CN115164555A - Concrete pipe pile drying device - Google Patents

Abstract

The invention discloses a concrete pipe pile drying device which comprises a pipe pile rolling mechanism, a drying mechanism and a reciprocating cleaning mechanism. The tubular pile rolling mechanism comprises a case with a hollow structure inside and a rolling assembly arranged inside the case, and the front side of the case is provided with a material inlet; the drying mechanism comprises electric heating wires arranged on the left inner wall and the right inner wall of the case and a blowing assembly arranged on the top wall of the case; the reciprocating cleaning mechanism comprises a supporting plate arranged on the side wall of the case, a reciprocating assembly arranged on the supporting plate and a cleaning assembly matched with the reciprocating assembly. The reciprocating cleaning mechanism and the drying mechanism can simultaneously perform drying and water absorption operations on the inner wall and the outer wall of the concrete pipe pile, so that the drying efficiency is greatly improved.

Description

Concrete pipe pile drying device

Technical Field

The invention relates to the technical field of concrete pipe pile production, in particular to a concrete pipe pile drying device.

Background

The pipe pile is divided into post-tensioning prestressed pipe pile and pre-tensioning prestressed pipe pile. The pretensioned prestressing pipe pile is a hollow cylinder body elongated concrete prefabricated component manufactured by adopting a pretensioned prestressing process and a centrifugal forming method, and mainly comprises a cylindrical pile body, an end plate, a steel ferrule and the like. In addition, the pipe piles are classified into prestressed concrete pipe piles (PC pipe piles), prestressed concrete thin-wall pipe piles (PTC pipe piles) and prestressed high-strength concrete pipe piles (PHC pipe piles) according to the concrete strength and wall thickness. The strength of the concrete of the PC pile is not lower than that of C50 concrete, the strength grade of the PTC pipe pile is not lower than that of C60, and the strength grade of the concrete of the PHC pile is not lower than that of C80. The PC piles and the PTC piles are generally maintained by normal pressure steam, and can be driven after 28 days. And the PHC pile is subjected to autoclave steam curing after demoulding, and the concrete strength grade reaches C80 and only needs three to four days from forming to using after steam curing at about 180 ℃ under 10 atmospheric pressures.

The processing and the casting of present tubular pile generally go on under the condition of high temperature to need cool down through the trickle in the in-process of processing, the ectonexine that will lead to the tubular pile like this has ponding, and natural evaporation is consuming time longer, and probably because ponding condition such as crack and the inflation that appears too much leads to the product unqualified. And general tubular pile drying device can only carry out conventional surface drying, and the inside ponding drying efficiency of tubular pile is lower.

Disclosure of Invention

In order to solve the technical problems, the invention provides the following technical scheme: a concrete pipe pile drying device comprises a pipe pile rolling mechanism, a pipe pile rolling mechanism and a pipe pile drying mechanism, wherein the pipe pile rolling mechanism comprises a case with a hollow structure inside and a rolling assembly arranged inside the case, and the front side of the case is provided with a material inlet; the drying mechanism comprises electric heating wires arranged on the left inner wall and the right inner wall of the case and a blowing assembly arranged on the top wall of the case; the reciprocating cleaning mechanism comprises a supporting plate arranged on the side wall of the case, a reciprocating component arranged on the supporting plate and a cleaning component matched with the reciprocating component; the reciprocating assembly comprises a supporting block arranged on the left side of the top end of the supporting plate and two isolating plates arranged on the right side of the top end of the supporting plate in parallel, first converting parts are respectively and oppositely arranged in second through holes of the two isolating plates in a rotating mode, each first converting part comprises a first hollow cylinder, a plurality of first teeth are circumferentially arranged at one opposite end of each first hollow cylinder, first bevel gears are circumferentially arranged on cylinders, located on one sides of the first teeth, of the first hollow cylinders, and the threaded rods penetrate through the first hollow cylinders in a sliding mode; the threaded rod is provided with two second conversion parts on the rod body between the first conversion parts, each second conversion part comprises a second hollow cylinder fixedly arranged on the rod body of the threaded rod, and second teeth matched with the first teeth are circumferentially arranged on the left end face and the right end face of each second hollow cylinder.

As a preferable scheme of the drying device for the concrete pipe pile of the present invention, wherein: the rolling assembly comprises two rotating drums which are arranged in parallel, first rotating shafts are arranged in the rotating drums, the left ends and the right ends of the first rotating shafts are rotatably connected with the front inner wall and the rear inner wall of the case, and a gap between the two rotating drums is smaller than the diameter of the concrete pipe pile.

