阅读说明：本技术 一种带双重脱扣机构的后备保护器 (Backup protector with dual tripping mechanism ) 是由 张国明 赵学军 伍先德 于 2021-08-30 设计创作，主要内容包括：本发明涉及一种带双重脱扣机构的后备保护器,包括：电磁脱扣器、热脱扣器、脱扣机构、动触头、静触头；电磁脱扣器和热脱扣器均能触发脱扣机构；脱扣机构与动触头连接,当脱扣机构被触发时,脱扣机构带动动触头运动,使动触头与静触头由闭合状态转为分离状态,工频故障回流电路断开。本发明能够兼顾全电流类型,同时提高后备保护器产品的电涌电流耐受能力,以便于更全面地保护防雷设备的安全运行。(The invention relates to a backup protector with a double tripping mechanism, which comprises: the electromagnetic tripper, the thermal tripper, the tripping mechanism, the moving contact and the static contact; the electromagnetic release and the thermal release can trigger the release mechanism; the tripping mechanism is connected with the moving contact, when the tripping mechanism is triggered, the tripping mechanism drives the moving contact to move, the moving contact and the static contact are switched into a separated state from a closed state, and the power frequency fault reflux circuit is disconnected. The invention can give consideration to all current types, and simultaneously improves the surge current tolerance capability of the backup protector product, so as to more comprehensively protect the safe operation of the lightning protection equipment.)

1. A back-up protector with a dual trip mechanism, comprising: the device comprises an electromagnetic release (1), a thermal release (2), a release mechanism (3), a moving contact (4), a static contact (5), a variable resistor (6) and a discharge gap (7);

the electromagnetic release (1) and the thermal release (2) can both trigger the release mechanism (3);

the electromagnetic release (1) comprises an electromagnetic coil (11) for generating an electric force; the thermal trip (2) comprises a thermal bimetallic strip (21); the variable resistor (6), the electromagnetic coil (11) and the thermal bimetallic strip (21) form a series circuit, and the discharge gap (7) is connected in parallel at two ends of the series circuit;

the tripping mechanism (3) is connected with the moving contact (4), and when the tripping mechanism (3) is not triggered, the moving contact (4) and the static contact (5) are in a closed state to form a circuit loop; when the tripping mechanism (3) is triggered, the tripping mechanism (3) drives the moving contact (4) to move, so that the moving contact (4) and the static contact (5) are switched from a closed state to a separated state, and a circuit loop is disconnected.

2. The backup protector with a dual trip mechanism according to claim 1, characterized in that the electromagnetic trip (1) further comprises a plunger (12) moved by the electric force; the tripping mechanism (3) can be triggered when the movable iron core (12) moves.

3. The backup protector with the double trip mechanism according to claim 2, characterized in that the trip current of the electromagnetic trip (1) is 2A-10A.

4. The backup protector with the double trip mechanism according to claim 1, characterized in that the thermal trip unit (2) further comprises an action link (22), the thermal bimetal (21) is arranged adjacent to the action link (22), and the thermal bimetal (21) can trigger the action link (22) to move when deformed by heat; the tripping mechanism (3) can be triggered when the action connecting rod (22) moves.

5. Backup protector with double trip mechanism according to claim 4, characterized in that the distance between the thermal bimetal (21) and the action link (22) is adjusted by means of an adjusting screw (23).

6. The back-up protector with the dual trip mechanism according to any one of claims 4 or 5, characterized in that the action link (22) is provided with a return spring (24).

7. The backup protector with the double trip mechanism according to claim 4, characterized in that the rated current of the thermal bimetal (21) is 0.5A-3A.

