CN116937360A

CN116937360A - Intelligent reactive compensation distribution box

Info

Publication number: CN116937360A
Application number: CN202311196728.1A
Authority: CN
Inventors: 黄襄信; 黄江滨; 黄黎丽
Original assignee: Rongzhong Electrical Co ltd
Current assignee: Rongzhong Electrical Co ltd
Priority date: 2023-09-18
Filing date: 2023-09-18
Publication date: 2023-10-24
Anticipated expiration: 2043-09-18
Also published as: CN116937360B

Abstract

The application relates to an intelligent reactive compensation distribution box, which relates to the technical field of distribution boxes, and comprises a distribution box body, wherein an air inlet communicated with the outside is formed in the distribution box body, and the intelligent reactive compensation distribution box further comprises: the dehumidifying baffle is covered at the air inlet, two dehumidifying holes are formed in the dehumidifying baffle, and a first dehumidifying piece and a second dehumidifying piece are arranged in the two dehumidifying holes Bie An; the dehumidification regulation and control assembly is used for driving the dehumidification baffle plate to slide back and forth between the first dehumidification station and the second dehumidification station, when the dehumidification baffle plate is positioned at the first dehumidification station, the first dehumidification member is opposite to the air inlet, and when the dehumidification baffle plate is positioned at the second dehumidification station, the second dehumidification member is opposite to the air inlet; and the saturation feedback assembly is used for detecting the weight of the first dehumidifying piece and the second dehumidifying piece, and when the weight of the first dehumidifying piece or the second dehumidifying piece is increased to a preset weight, the saturation feedback assembly controls the start of the dehumidification regulation assembly.

Description

Intelligent reactive compensation distribution box

Technical Field

The application relates to the technical field of distribution boxes, in particular to an intelligent reactive compensation distribution box.

Background

The distribution box is electric equipment, has characteristics such as small, simple installation, configuration function are unique, and the distribution box is the control center that the rational distribution of electric energy of various components and parts in the command power supply line.

Traditional reactive compensation block terminal uses in the plum blossom season, can lead to its inside comparatively moist, also can influence the safe operation of block terminal, among the prior art, set up the dehumidification piece in the vent department of block terminal generally for carry out the dewatering to the air that gets into the block terminal and dry, but the dewatering ability of dehumidification piece is limited, in the use of dehumidification piece, need use electrical components to detect the dehumidification saturation of dehumidification piece.

In the dehumidification process of the distribution box, the electrical components are required to be used for detecting the dehumidification saturation of the dehumidification piece, and a large amount of electric energy is consumed by the operation of the electrical components for a long time, so that the dehumidification cost of the distribution box is increased; and when changing the dehumidification piece, the air that the external world contains humidity can get into the block terminal in, is inconvenient for the normal work of block terminal.

Disclosure of Invention

In order to reduce the dehumidification cost of the distribution box, the application provides an intelligent reactive compensation distribution box.

The application provides an intelligent reactive compensation distribution box, which adopts the following technical scheme:

the utility model provides an intelligent reactive compensation block terminal, includes the block terminal body, has seted up the fresh air inlet with external intercommunication on the block terminal body, still includes: the dehumidifying baffle is covered at the air inlet, two dehumidifying holes are formed in the dehumidifying baffle, and a first dehumidifying piece and a second dehumidifying piece are arranged in the two dehumidifying holes Bie An; the dehumidification regulation and control assembly is used for driving the dehumidification baffle plate to slide back and forth between the first dehumidification station and the second dehumidification station, when the dehumidification baffle plate is positioned at the first dehumidification station, the first dehumidification member is opposite to the air inlet, and when the dehumidification baffle plate is positioned at the second dehumidification station, the second dehumidification member is opposite to the air inlet; and the saturation feedback assembly is used for detecting the weight of the first dehumidifying piece and the second dehumidifying piece, and when the weight of the first dehumidifying piece or the second dehumidifying piece is increased to a preset weight, the saturation feedback assembly controls the start of the dehumidification regulation assembly.

