CN114226792A - Air pump piston air hole drilling device - Google Patents

Abstract

The invention relates to an air pump piston air hole drilling device.A piston is provided with a right positioning hole and a left positioning hole; to brill device, includes: the device comprises a horizontal base, a central bulge, a blocking weir and a mounting groove; be equipped with in the weir and indulge and move the mechanism, include: the device comprises a longitudinal movement base, a protection mechanism, a placement mechanism, a pressing mechanism and a longitudinal movement driving mechanism; be equipped with in the mounting groove and construct drilling, include: locate left side of central authorities' uplift left and right both sides and bore mechanism, right side and bore the mechanism, include: the device comprises a support column, a containing groove, a translation mechanism, a translation sliding rail, a translation sliding seat, a high-speed motor and a drill bit; to boring machine, still include: and a control mechanism. The air pump piston air hole drilling device is high in precision and efficiency.

Description

Air pump piston air hole drilling device

Technical Field

The invention relates to the technical field of air pump production, in particular to an air pump piston air hole drilling device.

Background

The air pump compresses air to reach required pressure by mechanical energy converted from energy. The air pump for the vehicle is divided into two parts, wherein: the boosting side is mainly used for equipment requiring positive pressure working conditions, such as an air suspension system, a pneumatic braking system and the like; the negative pressure side is mainly used for working condition equipment needing negative pressure, such as a vacuum boosting system, a vacuum braking system and the like. Currently, a double-piston head vacuum pump is used as an air pump for vehicles. That is, the air is compressed by the large diameter piston in the piston chamber on one side, and the compressed air is sent to the piston chamber on the other side through the flow passage and compressed by the small diameter piston. The flow passage is arranged on the piston and the piston rod in a penetrating way, so that the space utilization rate is improved. Due to the structure of the piston and the piston rod, the conventional flow channel processing mode is as follows: improve the manual work and carry out drilling work from both sides respectively. However, the conventional drilling process has the following disadvantages:

1. an operator drills holes according to experience, so that the precision of machined piston workpieces is low;

2. because the work of fixing, drilling, upset is carried out through the manual work, leads to the inefficiency of processing.

Disclosure of Invention

In order to solve the technical problems in the background technology, the invention provides the air pump piston air hole drilling device which is high in precision and efficiency.

The technical scheme adopted by the invention is as follows:

the air pump piston air hole is used for drilling the device, and the piston is provided with a right positioning hole and a left positioning hole.

The drilling device comprises:

the horizontal base is arranged at the upper end of the workbench, a central bulge is arranged at the center of the upper end of the horizontal base along the front-back direction in a protruding mode, a protruding blocking weir is arranged at the rear portion of the central bulge, and mounting grooves are formed in the horizontal base on the left side and the right side of the central bulge respectively.

Be provided with in the fender weir and indulge and move the mechanism, include:

the device comprises a longitudinal moving base moving along the front-back direction, a protection mechanism is arranged on the front portion of the upper end of the translation base, a placement mechanism is arranged in the protection mechanism, a pressing mechanism is arranged on the rear portion of the upper end of the translation base, and a longitudinal moving driving mechanism is arranged at the rear end of the translation base.

Be provided with in the mounting groove and construct to the rig, include: set up respectively in left side of central authorities' uplift, right side drill mechanism, right drill mechanism, left side drill mechanism, right drill mechanism structure is the same and relative setting, includes:

the fixed support column that sets up in the mounting groove, the support column is provided with many to its upper end is fixed to be provided with and holds the groove, hold the inslot and be provided with translation mechanism, the last edge department that holds the groove is provided with the translation slide rail, the last slip of translation slide rail is provided with the translation slide that is connected with translation mechanism drive end, be provided with high-speed motor on the translation slide rail, high-speed motor's rotatory end is used for pressing from both sides and establishes the drill bit.

To boring machine, still include:

and the control mechanism is electrically connected with the longitudinal moving mechanism and the high-speed motor.

Furthermore, a liquid leakage hole penetrating through the horizontal base is formed in the mounting groove.

Furthermore, a plurality of mounting grooves are formed in the top end faces of the groove walls of the mounting grooves, and the mounting grooves are internally fixed and used for inserting the outer shell.

