CN111619847A - Sealing washer equipment for packing - Google Patents

Abstract

The invention relates to the field of engineering machinery, in particular to a sealing ring packaging assembly. Sealing rings with different specifications can be packaged; packaging adhesive tapes with different specifications can be fixed, so that the sealing ring can be conveniently packaged; the packaging speed of the sealing ring can be adjusted according to actual conditions. Including encircleing the assembly, the assembly is fixed in the turnover, fixed assembly, the power supply assembly, start the input motor simultaneously, and then drive the input friction pulley and rotate, and then drive the transmission friction pulley through the input friction pulley and rotate, and then drive the cooperation friction pulley through the transmission friction pulley and rotate, and then drive the rotating sleeve and rotate, and then drive the motion of output belt through the output pulley, and then drive a bevel gear axle through the output belt and rotate, manual regulation slide bar that slides along supplementary slide bar simultaneously, and then adjust the position of use of cooperation friction pulley on the transmission friction pulley through adjusting the slide bar, and then make the slew velocity through output belt output change.

Description

Sealing washer equipment for packing

Technical Field

The invention relates to the field of engineering machinery, in particular to a sealing ring packaging device.

Background

The sealing ring packaging assembly is a common device in the field of engineering machinery, but the function of the common sealing ring packaging assembly is single.

Disclosure of Invention

The invention aims to provide sealing ring packaging equipment which can be used for packaging sealing rings with different specifications; packaging adhesive tapes with different specifications can be fixed, so that the sealing ring can be conveniently packaged; the packaging speed of the sealing ring can be adjusted according to actual conditions.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a sealing washer equipment for packing, is including encircleing assembly, the fixed assembly of turnover, fixed assembly, power supply assembly, its characterized in that: the surrounding assembly is connected with a turnover fixed assembly, the fixed assembly is connected with the turnover fixed assembly, and the power source assembly is connected with the fixed assembly.

As a further optimization of the technical scheme, the invention provides a sealing ring packaging device, wherein a surrounding assembly comprises an expansion frame, an expansion sliding frame, an inner end spherical clamping groove, a rubber belt underframe, an adjusting rotating frame, an inner end clamping rod I, an inner end clamping rod push spring I, an inner end sliding frame I, a driving outer frame, a prismatic clamping rod, an inner end sliding column, a sliding column push spring I and a bottom end sliding column, wherein the expansion frame is connected with the expansion sliding frame in a sliding manner, the inner end spherical clamping groove is arranged on the inner end spherical clamping groove, the inner end clamping rod I is connected with the expansion frame in a sliding manner, the inner end clamping rod push spring I is arranged between the inner end clamping rod I and the expansion frame, the inner end clamping rod I is connected with the inner end spherical clamping groove in a matching manner, the rubber belt underframe is fixedly connected with the expansion frame, the adjusting rotating frame is connected with the rubber belt underframe, the inner end sliding frame I is fixedly connected with the adjusting rotating frame, the, the driving outer frame is connected with the bottom sliding column in a sliding mode, the inner sliding column is fixedly connected with the driving outer frame, the prismatic clamping rod is connected with the inner sliding column in a sliding mode, the first sliding column pushing spring is connected with the inner sliding column in a sleeved mode, and the first sliding column pushing spring is arranged between the prismatic clamping rod and the inner sliding column.

As a further optimization of the technical scheme, the invention provides a sealing ring packaging device, wherein the turnover fixed assembly comprises a bottom frame, a bevel gear I, a bevel gear shaft I, a transmission belt I, a belt wheel I, a transmission belt III, a belt wheel II, a transmission belt II, a turnover sleeve I, a turnover roller I, a bevel gear II, an inner end spherical clamping rod, an inner end spherical push spring, an inner end spherical clamping groove and a belt wheel IV, wherein the bevel gear shaft I is rotatably connected with the bottom frame, the bevel gear I is fixedly connected with the bevel gear shaft I, the bevel gear II is rotatably connected with the bottom frame, the bevel gear II is fixedly connected with the turnover sleeve I, the inner end spherical clamping groove is arranged at the inner end of the turnover sleeve I, the inner end spherical clamping rod is slidably connected with the turnover roller I, the inner end spherical push spring is arranged between the inner end spherical clamping rod and the turnover roller I, the turnover sleeve I is slidably connected with the turnover roller I, the belt wheel IV is rotatably connected with the underframe, the transmission belt II is connected between the belt wheel III and the belt wheel II, the transmission belt III is connected between the belt wheel III and the belt wheel IV, the transmission belt I is connected between the belt wheel I and the belt wheel IV, the bevel gear II is in meshing transmission with the bevel gear I, and the expansion frame and the expansion sliding frame are in rolling connection between the belt wheel I, the belt wheel III, the belt wheel II and the belt wheel IV.