As a preferable scheme of the drying device for the concrete pipe pile of the present invention, wherein: two run through with one side of first pivot machine incasement wall is connected with first gear, two one side of first gear is provided with first rotation motor, the output of first rotation motor is connected with the second gear, the second gear and two connect through first transmission band between the first gear, two the outer wall parcel of rotary drum has the inoxidizing coating, the inoxidizing coating adopts the rubber material to make.

As a preferable scheme of the drying device for the concrete pipe pile of the present invention, wherein: a first through hole is formed in the middle of the supporting block, a bearing is arranged in the first through hole in a sliding mode, and second through holes are formed in the positions, corresponding to the bearing, of the two isolation plates respectively.

As a preferable scheme of the drying device for the concrete pipe pile of the present invention, wherein: a threaded rod is fixed in an inner ring of the bearing, the other end of the threaded rod sequentially penetrates through the two second through holes, a first sliding groove is formed in the upper portion of the first through hole, a limiting block is arranged at the top end of the bearing, and the limiting block is connected in the first sliding groove in a sliding mode.

As a preferable scheme of the drying device for the concrete pipe pile of the present invention, wherein: the top of backup pad with the second spout has been seted up to the corresponding position of threaded rod, the joint groove has been seted up to the side of second spout, threaded rod threaded connection has the thread bush, the thread bush bottom is provided with the slider, the slider slide set up in the second spout, the slip joint has two to remove the seat in the joint inslot, two it is direct to remove the seat top the screw hole of joint groove diapire, screw hole female connection has the bolt, two it has the baffle to remove the seat side, two the one side that the baffle is relative is provided with the spring, install on the thread bush top clean subassembly, clean subassembly including erect in the bracing piece on thread bush top to and bond in the sponge that absorbs water on bracing piece top.

As a preferable scheme of the drying device for the concrete pipe pile of the present invention, wherein:

as a preferable scheme of the drying device for the concrete pipe pile of the present invention, wherein: a second rotating motor is fixed at the top of the case, the output end of the second rotating motor penetrates through the top wall of the case and is connected with a rotating shaft, and a second bevel gear is connected to the bottom end of the rotating shaft, is positioned between the two isolation plates and is meshed with the two first bevel gears.

As a preferable scheme of the drying device for the concrete pipe pile of the present invention, wherein: the blowing assembly comprises two rotating rods arranged on the top wall of the case, the rotating rod body is provided with a third gear, a plurality of blades are circumferentially arranged at the bottom end of the rotating rod, a fourth gear is arranged at a position corresponding to the third gear, and the fourth gear is connected with the third gear through a second transmission belt.

The invention has the beneficial effects that: tubular pile rolling mechanism drives the concrete pipe pile and rotates, reciprocal clean mechanism is located the concrete pipe pile simultaneously, open the second and rotate the motor, the second rotates the motor and drives reciprocal subassembly and begin to carry out reciprocating motion in the concrete pipe pile, absorb totally with the ponding in the concrete pipe pile of the clean subassembly efficiency of reciprocal subassembly matched with, the second rotates the motor and has also driven the subassembly of blowing and has begun the operation when driving reciprocal subassembly, the hot-air circulation of the quick-witted incasement electric heating wire heating of subassembly of blowing acceleration, the evaporation of concrete pipe pile surface hydrops accelerates, so can dry and absorb water the inside and outside wall of concrete pipe pile simultaneously, the efficiency is greatly improved.

Drawings

Fig. 1 is a visual diagram of a concrete pipe pile drying device.

Fig. 2 is an internal structure view of the concrete pipe pile drying device.

Fig. 3 is an inside front view of the concrete pipe pile drying device after the electric heating wires are removed.

Fig. 4 is an internal visual diagram of the concrete pipe pile drying device without the electric heating wires.

Fig. 5 is a structural diagram of a reciprocating cleaning mechanism in the concrete pipe pile drying device.

Fig. 6 is a structural view of a supporting block and a partition plate in the concrete pipe pile drying device.

Fig. 7 is a structural diagram of a movable base in the concrete pipe pile drying device.

Fig. 8 is a structural diagram of a first conversion member in the concrete pipe pile drying device.

Fig. 9 is a structural view of a second conversion member in the concrete pipe pile drying apparatus.

Fig. 10 is a front view of a reciprocating cleaning mechanism in the concrete pipe pile drying apparatus.