Furthermore, symmetrical guard plates are respectively arranged in the mounting grooves on the left side and the right side of the central bulge, and the guard plates are arranged on the drill bit side of the opposite drill mechanism.

Furthermore, a longitudinal moving slide rail fixedly connected with the longitudinal moving base is arranged in the blocking weir along the front-back direction.

Furthermore, an upper shield is arranged on the pressing mechanism, and the upper shield is covered on the protection mechanism;

the guard mechanism includes:

set up in the backplate of placement mechanism rear end to and, set up in left backplate, the right backplate of placement mechanism left and right both sides, the last border department of backplate is provided with convex support arch forward, the support arch is used for supporting the guard shield, and the upper portion of backplate is provided with open logical groove.

Further, the placing mechanism includes:

with indulge connecting substrate who moves base fixed connection, connecting substrate's front end is provided with the preceding backplate, the left and right both ends of preceding backplate are connected with left backplate, right backplate respectively, and the front portion of connecting substrate up end is provided with the outage, the outage downwardly extending runs through central uplift, and the rear portion of connecting substrate up end has set gradually convex right baffle, right supporting seat, left baffle from right to left, it is provided with right guiding hole to run through on the right baffle to right baffle is connected with right backplate, it is provided with left guiding hole to run through on the left baffle to left baffle is connected with left backplate, the upper end of right supporting seat is provided with right location arch, right location arch is inserted and is located in the right locating hole, the upper end of left supporting seat is provided with left location arch, left location arch is inserted and is located in the left locating hole.

Furthermore, the lower parts of the right baffle, the right supporting seat, the left supporting seat and the left baffle are connected and provided with ridge beams.

Furthermore, the pressing mechanisms are provided with two groups, and the pressing mechanisms comprise the following symmetrically arranged components:

the device comprises a longitudinal moving base, a cylinder, a support plate, a hinge seat and a spring, wherein the cylinder is arranged at the upper end of the longitudinal moving base, the upper end of the cylinder is horizontally provided with a U-shaped support plate fixedly connected with the longitudinal moving base, the upper end of the closed part at the front part of the support plate is provided with a fulcrum seat, the open part at the front part of the support plate is provided with the hinge seat, and the hinge seat is hinged with the stroke end of the cylinder;

fixed left spiral arm, the right spiral arm of being provided with respectively on two sets of articulated seats, the upper end and the last guard shield fixed connection of left spiral arm, right spiral arm, left spiral arm, right spiral arm activity insert respectively and locate logical inslot, and the end of left spiral arm, right spiral arm is provided with respectively with left pressure head, the right pressure head of piston looks butt, left pressure head sets up directly over left locating hole, left location arch, right pressure head sets up directly over right locating hole, right location arch.

Further, right side guiding hole extends to right backplate right side to the right side, left side guiding hole extends to left backplate left side to the outside between them is provided with tubaeform guide opening.

The air pump piston air hole drilling device has the advantages that:

1. automatic control is realized through the control mechanism, and the precision is improved;

2. efficiency is improved through automatic fixing and automatic drilling.

Drawings

In order to more clearly illustrate the embodiments of the present invention, reference will now be made in brief to the accompanying drawings, which are needed in the description, and in which embodiments of the present invention are illustrated.

FIG. 1 is a general perspective view of an air pump piston air port hole alignment drilling apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a piston of an air pump piston air hole drilling device according to an embodiment of the present invention;

FIG. 3 is a perspective view of a longitudinal movement mechanism of an air pump piston air hole drilling device according to an embodiment of the present invention;

FIG. 4 is a perspective view of a protection mechanism and a placement mechanism of an air pump piston air hole drilling device according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a pressing mechanism of an air pump piston air hole drilling device according to an embodiment of the present invention;

FIG. 6 is a perspective view of a right drilling mechanism of the air pump piston air hole drilling device according to an embodiment of the present invention;

fig. 7 is a perspective view of a left drilling mechanism of an air pump piston air hole drilling device provided by the embodiment of the invention.

