CN114888548A - Solar water tank heat locking sleeve mounting machine and using method thereof - Google Patents

Abstract

The invention relates to a solar water tank heat locking sleeve mounting machine and a using method thereof, the solar water tank heat locking sleeve mounting machine comprises a rack, a pressing device connected on the rack in a sliding way, and a longitudinal moving device driving the pressing device to move longitudinally, wherein the pressing device comprises a sliding rack body, two clamping plates arranged on the sliding rack body, a clamping device driving the two clamping plates to clamp a heat locking sleeve, and a lifting device driving the two clamping plates to lift synchronously, a heat locking sleeve guide pipe for accommodating the heat locking sleeve is fixedly connected on the sliding rack body, the pressing device also comprises a supporting plate for supporting the heat locking sleeve at the bottom and a supporting plate transverse moving device for driving the supporting plate to transversely move, the heat locking sleeve is pressed in a pipe hole of a water tank through the pressing device, then the pressing device is driven by the longitudinal moving device to realize the mounting of the heat locking sleeve in all pipe holes on the water tank, the supporting and positioning of the water tank are realized through a supporting beam and a pressing bottom plate, and the pressing bottom plate is adjusted to adapt to water tanks with different lengths and hole distances, the invention can realize the automatic installation of the locking thermal sleeve on the water tank, saves the labor and has high installation efficiency.

Description

Solar water tank heat locking sleeve mounting machine and using method thereof

Technical Field

The invention relates to the field of solar water tank processing, in particular to a solar water tank heat locking sleeve mounting machine and a using method thereof.

Background

The solar water heater is a very mature and practical product, in the production process of the solar water heater, a heat locking sleeve needs to be installed in a row of pipe holes of a solar water tank and is used for realizing the sealing connection between the water tank and a heating pipe, the heat locking sleeve is annular with a certain taper, the heat locking sleeve is sequentially stacked and inserted together before installation, the heat locking sleeve is manually detached and then sequentially pressed into the pipe holes in the prior art, time and labor are wasted, and therefore equipment capable of realizing the automatic installation of the heat locking sleeve is needed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a solar water tank heat locking sleeve mounting machine and a using method thereof.

The invention is realized by the following technical scheme, and provides a solar water tank heat locking sleeve mounting machine which comprises a rack, a pressing device connected on the rack in a sliding manner, and a longitudinal moving device driving the pressing device to move longitudinally, wherein the pressing device comprises a sliding rack body, two clamping plates arranged on the sliding rack body, a clamping device driving the two clamping plates to clamp a heat locking sleeve, and a lifting device driving the two clamping plates to lift synchronously, a heat locking sleeve guide pipe for accommodating the heat locking sleeve is fixedly connected on the sliding rack body, and the pressing device further comprises a supporting plate supporting the heat locking sleeve at the bottom and a supporting plate transverse moving device driving the supporting plate to move transversely.

The pressing device is driven by the longitudinal moving device to move longitudinally to be above a pipe hole of the water tank, the heat locking sleeves which are stacked and spliced up and down are vertically placed in the heat locking sleeve guide pipe, when the heat locking sleeves are installed, two clamping plates are released in an initial state, the heat locking sleeves are supported on a supporting plate, then the two clamping plates are driven by the lifting device to move to the side surface of a second heat locking sleeve below, the second heat locking sleeve below is clamped by the two clamping plates, then the supporting plate transverse moving device drives the supporting plate to transversely move to avoid a falling path of the heat locking sleeves, the lifting device drives the two clamping plates to downwards move, so that the heat locking sleeve at the lowest position is pressed in the pipe hole, then the two clamping plates drive the rest heat locking sleeves to upwards move, the supporting plate transverse moving device drives the supporting plate to return, the clamping plates are released, the heat locking sleeves fall on the supporting plate to complete one-time installation, and then the longitudinal moving device drives the pressing device to move to the next pipe hole, thereby completing the installation of all the pipe holes in sequence.

