CN117824934A - Detect front fork sealing device - Google Patents

Abstract

The invention relates to the technical field of front fork detection, and discloses a front fork detection sealing device, which comprises: the device comprises a detection assembly, a feeding assembly, a discharging assembly and a front fork, wherein the feeding assembly is positioned at the feeding end of the detection assembly, the discharging assembly is positioned at the discharging end of the detection assembly, the front fork is placed on the feeding assembly, the feeding assembly conveys the front fork to the left side edge of the detection assembly, the detection assembly clamps the front fork on the feeding assembly, the front fork is subjected to air tightness detection, and then the front fork is placed on the discharging assembly and conveyed away; the detection assembly comprises a top plate and a bottom plate B. This detect fork sealing device, by the material loading, the location of mechanical completion front fork, but not only accurate positioning, also labour saving and time saving reduces the labour that detects, and then improves the detection effect, and need not the manual work and pressurize and seal the front fork, can guarantee when carrying out the gas tightness to the front fork and detect, the inside leakproofness of front fork to guarantee the accuracy to the front fork gas tightness detection.

Description

Detect front fork sealing device

Technical Field

The invention relates to the technical field of front fork processing, in particular to front fork detection sealing equipment.

Background

The front fork part is located in the front part of the bicycle structure, the upper end of the front fork part is connected with the handlebar part, the frame part is matched with the front pipe, and the lower end of the front fork part is matched with the front shaft part to form a guiding system of the bicycle. The working sequence of the front fork should be: the front fork is compressed to the pole and rebounded to the original length (the rebounded speed is affected by damping), and the bouncing system finishes working.

Because the inside gas tightness that needs to be guaranteed of front fork, front fork need detect its gas tightness after processing is accomplished, and current leak test mode is manual with the front fork manual seal and pressurization put into in water, and manual seal can't guarantee the leakproofness of front fork, and the sealing effect is poor easily appears, detects the condition of making mistakes to, manual detection labour is higher, and detection efficiency is lower.

Disclosure of Invention

The invention aims to provide a front fork sealing device for detection, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a front fork seal apparatus comprising:

the device comprises a detection assembly, a feeding assembly, a discharging assembly and a front fork, wherein the feeding assembly is positioned at the feeding end of the detection assembly, the discharging assembly is positioned at the discharging end of the detection assembly, the front fork is placed on the feeding assembly, the feeding assembly conveys the front fork to the left side edge of the detection assembly, the detection assembly clamps the front fork on the feeding assembly, the front fork is subjected to air tightness detection, and then the front fork is placed on the discharging assembly and conveyed away;

the detection assembly comprises a top plate and a bottom plate B, upright posts are welded between four corners of opposite faces of the top plate and the bottom plate B, a water tank is welded at the top of the bottom plate B, and a drain pipe is arranged at a drain outlet of the water tank;

the top of the top plate is provided with an electric telescopic rod B, the movable end of the electric telescopic rod B is positioned below the top plate and is fixedly connected with a lifting plate, four corners of the top of the lifting plate are provided with linear bearings, four corners of the bottom of the lifting plate are provided with connecting rods, and detection main bodies are arranged between the bottoms of the four connecting rods and are used for locking and injecting water into a front fork and inflating the front fork to complete air tightness detection in a matching manner;

the middle part at roof top is installed front fork locking structure, and front fork locking structure is used for pressing from both sides tightly the front fork.

As a further scheme of the invention: the front fork locking structure comprises a transverse plate, a telescopic rod penetrating opening through which an electric telescopic rod B penetrates is formed in the middle of the top of the transverse plate, electric telescopic rods C are arranged on two sides of the top of the transverse plate, a suspension plate is fixedly connected to the movable end of each electric telescopic rod C, a sliding plate is transversely arranged at the bottom of each suspension plate in a sliding mode, two electric telescopic rods E are arranged at the bottom of each sliding plate, a clamping plate is fixedly connected to the movable end of each electric telescopic rod E, and an arc-shaped groove A is formed in one side of each clamping plate.

