CN219636463U - Gear gauge adjusting device of paper folding mechanism - Google Patents

Abstract

The utility model relates to the technical field of paper folding, in particular to a gauge adjusting device of a paper folding mechanism, which comprises a plurality of top folding mechanisms, wherein each top folding mechanism comprises a paper conveying assembly and a gauge assembly, one end of a driving shaft is provided with an electric driving assembly in transmission connection with the driving shaft, and the other end of the driving shaft is provided with a manual driving assembly in transmission connection with the driving shaft; the paper to be folded enters one of the top folding mechanisms, a stop gauge assembly arranged on the paper conveying assembly can be adjusted according to the size of the paper, and during adjustment, an electric control mode of an electric driving assembly can be adopted to drive a driving shaft to rotate, the driving shaft drives a driving belt nested between a first driving wheel and a second driving wheel to move, and the stop gauge assembly can be driven to slide along a guide rod assembly, so that position adjustment of the stop gauge assembly is realized; the electric driving assembly is driven by the electric driving assembly without manual operation, and can drive the conveyor belt to move in a signal control mode, so that the adjusting efficiency is improved.

Description

Gear gauge adjusting device of paper folding mechanism

Technical Field

The utility model relates to the technical field of paper folding equipment, in particular to a gauge adjusting device of a paper folding mechanism.

Background

The paper folding machine is modern printing equipment generated along with modern printing industry, is mainly used for folding paper with various sizes and thicknesses in a design range, and is suitable for folding large quantities of fast printing centers, production enterprises, letter files and business letters. The paper folding machine mainly comprises three parts of paper feeding, folding and paper collecting. Various electrical appliances, articles for daily use, medicines, cosmetics and the like in life need specifications, and the specifications are usually put into a packaging box after being folded for many times.

The utility model of China with the patent number 201620628743.8 discloses a knife set for a folding machine, which comprises a frame, a conveying mechanism and a folding mechanism, wherein the frame comprises a main frame, an auxiliary frame and a motor frame, the lower part of the main frame is provided with the auxiliary frame, one side of the main frame is provided with the motor frame, the conveying mechanism comprises a rubber roller, a first conveying belt and a first conveying belt wheel, the rubber roller is transversely arranged on the main frame, the first conveying belt is longitudinally sleeved on the first conveying belt wheel, the first conveying belt wheel is arranged on the auxiliary frame, and the rubber roller is closely adjacent to the first conveying belt and is positioned above the first conveying belt; the folding mechanism comprises a folding blade and a servo motor, and the folding blade is transversely arranged at the lower part of the servo motor.

The paper folding mechanism is arranged at intervals from top to bottom, so that the paper folding mechanism comprises a plurality of conveying mechanisms and a stop gauge assembly arranged on the conveying mechanisms, and the paper folding mechanism is stopped by the stop gauge assembly and aligned to a folding opening so as to be convenient for the paper folding blade to press down; the position of the size hinge of different paper is also different, therefore need to adjust the position of keeping off rule subassembly, when adjusting, lie in some folding mechanism of inside and be blocked, because keep off rule's weight is great, when adjusting, working range is narrower, and the space that supplies the hand to stretch into is less, is difficult for the application of force, adjusts comparatively difficultly.

Disclosure of Invention

The utility model aims to provide a gauge adjusting device of a paper folding mechanism, which aims to overcome the defects of the prior art.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the gauge adjusting device of the paper folding mechanism comprises a plurality of top folding mechanisms, wherein the folding directions of two adjacent top folding mechanisms are vertical, and each top folding mechanism comprises a paper conveying assembly and a gauge assembly arranged along the width direction of the paper conveying assembly; one end of the paper conveying assembly is provided with a driving shaft, both sides of the paper conveying assembly are respectively provided with a guide rod for slidably mounting the gauge assembly, one end of the guide rod is provided with a first driving wheel, the driving shaft is provided with a second driving wheel, a driving belt is nested between the first driving wheel and the second driving wheel, and the driving belt is provided with a driving seat connected with the gauge assembly; one end of the driving shaft is provided with an electric driving component in transmission connection with the driving shaft, and the other end of the driving shaft is provided with a manual driving component in transmission connection with the driving shaft.