Through adopting above-mentioned technical scheme, detect the weight of first dehumidification piece through saturation feedback subassembly, first dehumidification piece is in dewatering the in-process, self weight increases gradually, when saturation feedback subassembly detects that the weight of first dehumidification piece increases to preset weight, saturation feedback subassembly control dehumidification regulation and control subassembly starts, make dehumidification regulation and control subassembly drive dehumidification baffle slide to the second dehumidification station from first dehumidification station, the normal operating of block terminal of being convenient for, and after the dehumidification baffle position is removed, the staff can directly observe the positional information of dehumidification baffle, the staff of being convenient for in time changes first dehumidification piece;

when the saturation feedback assembly detects that the weight of the second dehumidifying piece is increased to a preset weight, the saturation feedback assembly controls the dehumidifying regulation assembly to start, so that the dehumidifying regulation assembly drives the dehumidifying baffle to slide from the second dehumidifying station to the first dehumidifying station, and the replaced first dehumidifying piece continues to dehumidify;

and the first dehumidifying part and the second dehumidifying part realize the detection of self water saturation through self gravity, so that the consumption of external energy is avoided, and the dehumidifying cost of the distribution box is reduced.

Optionally, the dehumidification regulation assembly includes: the regulation and control box body is fixedly arranged on the distribution box body; one end of the regulating rod body is inserted into the regulating box body in a sliding way along the sliding direction of the dehumidifying baffle, and the other end of the regulating rod body is fixedly connected with the dehumidifying baffle; the piston is arranged in the regulation and control box body in a sliding mode along the sliding direction of the dehumidifying baffle plate and is positioned on one side of the regulation and control rod body, the piston divides the inside of the regulation and control box body into a rod cavity and a rodless cavity, and the saturation feedback assembly is used for controlling the sliding state of the piston.

Through adopting above-mentioned technical scheme, saturation feedback subassembly is based on the weight adjustment piston of first dehumidification piece or second dehumidification piece and is removed for the piston drives the regulation and control body of rod and dehumidification baffle removal at the removal in-process, thereby makes first dehumidification piece and second dehumidification piece circulate work, avoids external humidity air to get into the block terminal body.

Optionally, the piston is in damping connection with the regulating box body.

By adopting the technical scheme, under the condition of no external force effect, the piston can realize stable position by depending on damping between the piston and the regulating box.

Optionally, the saturation feedback component includes: the fixed end of the first expansion plate is fixedly arranged on the dehumidifying baffle, and the movable end of the first expansion plate is detachably connected with the first dehumidifying piece; the second expansion plate, the stiff end and the dehumidification baffle fixed connection of second expansion plate, the expansion end and the second dehumidification piece of second expansion plate can dismantle and be connected, are provided with drive assembly and drive assembly on the regulation and control box body, drive assembly controls drive assembly's operating condition based on the flexible state of first expansion plate and second expansion plate, and drive assembly is used for driving the piston to slide.

By adopting the technical scheme, in the weight increasing process of the first dehumidifying part, the telescopic change of the first telescopic plate is used for feeding back the weight change of the first dehumidifying part, and the telescopic change of the second telescopic plate is used for feeding back the weight change of the second dehumidifying part; and the first expansion plate and the second expansion plate can control the working state of the driving assembly based on the expansion state of the first expansion plate and the second expansion plate in the expansion change process of the first expansion plate and the second expansion plate, so that the piston can slide.

Optionally, first drive groove has been seted up on the regulation and control box body has pole intracavity wall, has seted up the second drive groove on the regulation and control box body no pole intracavity wall, and drive assembly includes: the first driving magnet is fixedly arranged in the first driving groove and has mutual repulsive interaction with the piston; the second driving magnet is fixedly arranged in the second driving groove and has mutual repulsive interaction with the piston.

Through adopting above-mentioned technical scheme, drive the piston at vertical direction reciprocating motion through the magnetic field effect of first driving magnet and second driving magnet, and then make the dehumidification baffle can reciprocate the switch between first dehumidification station and second dehumidification station, and because the dehumidification baffle has the restriction of sliding travel on the block terminal body for the dehumidification baffle can not take place the condition of excessive motion under the magnetic field effect.