As still further aspects of the invention: two groups of wire strips are installed at the bottom of the suspension board, two groups of limit sliding grooves are formed in the top of the sliding board, an electric telescopic rod D is further installed at the bottom of the suspension board, and the movable end of the electric telescopic rod D is connected with one side of the sliding board.

As still further aspects of the invention: the detection main body comprises a bearing plate, two reserved openings are formed in two sides of the top of the bearing plate in a penetrating mode, a transverse bar is arranged on the left side of the top of the bearing plate, a vertical bar is welded on the top of the transverse bar, positioning columns are arranged at the front position and the rear position of the right side of the vertical bar, a placing seat is arranged at the front position and the rear position of the two sides of the top of the bearing plate, an arc-shaped groove B is formed in the top of the placing seat, an L-shaped plate is arranged at the front position and the rear position of the right side of the top of the bearing plate, a push-pull rod is fixedly connected to the movable end of the L-shaped plate, and an air injection structure is connected to the left side end of the push-pull rod.

As still further aspects of the invention: the sliding blocks are arranged at the front and rear positions on the right side of the top of the bearing plate, sliding holes which are in sliding connection with the push-pull rod are formed in the sliding blocks, and meanwhile the sliding blocks are located on the left side of the air cylinder B.

As still further aspects of the invention: the top of loading board and the position department that corresponds every and place the seat all install cylinder A, and cylinder A's active end fixedly connected with rotating electrical machines, rotating electrical machines's drive end fixedly connected with clamp plate, the recess has been seted up to the bottom of clamp plate, and the inside of recess is installed the elastic block through the bolt.

As still further aspects of the invention: the gas injection structure comprises a cross column, an installation cavity is formed in the outer wall of the cross column, a cross tube is installed at one end, far away from the push-pull rod, of the cross column in a penetrating mode, an L-shaped gas inlet pipe is welded at a gas inlet of the cross tube, an annular groove is formed in one side of the outer wall of the cross column, and a sealing ring is sleeved in the annular groove.

As still further aspects of the invention: the feeding assembly is consistent with the blanking assembly in structure, the blanking assembly comprises a bottom plate A, vertical plates are symmetrically welded at the top of the bottom plate A by taking a central axis as a symmetry line, a translation plate is slidably installed between the two vertical plates, and a conveyor is installed at the top of the translation plate.

As still further aspects of the invention: an electric telescopic rod A is arranged between the opposite surfaces of the two vertical plates, the movable end of the electric telescopic rod A is fixedly connected with a linkage bar, the opposite surfaces of the two vertical plates are respectively provided with a sliding bar, and the translation plate is provided with a sliding groove in sliding connection with the sliding bars.

As still further aspects of the invention: the conveyor comprises two rollers, a conveyor belt is arranged between the two rollers, a plurality of groups of arc limiting blocks are arranged on the outer wall of the conveyor belt at equal intervals, a driving motor is further arranged at the top of the translation plate, and the driving end of the driving motor is in transmission connection with one side of the rollers through a belt pulley transmission piece.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the feeding and positioning of the front fork are completed by machinery, so that the front fork can be accurately positioned, time and labor are saved, the detection labor force is reduced, the detection effect is further improved, the front fork is not required to be pressurized and sealed manually, the tightness of the inside of the front fork can be ensured when the air tightness of the front fork is detected, and the accuracy of the air tightness detection of the front fork is ensured.

According to the invention, the translation plate slides between the sliding groove formed in the translation plate and the sliding strip, and the sliding strip plays a role in sliding and supporting the translation plate, so that the stability of the translation plate during translation is ensured, the translation plate is prevented from falling downwards due to heavy load, and the stability of the device during use is improved.

According to the front fork locking structure, the front fork is taken down from the feeding assembly and placed on the detection main body for air tightness detection, and the front fork placed on the detection main body can be taken down and placed on the discharging assembly.

According to the invention, the front fork is pressed on the placing seat downwards from the top of the front fork by the elastic block, so that the front fork is prevented from floating upwards under the influence of buoyancy of water after being immersed in the water, the firmness of locking and holding of the front fork on the bearing plate is ensured, meanwhile, the elastic block is contacted and pressed with the front fork, the damage caused by trace left on the front fork is avoided, and the outer surface of a workpiece is protected.