Further: the gauge adjusting device further comprises a pair of vertical plates which are arranged at intervals in parallel, a plurality of transverse connecting columns are arranged between the two vertical plates, the top of each vertical plate is provided with a concave guide groove, one paper conveying assembly is arranged between the two vertical plates, and the conveying direction of the paper conveying assembly is parallel to the length direction of the vertical plates.

Further: the transverse connecting columns are respectively arranged on two sides of the guide groove, one paper conveying assembly is arranged between the two transverse connecting columns, the transverse connecting columns are respectively arranged on two sides of the advancing direction of the paper conveying assembly, and two ends of the paper conveying assembly are respectively embedded in the guide groove.

Further: the paper conveying assembly comprises a plurality of groups of paper conveying guide members which are arranged at intervals, wherein each paper conveying guide member comprises conveying plates which are arranged along the paper conveying direction and belt conveying members which are arranged at intervals with the conveying plates, and a conveying channel for paper to pass through is formed by the intervals between the conveying plates and the belt conveying members.

Further: the stop gauge assembly comprises stop gauge strips which are arranged along the width direction of the paper conveying assembly, a plurality of stop strips which prevent paper from passing are arranged at intervals of the stop gauge strips, the stop strips can be slidably arranged along the length direction of the stop gauge strips, the distance between two paper conveying guide pieces is larger than the width of the stop strips, and the distance between the stop strips penetrating through the paper conveying guide pieces is used for stopping the paper to pass through the stop gauge strips.

Further: the top of the stop bar is provided with a top sliding block, the top sliding block is provided with a sliding groove which slides back and forth along the stop bar, and the top sliding block is also provided with an tightness adjusting rod which is inserted into the sliding groove in a rotatable manner and is in tightness fit with the stop bar.

Further: the drive shaft is installed between two risers, and the riser is provided with the bearing frame that supplies the drive shaft to insert, and electric drive subassembly is including installing the servo motor at one of them riser, and the synchronizing wheel that is connected with servo motor transmission is installed to the drive shaft.

Further: the manual driving assembly comprises a knob block arranged on the outer side of one of the vertical plates, the vertical plates are formed with driving holes for the driving shaft to pass through, one end of the driving shaft extends outwards, and the knob block is nested at the outer end of the driving shaft.

Further: one of them keep off rule subassembly of top folding mechanism is provided with the upset driving piece that drives the rotation of keep off rule strip, keeps off rule strip both ends install with direction member sliding fit's slip cap, the mount pad is installed to the slip cap, the mount pad shaping has the rotation hole, keep off rule strip both ends shaping respectively have with rotation hole coaxial coupling's axis of rotation.

Further: the top folding mechanism comprises a plurality of pairs of folding rollers which are arranged in a clearance way, a vertical plate is formed with roller mounting holes for mounting the folding rollers, the diameter of one roller mounting hole is larger than that of the folding roller, two ends of the folding roller are respectively provided with a fixing sleeve, the fixing sleeves are arranged on the vertical plate in a swinging way, the vertical plate is provided with a telescopic rod, and the fixing sleeves are formed with connecting rods for movably connecting one end of the telescopic rod.

The utility model has the beneficial effects that: the paper to be folded enters one of the top folding mechanisms, the paper conveying assembly of the top folding mechanism advances and conveys the paper, the gauge assembly arranged on the paper conveying assembly can be adjusted according to the size of the paper, when the paper is adjusted, the electric control mode of the electric driving assembly can be adopted to drive the driving shaft to rotate, the driving shaft drives the driving belt nested between the first driving wheel and the second driving wheel to move, and the gauge assembly can be driven to slide along the guide rod assembly, so that the position adjustment of the gauge assembly is realized; the electric driving assembly is driven without manual operation, and can drive the conveyor belt to move in a signal control mode, so that the adjusting efficiency is improved; when the electric driving assembly fails, the manual adjustment mode of the manual driving assembly can be used for adjusting, and the position of the gauge assembly is guaranteed to be adjustable.

Drawings

Fig. 1 is a schematic structural view of a gauge adjusting device.

Fig. 2 is a schematic structural view of the connection between the electric driving assembly and the vertical plate.

Fig. 3 is a schematic view of a structure in which the folding roller is connected to the standing plate.

