CN114700519A - Perforating device is used in processing of fuel filter - Google Patents

Abstract

The invention relates to a perforating device for processing a fuel filter, which comprises: the device comprises a filter shell punching mechanism, a position adjusting mechanism and a clamping and fixing mechanism. The filter housing mechanism of punching includes: the drilling machine comprises an installation base, an adjusting top plate, a side supporting column, a driving screw, a first driving motor, a driving threaded sleeve, a drilling driver, a large-hole drill bit and a small-hole drill bit. The adjusting top plate is arranged above the mounting base. The side support columns are used for supporting and fixing the adjusting top plate. The driving screw is rotationally arranged in the bin of the adjusting top plate. The end part of the driving screw penetrates out of the inner bin of the adjusting top plate. The drill bit has the advantages that the drill bit can be matched with the clamp by changing the position of the drill bit. And adjusting the fixed position of the filter shell in a deviation way by rotating the clamp to be matched with the drill bit. The holes in the middle of the top end of the filter shell and the small holes distributed on the side edge of the middle of the filter shell are punched more uniformly.

Description

Perforating device is used in processing of fuel filter

Technical Field

The invention relates to the technical field of fuel filters, in particular to a perforating device for processing a fuel filter.

Background

The fuel filter comprises a diesel filter, a gasoline filter and a natural gas filter. The fuel filter has the functions of preventing particles, water and impurities in fuel oil and ensuring that precision parts of a fuel oil system are prevented from being abraded and damaged. The fuel filter is connected in series on a pipeline between the fuel pump and an oil inlet of the throttle body. The fuel filter is used for removing solid impurities such as iron oxide and dust contained in fuel oil and preventing a fuel oil system (particularly an oil nozzle) from being blocked. Mechanical abrasion is reduced, stable operation of the engine is ensured, and reliability is improved. The structure of the oil burner is composed of an aluminum shell and a bracket with stainless steel inside. The support is provided with a high-efficiency filter paper sheet which is in a chrysanthemum shape to increase the flow area. The electric spray filter cannot be used with a fuel filter. Since the electrojet filter is often subjected to fuel pressures of 200-300 KPA. Therefore, the filter pressure resistance is generally required to be more than 500KPA, and the filter does not need to reach such a high pressure.

Fuel filter divide into inside filter core and outside casing and constitutes, when installing the casing, need punch to its surface, for easy to assemble, and the installation through-hole of casing constitutes for a macropore in middle part and a plurality of peripheral micropores jointly, and traditional puncher can only punch to requiring not through-hole of equidimension on the casing through the change drill bit that makes a round trip, and the drill bit position is unchangeable, just at this moment just can carry out the operation to a plurality of peripheral micropores through the position of continuous regulation casing anchor clamps, and current anchor clamps can't carry out the regulation of a plurality of positions, thereby can't satisfy the requirement of punching of filter casing.

Disclosure of Invention

The invention aims to provide a perforating device for processing a fuel filter, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a perforating device is used in processing of fuel filter includes: the device comprises a filter shell punching mechanism, a position adjusting mechanism and a clamping and fixing mechanism. The position adjusting mechanism is arranged below the filter shell punching mechanism and used for carrying out position transfer on the clamping and fixing mechanism. The clamping and fixing mechanism is arranged on the position adjusting mechanism and used for clamping and fixing the filter. The filter housing mechanism of punching includes: the drilling machine comprises an installation base, an adjusting top plate, a side supporting column, a driving screw, a first driving motor, a driving threaded sleeve, a drilling driver, a large-hole drill bit and a small-hole drill bit. The adjusting top plate is arranged above the mounting base. The side support columns are used for supporting and fixing the adjusting top plate. The driving screw is rotationally arranged in the bin of the adjusting top plate. The end part of the driving screw penetrates out of the inner bin of the adjusting top plate. The first driving motor is arranged on the side edge of the adjusting top plate. The first drive motor is used for driving the drive screw. The driving screw sleeve is sleeved on the driving screw rod. The punching driver is arranged at the bottom end of the driving threaded sleeve. The big hole drill bit and the small hole drill bit are both arranged at the bottom end of the punching driver. The small hole drill bit is arranged on the side edge of the large hole drill bit.