As a further optimization of the technical scheme, the invention provides a sealing ring packaging device, wherein a fixed assembly comprises a fixed bottom plate, an upper end support, a spherical matching clamping groove, a driving sliding frame, a hinged sliding rod push spring, a rectangular rotor, a fixed rotating rod, a first rolling sleeve, a second rolling sleeve, a matching sleeve, an inner end spherical clamp and an inner end spherical clamp push spring, the upper end support is fixedly connected with the fixed bottom plate, the spherical matching clamping groove is arranged on the upper end support, the driving sliding frame is slidably connected with the upper end support, the hinged sliding rod is slidably connected with the rectangular rotor, the hinged sliding rod push spring is connected with the hinged sliding rod in a sleeved mode, the rectangular rotor is rotatably connected with the driving sliding frame, the matching sleeve is hinged with the hinged sliding rod, the fixed rotating rod is rotatably connected with the upper end support, the inner end spherical clamp is slidably connected with the fixed rotating rod, the inner end spherical clamp, the inner spherical clamp is matched and connected with the spherical matching clamping groove, the first rolling sleeve and the second rolling sleeve are rotatably connected with the fixed rotating rod, and the underframe is fixedly connected with the fixed bottom plate.

As a further optimization of the technical scheme, the invention relates to a sealing ring packaging device, wherein a power source assembly comprises a bottom frame, an input motor, an input friction wheel, a transmission friction wheel, a matching friction wheel, an auxiliary sliding rod, a rotating sleeve, an output belt wheel and an adjusting sliding rod, the input motor is fixedly connected with the bottom frame, the input friction wheel is fixedly connected with the input motor, the input friction wheel is in friction transmission with the transmission friction wheel, the transmission friction wheel is rotatably connected with the bottom frame, the matching friction wheel is in friction transmission with the transmission friction wheel, the matching friction wheel is in sliding fit connection with the rotating sleeve, the output belt wheel is fixedly connected with the rotating sleeve, the output belt is in fit connection with the output belt wheel, the adjusting sliding rod is rotatably connected with the matching friction wheel, the adjusting sliding rod is in sliding connection with the auxiliary sliding rod, the auxiliary sliding rod is fixedly connected with the, the underframe is fixedly connected with the underframe.

The sealing ring packaging equipment has the beneficial effects that:

the invention relates to a sealing ring packaging device, which is characterized in that an input motor is started simultaneously, an input friction wheel is driven to rotate, a transmission friction wheel is driven to rotate through the input friction wheel, a matching friction wheel is driven to rotate through the transmission friction wheel, a rotating sleeve is driven to rotate, an output belt is driven to move through an output belt wheel, a bevel gear shaft is driven to rotate through the output belt, an adjusting slide rod slides along an auxiliary slide rod manually, the use position of the matching friction wheel on the transmission friction wheel is adjusted through the adjusting slide rod, and the rotating speed output through the output belt is changed.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic view of the structure of the surround assembly of the present invention;

FIG. 4 is a schematic view of a second structure of the surround assembly of the present invention;

FIG. 5 is a third schematic view of the structure of the surround assembly of the present invention;

FIG. 6 is a fourth schematic view of the structure of the surround assembly of the present invention;

FIG. 7 is a first schematic structural diagram of the epicyclic fixed assembly of the present invention;

FIG. 8 is a second schematic structural view of the epicyclic fixed assembly of the present invention;

FIG. 9 is a first schematic view of the fixing assembly of the present invention;

FIG. 10 is a second schematic view of the fixing assembly of the present invention;

FIG. 11 is a third schematic view of the fixing assembly of the present invention;

FIG. 12 is a first schematic view of the power source assembly of the present invention;

fig. 13 is a schematic structural diagram of a power source assembly according to the second embodiment of the present invention.