Preferably, the clamping device comprises two clamping sliding plates which are transversely and slidably connected to the sliding frame body and a clamping cylinder which drives the clamping sliding plates to transversely move, the two clamping plates are respectively and vertically slidably connected to the two clamping sliding plates, the lifting device comprises a lifting cylinder which drives the clamping plates to lift, and the lifting cylinder is installed on the clamping sliding plates. The clamping cylinder in the scheme drives the clamping slide plates to transversely move, the two clamping plates are vertically connected to the two clamping slide plates in a sliding mode respectively, the two clamping slide plates are clamped through relative motion, and the lifting cylinder drives the two clamping plates to lift.

Preferably, one side of each clamping plate close to each other is an arc-shaped surface matched with the heat locking sleeve. In the scheme, one side of each clamping plate close to each other is an arc-shaped surface matched with the heat locking sleeve, so that the heat locking sleeve is clamped through the two arc-shaped surfaces.

Preferably, the support plate is provided with two support plates which are respectively positioned at two sides of the connecting line of the two clamping plates, the support plate transverse moving device comprises a support plate cylinder fixedly connected with the sliding frame body, and the support plate is fixedly connected to a telescopic shaft of the support plate cylinder. The layer board cylinder in this scheme drives the layer board sideslip, realizes locking the support of hot cover through two layer boards, and the supporting effect is good, and corresponding speed is fast.

Preferably, the longitudinal moving device comprises a moving motor installed on the pressing device and a rack fixedly connected to the rack, and a gear meshed with the rack is installed on the moving motor. In the scheme, the moving motor drives the gear to move on the rack, so that the pressing device is moved.

Preferably, a supporting beam for supporting the water tank is fixedly connected to the frame, one end of the supporting beam is fixedly connected to the frame, and the other end of the supporting beam is fixedly connected to the frame through a detachable end fixing device. A supporting beam's the other end passes through detachable tip fixing device and frame rigid coupling in this scheme, and the water tank cover is on a supporting beam to supporting beam through inserting the water tank supports the water tank, unpack tip fixing device apart during the installation water tank, thereby be convenient for overlap the water tank on a supporting beam, tip fixing device fixes the tip of supporting beam when compressing tightly, thereby prevent a supporting beam and warp.

And as optimization, the two sides of the supporting beam are provided with a lifting beam and a lifting cylinder for driving the lifting beam to lift. The lifting cylinder in this scheme will lift the roof beam and upwards hold up to the water tank on will propping up a supporting beam upwards holds up, the dismouting of the water tank of being convenient for, especially after having installed the lock thermal sleeve, the water tank of being convenient for slides on lifting the roof beam and takes out.

Preferably, the end fixing device comprises a swing frame hinged to the frame, a positioning shaft fixedly connected to the end of the support beam, and a swing cylinder driving the swing frame to swing, and the swing frame is provided with a positioning hole matched with the positioning shaft. The swing span in this scheme swings, makes the locating hole cover on a location axle of a supporting beam tip, realizes that the support of a supporting beam tip is fixed.

As optimization, the upper end face of the supporting beam is provided with a plurality of pressing bottom plates which are arranged along the length direction of the water tank, the pressing bottom plates are provided with avoidance holes for avoiding heat locking sleeves, the lower end face of one side of each pressing bottom plate is fixedly connected with a positioning pin, two sides of the upper end face of the supporting beam are respectively provided with a row of positioning pin holes for accommodating the insertion of the positioning pins, and the hole distances of the positioning pin holes on the two sides are different. The bottom plate supports in the inboard tube hole department of water tank in this scheme, the interval that compresses tightly the bottom plate corresponds with the pitch-row of tube hole, the locating pin that compresses tightly the bottom plate inserts and realizes fixing in the locating pin hole, the pitch-row of both sides locating pin hole is different, thereby compress tightly 180 degrees through rotating, insert the regulation that the opposite side realized the pitch-row with the locating pin, can also prevent that muscle and the bottom plate that compresses tightly in the water tank tip from interfering through tearing the bottom plate that the water tank tip corresponds, thereby adapt to different water tank length.