Optionally, the transmission assembly includes: the first cover plate is covered at the notch of the first driving groove and is in sliding connection with the regulating box body; the first telescopic rod is arranged in the rod cavity of the regulating box body along the sliding direction of the first cover plate, the fixed end of the first telescopic rod is fixedly connected with the regulating box body, and the movable end of the first telescopic rod is fixedly connected with the first cover plate; one end of the first connecting pipe is communicated with the rodless cavity of the first expansion plate, the other end of the first connecting pipe is communicated with the rodless cavity of the first expansion plate, and fluid is preset in the first connecting pipe, the rodless cavity of the first expansion plate and the rodless cavity of the first expansion plate; the first spring is arranged in the rodless cavity of the first telescopic rod, and two ends of the first spring are fixedly connected with the movable end and the fixed end of the first telescopic rod respectively.

Optionally, the transmission assembly further includes: the second cover plate is covered at the notch of the second driving groove and is in sliding connection with the regulating box body; the second telescopic rod is arranged in the rodless cavity of the regulating box body along the sliding direction of the second cover plate, the fixed end of the second telescopic rod is fixedly connected with the regulating box body, the movable end of the second telescopic rod is fixedly connected with the second cover plate, one end of the second connecting pipe is communicated with the rodless cavity of the second telescopic plate, the other end of the second connecting pipe is communicated with the rodless cavity of the second telescopic rod, and fluids are preset in the second connecting pipe, the rodless cavity of the second telescopic plate and the rodless cavity of the second telescopic rod; the second spring is arranged in the rodless cavity of the second telescopic rod, and two ends of the second spring are fixedly connected with the movable end of the second telescopic rod and the fixed end of the second telescopic rod respectively.

In summary, the present application includes at least one of the following beneficial technical effects:

through setting up saturation feedback subassembly and dehumidification regulation and control subassembly, saturation feedback subassembly detects the weight of first dehumidification piece, and first dehumidification piece is at dewatering in-process, self weight increases gradually, and when saturation feedback subassembly detects the weight increase of first dehumidification piece to predetermineeing weight, saturation feedback subassembly control dehumidification regulation and control subassembly starts for dehumidification regulation and control subassembly orders about dehumidification baffle and slides to the second dehumidification station from first dehumidification station, the normal operating of block terminal of being convenient for, and after the dehumidification baffle position removes, the staff can directly observe the positional information of dehumidification baffle, and the staff of being convenient for in time changes first dehumidification piece.

Drawings

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

fig. 2 is a schematic structural view of a distribution box body according to an embodiment of the present application;

FIG. 3 is a cross-sectional view of an embodiment of the present application;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

fig. 5 is a partial enlarged view at B in fig. 3.

Reference numerals illustrate:

1. a distribution box body; 11. an air inlet hole;

2. a dehumidifying baffle; 21. dehumidifying holes; 22. a first dehumidifying member; 23. a second dehumidifying member;

3. a dehumidification regulation component; 31. a regulation box body; 311. a first driving groove; 312. a second driving groove; 32. regulating and controlling a rod body; 33. a piston;

4. a saturation feedback component; 41. a first expansion plate; 42. a second expansion plate;

5. a transmission assembly; 51. a first cover plate; 52. a first telescopic rod; 53. a first spring; 54. a first connection pipe; 55. a second cover plate; 56. a second telescopic rod; 57. a second spring; 58. a second connection pipe;

6. a drive assembly; 61. a first driving magnet; 62. and a second driving magnet.

Detailed Description

The application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses an intelligent reactive compensation distribution box. Referring to fig. 1 to 5, an intelligent reactive compensation distribution box comprises a distribution box body 1, a dehumidification baffle plate 2, a dehumidification regulation and control assembly 3 and a saturation feedback assembly 4, wherein an air inlet 11 communicated with the outside is formed in the distribution box body 1, the dehumidification baffle plate 2 is arranged at the air inlet 11 in a covering manner, two dehumidification holes 21 are formed in the dehumidification baffle plate 2, and a first dehumidification piece 22 and a second dehumidification piece 23 are respectively arranged in the two dehumidification holes 21; the dehumidification regulation and control assembly 3 is used for driving the dehumidification baffle plate 2 to slide back and forth between the first dehumidification station and the second dehumidification station, when the dehumidification baffle plate 2 is positioned at the first dehumidification station, the first dehumidification piece 22 is opposite to the air inlet 11, and when the dehumidification baffle plate 2 is positioned at the second dehumidification station, the second dehumidification piece 23 is opposite to the air inlet 11; the saturation feedback assembly 4 is configured to detect weights of the first dehumidifying element 22 and the second dehumidifying element 23, and when the first dehumidifying element 22 or the second dehumidifying element 23 increases to a preset weight, the saturation feedback assembly 4 controls the start of the dehumidification regulation assembly 3.