As a further scheme of the invention: the position adjustment mechanism includes: rotating base, runner assembly and stabilizing component. The rotating base is arranged at the top end of the mounting base. The rotating assembly is arranged in the rotating base. The stabilizing component is arranged on the rotating base.

As a further scheme of the invention: the rotating assembly includes: the bottom rotates chamber, first transfer line, second driving motor, first meshing gear, second transfer line and second meshing gear. The bottom end rotating cavity is arranged in the rotating base. The first transmission rod is horizontally inserted into the bottom end rotating cavity in a rotating mode. The second driving motor is arranged on the side of the rotating base. The bottom end rotating cavity is used for providing driving force for the first transmission rod. The first meshing gear is arranged on the first transmission rod. The second transmission rod is vertically and rotatably inserted into the bottom end rotating cavity. The second meshing gear is arranged at the end part of the second transmission rod. The second meshing gear is meshed with the first meshing gear.

As a further scheme of the invention: the stabilizing assembly includes: inner wall spout and connection slider. The inner wall chute is arranged on the side wall of the top of the rotating base. The connecting slide block is inserted in the inner wall sliding groove in a sliding way.

As a further scheme of the invention: the centre gripping fixed establishment includes: subassembly and top centre gripping subassembly are fixed to bottom casing. The bottom casing fixing component is arranged above the rotating base. The top end clamping assembly is arranged on the bottom end shell fixing assembly. The bottom casing fixing assembly and the top clamping assembly clamp the filter shell.

As a further scheme of the invention: the subassembly is fixed to bottom shell includes: the clamping base, the clamping moving cavity, the reverse driving screw, the third driving motor, the filter shell placing groove, the moving sliding groove, the first driving sliding sleeve and the bottom clamping plate. The clamping base is arranged at the top of the rotating base. The side of the clamping base is connected with the connecting slide block. The middle part of the bottom end of the clamping base is connected with a second transmission rod. The clamping moving cavity is arranged in the clamping base. The reverse driving screw rod is horizontally and rotatably arranged in the clamping moving cavity. The third drive motor is used for providing driving force for the reverse drive screw. The filter shell placing groove is formed above the clamping moving cavity. The movable sliding groove is communicated with the filter shell placing groove and the clamping movable cavity. The first driving sliding sleeves are symmetrically sleeved on the reverse driving screw rods. The bottom splint are vertically arranged on the first driving sliding sleeve. The top of bottom splint is worn out to remove the spout and is extended to filter housing standing groove in to the filter housing centre gripping of setting in filter housing standing groove.

As a further scheme of the invention: the top end centre gripping subassembly includes: the side sliding groove, the second driving sliding sleeve, the clamping connecting rod, the top abutting plate, the side abutting rod, the side connecting block, the sliding connecting rod, the side sliding groove and the buffer spring. The side moving groove is arranged at the side of the filter shell placing groove. The second driving sliding sleeves are symmetrically sleeved on the reverse driving screw rods. The clamping connecting rod is arranged on the second driving sliding sleeve and penetrates out of the side moving groove. The top end abutting plate is arranged on the side edge of the clamping connecting rod. The side contact rod is arranged at the end part of the clamping connecting rod. The side connecting block sets up the side at the top touch panel. The sliding connecting rod is arranged at the end part of the side abutting rod. The side spout is seted up in the side connecting block. The sliding connecting rod is inserted in the side sliding groove in a sliding manner. The buffer spring is sleeved outside the sliding connecting rod.

As a further scheme of the invention: the clamping connecting rod is composed of a bottom connecting long rod and a top connecting base.

As a further scheme of the invention: the side contact rods are provided with two, and the two side contact rods are all in the shape of an inclined surface for strengthening connection.

As a further scheme of the invention: the side of top end touch panel sets up the rubber laminating pad that is used for preventing the scratch.

Compared with the prior art, the invention has the beneficial effects that: can be matched with the clamp by changing the position of the drill bit. And adjusting the fixed position of the filter shell in a deviation way by rotating the clamp to be matched with the drill bit. The holes in the middle of the top end of the filter shell and the small holes distributed on the side edge of the middle of the filter shell are punched more uniformly.