8. The backup protector with the double trip mechanism according to claim 1, characterized in that the trip mechanism (3) comprises a handle (31), a U-shaped link (32), a latch (33), a trip buckle (34), a contact bracket (35); when the backup protector is connected into a circuit, the handle (31) is displaced to a working position from an initial position; the handle (31) is connected with the lock catch (33) through the U-shaped connecting rod (32); the handle (31) pushes the lock catch (33) to move through the U-shaped connecting rod (32); the lock catch (33), the jump buckle (34) and the moving contact (4) are all arranged on the contact support (35); the lock catch (33) is in contact with the jump buckle (34), the moving contact (4) is connected with the jump buckle (34), and the lock catch (33) drives the jump buckle (34) to move and simultaneously drives the moving contact (4) to be in contact with the fixed contact (5) when moving.

9. The back-up protector with a dual trip mechanism according to claim 8, wherein the plunger (12) and/or the action link (22) can drive the trip buckle (34) to trip.

Technical Field

The invention relates to the field of lightning protection, in particular to a backup protector with a double tripping mechanism.

Background

With the rapid development of national economy and the improvement of the modernization level, Surge Protectors (SPDs) are widely applied to various industries such as buildings, railways, civil aviation, communication, industrial control, military and the like, and provide good lightning protection for electric equipment. However, with the use of Surge Protectors (SPDs) in large quantities, fire accidents and lightning protection failure accidents of the SPDs are increasing, and great economic losses are caused to countries and enterprises.

In the existing Surge Protector (SPD) backup protection device, when lightning current surge occurs, a discharge gap branch can be punctured, so that the lightning current can be rapidly discharged to the ground from the discharge gap. However, when a Surge Protector (SPD) backup protection device fails and deteriorates or is short-circuited, the SPD backup protection device cannot adapt to a smaller power frequency current, that is, when the smaller power frequency current passes through the electromagnetic trip device and the generated electromagnetic tripping force cannot overcome the resistance of the tripping mechanism, the backup protection device cannot trip. At this time, the fault current will be continuously present, and the fault hidden trouble may have serious consequences.

Therefore, it is necessary to develop a backup protection product that can take into account the full current type and improve the surge current endurance so as to protect the safe operation of the lightning protection device more comprehensively.

Disclosure of Invention

In order to overcome the technical defects and shortcomings, the invention provides the backup protector with the double-tripping mechanism, which is provided with two modes to trigger the tripping mechanism, can give consideration to the full current type, has compact design, small volume and comprehensive functions, and can effectively realize the backup protection effect on a Surge Protector (SPD).

The invention provides a backup protector with a double tripping mechanism, which comprises: the electromagnetic tripper, the thermal tripper, the tripping mechanism, the moving contact, the static contact, the variable resistance and the discharge gap;

the electromagnetic release and the thermal release can both trigger the release mechanism;

the electromagnetic release includes an electromagnetic coil for generating an electric force; the thermal trip comprises a thermal bimetallic strip; the variable resistor, the electromagnetic coil and the thermal bimetallic strip form a series circuit, and the discharge gap is connected in parallel at two ends of the series circuit;

the tripping mechanism is connected with the moving contact, and when the tripping mechanism is not triggered, the moving contact and the static contact are in a closed state to form a circuit loop; when the tripping mechanism is triggered, the tripping mechanism drives the moving contact to move, so that the moving contact and the static contact are switched from a closed state to a separated state, and a circuit loop is disconnected.

Preferably, the electromagnetic release further comprises a plunger moved by the electric force; the movable iron core can trigger the tripping mechanism when moving.

Preferably, the tripping current of the electromagnetic release is 2A-10A.

Preferably, the thermal trip further comprises an action connecting rod, the thermal bimetallic strip is arranged close to the action connecting rod, and the thermal bimetallic strip can trigger the action connecting rod to move when being heated and deformed; the tripping mechanism can be triggered when the action connecting rod moves.

Preferably, the distance between the thermal bimetal and the action link is adjusted by an adjusting screw.

Preferably, the action connecting rod is provided with a return elastic sheet.

Preferably, the rated current of the thermal bimetallic strip is 0.5A-3A.

Preferably, the backup protector further comprises a variable resistor and a discharge gap, the variable resistor, the electromagnetic coil and the thermal bimetallic strip form a series circuit, and the discharge gap is connected in parallel at two ends of the series circuit.