The first dehumidifying piece 22 is arranged on the dehumidifying baffle 2 in a sliding mode along the sliding direction of the dehumidifying baffle 2, the second dehumidifying piece 23 is arranged on the dehumidifying baffle 2 in a sliding mode along the sliding direction of the dehumidifying baffle 2, and the first dehumidifying piece 22 and the second dehumidifying piece 23 are connected with the dehumidifying baffle 2 in a damping mode. The specific dehumidifying element can adopt active carbon.

The dehumidification regulation and control assembly 3 comprises a regulation and control box body 31, a regulation and control rod body 32 and a piston 33, wherein the regulation and control box body 31 is fixedly arranged on the distribution box body 1; one end of the regulating rod body 32 is inserted on the regulating box body 31 in a sliding way along the sliding direction of the dehumidifying baffle 2, and the other end of the regulating rod body is fixedly connected with the dehumidifying baffle 2; the piston 33 is slidably disposed in the regulating box 31 along the sliding direction of the dehumidification baffle 2 and is located at one side of the regulating rod 32, the piston 33 is in damping connection with the regulating box 31, the piston 33 divides the interior of the regulating box 31 into a rod cavity and a rodless cavity, and the saturation feedback assembly 4 is used for controlling the sliding state of the piston 33.

The saturation feedback assembly 4 comprises a first expansion plate 41 and a second expansion plate 42, wherein the fixed end of the first expansion plate 41 is fixedly arranged on the dehumidification baffle plate 2, and the movable end of the first expansion plate 41 is detachably connected with the first dehumidification piece 22 through a bolt; the fixed end of the second expansion plate 42 is fixedly connected with the dehumidifying baffle 2, and the movable end of the second expansion plate 42 is detachably connected with the second dehumidifying piece 23 through bolts.

The control box 31 is provided with a transmission assembly 5 and a driving assembly 6, the transmission assembly 5 controls the working state of the driving assembly 6 based on the telescopic states of the first telescopic plate 41 and the second telescopic plate 42, and the driving assembly 6 is used for driving the piston 33 to slide.

The inner wall of the rod cavity of the regulating box body 31 is provided with a first driving groove 311, the inner wall of the rod cavity of the regulating box body 31 is provided with a second driving groove 312, the driving assembly 6 comprises a first driving magnet 61 and a second driving magnet 62, wherein the first driving magnet 61 is fixedly arranged in the first driving groove 311 and has mutual repulsive interaction with the piston 33; the second driving magnet 62 is fixedly arranged in the second driving groove 312, and has mutual repulsive interaction with the piston 33; it should be noted that, when the first driving magnet 61 drives the piston 33 to move, the driving force needs to overcome the damping force between the piston 33 and the control box 31; when the second driving magnet 62 drives the piston 33 to move, the driving force needs to overcome the damping force between the piston 33 and the control box 31, and the gravity of the piston 33 and the parts above the piston 33 that need to move.

The transmission assembly 5 comprises a first cover plate 51, a first telescopic rod 52, a first spring 53 and a first connecting pipe 54, wherein the first cover plate 51 is arranged at the notch of the first driving groove 311 in a covering manner and is in sliding connection with the regulating box body 31; the first telescopic rod 52 is arranged in the rod cavity of the regulating box body 31 along the sliding direction of the first cover plate 51, the fixed end of the first telescopic rod 52 is fixedly connected with the regulating box body 31, and the movable end of the first telescopic rod 52 is fixedly connected with the first cover plate 51; one end of the first connecting pipe 54 is communicated with the rodless cavity of the first expansion plate 41, the other end of the first connecting pipe 54 is communicated with the rodless cavity of the first expansion plate 52, and fluid is preset in the first connecting pipe 54, the rodless cavity of the first expansion plate 41 and the rodless cavity of the first expansion plate 52; the first spring 53 is arranged in the rodless cavity of the first telescopic rod 52, and two ends of the first spring are fixedly connected with the movable end of the first telescopic rod 52 and the fixed end of the first telescopic rod 52 respectively. Specifically, the first connecting tube 54 is made of a hose material, so as to satisfy the movement of the control rod 32 and the dehumidifying baffle 2.