In the figure: the pipe pile rolling mechanism 100, the machine case 101, the material inlet 101a, the rolling component 102, the rotating drum 102a, the protective layer 102a-1, the first rotating shaft 102b, the first gear 102c, the first rotating motor 102d, the second gear 102e, the first transmission belt 102f, the concrete pipe pile 103, the drying mechanism 200, the electric heating wire 201, the blowing component 202, the rotating rod 202a, the third gear 202b, the blade 202c, the reciprocating cleaning mechanism 300, the supporting plate 301, the second sliding groove 301a, the clamping groove 301b, the reciprocating component 302, the supporting block 302a, the first through hole 302a-1, the first sliding groove 302a-2 and the isolating plate 302b, the cleaning device comprises a second through hole 302b-1, a bearing 302c, a limiting block 302c-1, a threaded rod 302d, a threaded sleeve 302e, a moving seat 302f, a threaded hole 302f-1, a bolt 302f-2, a blocking plate 302f-3, a spring 302f-4, a cleaning component 303, a supporting rod 303a, a water-absorbing sponge 303b, a first conversion piece 302g, a first hollow cylinder 302g-1, a first tooth 302g-2, a first bevel gear 302g-3, a second conversion piece 302h, a second hollow cylinder 302h-1, a second tooth 302h-2, a second rotating motor 304, a rotating shaft 304a, a second bevel gear 304b, a fourth gear 304c and a second conveying belt 304d.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Example 1

Referring to fig. 1 to 5, the embodiment provides a concrete pipe pile drying device, which includes a pipe pile rolling mechanism 100, a drying mechanism 200, and a reciprocating cleaning mechanism 300, wherein the reciprocating cleaning mechanism 300 and the drying mechanism 200 perform drying and water absorbing operations on the inside and the outside of a concrete pipe pile simultaneously.

Specifically, the tubular pile rolling mechanism 100 comprises a case 101 with a hollow structure inside and a rolling component 102 arranged inside the case 101, wherein a material inlet 101a is formed in the front surface of the case 101; the concrete pipe pile 103 is put on the rolling assembly 102 in the machine box 101 through the material inlet 101 a.

Preferably, the drying mechanism 200 includes electric heating wires 201 disposed on the left and right inner walls of the cabinet 101, and a blowing assembly 202 disposed on the top wall of the cabinet 101; the electric heating wire 201 is electrically connected with an external power supply, so that the air in the case 101 can be heated, and the blowing assembly 202 accelerates the circulation of hot air and the drying efficiency of the surface of the concrete pipe pile 103.

Preferably, the reciprocating cleaning mechanism 300 includes a supporting plate 301 disposed on a sidewall of the chassis 101, a reciprocating assembly 302 disposed on the supporting plate 301, and a cleaning assembly 303 engaged with the reciprocating assembly 302; reciprocating assembly 302 can carry out reciprocating motion back and forth inside the concrete pipe pile, and the reciprocating motion of cleaning assembly 303 cooperation reciprocating assembly 302 and the rotation of concrete pipe pile can carry out the high efficiency to the inner wall of concrete pipe pile 103 and absorb water cleanly, clear away the hydrops.

Preferably, the rolling assembly 102 includes two rotating cylinders 102a arranged in parallel, a first rotating shaft 102b is arranged inside the rotating cylinder 102a, the left and right ends of the two first rotating shafts 102b are rotatably connected with the front and rear inner walls of the case 101, and the gap between the two rotating cylinders 102a is smaller than the diameter of the concrete pipe pile 103; when the diameter of the concrete pipe pile 103 is larger than the gap between the two rotating drums 102a, the two rotating drums 102a rotate in the same direction to drive the concrete pipe pile 103 to rotate.

Preferably, the same sides of the two first rotating shafts 102b penetrate through the inner wall of the chassis 101 to be connected with the first gear 102c, one side of the two first gears 102c is provided with a first rotating motor 102d, the output end of the first rotating motor 102d is connected with a second gear 102e, the second gear 102e is connected with the two first gears 102c through a first transmission belt 102f, the outer walls of the two rotating drums 102a are wrapped by protective layers 102a-1, and the protective layers 102a-1 are made of rubber materials; the protective layer 102a-1 made of rubber can protect the rotating drum 102a and the concrete pipe pile 103, the first rotating motor 102d is started, the first rotating motor 102d drives the second gear 102e to rotate, the second gear 102e drives the first transmission belt 102f to further drive the two first gears 102c to rotate, and therefore the concrete pipe pile 103 placed on the two rotating drums 102a also starts to rotate.

When the electric pipe pile driving device is used, the electric heating wires 201 are electrically connected with an external power supply, the concrete pipe pile 103 is placed on the two rotary drums 102a in the case 101 through the material inlet 101a, the first rotary motor 102d is started, the first rotary motor 102d drives the second gear 102e to rotate, the second gear 102e drives the first transmission belt 102f to further drive the two first gears 102c to rotate, and therefore the concrete pipe pile 103 placed on the two rotary drums 102a also starts to rotate. Reciprocating assembly 302 can carry out reciprocating motion back and forth inside the concrete pipe pile, and the reciprocating motion of cleaning assembly 303 cooperation reciprocating assembly 302 and the rotation of concrete pipe pile can carry out the high efficiency to the inner wall of concrete pipe pile 103 and absorb water cleanly, clear away the hydrops. The electric heating wires 201 can heat the air in the case 101, and the blowing assembly 202 accelerates the circulation of hot air and the drying efficiency of the surface of the concrete pipe pile 103, so that the inner wall and the outer wall of the concrete pipe pile 103 can be dried and absorb water at the same time, and the efficiency is greatly improved.