A use method of a solar water tank heat locking sleeve mounting machine comprises the following steps:

a. the swing cylinder drives the swing frame to swing, so that the swing frame is separated from the end part of the supporting beam, and then the water tank is sleeved on the supporting beam from one end of the swing frame;

b. the swing cylinder drives the swing frame to swing, so that the positioning hole is sleeved on the positioning shaft at the end part of the supporting beam, and the supporting and fixing of the end part of the supporting beam are realized;

c. the heat locking sleeve is vertically placed in the heat locking sleeve guide pipe, the pressing device is driven by the longitudinal moving device to longitudinally move to the position above a pipe hole of the water tank, at the moment, the two clamping plates are in a release state, the heat locking sleeve is supported on the supporting plate, then the two clamping plates are driven by the lifting device to move to the side face of the second heat locking sleeve below, the second heat locking sleeve below is clamped by the two clamping plates, then the supporting plate transverse moving device drives the supporting plate to transversely move to avoid a falling path of the heat locking sleeve, the lifting device drives the two clamping plates to downwards move, so that the heat locking sleeve at the lowest position is pressed in the pipe hole, then the two clamping plates drive the rest heat locking sleeve to upwards move, the supporting plate transverse moving device drives the supporting plate to return, the clamping plates are released, and the heat locking sleeve falls on the supporting plate to finish one-time installation;

d. the longitudinal moving device drives the pressing device to move to the next pipe hole, and therefore all the pipe holes are sequentially installed.

The invention has the beneficial effects that: according to the solar water tank heat locking sleeve mounting machine and the using method thereof, the heat locking sleeves are tightly pressed in the pipe holes of the water tank through the pressing device, then the pressing device is driven by the longitudinal moving device to longitudinally move to realize mounting of the heat locking sleeves in all the pipe holes on the water tank, supporting and positioning of the water tank are realized through the arranged supporting beam and the pressing bottom plate, and meanwhile, the pressing bottom plate is adjusted to adapt to the water tanks with different lengths and hole pitches.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view taken along plane A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1 in accordance with the present invention;

FIG. 4 is a side view of the compression device of the present invention;

FIG. 5 is a cross-sectional view taken along plane C-C of FIG. 4 in accordance with the present invention;

FIG. 6 is a cross-sectional view taken along plane D-D of FIG. 4 in accordance with the present invention;

FIG. 7 is a cross-sectional view taken along line E-E of FIG. 4 in accordance with the present invention;

FIG. 8 is an enlarged view of the end fixture of the present invention;

FIG. 9 is a schematic view of the position of the heat-locking sleeve, clamping plate and pallet of the present invention;

FIG. 10 is a front view of a heat locking sleeve of the present invention;

FIG. 11 is a schematic view of the construction of the hold-down shoe of the present invention;

shown in the figure:

1. the device comprises a rack, 2, a pressing device, 21, a sliding frame body, 22, a supporting plate cylinder, 23, a supporting plate, 24, a clamping sliding plate, 25, a clamping cylinder, 26, a heat locking sleeve guide pipe, 27, a lifting cylinder, 28, a clamping plate, 29, a sliding shaft, 3, a guide rail beam, 4, an end fixing device, 41, a swing frame, 42, a swing cylinder, 43, a positioning shaft, 5, a supporting beam, 6, a pressing bottom plate, 61, a positioning pin, 7, a lifting cylinder, 8, a lifting beam, 9, a moving motor, 10, a gear, 11, a rack, 12 and a heat locking sleeve.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

As shown in fig. 1 to 11, the solar water tank heat locking sleeve mounting machine of the present invention includes a frame 1, a pressing device 2 slidably connected to the frame 1, and a longitudinal movement device for driving the pressing device 2 to move longitudinally.

A supporting beam 5 for supporting the water tank is fixedly connected to the rack 1, the supporting beam 5 is located below the pressing device 2, the supporting beam 5 is transversely arranged, one end of the supporting beam 5 is fixedly connected with the rack 1, and the other end of the supporting beam 5 is fixedly connected with the rack 1 through a detachable end fixing device 4.

The end fixing device 4 comprises a swing frame 41 hinged on the frame 1, a positioning shaft 43 fixedly connected to the end of the support beam 5, and a swing cylinder 42 driving the swing frame 41 to swing, and the swing frame 41 is provided with a positioning hole matched with the positioning shaft 43.