Fig. 4 is a partially enlarged schematic view of the sheet conveying assembly.

Fig. 5 is a schematic structural view of a gauge assembly.

Fig. 6 is a schematic structural view of the flip driving member.

Fig. 7 is a schematic structural view of the connection of the gauge assembly and the sliding sleeve.

The reference numerals include:

1-top folding mechanism,

10-paper conveying assembly, 11-vertical plate, 12-transverse connecting column, 13-guiding groove,

14-sheet conveying guide, 15-conveying plate, 16-belt conveying member, 17-conveying roller,

2-gauge assembly

21-gauge bar, 22-stop bar, 23-top sliding block, 24-sliding groove, 25-tightness adjusting rod,

26-sliding sleeve, 27-mounting seat, 28-rotating shaft, 29-rotating hole,

3-driving shaft,

31-a guide rod piece, 32-a first driving wheel, 33-a second driving wheel, 34-a driving belt,

35-transmission seat, 36-turnover driving piece, 37-fixed seat, 38-telescopic cylinder, 39-swing arm,

4-electric driving component, 41-servo motor, 42-synchronous wheel, 43-manual driving component,

44-drive hole, 45-knob block,

5-folding roller

51-roller mounting hole, 52-fixing sleeve, 53-telescopic rod, 54-connecting rod, 55-screw seat,

56-threaded rod.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-7, the stop gauge adjustment device of the paper folding mechanism includes two top folding mechanisms 1, and the top folding mechanism 1 includes a paper conveying assembly 10.

The gauge adjusting device further comprises a pair of vertical plates 11 which are arranged at intervals in parallel, a plurality of transverse connecting columns 12 which are arranged longitudinally are arranged between the two vertical plates 11, concave guide grooves 13 are formed in the tops of the vertical plates 11, one top folding mechanism 1 is arranged between the two vertical plates 11, and the conveying direction of a paper conveying assembly 10 of the top folding mechanism 1 is parallel to the length direction of the vertical plates 11. The transverse connecting columns 12 are respectively arranged at two sides of the guide groove 13, the paper conveying assembly 10 of the other top folding mechanism 1 is arranged between the two transverse connecting columns 12, the transverse connecting columns 12 are respectively arranged at two sides of the advancing direction of the paper conveying assembly 10, and two ends of the paper conveying assembly 10 are respectively embedded in the guide groove 13, so that paper folded by the first top folding mechanism 1 can fall into the second top folding mechanism 1 to be folded for the second time.

A vertical folding mechanism including a pair of folding rollers 5 parallel to the conveying direction and a folding blade (not shown) that moves up and down above the gap of the folding rollers 5 is arranged along the paper conveying assembly 10; the vertical plate 11 is formed with roller mounting holes 51 for mounting the folding rollers 5, wherein the diameter of one roller mounting hole 51 is larger than that of the folding roller 5, two ends of one folding roller 5 are respectively provided with a fixed sleeve 52, one end of the fixed sleeve 52 is arranged on the vertical plate 11 in a swinging way through a rotating shaft, the rotating shaft is arranged at the periphery of the roller mounting hole 51, the vertical plate 11 is provided with a telescopic rod 53 which can be telescopic by a knob,

the riser 11 is installed the screw seat 55, and the screw rod 56 is installed through the screw hole to screw seat 55, and threaded rod 56 is connected with telescopic link 53, rotates at screw seat 55 through threaded rod 56, realizes the flexible to drive telescopic link 53 and remove. The tail end of the telescopic rod 53 is provided with a nested hole, the fixed sleeve 52 is provided with a connecting rod 54 for nesting and connecting the nested hole at the tail end of the telescopic rod 53, the fixed sleeve 52 is driven to swing around a rotating shaft through the reciprocating motion of the telescopic rod 53, the folding roller 5 is finely adjusted at the roller mounting hole 51 and can be close to or far away from the other folding roller 5, the gap between the two folding rollers 5 can be adjusted, the distance between the two folding rollers can be adjusted according to the thickness of paper, the paper with folds can be flattened, and the folding quality is improved.

The other top folding mechanism 1 is located below, and the conveying direction of the second top folding mechanism 1 is perpendicular to the conveying direction of the first top folding mechanism 1, so that the folding direction of the two top folding mechanisms 1 is perpendicular, and the paper can be folded twice.