Preferably, the tripping mechanism comprises a handle, a U-shaped connecting rod, a lock catch, a jump buckle and a contact support; when the backup protector is connected into the circuit, the handle is initially displaced to a working position; the handle is connected with the lock catch through the U-shaped connecting rod; the handle pushes the lock catch to move through the U-shaped connecting rod; the lock catch, the jump buckle and the moving contact are all arranged on the contact support; the lock catch is in contact with the jump buckle, the moving contact is connected with the jump buckle, and the lock catch drives the jump buckle to move and simultaneously drives the moving contact to be in contact with the fixed contact when moving.

Preferably, the movable iron core and/or the action connecting rod can drive the tripping buckle to trip. The embodiment of the invention has the following effects:

the invention has two modes to trigger the tripping mechanism, can consider the type of the full current, overcomes the defects that the existing Surge Protector (SPD) backup protection device cannot be adapted to, has compact design, small volume and comprehensive functions, can play the effects of releasing lightning current and blocking power frequency current, and realizes the backup protection effect on the Surge Protector (SPD).

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a backup protector with a dual trip mechanism according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a thermal release of a backup protector with a dual trip mechanism according to an embodiment of the disclosure;

fig. 3 shows a schematic structural diagram of a trip mechanism of a backup protector with a dual trip mechanism according to an embodiment of the present invention.

Reference numerals: the electromagnetic tripping device comprises an electromagnetic tripping device 1, an electromagnetic coil 11, a movable iron core 12, a thermal tripping device 2, a thermal bimetallic strip 21, an action connecting rod 22, an adjusting screw 23, a return elastic sheet 24, a wiring board 25, a tripping mechanism 3, a handle 31, a U-shaped connecting rod 32, a lock catch 33, a trip catch 34, a contact support 35, a movable contact 4, a static contact 5, a variable resistor 6 and a discharge gap 7.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention, and all other embodiments that would be apparent to one skilled in the art without the benefit of the teachings herein are included.

In the description of the present invention, it is to be understood that the terms "center", "lateral", "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner" and "outer" etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, when an element is referred to as being "formed on" another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present.

Referring to fig. 1, a backup protector with a dual trip mechanism according to an embodiment of the present invention will be described in detail below with reference to the accompanying drawings, where the backup protector with a dual trip mechanism includes: the electromagnetic tripping device comprises an electromagnetic tripping device 1, a thermal tripping device 2, a tripping mechanism 3, a moving contact 4, a static contact 5, a variable resistor 6 and a discharge gap 7;

the electromagnetic release 1 and the thermal release 2 can both trigger the release mechanism 3; according to the embodiment of the invention, the electromagnetic release 1 and the thermal release 2 are arranged at the same time, so that the tripping mechanism 3 can be triggered in two modes, the backup protector can take the full current type into consideration, the circuit of the backup protector is disconnected, the safety of the backup protector is greatly improved, and meanwhile, each part of the backup protector in the embodiment of the invention is compact in design, small in size and more convenient to install and use.

The electromagnetic release 1 includes an electromagnetic coil 11 for generating an electric field force; the thermal trip 2 comprises a thermal bimetallic strip 21; the variable resistor 6, the electromagnetic coil 11 and the thermal bimetallic strip 21 form a series circuit, and the discharge gap 7 is connected in parallel at two ends of the series circuit; the tripping mechanism 3 is connected with the moving contact 4, and when the tripping mechanism 3 is not triggered, the moving contact 4 and the static contact 5 are in a closed state to form a circuit loop; when the tripping mechanism 3 is triggered, the tripping mechanism 3 drives the moving contact to move, the moving contact 4 and the static contact 5 are switched into a separation state from a closed state, and a circuit loop is disconnected.