The principle of the air injection structure is that when the cross column enters the inner cavity of the front fork, the sealing ring can contact and rub with the inner wall of the inner cavity, so that gaps left between the cross column and the front fork are avoided, tightness before front fork detection is guaranteed, and the air pump conveys air to the inner part of the cross tube through the L-shaped air inlet tube and is guided into the inner part of the front fork through the cross tube.

Drawings

FIG. 1 is a schematic diagram of a front fork seal apparatus;

FIG. 2 is a schematic diagram of a structure for detecting a blanking component in a front fork sealing device;

FIG. 3 is a schematic view of a detecting assembly in a front fork sealing device;

FIG. 4 is a schematic view of a structure for inspecting a top plate in a front fork sealing apparatus;

FIG. 5 is a schematic view of a structure of a cross plate in a front fork seal apparatus;

FIG. 6 is a schematic view of a structure for detecting a cantilever plate in a front fork sealing apparatus;

FIG. 7 is a schematic view of a structure for inspecting a carrier plate in a front fork sealing apparatus;

FIG. 8 is a schematic view of a structure for detecting a cross-post in a front fork sealing apparatus;

fig. 9 is a schematic structural view of a front fork in the front fork sealing device.

In the figure: the detection assembly 1, the feeding assembly 2, the blanking assembly 3, the bottom plate A4, the vertical plate 5, the electric telescopic rod A6, the sliding bar 7, the driving motor 8, the belt pulley transmission piece 9, the arc limiting block 10, the conveying belt 11, the translation plate 12, the roller 13, the linkage bar 14, the top plate 15, the connecting rod 16, the vertical column 17, the water tank 18, the bottom plate B19, the detection main body 20, the drain pipe 21, the linear bearing 22, the front fork locking structure 23, the electric telescopic rod B24, the lifting plate 25, the transverse plate 26, the electric telescopic rod C27, the telescopic rod penetrating opening 28, the suspension plate 29, the electric telescopic rod D30, the wire bar 31, the limiting chute 32, the sliding plate 33, the electric telescopic rod E34, the clamping plate 35, the arc groove A36, the bearing plate 37, the reserved opening 38, the elastic block 39, the groove 40, the pressing plate 41, the air cylinder A42, the rotating motor 43, the L-shaped plate 44, the air cylinder B45, the vertical rod 46, the sliding block 47, the air injection structure 48, the arc groove B49, the placement seat 50, the push-pull column 51, the vertical rod 52, the transverse rod 53, the transverse rod 54, the mounting cavity 55, the air inlet pipe 57, the annular groove 58, the L-shaped groove 59.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 9, the present invention proposes a technical solution, a front fork sealing device for detection, comprising:

the detection assembly 1, the feeding assembly 2, the discharging assembly 3 and the front fork, wherein the feeding assembly 2 is positioned at the feeding end of the detection assembly 1, the discharging assembly 3 is positioned at the discharging end of the detection assembly 1, the front fork is placed on the feeding assembly 2, the front fork is conveyed to the left side edge of the detection assembly 1 by the feeding assembly 2, the front fork on the feeding assembly 2 is clamped by the detection assembly 1, the front fork is subjected to airtight detection, and then is placed on the discharging assembly 3 to be conveyed away;

the detection assembly 1 comprises a top plate 15 and a bottom plate B19, wherein upright posts 17 are welded between four corners of opposite surfaces of the top plate 15 and the bottom plate B19, a water tank 18 is welded at the top of the bottom plate B19, a drain pipe 21 is arranged at a drain outlet of the water tank 18, and a control valve is arranged on the drain pipe 21;

an electric telescopic rod B24 is arranged at the top of the top plate 15, the movable end of the electric telescopic rod B24 is positioned below the top plate 15 and is fixedly connected with a lifting plate 25, linear bearings 22 are arranged at four corners of the top of the lifting plate 25, the linear bearings 22 are in sliding connection with the top plate 15, connecting rods 16 are arranged at four corners of the bottom of the lifting plate 25, a detection main body 20 is arranged between the bottoms of the four connecting rods 16, and the detection main body 20 is used for locking and injecting water into a front fork and inflating the front fork to complete air tightness detection in a matched manner;

a front fork locking structure 23 is mounted in the middle of the top plate 15, and the front fork locking structure 23 is used for clamping the front fork.