The paper conveying assembly 10 comprises a plurality of groups of paper conveying guide members 14 which are arranged at intervals, the paper conveying guide members 14 comprise conveying plates 15 which are arranged along the paper conveying direction and belt conveying members 16 which are arranged at intervals with the conveying plates 15, a conveying channel for paper to pass through is formed by the intervals between the conveying plates 15 and the belt conveying members 16, conveying rollers 17 are respectively arranged at two ends of the paper conveying guide members 14, the belt conveying members 16 are arranged on the conveying rollers 17 at intervals, the rotation of the conveying rollers 17 is used for driving the belt conveying members 16 to move, after the paper enters the intervals between the conveying plates 15 and the belt conveying members 16, the paper is rubbed by the movement of the belt conveying members 16, and the top of the paper is guided by the conveying plates 15, so that the paper is conveyed forward.

A paper sensor (not labeled in the figure) for detecting the color of paper is arranged beside the top folding mechanism 1, and the paper sensor is a visual sensor for detecting the black and white color, in particular an existing MV-SC2004PM40 ten-thousand-pixel black and white SC2000 visual sensor; high-speed image processing can be performed to rapidly output signals.

The paper conveying assembly 10 is provided with the stop gauge assembly 2 along the width direction of the paper conveying assembly 10, the stop gauge assembly 2 comprises stop gauge strips 21 which are arranged along the width direction of the paper conveying assembly 10, a plurality of stop gauge strips 22 which prevent paper from passing through are arranged at intervals of the stop gauge strips 21, the distance between two adjacent paper conveying guide members 14 is larger than the width of the stop gauge strips 22, the distance between the stop gauge strips 22 penetrating through the paper conveying guide members 14 is used for stopping paper from passing through the stop gauge strips 21, after the stop gauge strips 22 are inserted into the distance, the paper cannot continuously pass through the subsequent part of the paper conveying assembly 10, the position of the stop gauge strips 21 in the paper conveying assembly 10 can be adjusted according to the size of the paper, and the paper can be folded longitudinally conveniently.

Preferably, the top of the stop bar 22 is formed with a top sliding block 23, the top sliding block 23 is formed with a sliding groove 24 sliding reciprocally along the gauge bar 21, and the top sliding block 23 is further mounted with a tension adjusting rod 25 rotatably inserted into the sliding groove 24 and in tension fit with the gauge bar 21.

In this embodiment, the stop strip 22 on the gauge strip 21 can be adjusted according to the distance between two adjacent paper conveying guides 14, and the stop strip 22 and the gauge strip 21 are loosened by the knob tightness adjusting rod 25, the stop strip 22 is slidably matched with the gauge strip 21 through the sliding groove 24 of the top sliding block 23, so that the stop strip 22 is aligned to the distance between two paper conveying guides 14, and paper can be prevented from passing through, and stop is realized.

Specifically, one end of the paper conveying assembly 10 is provided with a driving shaft 3 installed between two vertical plates 11, two sides of the paper conveying assembly 10 are respectively provided with a guide rod 31 for slidably installing the stop gauge assembly 2, a sliding sleeve 26 is slidably installed on the guide rod 31, an installation seat 27 is installed on the sliding sleeve 26, a rotating hole 29 is formed in the installation seat 27, two ends of the stop gauge strip 21 are respectively provided with a rotating shaft 28 coaxially connected with the rotating hole 29, after the stop gauge strip 21 is subjected to external force of rotation, the stop gauge strip 21 can turn around the rotating hole 29, and a stop gauge strip 22 installed on the stop gauge strip 21 can be far away from the distance between two paper conveying guide pieces 14. Specifically, one of them mount pad 27 is provided with the upset driving piece 36 that drives the rotation of fender rule 21, upset driving piece 36 and paper sensor signal connection, upset driving piece 36 include set up in mount pad 27's fixing base 37, but the telescopic member of longitudinal extension is installed to fixing base 37, and the fixed nestification of axis of rotation 28 has swing arm 39, and swing arm 39 shaping has the connecting axle with the drive end swing joint of telescopic member.