In this embodiment, the upper end of the swing frame 41 is hinged to the frame 1, the positioning hole is formed in one side, facing the supporting beam 5, of the lower end of the swing frame 41, the positioning shaft 43 is fixedly connected to the end face of the supporting beam 5 and is conical, the positioning hole is sleeved on the positioning shaft 43, so that the unfixed end of the supporting beam 5 is supported, the supporting beam is prevented from being deformed, and when the water tank is installed, the swing cylinder 42 drives the swing frame 41 to swing upwards, so that the boiled water tank is avoided.

As shown in fig. 2, the upper end surface of the support beam 5 is provided with a plurality of pressing bottom plates 6 arranged along the length direction of the water tank, and the pressing bottom plates 6 are square plates placed on the support beam 5. The pressing bottom plate 6 is provided with an avoiding hole for avoiding the thermal lock sleeve 12, the avoiding hole is a round hole formed in the center of the pressing bottom plate 6, and the supporting beam 5 is also provided with a long strip-shaped avoiding long hole so as to avoid the thermal lock sleeve 12.

As shown in fig. 11, a positioning pin 61 is fixedly connected to a lower end surface of one side of the pressing bottom plate 6, two positioning pins 61 are installed on one side of the pressing bottom plate 6 in this embodiment, a row of positioning pin holes for accommodating the positioning pins 61 are respectively formed in two sides of an upper end surface of the support beam 5, the hole distances of the positioning pin holes on two sides are different, the hole distance of the positioning pin hole refers to the hole distance of the positioning pin hole between the adjacent pressing bottom plates 6, the pressing bottom plate 6 is horizontally rotated by 180 degrees, the positioning pin 61 is inserted into the positioning pin hole on the opposite side, and therefore the distance between the adjacent pressing bottom plates 6 is adjusted, and different hole distances are adapted.

And the two sides of the supporting beam 5 are provided with a lifting beam 8 and a lifting cylinder 7 for driving the lifting beam 8 to lift. A plurality of lifting cylinders 7 are arranged below each lifting beam 8, lifting of the lifting beams 8 is achieved, and when the water tank is disassembled and assembled, the lifting beams 8 are in a lifting state.

Compressing device 2 includes the slip support body 21, installs two splint 28 on the slip support body 21, drives two splint 28 and presss from both sides the clamping device of tight lock hot jacket 12 and drives the elevating gear that two splint 28 go up and down in step, the rigid coupling has two guide rail roof beams 3 in the frame 1, the slip support body 21 passes through slider and slide rail sliding connection on guide rail roof beam 3.

Through indulging to move device drive closing device 2 longitudinal movement on guide rail roof beam 3, indulge and move the device including installing the moving motor 9 on closing device 2 and the rack 11 of rigid coupling on frame 1, be equipped with on the moving motor 9 with the gear 10 of rack 11 meshing, moving motor 9 rigid coupling in this embodiment is on the sliding frame body 21, rack 11 rigid coupling is on a guide rail roof beam 3.

As shown in fig. 3 to 6, a heat locking sleeve conduit 26 for accommodating the heat locking sleeve 12 is fixedly connected to the sliding frame body 21, the heat locking sleeve conduit 26 has an upper opening and a lower opening and is located right above the pipe hole of the water tank, and the heat locking sleeve conduit 26 is not limited to be tubular and may be formed by a plurality of rods arranged in the circumferential direction.

The clamping device comprises two clamping sliding plates 24 which are transversely and slidably connected to the sliding frame body 21 and clamping cylinders 25 which drive the clamping sliding plates 24 to transversely move, the clamping sliding plates 24 are slidably connected with the sliding frame body 21 through sliding rails and sliding blocks, and the two clamping cylinders 25 respectively drive the two clamping sliding plates 24 to reversely move.

The two clamping plates 28 are vertically connected to the two clamping sliding plates 24 in a sliding mode respectively, as shown in fig. 3 to 6, the clamping plates 28 are fixed at the lower ends of the sliding shafts 29, the sliding shafts 29 achieve vertical sliding guiding through the guide blocks, the lifting device comprises lifting cylinders 27 for driving the clamping plates 28 to lift, the lifting cylinders 27 are installed on the clamping sliding plates 24, the lifting cylinders 27 in the embodiment drive the sliding shafts 29 to lift, so that the clamping plates 28 lift, the lifting cylinders 27 in the embodiment are installed at the upper ends of the sliding shafts 29, telescopic shafts of the lifting cylinders 27 are fixedly connected with the clamping sliding plates 24, and the lifting cylinders 27 lift along with the sliding shafts 29 during lifting.