The transmission assembly 5 further comprises a second cover plate 55, a second telescopic rod 56, a second spring 57 and a second connecting pipe 58, wherein the second cover plate 55 is covered at the notch of the second driving groove 312 and is in sliding connection with the regulating box body 31; the second telescopic rod 56 is arranged in the rodless cavity of the regulating box body 31 along the sliding direction of the second cover plate 55, the fixed end of the second telescopic rod 56 is fixedly connected with the regulating box body 31, the movable end of the second telescopic rod 56 is fixedly connected with the second cover plate 55, one end of the second connecting pipe 58 is communicated with the rodless cavity of the second telescopic plate 42, the other end of the second connecting pipe 58 is communicated with the rodless cavity of the second telescopic rod 56, and fluids are preset in the rodless cavity of the second connecting pipe 58 and the second telescopic plate 42 and the rodless cavity of the second telescopic rod 56; the second spring 57 is arranged in the rodless cavity of the second telescopic rod 56, and two ends of the second spring are fixedly connected with the movable end of the second telescopic rod 56 and the fixed end of the second telescopic rod 56 respectively. Specifically, the second connecting pipe 58 is made of a hose material, so as to satisfy the movement of the control rod 32 and the dehumidifying baffle 2.

The implementation principle of the intelligent reactive compensation distribution box provided by the embodiment of the application is as follows: in the initial state, the first dehumidifying part 22 is opposite to the air inlet 11, the first dehumidifying part 22 removes water from the air entering the distribution box body 1, and the weight of the first dehumidifying part 22 is gradually increased in the working process of the first dehumidifying part 22;

in the process of increasing the weight of the first dehumidifying element 22, as the first dehumidifying element 22 is in damping connection with the dehumidifying baffle 2, when the weight of the first dehumidifying element 22 is increased to a preset weight, the first dehumidifying element 22 slides downwards against the damping action by virtue of gravity, so that the first expansion plate 41 contracts, and further fluid in the rodless cavity of the first expansion plate 41 flows into the rodless cavity of the first expansion rod 52 through the first connecting pipe 54, so that the first cover plate 51 is far away from the notch of the first driving groove 311, the first driving magnet 61 is convenient to exert a repulsive action on the piston 33, and the piston 33 and the regulating rod body 32 move downwards;

in the downward moving process of the piston 33 and the regulating rod body 32, the dehumidifying baffle 2 moves from the first dehumidifying station to the second dehumidifying station, so that the second dehumidifying piece 23 and the air inlet 11 are opposite to each other, the normal operation of the distribution box is facilitated, after the position of the dehumidifying baffle 2 moves, the staff can directly observe the position information of the dehumidifying baffle 2, and the staff can replace the first dehumidifying piece 22 in time.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. An intelligent reactive compensation block terminal, characterized in that includes:

the power distribution box comprises a power distribution box body (1), wherein an air inlet (11) communicated with the outside is formed in the power distribution box body (1);

the dehumidifying baffle (2) is covered at the communication part of the air inlet (11) and the outside, two dehumidifying holes (21) are formed in the dehumidifying baffle (2), and a first dehumidifying piece (22) and a second dehumidifying piece (23) are respectively arranged in the two dehumidifying holes (21);

the dehumidification regulation and control assembly (3) is used for driving the dehumidification baffle plate (2) to slide back and forth between the first dehumidification station and the second dehumidification station, when the dehumidification baffle plate (2) is positioned at the first dehumidification station, the first dehumidification piece (22) is opposite to the air inlet (11), and when the dehumidification baffle plate (2) is positioned at the second dehumidification station, the second dehumidification piece (23) is opposite to the air inlet (11);

the saturation feedback assembly (4) is used for detecting the weight of the first dehumidifying piece (22) and the second dehumidifying piece (23), and when the weight of the first dehumidifying piece (22) or the second dehumidifying piece (23) is increased to a preset weight, the saturation feedback assembly (4) controls the starting of the dehumidifying regulation assembly (3).