The front fork to be detected is placed on the feeding component 2 and is conveyed to the feeding end of the detecting component 1 by the feeding component 2, the front fork at the discharging end of the feeding component 2 is clamped by the detecting component 1, the clamped front fork is placed in water, the side edge of the detecting component 1 is manually stood, whether bubbles are generated near the front fork or not is observed, whether leakage exists or not is observed, the detected front fork is placed on the discharging component 3 after detection is finished, the discharging component 3 conveys away the front fork, the front fork is only required to be placed on the feeding component 2, the subsequent detection process is almost finished by machinery, the front fork is clamped by machinery, the air tightness is detected after the front fork is placed in water, the air tightness is detected by the front fork, the front fork is fed and positioned by machinery, not only the accurate positioning is realized, but also time and labor are saved, the detection effect is improved, the air tightness is not required to be manually pressurized and the front fork is sealed, and the air tightness of the front fork is guaranteed when the front fork is detected, so that the air tightness of the front fork is guaranteed.

The front fork locking structure 23 comprises a transverse plate 26, a telescopic rod penetrating opening 28 through which an electric telescopic rod B24 penetrates is formed in the middle of the top of the transverse plate 26, electric telescopic rods C27 are mounted on two sides of the top of the transverse plate 26, movable ends of the electric telescopic rods C27 are located below the transverse plate 26, a suspension plate 29 is fixedly connected to the movable ends of the electric telescopic rods C27, a sliding plate 33 is transversely mounted at the bottom of the suspension plate 29 in a sliding mode, two electric telescopic rods E34 are mounted at the bottom of the sliding plate 33, clamping plates 35 are fixedly connected to the movable ends of the electric telescopic rods E34, and arc-shaped grooves A36 are formed in one sides of the clamping plates 35.

Two groups of wire strips 31 are installed at the bottom of the suspension plate 29, two groups of limiting sliding grooves 32 are formed in the top of the sliding plate 33, meanwhile, the wire strips 31 slide in the limiting sliding grooves 32, an electric telescopic rod D30 is further installed at the bottom of the suspension plate 29, the movable end of the electric telescopic rod D30 is connected with one side of the sliding plate 33, and the electric telescopic rod D30 is located between the two groups of wire strips 31.

The detection main body 20 comprises a bearing plate 37, two reserved openings 38 are formed in the two sides of the top of the bearing plate 37 in a penetrating mode, a transverse bar 53 is arranged on the left side of the top of the bearing plate 37, a vertical bar 52 is welded on the top of the transverse bar 53, positioning columns 51 are arranged at the front position and the rear position of the right side of the vertical bar 52, a placement seat 50 is arranged at the front position and the rear position of the two sides of the top of the bearing plate 37, an arc-shaped groove B49 is formed in the top of the placement seat 50, an L-shaped plate 44 is arranged at the front position and the rear position of the right side of the top of the bearing plate 37, a push-pull rod 46 is fixedly connected to the movable end of the L-shaped plate 44, and an air injection structure 48 is connected to the left side end of the push-pull rod 46.

The front and rear positions on the right side of the top of the bearing plate 37 are respectively provided with a sliding block 47, the sliding blocks 47 are provided with sliding holes which are in sliding connection with the push-pull rod 46, and meanwhile, the sliding blocks 47 are positioned on the left side of the air cylinder B45.