In the figure:

100. a piston, 101, a right positioning hole, 102, a left positioning hole,

10. a horizontal base 11, a central bulge 12, a baffle weir 13, a mounting groove 14, a liquid leakage hole 15, a reserved groove 16 and a guard plate,

2. the longitudinal moving mechanism is arranged on the base,

20. a translation base 21, a protection mechanism 22, a longitudinal movement driving mechanism 23, a placing mechanism 24, a pressing mechanism 25, an upper shield,

201. the sliding rail is moved longitudinally to move longitudinally,

211. a rear guard plate 212, a right guard plate 213, a left guard plate 214, a support protrusion 215, a through groove,

230. a connecting base plate, 231A, a right baffle plate, 231B, a left baffle plate, 232A, a right guide hole, 232B, a left guide hole, 233A, a right supporting seat, 233B, a left supporting seat, 234A, a right positioning bulge, 234B, a left positioning bulge, 235, a liquid discharge hole, 236, a ridge beam, 237 and a front guard plate,

240. cylinder 241, carrier plate 242, fulcrum seat 243, hinge seat 244, left-handed arm 245, right-handed arm 246, left pressure head 247, right pressure head 25, upper shield,

3. a drill aligning mechanism, a right drill mechanism 3-A, a left drill mechanism 3-B,

31. the device comprises a support column, 32, a containing groove, 33, a translation mechanism, 34, a translation sliding rail, 35, a translation sliding seat, 36, a high-speed motor, 37 and a drill bit.

Detailed Description

In order to clearly and clearly illustrate the specific implementation objects and the implementation modes of the invention, the technical scheme of the invention is completely described below, and the described examples are a part of the examples of the invention, but not all the examples. All other embodiments based on the described embodiments of the invention are within the scope of the invention without making creative efforts.

The air pump piston air hole drilling device of the invention, as shown in figure 2, comprises: the piston 100 is provided with a right positioning hole 101 and a left positioning hole 102.

The drill aligning device, as shown in fig. 1, includes:

set up in horizontal base 10 of workstation upper end, the central authorities of horizontal base 10 upper end are provided with central uplift 11 along the fore-and-aft direction protrusion, the rear portion of central uplift 11 is provided with convex fender weir 12, be provided with in the fender weir 12 along the fore-and-aft direction with indulge base 20 fixed connection's the vertical slide rail 201 that moves, be provided with mounting groove 13 on the horizontal base 10 of the left and right both sides of central uplift 11 respectively, be provided with the weeping hole 14 that runs through horizontal base 10 in the mounting groove 13, be provided with a plurality of mounting grooves 15 on the cell wall top terminal surface of mounting groove 13, the mounting groove 15 internal fixation is used for inserting and establishes the outer casing, is provided with symmetrical backplate 16 in the mounting groove 13 of the left and right both sides of central uplift 11 respectively, backplate 16 sets up in the drill bit 37 side to drilling mechanism 3.

The blocking weir 12 is provided with a longitudinal moving mechanism 2, and as shown in fig. 3, the longitudinal moving mechanism 2 includes:

a longitudinally moving base 20 moving in a front-rear direction, a guard mechanism 21 being provided at a front portion of an upper end of the longitudinally moving base 20, the guard mechanism 21, as shown in fig. 4, comprising: set up in the backplate 211 of placing mechanism 23 rear end to and, set up in left backplate 213, the right backplate 212 of placing mechanism 23 left and right both sides, the last border department of backplate 211 is provided with convex supporting protrusion 214 forward, supporting protrusion 214 is used for supporting upper shield 25, and the upper portion of backplate 211 is provided with open logical groove 215, runs through on the backplate 211 and is provided with the coolant liquid pipe, the end of coolant liquid pipe is provided with decurrent coolant liquid spout, the coolant liquid spout is provided with three groups, and the bar sets up respectively in: right-angled notch, left-angled notch and piston 100.