The filter shell can be stably clamped through the clamping and fixing mechanism arranged below the filter shell punching mechanism. The large-hole drill bit and the small-hole drill bit on the filter shell punching mechanism are switched. The drilling bit can be switched fast. After the large-hole drill is used for drilling, the small-hole drill is used for drilling the small holes. The shell clamped by the clamping and fixing mechanism is rotated through the position adjusting mechanism, so that the shell can be uniformly punched by the small-hole drill bit. Thereby avoiding the problem that the traditional clamp can not adjust a plurality of positions of the clamped workpiece. So that the perforation distribution of the filter is more uniform.

Other features and advantages of the present invention will be disclosed in more detail in the following detailed description of the invention and the accompanying drawings.

Drawings

FIG. 1 is a schematic structural diagram of a perforating device for processing a fuel filter according to the invention;

FIG. 2 is a schematic structural section view of a perforating device for processing a fuel filter according to the invention.

Fig. 3 is a schematic sectional view of the position adjustment mechanism shown in fig. 2 according to the present invention.

Fig. 4 is a schematic sectional view of the bottom housing fixing member shown in fig. 3 according to the present invention.

FIG. 5 is an enlarged view of the top contact plate of FIG. 4 according to the present invention.

List of reference numerals: a perforating device 100 for processing a fuel filter; a filter case hole punching mechanism 10; a mounting base 11; the top plate 12 is adjusted; side support columns 13; a drive screw 14; a first drive motor 15; a drive screw 16; a punch driver 17; a large bore drill bit 18; a small-bore drill 19; a position adjusting mechanism 20; a rotating base 21; a rotating assembly 22; a bottom rotation chamber 220; the first drive lever 221; a second drive motor 222; the first meshing gear 223; a second transmission rod 224; a second meshing gear 225; a stabilizing assembly 23; an inner wall chute 230; a connecting slider 231; a holding fixture 30; a bottom end housing fixing assembly 31; a clamping base 310; a holding moving chamber 311; a reverse drive screw 312; a third drive motor 313; a filter case placement groove 314; a moving chute 315; a first drive sleeve 316; a bottom clamp plate 317; a tip clamp assembly 32; a side moving groove 320; a second drive bushing 321; a clamping connecting rod 322; a top end contact plate 323; side contact bars 324; a side connection block 325; a sliding connecting rod 326; side runners 327; a buffer spring 328.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 5, in an embodiment of the present invention, a perforating device 100 for processing a fuel filter is characterized by including: a filter case punching mechanism 10, a position adjusting mechanism 20, and a clamp fixing mechanism 30. The position adjusting mechanism 20 is provided below the filter case punching mechanism 10 for shifting the position of the holding and fixing mechanism 30. The holding and fixing mechanism 30 is provided on the position adjusting mechanism 20 for holding and fixing the filter. The filter case punching mechanism 10 includes: the drilling machine comprises a mounting base 11, an adjusting top plate 12, a side supporting column 13, a driving screw 14, a first driving motor 15, a driving threaded sleeve 16, a drilling driver 17, a large-hole drill 18 and a small-hole drill 19. The adjusting top plate 12 is disposed above the mounting base 11. The side supporting columns 13 are used for supporting and fixing the adjusting top plate 12. A drive screw 14 is rotatably disposed within the bin of the adjusting top plate 12. The end of the driving screw 14 penetrates out of the inner bin of the adjusting top plate 12. The first driving motor 15 is provided at a side of the adjusting top plate 12. The first drive motor 15 is used to drive the drive screw 14. The drive screw sleeve 16 is sleeved on the drive screw 14. A punch driver 17 is provided at the bottom end of the driving screw 16. The large hole drill 18 and the small hole drill 19 are both mounted at the bottom end of the punching driver 17. The small hole drill 19 is arranged on the side of the large hole drill 18.

In the embodiment of the invention, the conventional clamp cannot adjust a plurality of positions, so that the punching requirement of the filter shell cannot be met. By providing the filter housing punching mechanism 10. The filter housing boring mechanism 10 is capable of translating a bored drill bit left and right. The clamping and fixing mechanism 30 can fixedly clamp the shell, so that the shell is more stable in the punching process. The position adjusting mechanism 20 provided below the clamp fixing mechanism 30 can rotate the housing clamped by the clamp fixing mechanism 30. Through the cooperation of removing to the drill bit on the mechanism 10 of punching the filter casing for the aperture that the casing middle part side punched can distribute more evenly.