The cylinder A42 is installed at the top of the bearing plate 37 and corresponds to the position of each placement seat 50, the movable end of the cylinder A42 is fixedly connected with the rotating motor 43, the driving end of the rotating motor 43 is fixedly connected with the pressing plate 41, the bottom of the pressing plate 41 is provided with the groove 40, the elastic block 39 is installed in the groove 40 through bolts, the elastic block 39 is rubber, the front fork is pressed on the placement seat 50 downwards from the top of the front fork by the elastic block 39, so that after the front fork is immersed in water, the front fork cannot float upwards due to buoyancy of water, the firmness of locking of the front fork on the bearing plate 37 is guaranteed, meanwhile, the elastic block 39 is pressed against the front fork in a contact mode, damage caused by left marks on the front fork is avoided, and the outer surface of a workpiece is protected.

The gas injection structure 48 includes the diaphragm 54, the installation cavity 55 has been seted up on the outer wall of diaphragm 54, the diaphragm 56 has been installed to the one end interlude that the push-and-pull rod 46 was kept away from to the diaphragm 54, and the air inlet department that the diaphragm 56 was located installation cavity 55 department welds has L type intake pipe 59, L type intake pipe 59 is connected with the end of giving vent to anger of air pump, annular groove 57 has been seted up to one side of diaphragm 54 outer wall, and annular groove 57's inside has cup jointed sealing ring 58, sealing ring 58 can contact friction with the inner wall of inner chamber, in order to avoid leaving the gap between diaphragm 54 and the front fork, guarantee the leakproofness before detecting the front fork.

The structure of the feeding component 2 and the structure of the discharging component 3 are consistent, the discharging component 3 comprises a bottom plate A4, vertical plates 5 are symmetrically welded at the top of the bottom plate A4 by taking a central axis as a symmetry line, a translation plate 12 is slidably installed between the two vertical plates 5, and a conveyor is installed at the top of the translation plate 12.

Install electric telescopic handle A6 between the opposite faces of two risers 5, electric telescopic handle A6's active end fixedly connected with linkage strip 14, and the top of linkage strip 14 is connected with the bottom of translation board 12, slide bar 7 is all installed to the opposite faces of two risers 5, and set up the spout with slide bar 7 sliding connection on the translation board 12, slide between slide bar 7 and the spout that translation board 12 was offered through it, slide bar 7 plays the effect to translation board 12 sliding support, stability when guaranteeing translation board 12 translation, avoid it to receive heavy downwardly falling, stability when improving the device use.

The conveyer includes two cylinders 13, and two cylinders 13 rotate respectively and install the both sides at translation board 12 top, are provided with conveyer belt 11 between the cylinder 13 of both sides, and the outer wall of conveyer belt 11 is equidistant to be installed multiunit arc stopper 10, and driving motor 8 is still installed at translation board 12 top, and driving motor 8's drive end passes through belt pulley driving piece 9 and is connected with the cylinder 13 transmission of one side.

The working principle of the invention is as follows:

in the use process, the water-soluble fiber is prepared,

the application principle of the feeding component 2 and the discharging component 3 is consistent, and the concrete steps are as follows:

the front fork is transversely placed between two adjacent groups of four arc-shaped limiting blocks 10, the front fork is lifted between the four arc-shaped limiting blocks 10, a driving motor 8 drives a roller 13 at one side to rotate through a belt pulley transmission piece 9, the front fork is conveyed to the direction of the detection assembly 1 under the transmission action of the rollers 13 at two sides and a conveying belt 11, after the front fork is conveyed to the left side of the detection assembly 1, an electric telescopic rod A6 stretches, a translation plate 12 is driven to move to the direction of the detection assembly 1 through a linkage bar 14, and therefore the front fork is continuously conveyed to the direction of the detection assembly 1;

when the front fork is conveyed between the front clamping plate 35 and the rear clamping plate 35, the electric telescopic rod D30 stretches, the front sliding plate 33 and the rear sliding plate 33 simultaneously move towards the middle, meanwhile, the electric telescopic rod E34 stretches to drive the clamping plate 35 to move towards the middle, and the front fork is clamped through the front clamping plate 35 and the rear clamping plate 35;

after clamping is completed, the electric telescopic rod C27 is shortened, and the front fork is driven to move upwards, and then the electric telescopic rod A6 is shortened, so that the conveyor is reset;