The side of the two clamping plates 28 close to each other is an arc-shaped surface matched with the thermal lock sleeve 12, and the two arc-shaped surfaces are closed to form a circle, so that the thermal lock sleeve can be effectively clamped.

As shown in fig. 4, the pressing device 2 further includes a pallet 23 supporting the bottom thermal lock sleeve 12 and a pallet traverse device driving the pallet 23 to traverse. The supporting plate 23 is provided with two supporting plates which are respectively positioned at two sides of the connecting line of the two clamping plates 28, the supporting plate transverse moving device comprises a supporting plate cylinder 22 fixedly connected with the sliding frame body 21, and the supporting plate 23 is fixedly connected to a telescopic shaft of the supporting plate cylinder 22.

A use method of a solar water tank heat locking sleeve mounting machine comprises the following steps:

a. the swing frame 41 is driven to swing through the swing cylinder 42, so that the swing frame 41 is separated from the end part of the supporting beam 5, meanwhile, the lifting cylinder 7 drives the two lifting beams 8 to ascend, then the water tank is sleeved on the supporting beam 5 from one end of the swing frame, and the lifting beams 8 descend after being sleeved, so that the water tank is supported on the pressing bottom plate 6.

b. The swing cylinder 42 drives the swing frame 41 to swing, so that the positioning hole is sleeved on the positioning shaft 43 at the end part of the supporting beam 5, and the end part of the supporting beam 5 is supported and fixed.

c. The heat locking sleeve 12 is vertically placed in the heat locking sleeve guide pipe, the pressing device is driven to longitudinally move to the upper portion of a pipe hole of the water tank through the longitudinal moving device, at the moment, the two clamping plates 28 are in a release state, the heat locking sleeve 12 is supported on the supporting plate 23, then the two clamping plates 28 are driven to move to the side face of the second heat locking sleeve below through the lifting device, the second heat locking sleeve below is clamped through the two clamping plates 28, then the supporting plate transverse moving device drives the supporting plate 23 to transversely move to avoid a falling path of the heat locking sleeve, the lifting device drives the two clamping plates 28 to downwards move, so that the heat locking sleeve at the lowest position is pressed in the pipe hole, then the two clamping plates drive the remaining heat locking sleeves to upwards move, and at the moment, the heat locking sleeve at the lowest position is remained in the pipe hole through a sealing rib on the side face.

After the rest heat locking sleeves move to the upper part of the supporting plate 23, the supporting plate transverse moving device drives the supporting plate 23 to return, the clamping plate 28 is released, and the heat locking sleeves fall on the supporting plate 23 to finish one-time installation.

d. The longitudinal moving device drives the pressing device to move to the next pipe hole, so that all the pipe holes are sequentially installed.

Of course, the above description is not limited to the above examples, and the undescribed technical features of the present invention can be implemented by or using the prior art, and will not be described herein again; the above embodiments and drawings are only for illustrating the technical solutions of the present invention and not for limiting the present invention, and the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that changes, modifications, additions or substitutions within the spirit and scope of the present invention may be made by those skilled in the art without departing from the spirit of the present invention, and shall also fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a solar energy water tank lock hot jacket installation machine which characterized in that: the device comprises a rack (1), a pressing device (2) connected to the rack (1) in a sliding mode, and a longitudinal moving device for driving the pressing device (2) to move longitudinally, wherein the pressing device (2) comprises a sliding frame body (21), two clamping plates (28) installed on the sliding frame body (21), a clamping device for driving the two clamping plates (28) to clamp a heat locking sleeve (12), and a lifting device for driving the two clamping plates (28) to lift synchronously, a heat locking sleeve guide pipe (26) for accommodating the heat locking sleeve (12) to be placed is fixedly connected to the sliding frame body (21), and the pressing device (2) further comprises a supporting plate (23) supporting the heat locking sleeve (12) at the bottom and a transverse moving supporting plate device for driving the supporting plate (23) to move transversely.