When perforating is performed. The user first clamps the housing by the clamping fixture 30. The large hole drill bit 18 is driven by the punching driver 17 to move downwards, so that the large hole drill bit 18 punches the middle part of the shell. The small hole drill 19 and the large hole drill 18 are far away from each other, so that the side edge of the shell cannot be scratched. When the side edge of the middle part of the shell needs to be punched. By activating the first drive motor 15. The first driving motor 15 drives the driving screw 14 to rotate, and drives the driving screw 16 to move. So that the driving screw 16 drives the small hole drill 19 at the bottom end of the punching driver 17 to move to the side of the middle hole of the shell. The side edge of the hole in the middle of the shell is punched by driving a small-hole drill bit 19 through a punching driver 17. After one aperture is punched. The user rotates the housing held by the holding fixture 30 by the position adjustment mechanism 20. So that the aperture at the top end of the housing is rotationally displaced. The unperforated surface of which is moved beneath the aperture bit 19. And further completing the operation of punching again. Thereby enabling the mounting holes at the top end of the shell to be more uniformly distributed.

As shown in fig. 1 to 5, in the present embodiment, the position adjustment mechanism 20 includes: a rotating base 21, a rotating assembly 22 and a stabilizing assembly 23. The rotating base 21 is provided on the top end of the mounting base 11. The rotating assembly 22 is disposed in the rotating base 21. The stabilizing assembly 23 is disposed on the rotating base 21.

The rotating assembly 22 includes: a bottom rotation chamber 220, a first driving lever 221, a second driving motor 222, a first engagement gear 223, a second driving lever 224, and a second engagement gear 225. The bottom rotation chamber 220 is opened in the rotation base 21. The first driving lever 221 is rotatably and horizontally inserted into the bottom rotating chamber 220. The second driving motor 222 is disposed at a side of the rotating base 21. The bottom rotation chamber 220 is used to provide a driving force to the first driving lever 221. The first engagement gear 223 is provided on the first transmission lever 221. The second driving rod 224 is vertically rotatably inserted into the bottom rotating chamber 220. A second meshing gear 225 is provided at the end of the second transmission rod 224. The second engaging gear 225 is engaged with the first engaging gear 223.

The stabilizing assembly 23 includes: an inner wall slide groove 230 and a connection slider 231. The inner wall slide groove 230 is opened on the side wall of the top of the rotating base 21. The connection slider 231 is slidably inserted into the inner wall slide groove 230.

In this embodiment, the middle of the housing clamped by the clamping and fixing mechanism 30 is perforated. The side of the central hole is perforated by driving the small hole drill 19. After the first small aperture is punched. By activating the second drive motor 222. The second driving motor 222 drives the first engaging gear 223 to rotate by driving the first transmission rod 221 to rotate. The first meshing gear 223 and the second meshing gear 225 are meshed with each other to drive the second transmission rod 224 to rotate. Since the connection slider 231 is connected to the bottom end of the clamping base 310. Thereby making the rotation of the clamping fixture 30 at the top end of the rotating base 21 more stable. By performing uniform rotation of the housing held by the holding fixture 30 at an appropriate angle. The set angle is rotated each time. Thereby the small holes at the top end of the shell can be distributed more uniformly.

As shown in fig. 1 to 5, in the embodiment of the present invention, the clamping fixture 30 includes: a bottom end housing securing assembly 31 and a top end clamping assembly 32. The bottom end housing fixing member 31 is disposed above the rotating base 21. A top end clamp assembly 32 is provided on the bottom end housing mounting assembly 31. The filter housing is clamped by both the bottom housing fixing component 31 and the top clamping component 32.