the electric telescopic rod C27 stretches, the front fork is placed on the placing seats 50 on the two sides, the electric telescopic rod E34 and the electric telescopic rod D30 are shortened at the same time, the clamping of the front fork by the clamping plate 35 is released, the front fork is taken down from the feeding assembly 2 and placed on the detecting main body 20 for air tightness detection, and the front fork placed on the detecting main body 20 can be taken down and placed on the discharging assembly 3;

at this time, the front fork is placed between the placing seats 50 on the two sides, the rotating motor 43 drives the pressing plate 41 to rotate, the elastic block 39 is rotated to the direction of the front fork, the air cylinder A42 is shortened, the elastic block 39 is driven to move downwards and press the front fork on the front fork, and the elastic block 39 presses the front fork on the placing seats 50 downwards from the top of the front fork so as to ensure that the front fork cannot float upwards under the influence of buoyancy of water after being immersed in water;

the air cylinder B45 stretches to drive the air injection structure 48 to move towards the front fork through the push-pull rod 46, the push-pull rod 46 stretches into an inner hole of the front fork, the other end of the front fork is inserted into the positioning column 51, at the moment, the electric telescopic rod B24 stretches to drive the lifting plate 25 and the bearing plate 37 to move downwards, the front fork on the bearing plate 37 is immersed in water in the water tank 18, the air pump injects air into the front fork through the air injection structure 48, and the tightness of the front fork is observed manually by observing whether air bubbles exist near the front fork;

the principle of the gas injection structure 48 is as follows:

when the cross column 54 enters the inner cavity of the front fork, the sealing ring 58 can contact and rub with the inner wall of the inner cavity so as to avoid gaps left between the cross column 54 and the front fork and ensure the tightness before the front fork is detected;

the air pump conveys air to the inside of the transverse tube 56 through the L-shaped air inlet tube 59 and enters the inside of the front fork through the guide of the transverse tube 56;

after the detection, the elastic block 39 releases the pressure to the front fork, and the front fork is clamped by the front fork locking structure 23 and then conveyed to the blanking assembly 3, so that the detected front fork is conveyed to the rear.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. Detect front fork sealing device, its characterized in that: comprising the following steps:

the device comprises a detection assembly (1), a feeding assembly (2), a discharging assembly (3) and a front fork, wherein the feeding assembly (2) is positioned at the feeding end of the detection assembly (1), the discharging assembly (3) is positioned at the discharging end of the detection assembly (1), the front fork is placed on the feeding assembly (2), the front fork is conveyed to the left side edge of the detection assembly (1) by the feeding assembly (2), the front fork on the feeding assembly (2) is clamped by the detection assembly (1), the front fork is subjected to airtight detection, and then is placed on the discharging assembly (3) to be conveyed away;

the detection assembly (1) comprises a top plate (15) and a bottom plate B (19), upright posts (17) are welded between four corners of opposite surfaces of the top plate (15) and the bottom plate B (19), a water tank (18) is welded at the top of the bottom plate B (19), and a drain pipe (21) is arranged at a drain outlet of the water tank (18);

an electric telescopic rod B (24) is arranged at the top of the top plate (15), the movable end of the electric telescopic rod B (24) is positioned below the top plate (15) and is fixedly connected with a lifting plate (25), linear bearings (22) are arranged at four corners of the top of the lifting plate (25), connecting rods (16) are arranged at four corners of the bottom of the lifting plate (25), a detection main body (20) is arranged between the bottoms of the four connecting rods (16), and the detection main body (20) is used for locking and injecting air into a front fork and is matched with the front fork to complete air tightness detection;

the middle part at the top of the top plate (15) is provided with a front fork locking structure (23), and the front fork locking structure (23) is used for clamping the front fork.

2. The front fork seal apparatus of claim 1, wherein: front fork locking structure (23) are including diaphragm (26), and the telescopic link mouth (28) that supply electric telescopic handle B (24) to pass are seted up at the middle part at diaphragm (26) top, electric telescopic handle C (27) are all installed to the both sides at diaphragm (26) top, the expansion end fixedly connected with cantilever (29) of electric telescopic handle C (27), the bottom transverse sliding of cantilever (29) installs slide (33), two electric telescopic handle E (34) are installed to the bottom of slide (33), the expansion end fixedly connected with grip block (35) of electric telescopic handle E (34), and arc recess A (36) have been seted up to one side of grip block (35).