2. An intelligent reactive compensation distribution box according to claim 1, characterized in that the dehumidification regulation assembly (3) comprises:

the regulating box body (31) is fixedly arranged on the distribution box body (1);

one end of a regulating rod body (32) is inserted on the regulating box body (31) in a sliding way along the sliding direction of the dehumidifying baffle (2), and the other end of the regulating rod body is fixedly connected with the dehumidifying baffle (2);

the piston (33) is arranged in the regulating box body (31) in a sliding mode along the sliding direction of the dehumidifying baffle plate (2) and is positioned on one side of the regulating rod body (32), the piston (33) divides the interior of the regulating box body (31) into a rod cavity and a rodless cavity, and the saturation feedback assembly (4) is used for controlling the sliding state of the piston (33).

3. An intelligent reactive compensation distribution box according to claim 2, characterized in that the piston (33) is in damped connection with the regulating box (31).

4. An intelligent reactive compensation distribution box according to claim 3, characterized in that the saturation feedback assembly (4) comprises:

the fixed end of the first expansion plate (41) is fixedly arranged on the dehumidifying baffle (2), and the movable end of the first expansion plate (41) is detachably connected with the first dehumidifying piece (22);

the second expansion plate (42), the stiff end and the dehumidification baffle (2) fixed connection of second expansion plate (42), the expansion end and the second dehumidification piece (23) of second expansion plate (42) can dismantle and be connected, be provided with drive assembly (5) and drive assembly (6) on regulation and control box body (31), drive assembly (5) are based on the flexible state of first expansion plate (41) and second expansion plate (42) control the operating condition of drive assembly (6), drive assembly (6) are used for driving piston (33) to slide.

5. The intelligent reactive compensation distribution box according to claim 4, wherein the first driving groove (311) is formed in the inner wall of the rod cavity of the control box body (31), the second driving groove (312) is formed in the inner wall of the rod cavity of the control box body (31), and the driving assembly (6) comprises:

a first driving magnet (61) fixedly arranged in the first driving groove (311) and having a mutual repulsive interaction with the piston (33);

the second driving magnet (62) is fixedly arranged in the second driving groove (312) and has mutual repulsive interaction with the piston (33).

6. An intelligent reactive compensation distribution box according to claim 5, characterized in that the transmission assembly (5) comprises:

the first cover plate (51) is arranged at the notch of the first driving groove (311) in a covering manner and is in sliding connection with the regulating box body (31);

the first telescopic rod (52) is arranged in the rod cavity of the regulating box body (31) along the sliding direction of the first cover plate (51), the fixed end of the first telescopic rod (52) is fixedly connected with the regulating box body (31), and the movable end of the first telescopic rod (52) is fixedly connected with the first cover plate (51);

one end of the first connecting pipe (54) is communicated with the rodless cavity of the first expansion plate (41), the other end of the first connecting pipe is communicated with the rodless cavity of the first expansion plate (41), and fluid is preset in the first connecting pipe (54), the rodless cavity of the first expansion plate (41) and the rodless cavity of the first expansion plate (52);

the first spring (53) is arranged in the rodless cavity of the first telescopic rod (52), and two ends of the first spring are fixedly connected with the movable end of the first telescopic rod (52) and the fixed end of the first telescopic rod (52) respectively.

7. An intelligent reactive compensation distribution box according to claim 6, characterized in that the transmission assembly (5) further comprises:

the second cover plate (55) is covered at the notch of the second driving groove (312) and is in sliding connection with the regulating box body (31);

the second telescopic rod (56) is arranged in the rodless cavity of the regulating box body (31) along the sliding direction of the second cover plate (55), the fixed end of the second telescopic rod (56) is fixedly connected with the regulating box body (31), the movable end of the second telescopic rod (56) is fixedly connected with the second cover plate (55), one end of the second connecting pipe (58) is communicated with the rodless cavity of the second telescopic plate (42), and the other end of the second connecting pipe is communicated with the rodless cavity of the second telescopic rod (56), and fluids are preset in the second connecting pipe (58), the rodless cavity of the second telescopic plate (42) and the rodless cavity of the second telescopic rod (56);

the second spring (57) is arranged in the rodless cavity of the second telescopic rod (56), and two ends of the second spring are fixedly connected with the movable end of the second telescopic rod (56) and the fixed end of the second telescopic rod (56) respectively.