In the figure: surrounding the assembly 1; an expansion frame 1-1; an extension sliding frame 1-2; 1-3 spherical clamping grooves at the inner ends; 1-4 parts of adhesive tape underframe; adjusting the rotating frame 1-5; the inner end clamping rod I is 1-6; the inner end clamping rod pushes a spring 1-7; 1-8 inner end sliding frames; driving the outer frames 1-9; 1-10 of prismatic clamping bars; inner end sliding columns 1-11; 1-12 of a sliding column push spring; 1-13 of a bottom sliding column; a revolving fixed assembly 2; a chassis 2-1; 2-2 parts of a first bevel gear; 2-3 of a bevel gear shaft I; 2-4 parts of a first transmission belt; 2-5 of a belt wheel I; a third transmission belt 2-6; belt wheels III 2-7; 2-10 of a second belt wheel; 2-11 parts of a second transmission belt; 2-12 parts of a turnover casing pipe I; 2-13 parts of a turnover roller; 2-14 parts of a second bevel gear; 2-15 parts of spherical clamping rod at the inner end; inner end spherical push springs 2-16; 2-17 of spherical clamping groove at the inner end; belt wheels four 2-18; a fixed assembly 3; a fixed base plate 3-1; an upper end bracket 3-2; 3-3 of spherical matching clamping grooves; a drive carriage 3-4; hinged sliding rods 3-5; hinged sliding rod push spring 3-6; 3-7 of a rectangular rotor; 3-8 of a fixed rotating rod; 3-9 parts of a rolling sleeve; 3-10 parts of a rolling sleeve II; matching the sleeve 3-11; 3-12 parts of inner end spherical clips; the inner end of the ball-shaped clamp pushes 3-13 springs; a power source assembly 4; a chassis 4-1; inputting a motor 4-2; 4-3 of an input friction wheel; 4-4 parts of a transmission friction wheel; 4-5 of a matching friction wheel; 4-6 of auxiliary slide bar; rotating the sleeve 4-7; 4-8 parts of an output belt; an output belt wheel 4-9; and 4-10 adjusting slide bars.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes this embodiment with reference to fig. 1 to 13, and a sealing ring packaging apparatus includes a surrounding assembly 1, a revolving fixed assembly 2, a fixed assembly 3, and a power source assembly 4, and is characterized in that: the surrounding assembly 1 is connected with the turnover fixed assembly 2, the fixed assembly 3 is connected with the turnover fixed assembly 2, and the power source assembly 4 is connected with the fixed assembly 3.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1-13, and the present embodiment further describes the first embodiment, where the surrounding assembly 1 includes an extension frame 1-1, an extension sliding frame 1-2, an inner end spherical slot 1-3, an adhesive tape base frame 1-4, an adjustment rotating frame 1-5, an inner end clamping rod 1-6, an inner end clamping rod pushing spring 1-7, an inner end sliding frame 1-8, a driving outer frame 1-9, a prismatic clamping rod 1-10, an inner end sliding column 1-11, a sliding column pushing spring 1-12, a bottom end sliding column 1-13, the extension frame 1-1 is slidably connected with the extension sliding frame 1-2, the inner end spherical slot 1-3 is disposed on the inner end spherical slot 1-3, the inner end clamping rod 1-6 is slidably connected with the extension frame 1-1, an inner end clamping rod push spring I1-7 is arranged between an inner end clamping rod I1-6 and an expansion frame 1-1, the inner end clamping rod I1-6 is matched and connected with an inner end spherical clamping groove 1-3, a rubber belt bottom frame 1-4 is fixedly connected with the expansion frame 1-1, an adjusting rotating frame 1-5 is rotatably connected with the rubber belt bottom frame 1-4, an inner end sliding frame I1-8 is fixedly connected with the adjusting rotating frame 1-5, a driving outer frame 1-9 is slidably connected with an inner end sliding frame I1-8, a bottom end sliding column 1-13 is fixedly connected with the rubber belt bottom frame 1-4, the driving outer frame 1-9 is slidably connected with a bottom end sliding column 1-13, an inner end sliding column 1-11 is fixedly connected with the driving outer frame 1-9, and a prismatic clamping rod 1-10 is slidably connected with an inner end sliding column 1-11, the sliding column push springs I1-12 are connected with the sliding columns 1-11 at the inner ends in a sleeved mode, and the sliding column push springs I1-12 are arranged between the prismatic clamping rods 1-10 and the sliding columns 1-11 at the inner ends.