3. A test front fork sealing apparatus as claimed in claim 2, wherein: two groups of wire strips (31) are installed at the bottom of the suspension plate (29), two groups of limiting sliding grooves (32) are formed in the top of the sliding plate (33), an electric telescopic rod D (30) is further installed at the bottom of the suspension plate (29), and the movable end of the electric telescopic rod D (30) is connected with one side of the sliding plate (33).

4. The front fork seal apparatus of claim 1, wherein: the detection main body (20) comprises a bearing plate (37), two reserved openings (38) are formed in two sides of the top of the bearing plate (37) in a penetrating mode, a transverse bar (53) is arranged on the left side of the top of the bearing plate (37), a vertical bar (52) is welded on the top of the transverse bar (53), positioning columns (51) are arranged at the front position and the rear position of the right side of the vertical bar (52), a placement seat (50) is arranged at the front position and the rear position of the two sides of the top of the bearing plate (37), an arc-shaped groove B (49) is formed in the top of the placement seat (50), an L-shaped plate (44) is arranged at the front position and the rear position of the right side of the top of the bearing plate (37), a push-pull rod (46) is fixedly connected to the movable end of the L-shaped plate (44), and the left side end of the push-pull rod (46) is connected with an air injection structure (48).

5. The front fork seal apparatus of claim 4, wherein: the front and rear positions on the right side of the top of the bearing plate (37) are respectively provided with a sliding block (47), the sliding blocks (47) are provided with sliding holes which are in sliding connection with the push-pull rod (46), and meanwhile, the sliding blocks (47) are positioned on the left side of the air cylinder B (45).

6. The front fork seal apparatus of claim 4, wherein: the top of loading board (37) and the position department that corresponds every and place seat (50) all installs cylinder A (42), and the expansion end fixedly connected with rotating electrical machines (43) of cylinder A (42), the drive end fixedly connected with clamp plate (41) of rotating electrical machines (43), recess (40) have been seted up to the bottom of clamp plate (41), and inside through the bolt installation elastic piece (39) of recess (40).

7. The front fork seal apparatus of claim 4, wherein: the gas injection structure (48) comprises a cross column (54), an installation cavity (55) is formed in the outer wall of the cross column (54), a cross tube (56) is installed at one end, far away from the push-pull rod (46), of the cross column (54), an L-shaped gas inlet pipe (59) is welded at a gas inlet of the cross tube (56) located at the installation cavity (55), an annular groove (57) is formed in one side of the outer wall of the cross column (54), and a sealing ring (58) is sleeved in the annular groove (57).

8. The front fork seal apparatus of claim 1, wherein: the feeding assembly (2) is consistent with the structure of the discharging assembly (3), the discharging assembly (3) comprises a bottom plate A (4), vertical plates (5) are symmetrically welded at the top of the bottom plate A (4) by taking a central axis as a symmetry line, a translation plate (12) is slidably installed between the vertical plates (5), and a conveyor is installed at the top of the translation plate (12).

9. The front fork seal apparatus of claim 8, wherein: an electric telescopic rod A (6) is arranged between the opposite surfaces of the two vertical plates (5), a movable end of the electric telescopic rod A (6) is fixedly connected with a linkage bar (14), sliding bars (7) are arranged on the opposite surfaces of the two vertical plates (5), and sliding grooves which are in sliding connection with the sliding bars (7) are formed in the translation plates (12).

10. The front fork seal apparatus of claim 8, wherein: the conveyor comprises two rollers (13), a conveyor belt (11) is arranged between the rollers (13) on two sides, a plurality of groups of arc limiting blocks (10) are arranged on the outer wall surface of the conveyor belt (11) at equal intervals, a driving motor (8) is further arranged at the top of the translation plate (12), and the driving end of the driving motor (8) is in transmission connection with one side of the rollers (13) through a belt pulley transmission piece (9).