In this embodiment, the telescopic member is a telescopic cylinder 38 longitudinally arranged, the end of the telescopic cylinder 38 is connected with the connecting shaft of the swinging arm 39 through the connection mode of the hole shaft, and when the telescopic cylinder 38 stretches and contracts, the swinging arm 39 drives the rotating shaft 28 to rotate, so that the gauge bar 21 can turn around the rotating hole 29, and the stop bar 22 mounted on the gauge bar 21 can be far away from the distance between the two paper conveying guide members 14.

The vision sensor and the telescopic cylinder 38 are existing hardware, after the vision sensor and the telescopic cylinder 38 are programmed by a software engineer, a functional module framework is established, a computer system is controlled by a computer program instruction to complete the sensing control function of the vision sensor and the telescopic cylinder, paper to be folded enters the paper conveying assembly 10, before entering the top folding mechanism 1, the vision sensor recognizes that the paper does not have text content, namely black is not sensed, when the paper is sensed to be pure white, the signal of the vision sensor is output to the telescopic cylinder 38, the gauge bar 21 provided with the stop bar 22 is driven by the telescopic cylinder 38 to perform overturning movement, so that the paper is conveyed forward along the paper conveying assembly 10 and is directly discharged outwards by bypassing the folding blade, and the waste paper is removed; the paper to be removed does not need to wait in the top folding mechanism 1, the paper waste paper can be removed rapidly, the machine is not required to be stopped, and the paper folding efficiency is ensured.

The vertical plate 11 is provided with a bearing seat for inserting the driving shaft 3, a first driving wheel 32 is arranged at one end of the guide rod piece 31, a second driving wheel 33 is respectively arranged at two ends of the driving shaft 3, a driving belt 34 is nested between the first driving wheel 32 and the second driving wheel 33, and the driving belt 34 is provided with a driving seat 35 connected with the stop gauge assembly 2; an electric driving assembly 4 in transmission connection with the driving shaft 3 is arranged at one end of the driving shaft 3, and a manual driving assembly 43 in transmission connection with the driving shaft 3 is arranged at the other end of the driving shaft 3.

The electric driving assembly 4 comprises a servo motor 41 arranged on one of the vertical plates 11, the driving shaft 3 is provided with a synchronous wheel 42 in transmission connection with the servo motor 41, the synchronous wheel 42 arranged on the driving shaft 3 is in transmission connection with the servo motor 41 through a belt piece, the driving shaft 3 is driven to rotate, and the driving belts 34 on two sides of the paper conveying assembly 10 move simultaneously, so that the gauge assembly 2 can move in the conveying direction of the paper conveying assembly 10, and the position of the gauge assembly 2 is electrically adjusted. Because the servo motor 41 is an electric control device, the servo motor 41 can be in signal connection with the communication control board RFID433M, the communication control board can be connected with a PLC system, the servo motor 41 is controlled, the gauge assembly 2 is regulated in an electric control mode, and the position of the gauge assembly 2 is regulated; the electric driving assembly 4 is driven without manual operation, and can drive the conveyor belt to move in a signal control mode, so that the adjusting efficiency is improved.

The manual driving assembly 43 comprises a knob block 45 arranged on the outer side of one of the vertical plates 11, the vertical plate 11 is provided with a driving hole 44 for the driving shaft 3 to pass through, one end of the driving shaft 3 extends outwards, the knob block 45 is nested at the outer end of the driving shaft 3, and the driving shaft 3 is driven to rotate by twisting the knob block 45. When the electric driving assembly 4 fails, the manual adjustment mode of the manual driving assembly 43 can be used for adjusting, so that the position of the gauge assembly 2 is ensured to be adjustable.

In view of the above, the present utility model has the above-mentioned excellent characteristics, so that it can be used to improve the performance and practicality of the prior art, and is a product with great practical value.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims (10)

1. Keep off rule adjusting device of paper folding mechanism, including a plurality of top folding mechanism, the fifty percent discount direction of two adjacent top folding mechanisms is mutually perpendicular, its characterized in that: the top folding mechanism comprises a paper conveying assembly and a stop gauge assembly arranged along the width direction of the paper conveying assembly; one end of the paper conveying assembly is provided with a driving shaft, both sides of the paper conveying assembly are respectively provided with a guide rod for slidably mounting the gauge assembly, one end of the guide rod is provided with a first driving wheel, the driving shaft is provided with a second driving wheel, a driving belt is nested between the first driving wheel and the second driving wheel, and the driving belt is provided with a driving seat connected with the gauge assembly; one end of the driving shaft is provided with an electric driving component in transmission connection with the driving shaft, and the other end of the driving shaft is provided with a manual driving component in transmission connection with the driving shaft.