The third concrete implementation mode:

the embodiment is described below by combining with figures 1-13, and the embodiment further describes the first embodiment, the revolving fixed assembly 2 comprises a bottom frame 2-1, a first conical tooth 2-2, a first conical tooth shaft 2-3, a first transmission belt 2-4, a first belt wheel 2-5, a third transmission belt 2-6, a third belt wheel 2-7, a second belt wheel 2-10, a second transmission belt 2-11, a first revolving sleeve 2-12, a first revolving roller shaft 2-13, a second conical tooth 2-14, an inner end spherical clamping rod 2-15, an inner end spherical push spring 2-16, an inner end spherical clamping groove 2-17 and a fourth belt wheel 2-18, wherein the first conical tooth shaft 2-3 is rotatably connected with the bottom frame 2-1, the first conical tooth 2-2 is fixedly connected with the first conical tooth shaft 2-3, the second conical tooth 2-14 is rotatably connected with the bottom frame 2-1, the bevel gear II 2-14 is fixedly connected with the first turnover sleeve 2-12, the spherical clamping groove 2-17 at the inner end is arranged at the inner end of the first turnover sleeve 2-12, the spherical clamping rod 2-15 at the inner end is connected with the first turnover roller 2-13 in a sliding way, the spherical push spring 2-16 at the inner end is arranged between the spherical clamping rod 2-15 at the inner end and the first turnover roller 2-13, the first turnover sleeve 2-12 is connected with the first turnover roller 2-13 in a sliding way, the first belt wheel 2-5, the third belt wheel 2-7, the second belt wheel 2-10, the fourth belt wheel 2-18 are connected with the underframe 2-1 in a rotating way, the second transmission belt 2-11 is connected between the third belt wheel 2-7 and the second belt wheel 2-10, the third transmission belt 2-6 is connected between the third belt wheel 2-, the transmission belt I2-4 is connected between the belt wheel I2-5 and the belt wheel IV 2-18, the bevel gear II 2-14 is in meshing transmission with the bevel gear I2-2, and the expansion frame 1-1 and the expansion sliding frame 1-2 are in rolling connection between the belt wheel I2-5, the belt wheel III 2-7, the belt wheel II 2-10 and the belt wheel IV 2-18.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-13, and the embodiment further describes the first embodiment, where the fixed assembly 3 includes a fixed bottom plate 3-1, an upper end bracket 3-2, a spherical matching slot 3-3, a driving carriage 3-4, a hinged slide bar 3-5, a hinged slide bar push spring 3-6, a rectangular rotor 3-7, a fixed rotating rod 3-8, a rolling sleeve one 3-9, a rolling sleeve two 3-10, a matching sleeve 3-11, an inner end spherical clip 3-12, and an inner end spherical clip push spring 3-13, the upper end bracket 3-2 is fixedly connected with the fixed bottom plate 3-1, the spherical matching slot 3-3 is arranged on the upper end bracket 3-2, the driving carriage 3-4 is slidably connected with the upper end bracket 3-2, a hinged slide bar 3-5 is connected with a rectangular rotor 3-7 in a sliding way, a hinged slide bar push spring 3-6 is connected with the hinged slide bar 3-5 in a sleeved way, the rectangular rotor 3-7 is connected with a driving carriage 3-4 in a rotating way, a matching sleeve 3-11 is connected with the hinged slide bar 3-5 in a hinged way, a fixed rotating bar 3-8 is connected with an upper end bracket 3-2 in a rotating way, an inner end spherical clamp 3-12 is connected with the fixed rotating bar 3-8 in a sliding way, an inner end spherical clamp push spring 3-13 is arranged between the inner end spherical clamp 3-12 and the fixed rotating bar 3-8, the inner end spherical clamp 3-12 is connected with a spherical matching clamping groove 3-3 in a matching way, and a rolling sleeve, the rolling sleeve II 3-10 is rotatably connected with the fixed rotating rod 3-8, and the bottom frame 2-1 is fixedly connected with the fixed bottom plate 3-1.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 13, and the embodiment further describes the first embodiment, where the power source assembly 4 includes a bottom frame 4-1, an input motor 4-2, an input friction wheel 4-3, a transmission friction wheel 4-4, a matching friction wheel 4-5, an auxiliary slide bar 4-6, a rotating sleeve 4-7, an output belt 4-8, an output belt wheel 4-9, and an adjusting slide bar 4-10, the input motor 4-2 is fixedly connected with the bottom frame 4-1, the input friction wheel 4-3 is fixedly connected with the input motor 4-2, the input friction wheel 4-3 is in friction transmission with the transmission friction wheel 4-4, the transmission friction wheel 4-4 is in rotation connection with the bottom frame 4-1, and the matching friction wheel 4-5 is in friction transmission with the transmission friction wheel 4-4, the matched friction wheel 4-5 is connected with the rotating sleeve 4-7 in a sliding fit manner, the output belt wheel 4-9 is fixedly connected with the rotating sleeve 4-7, the output belt 4-8 is connected with the output belt wheel 4-9 in a matching manner, the adjusting slide bar 4-10 is connected with the matched friction wheel 4-5 in a rotating fit manner, the adjusting slide bar 4-10 is connected with the auxiliary slide bar 4-6 in a sliding manner, the auxiliary slide bar 4-6 is fixedly connected with the bottom frame 4-1, the output belt 4-8 is connected with the first bevel gear shaft 2-3 in a matching manner, and the bottom frame 4-1 is fixedly connected with the bottom frame 2-1;

