device, cause damage to a certain extent even, then influence the problem of follow-up normal work.

The technical features disclosed above are not limited to the combinations with other features disclosed, and other combinations between the technical features can be performed by those skilled in the art according to the purpose of the utility model, so as to achieve the purpose of the utility model.

Claims (9)

1. An electromechanical communication safety device, characterized by comprising a protective box (1): the utility model discloses a power box, including protective housing (1), power box (2) are installed to the bottom of guard box (1) inner chamber, the top of the inner chamber of power box (2) is provided with water-cooling subassembly (3), water-cooling subassembly (3) are including installing water pump (31) of locating at power box (2) inner chamber top center, the end intercommunication of intaking of water pump (31) has collects pipe (32), collect pipe (32) one end of keeping away from water pump (31) and extend to the bottom of power box (2) inner chamber, the outlet end intercommunication of water pump (31) has conveyer pipe (33), the top intercommunication on conveyer pipe (33) surface has two cooling tubes (34), the one end that conveyer pipe (33) were kept away from in cooling tube (34) runs through to the top of power box (2), the one end that conveyer pipe (33) were kept away from in cooling tube (34) runs through the inner chamber of power box (2) and is linked together with power box (2), both sides between two cooling tubes (34) all communicate and have communicating pipe (35), the left side of headstock (2) inner chamber is provided with mixing subassembly (4), a plurality of installation support plates (5) of the inner chamber fixedly connected with of protective housing (1), refrigerator (9) are installed to the bottom of headstock (2) inner chamber.

2. The safety protection device for the electromechanical communication as claimed in claim 1, wherein the blending component (4) comprises a waterproof casing (41) fixedly connected to the left side of the inner cavity of the power box (2), and a micro motor (42) is installed in the inner cavity of the waterproof casing (41).

3. An electromechanical communication safety shield according to claim 2, wherein the output shaft of the micro motor (42) is fixedly connected with a rotating rod (43), and a plurality of blending plates (44) are arranged on the surface of the rotating rod (43).

4. An electromechanical communication safety device according to claim 3, wherein the mounting carrier plate (5) is located between two cooling pipes (34), and the top of the mounting carrier plate (5) is provided with a plurality of screw holes (6).

5. An electromechanical communication safety protection device according to claim 4, characterized in that an adding pipe (7) is communicated with the right side of the top of the power box (2), and an inner cavity of the adding pipe (7) is in threaded connection with a ventilation water blocking plug (8).

6. An electromechanical communication safety device according to claim 5, characterized in that sealing doors (10) are hinged to both sides of the front surface of the protection box (1), and a rectangular groove is formed on the surface of each sealing door (10).

7. An electromechanical communication safety protection device according to claim 6, characterized in that a reinforcing rod (11) is fixedly connected to the top and the bottom of each side of the cooling pipe (34), and one end of the reinforcing rod (11) far away from the cooling pipe (34) is welded with the inner wall of the protection box (1).

8. The safety device for the electromechanical communication according to claim 7, wherein two heat dissipation holes (12) are formed in both sides of the inner cavity of the protection box (1), and a dust screen (13) is installed in the inner cavity of each heat dissipation hole (12).

9. An electromechanical communication safety protection device according to claim 8, wherein a lifting seat (14) is fixedly connected to the center of the top of the inner cavity of the power box (2), and the lifting seat (14) is fixedly connected with a water pump (31), a collecting pipe (32) and a conveying pipe (33).

Images