The bottom end housing fixing assembly 31 includes: the clamping device comprises a clamping base 310, a clamping moving cavity 311, a reverse driving screw 312, a third driving motor 313, a filter housing placing groove 314, a moving chute 315, a first driving sliding sleeve 316 and a bottom end clamping plate 317. The grip base 310 is disposed on the top of the rotation base 21. The side of the clamping base 310 is connected to the connection slider 231. The middle of the bottom end of the clamp base 310 is connected to the second driving lever 224. A chucking movement chamber 311 is opened in the chucking base 310. The reverse drive screw 312 is horizontally rotatably disposed in the grip moving chamber 311. The third driving motor 313 is used to provide a driving force to the reverse driving screw 312. The filter case placement groove 314 is opened above the holding movement chamber 311. The movement chute 315 communicates the filter case placement groove 314 with the clamp movement chamber 311. The first driving sliding sleeve 316 is symmetrically sleeved on the reverse driving screw 312. The bottom end clamp plate 317 is vertically disposed on the first drive shoe 316. The top end of the bottom end clamp plate 317 extends through the moving chute 315 into the filter housing placement groove 314 to clamp the filter housing disposed in the filter housing placement groove 314.

The tip clamp assembly 32 includes: a side moving groove 320, a second driving sliding sleeve 321, a clamping connecting rod 322, a top abutting plate 323, a side abutting rod 324, a side connecting block 325, a sliding connecting rod 326, a side sliding groove 327 and a buffer spring 328. The side moving groove 320 is opened at the side of the filter case placing groove 314. The second driving sliding sleeve 321 is symmetrically sleeved on the reverse driving screw 312. The clamping connecting rod 322 is disposed on the second driving sliding bush 321 and penetrates through the lateral moving groove 320. The top end contact plate 323 is provided at the side of the clamp connecting rod 322. The side abutment bar 324 is provided at the end of the clamping connection bar 322. Side connection blocks 325 are provided at the sides of the top end contact plates 323. A sliding connecting rod 326 is provided at the end of the side abutment rod 324. Side runners 327 open in the side connector block 325. The sliding connecting rod 326 is slidably inserted into the side sliding groove 327. The buffer spring 328 is sleeved outside the sliding connection rod 326.

The clamping connecting rod 322 is composed of a long connecting rod at the bottom and a base connected with the top.

The number of the side contact rods 324 is two, and the two side contact rods 324 are inclined to strengthen the connection.

The side edge of the top end abutting plate 323 is provided with a rubber attaching pad for preventing scratches.

In this embodiment, the housing is machined before. The user needs to fix the filter housing so that the filter housing is more stable in the process of punching. The user places the filter case in the middle of the filter case placement groove 314. By activating the third driving motor 313, the third driving motor 313 drives the reverse driving screw 312 to rotate. Due to the upward reverse rotation threads on the reverse drive screw 312, the first drive sliding sleeve 316 and the second drive sliding sleeve 321 can be driven to move relatively close to each other. Respectively drive the bottom end clamping plates 317 to move and clamp the bottom end of the filter shell. The clamping connecting rod 322 drives the top end abutting plate 323 to clamp and fix the top end side edge of the shell. So that the shell is in a straight and stable state before punching. Thereby being more convenient for punching.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a fire oil cleaner processing and use perforating device which characterized in that includes: the device comprises a filter shell punching mechanism, a position adjusting mechanism and a clamping and fixing mechanism; the position adjusting mechanism is arranged below the filter shell punching mechanism and is used for carrying out position transfer on the clamping and fixing mechanism; the clamping and fixing mechanism is arranged on the position adjusting mechanism and is used for clamping and fixing the filter; the filter housing punching mechanism comprises: the drilling machine comprises an installation base, an adjusting top plate, a side supporting column, a driving screw, a first driving motor, a driving threaded sleeve, a drilling driver, a large-hole drill bit and a small-hole drill bit, wherein the installation base is provided with a base; the adjusting top plate is arranged above the mounting base; the side supporting columns are used for supporting and fixing the fuel filter of the adjusting top plate; the driving screw is rotationally arranged in the bin of the adjusting top plate; the end part of the driving screw penetrates out of the adjusting top plate inner bin; the first driving motor is arranged on the side edge of the adjusting top plate; the first driving motor is used for driving the driving screw rod; the driving screw sleeve is sleeved on the driving screw rod; the punching driver is arranged at the bottom end of the driving threaded sleeve; the large hole drill bit and the small hole drill bit are both arranged at the bottom end of the punching driver; the small hole drill bit is arranged on the side edge of the large hole drill bit.