simultaneously, the input motor 4-2 is started, and then the input friction wheel 4-3 is driven to rotate, the input friction wheel 4-3 drives the transmission friction wheel 4-4 to rotate, the transmission friction wheel 4-4 drives the matching friction wheel 4-5 to rotate, thereby driving the rotating sleeve 4-7 to rotate, further driving the output belt 4-8 to move through the output belt wheel 4-9, further drives the bevel gear shaft I2-3 to rotate through the output belt 4-8, and simultaneously manually slides the adjusting slide bar 4-10 along the auxiliary slide bar 4-6, and the use position of the matched friction wheel 4-5 on the transmission friction wheel 4-4 is adjusted through the adjusting slide rod 4-10, so that the rotating speed output through the output belt 4-8 is changed.

The invention relates to a sealing ring packaging device, which has the working principle that:

when the sealing adhesive tape is used, a sealing adhesive tape used for packaging is placed between the prismatic clamping rods 1-10, the inner end face of the sealing adhesive tape is attached to the prismatic clamping rods 1-10, the adjusting rotating frame 1-5 is manually rotated, the adjusting rotating frame 1-5 drives the inner end sliding frame 1-8 to move, the inner end sliding frame 1-8 drives the driving outer frame 1-9 to move, the driving outer frame 1-9 slides on the bottom sliding columns 1-13, the using positions of the prismatic clamping rods 1-10 are adjusted, and meanwhile the prismatic clamping rods 1-10 are in contact with the sealing adhesive tape, so that the sealing adhesive tape is fixed; meanwhile, in order to adapt to sealing tapes of different specifications, when the prismatic clamping rods 1-10 are driven by the adjusting rotating frames 1-5 to slide along the sliding columns 1-13 at the bottom ends, the distance between the prismatic clamping rods 1-10 is changed, the prismatic clamping rods 1-10 are convenient to adapt to the sealing tapes of different specifications, and the sealing tapes of different specifications are fixed; the bevel gear shaft I2-3 rotates to drive the bevel gear I2-2 to rotate, and the bevel gear shaft I2-3 drives the belt wheel II 2-18 to rotate simultaneously and respectively through a transmission belt I2-4; the transmission belts III 2-6 respectively drive the belt wheels I2-5; the third belt wheel 2-7 rotates, and the second belt wheel 2-10 is driven to rotate by the second transmission belt 2-11 and passes through the first belt wheel 2-5; 2-10 of a second belt wheel; belt wheels III 2-7; the belt wheel four 2-18 further drives the expansion frame 1-1; the expanding sliding frame 1-2 rotates, simultaneously drives the sealing adhesive tape to rotate, further drives the sealing adhesive tape to perform turnover movement, and simultaneously realizes the surrounding of the sealing adhesive tape on the sealing ring through the turnover movement of the sealing adhesive tape, thereby realizing the sealing of the sealing ring; meanwhile, the first bevel gear 2-2 rotates to drive the second bevel gear 2-14 to rotate, and further drive the first turnover sleeve 2-12 to rotate, and further drive the first turnover roller 2-13 to rotate through the matched connection of the inner end spherical clamping rod 2-15 and the inner end spherical clamping groove 2-17, so that the sealing ring is driven to rotate, and further the sealing tape is convenient to wind; simultaneously, sliding a driving sliding frame 3-4 along the upper end bracket 3-2, driving a fixed rotating rod 3-8 to move along the upper end bracket 3-2 through the driving sliding frame 3-4, and meanwhile, passing through a rolling sleeve I3-9 on the fixed rotating rod 3-8; the rolling sleeve II 3-10 is in contact with the sealing ring, so that the sealing ring is fixed; simultaneously, the input motor 4-2 is started, and then the input friction wheel 4-3 is driven to rotate, the input friction wheel 4-3 drives the transmission friction wheel 4-4 to rotate, the transmission friction wheel 4-4 drives the matching friction wheel 4-5 to rotate, thereby driving the rotating sleeve 4-7 to rotate, further driving the output belt 4-8 to move through the output belt wheel 4-9, further drives the bevel gear shaft I2-3 to rotate through the output belt 4-8, and simultaneously manually slides the adjusting slide bar 4-10 along the auxiliary slide bar 4-6, and the use position of the matched friction wheel 4-5 on the transmission friction wheel 4-4 is adjusted through the adjusting slide rod 4-10, so that the rotating speed output through the output belt 4-8 is changed.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a sealing washer packing assembly, is including encircleing assembly (1), the fixed assembly of turnover (2), fixed assembly (3), power supply assembly (4), its characterized in that: the surrounding assembly (1) is connected with the turnover fixing assembly (2), the fixing assembly (3) is connected with the turnover fixing assembly (2), and the power source assembly (4) is connected with the fixing assembly (3).