2. The solar water tank locking thermal sleeve mounting machine according to claim 1, wherein: clamping device includes two clamping slide (24) and the drive that transversely slide on slip support body (21) and presss from both sides clamping cylinder (25) of tight slide (24) lateral shifting, and two splint (28) are vertical joint in the slip respectively on two clamping slide (24), elevating gear is including lift cylinder (27) that drive splint (28) go up and down, lift cylinder (27) are installed on clamping slide (24).

3. The solar water tank locking thermal sleeve mounting machine according to claim 1, wherein: the side, close to each other, of the two clamping plates (28) is an arc-shaped surface matched with the heat locking sleeve (12).

4. The solar water tank locking thermal sleeve mounting machine according to claim 1, wherein: the supporting plate (23) is provided with two supporting plates (22) which are respectively positioned at two sides of the connecting line of the two clamping plates (28), the supporting plate transverse moving device comprises a supporting plate cylinder (22) fixedly connected with the sliding frame body (21), and the supporting plate (23) is fixedly connected on a telescopic shaft of the supporting plate cylinder (22).

5. The solar water tank locking thermal sleeve mounting machine according to claim 1, wherein: the longitudinal moving device comprises a moving motor (9) arranged on the pressing device (2) and a rack (11) fixedly connected to the rack (1), and a gear (10) meshed with the rack (11) is arranged on the moving motor (9).

6. The solar water tank locking thermal sleeve mounting machine according to claim 1, wherein: a supporting beam (5) for supporting the water tank is fixedly connected to the rack (1), one end of the supporting beam (5) is fixedly connected with the rack (1), and the other end of the supporting beam (5) is fixedly connected with the rack (1) through a detachable end fixing device (4).

7. The solar water tank locking thermal sleeve mounting machine according to claim 6, wherein: and the two sides of the supporting beam (5) are provided with a lifting beam (8) and a lifting cylinder (7) for driving the lifting beam (8) to lift.

8. The solar water tank locking thermal sleeve mounting machine according to claim 6, wherein: the end fixing device (4) comprises a swing frame (41) hinged to the rack (1), a positioning shaft (43) fixedly connected to the end of the supporting beam (5) and a swing cylinder (42) driving the swing frame (41) to swing, and a positioning hole matched with the positioning shaft (43) is formed in the swing frame (41).

9. The solar water tank locking thermal sleeve mounting machine according to claim 6, wherein: the utility model discloses a hot water tank's structure, including supporting beam (5), supporting beam's up end is equipped with a plurality of pressing bottom plate (6) of arranging along water tank length direction, and pressing bottom plate (6) go up to open has dodges the hole of dodging lock heat jacket (12), the lower terminal surface rigid coupling that presses bottom plate (6) one side has locating pin (61), and the both sides of supporting beam (5) up end are respectively opened one row and are held locating pin (61) male locating pin hole, and the hole distance of both sides locating pin hole is different.

10. A use method of a solar water tank heat locking sleeve mounting machine is characterized by comprising the following steps:

a. the swing cylinder drives the swing frame to swing, so that the swing frame is separated from the end part of the supporting beam, and then the water tank is sleeved on the supporting beam from one end of the swing frame;

b. the swing cylinder drives the swing frame to swing, so that the positioning hole is sleeved on the positioning shaft at the end part of the supporting beam, and the supporting and fixing of the end part of the supporting beam are realized;

c. the heat locking sleeve is vertically placed in the heat locking sleeve guide pipe, the pressing device is driven by the longitudinal moving device to longitudinally move to the position above a pipe hole of the water tank, at the moment, the two clamping plates are in a release state, the heat locking sleeve is supported on the supporting plate, then the two clamping plates are driven by the lifting device to move to the side face of the second heat locking sleeve below, the second heat locking sleeve below is clamped by the two clamping plates, then the supporting plate transverse moving device drives the supporting plate to transversely move to avoid a falling path of the heat locking sleeve, the lifting device drives the two clamping plates to downwards move, so that the heat locking sleeve at the lowest position is pressed in the pipe hole, then the two clamping plates drive the rest heat locking sleeve to upwards move, the supporting plate transverse moving device drives the supporting plate to return, the clamping plates are released, and the heat locking sleeve falls on the supporting plate to finish one-time installation;

d. the longitudinal moving device drives the pressing device to move to the next pipe hole, so that all the pipe holes are sequentially installed.

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