Preferably, the electromagnetic release 1 includes an electromagnetic coil 11 for generating an electric force and a plunger 12 moved by the electric force; the movable iron core 12 can trigger the tripping mechanism 3 when moving. Specifically, the electromagnetic coil 11 generates an electric field force when passing through current, so as to push the movable iron core 12 to move, and trigger the trip 34 of the tripping mechanism 3, so that the tripping mechanism 3 drives the movable contact 4 to move, so that the movable contact 4 is separated from the static contact 5, and the purpose of disconnecting the power frequency fault return circuit is achieved;

preferably, the tripping current of electromagnetic trip 1 is 2A to 10A. If the current is less than 2A, the backup protector is too sensitive, and is easy to malfunction, and actually, no fault occurs, but the backup protector is tripped and gives an alarm. When the current is greater than 10A, the backup protector may be rendered less sensitive, and may actually fail and may not yet trip.

Preferably, please refer to fig. 2, which illustrates a schematic structural diagram of a thermal trip unit of a backup protector with a dual trip mechanism according to an embodiment of the present invention, wherein the thermal trip unit 2 includes a thermal bimetal 21 and an action link 22, the thermal bimetal 21 is disposed adjacent to the action link 22, and the thermal bimetal 21 can trigger the action link 22 to move when deformed by heat; the trip mechanism 3 can be triggered by movement of the actuating link 22. In one embodiment of the present invention, a heating resistance wire is wound on the body of the thermal bimetal strip 21, and when a current flows through the heating resistance wire, the heating resistance wire heats to bend the thermal bimetal strip 21, the bent thermal bimetal strip 21 triggers the action link 22, and the other end of the action link 22 drives the trip 34, so that the trip mechanism 3 drives the moving contact 4 to move, and the moving contact 4 is separated from the static contact 5, thereby achieving the purpose of breaking a circuit.

Preferably, referring to fig. 2, the distance between the thermal bimetal 21 and the action link 22 is adjusted by an adjustment screw 23. In one embodiment of the present invention, the thermal bimetal 21 is fixed on the wiring board 25, the distance between the thermal bimetal 21 and the action link 22 is adjusted by the adjusting screw 23, for example, the thermal bimetal 21 is fixed on the wiring board 25 by a metal connecting member, the adjusting screw 23 pushes the thermal bimetal 21 by pushing the metal connecting member, so as to achieve the effect of adjusting the distance between the action link and the thermal bimetal, thereby adjusting the off-time of the trip mechanism 3, when a current flows, the thermal bending of the thermal bimetal 21 has a certain time delay, which can delay a certain time, so as to trip the backup protector.

Preferably, the action link 22 is provided with a return spring 24 for restoring the action link 22 to the position before the action after the action.

Preferably, the rated current of the thermal bimetal 21 is 0.5A to 3A. As can be immediately seen by those skilled in the art, when the rated current is less than 0.5A, the backup protector may be too sensitive, and may malfunction easily, and actually, no fault occurs, but the backup protector trips and alarms. When the rated current is larger than 3A, the backup protector can be caused to be insensitive, and actually has a fault and can not be tripped.

Preferably, referring to fig. 3, a schematic structural diagram of a trip mechanism of a backup protector with a dual trip mechanism disclosed in the embodiment of the present invention is shown, where the trip mechanism 3 includes a handle 31, a U-shaped link 32, a latch 33, a trip 34, and a contact support 35; when the backup protector is connected to the circuit, the handle 31 is initially displaced to a working position; the handle 31 is connected with the lock catch 33 through the U-shaped connecting rod 32; the handle 31 pushes the lock catch 33 to move through the U-shaped connecting rod 32; the lock catch 33, the trip catch 34 and the moving contact 4 are all arranged on the contact support 35; the lock catch 33 is in contact with the trip catch 34, the movable contact 4 is connected with the trip catch 34, and when the lock catch 33 moves, the trip catch 34 is driven to move and the movable contact 4 is driven to be in contact with the fixed contact 5. In one embodiment of the present invention, referring to fig. 1, after the backup protector product is connected to the circuit, the handle 31 is moved clockwise from the initial position (I position) to the working position (II position), and when the handle 31 is moved, the latch 33 is pushed to rotate around the axis of the latch 33 by the linkage action of the U-shaped link 32; the lock catch 33, the trip catch 34 and the movable contact 4 are all effectively assembled on the contact support 35; the lock catch 33 is in contact with the trip buckle 34, the movable contact 4 is connected with the trip buckle 34, the trip buckle 34 is driven to rotate around the whole shaft when the lock catch 33 moves, the movable contact 4 is driven to be in contact with the static contact 5, the power-on state is formed, and the backup protector is in a working state.