2. The perforating device for fuel filter processing of claim 1 wherein,

the position adjustment mechanism includes: the device comprises a rotating base, a rotating assembly and a stabilizing assembly; the rotating base is arranged at the top end of the mounting base; the rotating assembly is arranged in the rotating base; the stabilizing assembly is arranged on the rotating base.

3. The perforating device for fuel filter processing of claim 2 wherein,

the rotating assembly includes: the bottom end rotating cavity, the first transmission rod, the second driving motor, the first meshing gear, the second transmission rod and the second meshing gear are arranged; the bottom end rotating cavity is formed in the rotating base; the first transmission rod is rotatably and horizontally inserted into the bottom end rotating cavity; the second driving motor is arranged on the side edge of the rotating base; the bottom end rotating cavity is used for providing driving force for the first transmission rod; the first meshing gear is arranged on the first transmission rod; the second transmission rod is vertically and rotatably inserted into the bottom end rotating cavity; the second meshing gear is arranged at the end part of the second transmission rod; the second meshing gear is meshed with the first meshing gear.

4. The perforating device for fuel filter processing of claim 3 wherein,

the stabilizing assembly includes: the inner wall sliding groove and the connecting sliding block; the inner wall sliding groove is formed in the side wall of the top of the rotating base; the connecting sliding block is slidably inserted in the inner wall sliding groove.

5. The perforating device for fuel filter processing of claim 4 wherein,

the clamping and fixing mechanism comprises: the bottom end shell fixing assembly and the top end clamping assembly; the bottom end shell fixing assembly is arranged above the rotating base; the top end clamping assembly is arranged on the bottom end shell fixing assembly; the bottom end shell fixing assembly and the top end clamping assembly are used for clamping the filter shell.

6. The perforating device for fuel filter processing of claim 5 wherein,

the subassembly is fixed to bottom end casing includes: the device comprises a clamping base, a clamping moving cavity, a reverse driving screw, a third driving motor, a filter shell placing groove, a moving chute, a first driving sliding sleeve and a bottom end clamping plate; the clamping base is arranged at the top of the rotating base; the side edge of the clamping base is connected with the connecting sliding block; the middle part of the bottom end of the clamping base is connected with the second transmission rod; the clamping moving cavity is formed in the clamping base; the reverse driving screw is horizontally and rotatably arranged in the clamping moving cavity; the third driving motor is used for providing driving force for the reverse driving screw rod; the filter shell placing groove is formed above the clamping moving cavity; the movable sliding groove is used for communicating the filter shell placing groove with the clamping movable cavity; the first driving sliding sleeves are symmetrically sleeved on the reverse driving screw rods; the bottom end clamping plate is vertically arranged on the first driving sliding sleeve; the top end of the bottom end clamping plate penetrates out of the movable sliding groove and extends to the filter shell placing groove to clamp the filter shell arranged in the filter shell placing groove.

7. The perforating device for fuel filter processing of claim 6 wherein,

the tip clamping assembly includes: the device comprises a side moving groove, a second driving sliding sleeve, a clamping connecting rod, a top end abutting plate, a side abutting rod, a side connecting block, a sliding connecting rod, a side sliding groove and a buffer spring; the side moving groove is formed in the side of the filter shell placing groove; the second driving sliding sleeves are symmetrically sleeved on the reverse driving screw rods; the clamping connecting rod is arranged on the second driving sliding sleeve and penetrates out of the side moving groove; the top end abutting plate is arranged on the side edge of the clamping connecting rod; the side contact rod is arranged at the end part of the clamping connecting rod; the side edge connecting block is arranged on the side edge of the top end abutting plate; the sliding connecting rod is arranged at the end part of the side contact rod; the side sliding groove is formed in the side connecting block; the sliding connecting rod is slidably inserted in the side sliding groove; the buffer spring is sleeved outside the sliding connecting rod.

8. The perforating device for fuel filter processing of claim 7,

the centre gripping connecting rod is connected the stock by the bottom and is connected the base with the top and constitute.

9. The perforating device for fuel filter processing of claim 8 wherein,

the side is supported the feeler lever and is provided with two, and two the side is supported the feeler lever and all is the slope form of reinforced connection.

10. The perforating device for fuel filter processing of claim 9 wherein,

the side of top end touch panel sets up the rubber laminating pad that is used for preventing the scratch.

Images