A placing mechanism 23 is arranged in the protection mechanism 21, and as shown in fig. 4, the placing mechanism 23 includes: a connecting substrate 230 fixedly connected with the longitudinal movement base 20, wherein a front guard plate 237 is arranged at the front end of the connecting substrate 230, the left and right ends of the front guard plate 237 are respectively connected with the left guard plate 213 and the right guard plate 212, a drain hole 235 is arranged at the front part of the upper end surface of the connecting substrate 230, and the drain hole 235 extends downwards and penetrates through the central bulge 11; the rear part of the upper end face of the connecting base plate 230 is provided with a right baffle 231A, a right supporting seat 233A, a left supporting seat 233B and a left baffle 231B which are protruded from right to left in sequence; a right guide hole 232A is formed in the right baffle 231A in a penetrating mode, the right baffle 231A is connected with the right protection plate 212, the right guide hole 232A extends to the right side of the right protection plate 212 rightwards, a horn-shaped guide opening is formed in the outer side of the right guide hole 232A, a right inclined cut is formed in the inner side of the upper end of the right baffle 231A, the right inclined cut is formed in the upper plate portion of the right guide hole 232A, and pins are arranged in the right inclined cut; a left guide hole 232B is formed in the left baffle 231B in a penetrating mode, the left baffle 231B is connected with the left protection plate 213, the left guide hole 232B extends to the left side of the left protection plate 213 leftwards, a horn-shaped guide opening is formed in the outer side of the left guide hole 232B, a left inclined cut is formed in the inner side of the upper end of the left baffle 231B, the left inclined cut is formed in the upper plate portion of the left guide hole 232B, and pins are arranged in the right inclined cut; a right positioning bulge 234A is arranged at the upper end of the right support seat 233A, the right positioning bulge 234A is inserted into the right positioning hole 101, and a left positioning bulge 234B is arranged at the upper end of the left support seat 233B; the left positioning protrusion 234B is inserted into the left positioning hole 102; the lower parts of the right baffle 231A, the right support seat 233A, the left support seat 233B and the left baffle 231B are connected with ridge beams 236.

The rear part of the upper end of the translation base 20 is provided with two groups of pressing mechanisms 24, as shown in fig. 5, the pressing mechanisms 24 comprise the following symmetrically arranged components: the device comprises a cylinder 240 arranged at the upper end of a longitudinal moving base 20, wherein a U-shaped carrier plate 241 fixedly connected with the longitudinal moving base 20 is horizontally arranged at the upper end of the cylinder 240, a fulcrum seat 242 is arranged at the upper end of the closed position at the front part of the carrier plate 241, a hinge seat 243 is arranged at the open position at the front part of the carrier plate 241, and the hinge seat 243 is hinged with the stroke end of the cylinder 240; the two sets of hinged seats 243 are respectively and fixedly provided with a left rotating arm 244 and a right rotating arm 245, the upper ends of the left rotating arm 244 and the right rotating arm 245 are fixedly provided with an upper protective cover 25, the upper protective cover 25 covers the upper ends of a rear protective plate 211, a left protective plate 213 and a right protective plate 212 of the protective mechanism 21, the left rotating arm 244 and the right rotating arm 245 are respectively and movably inserted in the through groove 215, the tail ends of the left rotating arm 244 and the right rotating arm 245 are respectively provided with a left pressure head 246 and a right pressure head 247 which are abutted to the piston 100, the left pressure head 246 is arranged right above the left positioning hole 102 and the left positioning protrusion 234B, and the right pressure head 247 is arranged right above the right positioning hole 101 and the right positioning protrusion 234A. The rear end of the translation base 20 is provided with a longitudinal movement driving mechanism 22.

The installation groove 13 is internally provided with a drilling mechanism 3, and the drilling mechanism 3, as shown in fig. 1, includes: the left drilling mechanism 3-B and the right drilling mechanism 3-a are respectively arranged at the left side and the right side of the central hump 11, the left drilling mechanism 3-B is horizontally arranged, the right drilling mechanism 3-a is obliquely and upwards arranged, the structures of the left drilling mechanism and the right drilling mechanism are the same, and the drill bits 37 are oppositely arranged, as shown in fig. 6 and 7, the drilling machine comprises:

the supporting column 31 fixedly arranged in the mounting groove 13, the supporting column 31 is provided with a plurality of supporting columns, the upper end of the supporting column is fixedly provided with a containing groove 32, a translation mechanism 33 is arranged in the containing groove 32, a translation slide rail 34 is arranged at the upper edge of the containing groove 32, a translation slide seat 35 connected with the driving end of the translation mechanism 33 is arranged on the translation slide rail 34 in a sliding mode, a high-speed motor 36 is arranged on the translation slide seat 35, and the rotating end of the high-speed motor 36 is used for clamping a drill bit 37.

To boring machine, still include:

and a control mechanism electrically connected with the longitudinal moving mechanism 2 and the high-speed motor 36.