Preferably, the plunger 12 and/or the action link 22 can drive the trip release. When at least one of the movable iron core 12 or the action link 22 drives the trip catch 34, the balance between the latch 33 and the trip catch 34 is broken, and at this time, the trip mechanism 3 returns to the initial state under the action of a tension spring (not shown in the figure), and the handle 31 returns to the initial state (I position) from the working position (II position) counterclockwise.

The working principle of the invention is as follows: the backup protector product is connected in series at the front end of the Surge Protector (SPD), and when the circuit is normal, the Surge Protector (SPD) is in a high-resistance state under a normal state, so that no current exists in the whole loop. No current is generated in the backup protector. When a lightning current surge occurs, the voltage rises quickly due to the quick change of the lightning current surge pulse frequency, and then the electromagnetic trip 1, the variable resistor 6 and the thermal bimetallic strip 21 are blocked by the impedance formed by the series connection, so that the discharge gap 7 is easily broken down and conducted. Almost all lightning surges will bypass the discharge gap 7 and thus quickly bleed the lightning current. After the lightning current surge is released, the Surge Protector (SPD) and the discharge gap 7 are restored to the original state.

When the Surge Protector (SPD) is in failure degradation or short circuit, it will generate power frequency fault current, the normal power frequency voltage is not enough to break down the discharge gap 7, and the power frequency current can only pass through the series branch of the electromagnetic trip 1 and the thermal bimetallic strip 21. There are differences in the severity of the fault or short circuit due to each Surge Protector (SPD). The possible power frequency fault current also has a difference in magnitude.

When the power frequency fault current is large, when the current passes through the electromagnetic coil 11, the generated electromagnetic force is large, the resistance of the recovery spring can be overcome, and the resistance of the tripping mechanism 3 can also be overcome, so that the tripping buckle 34 can be driven to trip, the backup protector product is changed from a switching-on state to a switching-off state, a power frequency fault current loop is disconnected, and the purpose of protecting electrical appliances and equipment is achieved.

When the power frequency fault current is small, the electromagnetic force generated when the current passes through the electromagnetic coil 11 is small, and the tripping device 34 cannot be driven to operate. When the current passes through the thermal bimetallic strip 21, the thermal bimetallic strip 21 is bent towards the action connecting rod 22 because of the heating resistance wire wound on the thermal bimetallic strip 21, and the action connecting rod 22 drives the trip of the trip buckle 34, so that the backup protector product is changed from a switching-on state to a switching-off state, a power frequency fault current loop is disconnected, and the purpose of protecting electrical appliances and equipment is achieved.

After the tripping mechanism 3 is tripped, the thermal bimetallic strip 21 naturally cools and then returns to the natural state, and the action link 22 returns the action link 22 to the original state under the action of the return elastic sheet 24.

The thermal bending of the thermal bimetallic strip 21 has a certain time delay, and the thermal bimetallic strip 21 can be pushed by the adjusting screw 23 to adjust the distance between the thermal bimetallic strip and the action connecting rod 22 so as to adjust the bending time delay time of the thermal bimetallic strip.

In conclusion, the invention discloses a backup protector with a double tripping mechanism, which can realize the purpose of discharging lightning current and blocking power frequency current and simultaneously give consideration to the type of full current by triggering the tripping mechanism through an electromagnetic tripping device and a thermal tripping device together. The invention has compact design, small volume, ingenious design, convenient assembly and lower cost, and can effectively ensure that the circuit is timely separated due to failure of the surge protector in the actual use process, thereby preventing or reducing loss of the on-site lightning protection equipment.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.