2. A packing combination of a gasket ring as set forth in claim 1, wherein: the surrounding assembly (1) comprises an expansion frame (1-1), an expansion sliding frame (1-2), an inner end spherical clamping groove (1-3), an adhesive tape underframe (1-4), an adjusting rotating frame (1-5), an inner end clamping rod I (1-6), an inner end clamping rod push spring I (1-7), an inner end sliding frame I (1-8), a driving outer frame (1-9), a prismatic clamping rod (1-10), an inner end sliding column (1-11), a sliding column push spring I (1-12) and a bottom end sliding column (1-13), wherein the expansion frame (1-1) is in sliding connection with the expansion sliding frame (1-2), the inner end spherical clamping groove (1-3) is arranged on the inner end spherical clamping groove (1-3), and the inner end clamping rod I (1-6) is in sliding connection with the expansion frame (1-1), an inner end clamping rod push spring I (1-7) is arranged between the inner end clamping rod I (1-6) and the expansion frame (1-1), the inner end clamping rod I (1-6) is matched and connected with an inner end spherical clamping groove (1-3), the adhesive tape underframe (1-4) is fixedly connected with the expansion frame (1-1), the adjusting rotating frame (1-5) is rotatably connected with the adhesive tape underframe (1-4), the inner end sliding frame I (1-8) is fixedly connected with the adjusting rotating frame (1-5), the driving outer frame (1-9) is slidably connected with the inner end sliding frame I (1-8), the bottom end sliding column (1-13) is fixedly connected with the adhesive tape underframe (1-4), the driving outer frame (1-9) is slidably connected with the bottom end sliding column (1-13), the inner end sliding column (1-11) is fixedly connected with the driving outer frame (1-9), prismatic clamping rods (1-10) are connected with inner end sliding columns (1-11) in a sliding mode, sliding column pushing springs I (1-12) are connected with the inner end sliding columns (1-11) in a sleeved mode, and the sliding column pushing springs I (1-12) are arranged between the prismatic clamping rods (1-10) and the inner end sliding columns (1-11).