According to the concrete structure of the air pump piston air hole drilling device in the above-mentioned embodiment, the drilling method thereof is further described as follows:

A. fixing:

the operator places the piston 100 on the upper end of the placement mechanism 23, wherein: the right positioning hole 101 and the left positioning hole 102 are respectively sleeved in the right baffle plate 231A and the left baffle plate 231B;

the operator, via the control mechanism, causes the pressing mechanism 24 to press the piston 100, wherein: the control mechanism controls the stroke end of the cylinder 240 to move upwards, the left rotating arm 244 and the right rotating arm 245 rotate downwards into the through groove 215 under the lever structure of the fulcrum seat 242 and the hinge seat 243, the upper protective cover 25 covers the upper ends of the front protective plate 237, the rear protective plate 211, the left protective plate 213 and the right protective plate 212, and meanwhile, the left pressure head 246 and the right pressure head 247 respectively abut against the piston 100.

B. Positioning:

an operator moves the longitudinal movement driving mechanism 22 backwards through the control mechanism until the placing mechanism 23 is positioned between the left drilling mechanism 3-B and the right drilling mechanism 3-A.

C. Drilling:

after the drill is positioned, the horizontal left drilling mechanism 3-B performs drilling work, and the inclined right drilling mechanism 3-A performs drilling work;

the drilling pin of the drill bit 37 arranged on the left drilling mechanism 3-B is arranged at the left bevel cut, and is flushed out by the cooling liquid sprayed out from the cooling liquid nozzle;

the drilling pin of the drill bit 37 arranged on the right drilling mechanism 3-A is arranged at the right bevel cut, and is flushed out by the cooling liquid sprayed out from the cooling liquid nozzle;

the cooling fluid with drilled pins flows from the ridge beam 236 to the weep hole 14 and into the cooling fluid circulation system.

In light of the above, it is believed that the present invention provides an air pump piston air port drill assembly that is capable of being modified and adapted by the practitioner without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. Air pump piston air vent is to boring device, be provided with right locating hole (101), left locating hole (102) on piston (100), its characterized in that:

the drilling device comprises:

a horizontal base (10) arranged at the upper end of the workbench, a central bulge (11) is convexly arranged at the center of the upper end of the horizontal base (10) along the front-back direction, a convex weir (12) is arranged at the rear part of the central bulge (11), mounting grooves (13) are respectively arranged on the horizontal base (10) at the left side and the right side of the central bulge (11),

be provided with in fender weir (12) and indulge and move mechanism (2), include:

a longitudinal moving base (20) moving along the front-back direction, a protection mechanism (21) is arranged at the front part of the upper end of the translation base (20), a placing mechanism (23) is arranged in the protection mechanism (21), a pressing mechanism (24) is arranged at the rear part of the upper end of the translation base (20), a longitudinal moving driving mechanism (22) is arranged at the rear end of the translation base (20),

be provided with in mounting groove (13) and construct (3) to boring, to boring mechanism (3), include: the left drill mechanism (3-B) and the right drill mechanism (3-A) are respectively arranged on the left side and the right side of the central bulge (11), the left drill mechanism (3-B) and the right drill mechanism (3-A) are identical in structure and are arranged oppositely, and the drilling machine comprises:

the supporting column (31) is fixedly arranged in the mounting groove (13), the supporting column (31) is provided with a plurality of supporting columns, the upper end of each supporting column is fixedly provided with a containing groove (32), a translation mechanism (33) is arranged in the containing groove (32), a translation sliding rail (34) is arranged at the upper edge of the containing groove (32), a translation sliding seat (35) connected with the driving end of the translation mechanism (33) is arranged on the translation sliding rail (34) in a sliding manner, a high-speed motor (36) is arranged on the translation sliding seat (35), and the rotating end of the high-speed motor (36) is used for clamping a drill bit (37),

to boring machine, still include:

and the control mechanism is electrically connected with the longitudinal moving mechanism (2) and the high-speed motor (36).

2. The air pump piston air port drill device of claim 1, wherein:

and a liquid leakage hole (14) penetrating through the horizontal base (10) is formed in the mounting groove (13).

3. The air pump piston air port drill device of claim 1, wherein:

the top end face of the groove wall of the mounting groove (13) is provided with a plurality of mounting grooves (15), and the mounting grooves (15) are internally fixed and used for inserting the outer shell.