2. The stop gauge adjustment apparatus of a sheet folding mechanism according to claim 1, wherein: the gauge adjusting device further comprises a pair of vertical plates which are arranged at intervals in parallel, a plurality of transverse connecting columns are arranged between the two vertical plates, the top of each vertical plate is provided with a concave guide groove, one paper conveying assembly is arranged between the two vertical plates, and the conveying direction of the paper conveying assembly is parallel to the length direction of the vertical plates.

3. The stop gauge adjustment apparatus of a sheet folding mechanism according to claim 2, wherein: the transverse connecting columns are respectively arranged on two sides of the guide groove, one paper conveying assembly is arranged between the two transverse connecting columns, the transverse connecting columns are respectively arranged on two sides of the advancing direction of the paper conveying assembly, and two ends of the paper conveying assembly are respectively embedded in the guide groove.

4. The stop gauge adjustment apparatus of a sheet folding mechanism according to claim 1, wherein: the paper conveying assembly comprises a plurality of groups of paper conveying guide members which are arranged at intervals, wherein each paper conveying guide member comprises conveying plates which are arranged along the paper conveying direction and belt conveying members which are arranged at intervals with the conveying plates, and a conveying channel for paper to pass through is formed by the intervals between the conveying plates and the belt conveying members.

5. The stop gauge adjustment apparatus of a paper folding mechanism according to claim 4, wherein: the stop gauge assembly comprises stop gauge strips which are arranged along the width direction of the paper conveying assembly, a plurality of stop strips which prevent paper from passing are arranged at intervals of the stop gauge strips, the stop strips can be slidably arranged along the length direction of the stop gauge strips, the distance between two paper conveying guide pieces is larger than the width of the stop strips, and the distance between the stop strips penetrating through the paper conveying guide pieces is used for stopping the paper to pass through the stop gauge strips.

6. The paper folding mechanism's stop gauge adjusting device according to claim 5, wherein: the top of the stop bar is provided with a top sliding block, the top sliding block is provided with a sliding groove which slides back and forth along the stop bar, and the top sliding block is also provided with an tightness adjusting rod which is inserted into the sliding groove in a rotatable manner and is in tightness fit with the stop bar.

7. The stop gauge adjustment apparatus of a sheet folding mechanism according to claim 2, wherein: the driving shaft is arranged between the two vertical plates, the vertical plates are provided with bearing seats for the driving shaft to be inserted, the electric driving assembly comprises a servo motor arranged on one of the vertical plates, and the driving shaft is provided with a synchronous wheel in transmission connection with the servo motor.

8. The stop gauge adjustment apparatus of a paper folding mechanism according to claim 7, wherein: the manual driving assembly comprises a knob block arranged on the outer side of one of the vertical plates, the vertical plates are formed with driving holes for the driving shaft to pass through, one end of the driving shaft extends outwards, and the knob block is nested at the outer end of the driving shaft.

9. The stop gauge adjustment apparatus of a paper folding mechanism according to claim 8, wherein: one of them keep off rule subassembly of top folding mechanism is provided with the upset driving piece that drives the rotation of keep off rule strip, keeps off rule strip both ends install with direction member sliding fit's slip cap, the mount pad is installed to the slip cap, the mount pad shaping has the rotation hole, keep off rule strip both ends shaping respectively have with rotation hole coaxial coupling's axis of rotation.

10. The stop gauge adjustment apparatus of a sheet folding mechanism according to claim 2, wherein: the top folding mechanism comprises a plurality of pairs of folding rollers which are arranged in a clearance way, a vertical plate is formed with roller mounting holes for mounting the folding rollers, the diameter of one roller mounting hole is larger than that of the folding roller, two ends of the folding roller are respectively provided with a fixing sleeve, the fixing sleeves are arranged on the vertical plate in a swinging way, the vertical plate is provided with a telescopic rod, and the fixing sleeves are formed with connecting rods for movably connecting one end of the telescopic rod.