3. A packing combination of a gasket ring as set forth in claim 1, wherein: the turnover fixed assembly (2) comprises an underframe (2-1), a bevel gear I (2-2), a bevel gear shaft I (2-3), a transmission belt I (2-4), a belt wheel I (2-5), a transmission belt III (2-6), a belt wheel III (2-7), a belt wheel II (2-10), a transmission belt II (2-11), a turnover sleeve I (2-12), a turnover roller I (2-13), a bevel gear II (2-14), an inner end spherical clamping rod (2-15), an inner end spherical push spring (2-16), an inner end spherical clamping groove (2-17) and a belt wheel IV (2-18), wherein the bevel gear shaft I (2-3) is rotatably connected with the underframe (2-1), and the bevel gear I (2-2) is fixedly connected with the bevel gear shaft I (2-3), a bevel gear II (2-14) is rotatably connected with the bottom frame (2-1), the bevel gear II (2-14) is fixedly connected with a turnover sleeve I (2-12), an inner end spherical clamping groove (2-17) is arranged at the inner end of the turnover sleeve I (2-12), an inner end spherical clamping rod (2-15) is slidably connected with a turnover roller I (2-13), an inner end spherical push spring (2-16) is arranged between the inner end spherical clamping rod (2-15) and the turnover roller I (2-13), the turnover sleeve I (2-12) is slidably connected with the turnover roller I (2-13), a belt wheel I (2-5), a belt wheel III (2-7), a belt wheel II (2-10), a belt wheel IV (2-18) is rotatably connected with the bottom frame (2-1), and a transmission belt II (2-11) is connected with the belt wheel III (2-7), The expansion frame (1-1) and the expansion sliding frame (1-2) are in rolling connection with the first belt wheel (2-5), the third belt wheel (2-7), the second belt wheel (2-10) and the fourth belt wheel (2-18).

4. A packing combination of a gasket ring as set forth in claim 1, wherein: the fixed assembly (3) comprises a fixed bottom plate (3-1), an upper end support (3-2), a spherical matching clamping groove (3-3), a driving sliding frame (3-4), a hinged sliding rod (3-5), a hinged sliding rod push spring (3-6), a rectangular rotor (3-7), a fixed rotating rod (3-8), a rolling sleeve I (3-9), a rolling sleeve II (3-10), a matching sleeve (3-11), an inner end spherical clamp (3-12) and an inner end spherical clamp push spring (3-13), the upper end support (3-2) is fixedly connected with the fixed bottom plate (3-1), the spherical matching clamping groove (3-3) is arranged on the upper end support (3-2), and the driving sliding frame (3-4) is connected with the upper end support (3-2) in a sliding manner, a hinged sliding rod (3-5) is connected with a rectangular rotor (3-7) in a sliding way, a hinged sliding rod push spring (3-6) is connected with the hinged sliding rod (3-5) in a sleeved way, the rectangular rotor (3-7) is connected with a driving sliding frame (3-4) in a rotating way, a matching sleeve (3-11) is connected with the hinged sliding rod (3-5) in a hinged way, a fixed rotating rod (3-8) is connected with an upper end bracket (3-2) in a rotating way, an inner end spherical clamp (3-12) is connected with the fixed rotating rod (3-8) in a sliding way, an inner end spherical clamp push spring (3-13) is arranged between the inner end spherical clamp (3-12) and the fixed rotating rod (3-8), the inner end spherical clamp (3-12) is connected with a spherical matching clamping groove (3-3), and a rolling sleeve I (3-9), The rolling sleeve II (3-10) is rotationally connected with the fixed rotating rod (3-8), and the bottom frame (2-1) is fixedly connected with the fixed bottom plate (3-1).

5. A packing combination of a gasket ring as set forth in claim 1, wherein: the power source assembly (4) comprises a bottom frame (4-1), an input motor (4-2), an input friction wheel (4-3), a transmission friction wheel (4-4), a matching friction wheel (4-5), an auxiliary slide bar (4-6), a rotating sleeve (4-7), an output belt (4-8), an output belt wheel (4-9) and an adjusting slide bar (4-10), wherein the input motor (4-2) is fixedly connected with the bottom frame (4-1), the input friction wheel (4-3) is fixedly connected with the input motor (4-2), the input friction wheel (4-3) is in friction transmission with the transmission friction wheel (4-4), the transmission friction wheel (4-4) is rotatably connected with the bottom frame (4-1), and the matching friction wheel (4-5) is in friction transmission with the transmission friction wheel (4-4), the matched friction wheel (4-5) is connected with the rotating sleeve (4-7) in a sliding fit mode, the output belt wheel (4-9) is fixedly connected with the rotating sleeve (4-7), the output belt (4-8) is connected with the output belt wheel (4-9) in a matching mode, the adjusting slide rod (4-10) is connected with the matched friction wheel (4-5) in a rotating fit mode, the adjusting slide rod (4-10) is connected with the auxiliary slide rod (4-6) in a sliding mode, the auxiliary slide rod (4-6) is fixedly connected with the bottom frame (4-1), the output belt (4-8) is connected with the bevel gear shaft I (2-3) in a matching mode, and the bottom frame (4-1) is fixedly connected with the bottom frame (2-1).

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