4. The air pump piston air port drill device of claim 1, wherein:

symmetrical guard plates (16) are respectively arranged in the mounting grooves (13) on the left side and the right side of the central bulge (11), and the guard plates (16) are arranged on the sides of drill bits (37) of the drilling mechanism (3).

5. The air pump piston air port drill device of claim 1, wherein:

and a longitudinal moving slide rail (201) fixedly connected with the longitudinal moving base (20) is arranged in the retaining weir (12) along the front-back direction.

6. The air pump piston air port drill device of claim 1, wherein:

an upper shield (25) is arranged on the pressing mechanism (24), and the upper shield (25) is covered on the protection mechanism (21);

the guard mechanism (21) comprises:

set up in backplate (211) of placing mechanism (23) rear end to and, set up in left backplate (213), right backplate (212) of placing mechanism (23) left and right both sides, the last border department of backplate (211) is provided with convex support protrusion (214) forward, support protrusion (214) are used for supporting upper shield (25), and the upper portion of backplate (211) is provided with open logical groove (215).

7. The air pump piston air port drill device of claim 6, wherein:

the placement mechanism (23) comprising:

the connecting base plate (230) is fixedly connected with the longitudinal moving base (20), a front guard plate (237) is arranged at the front end of the connecting base plate (230), the left end and the right end of the front guard plate (237) are respectively connected with the left guard plate (213) and the right guard plate (212), a liquid discharge hole (235) is arranged at the front part of the upper end surface of the connecting base plate (230), the liquid discharge hole (235) extends downwards and penetrates through the central bulge (11), a convex right baffle plate (231A), a convex right supporting seat (233A), a convex left supporting seat (233B) and a convex left baffle plate (231B) are sequentially arranged at the rear part of the upper end surface of the connecting base plate (230) from right to left, a right guide hole (232A) is arranged on the right baffle plate (231A) in a penetrating manner, the right baffle plate (231A) is connected with the right guard plate (212), a left guide hole (232B) is arranged on the left baffle plate (231B) in a penetrating manner, and the left baffle plate (231B) is connected with the left guard plate (213), the upper end of the right supporting seat (233A) is provided with a right positioning bulge (234A), the right positioning bulge (234A) is inserted into the right positioning hole (101), the upper end of the left supporting seat (233B) is provided with a left positioning bulge (234B), and the left positioning bulge (234B) is inserted into the left positioning hole (102).

8. The air pump piston air port drill device of claim 7, wherein:

the lower parts of the right baffle (231A), the right supporting seat (233A), the left supporting seat (233B) and the left baffle (231B) are connected with ridge beams (236).

9. The air pump piston air port drill device of claim 7, wherein:

the pressing mechanisms (24) are provided with two groups, and the pressing mechanisms comprise the following symmetrically arranged components:

the device comprises a cylinder (240) arranged at the upper end of a longitudinal moving base (20), wherein a U-shaped carrier plate (241) fixedly connected with the longitudinal moving base (20) is horizontally arranged at the upper end of the cylinder (240), a fulcrum seat (242) is arranged at the upper end of the closed position at the front part of the carrier plate (241), a hinge seat (243) is arranged at the open position at the front part of the carrier plate (241), and the hinge seat (243) is hinged with the stroke end of the cylinder (240);

the upper ends of the left rotating arm (244) and the right rotating arm (245) are fixedly connected with the upper shield (25), the left rotating arm (244) and the right rotating arm (245) are movably inserted into the through groove (215), the tail ends of the left rotating arm (244) and the right rotating arm (245) are respectively provided with a left pressure head (246) and a right pressure head (247) which are abutted to the piston (100), the left pressure head (246) is arranged right above the left positioning hole (102) and the left positioning protrusion (234B), and the right pressure head (247) is arranged right above the right positioning hole (101) and the right positioning protrusion (234A).

10. The air pump piston air port drill device of claim 7, wherein:

the right guiding hole (232A) extends to the right side of the right guard plate (212) rightwards, the left guiding hole (232B) extends to the left side of the left guard plate (213) leftwards, and horn-shaped guiding openings are formed in the outer sides of the right guiding hole and the left guiding hole.

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