Example 2

Referring to fig. 1 to 10, this embodiment is based on the previous embodiment.

Specifically, the reciprocating assembly 302 includes a supporting block 302a disposed on the left side of the top end of the supporting plate 301, and two isolation plates 302b disposed in parallel on the right side of the top end of the supporting plate 301, a first through hole 302a-1 is formed in the middle of the supporting block 302a, a bearing 302c is slidably disposed in the first through hole 302a-1, and second through holes 302b-1 are respectively formed in positions of the two isolation plates 302b corresponding to the bearing 302 c.

Preferably, a threaded rod 302d is fixed in an inner ring of the bearing 302c, the other end of the threaded rod 302d sequentially penetrates through two second through holes 302b-1, a first chute 302a-2 is formed above the first through hole 302a-1, a limiting block 302c-1 is arranged at the top end of the bearing 302c, and the limiting block 302c-1 is slidably connected into the first chute 302 a-2; a threaded rod 302d is fixed in an inner ring of the bearing 302c, when the threaded rod 302d rotates, a limiting block 302c-1 at the top end of the bearing 302c prevents the bearing 302c from rotating under the limiting effect of the first sliding groove 302a-2, and when the threaded rod 302d moves transversely, the bearing 302c can be driven to move in the first through hole 302 a-1.

Preferably, the top end of the supporting plate 301 corresponds to the threaded rod 302d and is provided with a second sliding groove 301a, the side edge of the second sliding groove 301a is provided with a clamping groove 301b, the threaded rod 302d is in threaded connection with a threaded sleeve 302e, the bottom end of the threaded sleeve 302e is provided with a sliding block, the sliding block is slidably arranged in the second sliding groove 301a, the clamping groove 301b is slidably clamped with two moving seats 302f, the top ends of the two moving seats 302f are provided with threaded holes 302f-1 which are directly communicated with the bottom wall of the clamping groove 301b, the threaded holes 302f-1 are in threaded connection with bolts 302f-2, the side edges of the two moving seats 302f are provided with blocking plates 302f-3, one surfaces of the two blocking plates 302f-3 which are opposite to each other are provided with a spring 302f-4, the top end of the threaded sleeve 302e is provided with a cleaning assembly 303, and the cleaning assembly 303 comprises a supporting rod 303a vertical to the top end of the threaded sleeve 302e and a water absorption sponge 303b adhered to the top end of the supporting rod 303 a.

The length of the concrete pipe pile 103 can be measured in advance to adjust the distance between the two movable seats 302f, the movable seats 302f are moved by unscrewing the bolts 302f-2 in the threaded holes 302f-1, after the position is determined, the bolts 302f-2 are screwed tightly, so that the bolts 302f-2 tightly abut against the bottom wall of the clamping groove 301b, the threaded rod 302d can drive the threaded sleeve 302e to move, when the threaded sleeve 302e approaches and slowly compresses the springs 302f-4 on the movable seats 302f, the springs 302f-4 provide thrust in opposite directions for the threaded sleeve 302e, so that the threaded sleeve 302e also provides thrust for the threaded rod 302d, the threaded rod 302d drives the bearing 302c to generate displacement in the first through hole 302a-1, the cleaning component 303b arranged at the top end of the threaded sleeve 302e comprises the water absorption sponge 303b, and when the threaded sleeve 302e moves, the water absorption sponge 303b also starts to move and cooperates with the rotation of the concrete pipe pile 103 to clean and absorb water on the inner wall of the concrete pipe pile 103.

Preferably, the second through holes 302b-1 of the two isolation plates 302b are respectively and oppositely provided with a first conversion member 302g in a rotating manner, the first conversion member 302g comprises a first hollow cylinder 302g-1, one end of each of the two first hollow cylinders 302g-1, which is opposite to the first hollow cylinder, is circumferentially provided with a plurality of first teeth 302g-2, a cylinder body of the first hollow cylinder 302g-1, which is positioned at one side of the plurality of first teeth 302g-2, is circumferentially provided with a first bevel gear 302g-3, and the threaded rod 302d slidably penetrates through the first hollow cylinder 302g-1.

Preferably, a second conversion member 302h is disposed on the rod body of the threaded rod 302d between the two first conversion members 302g, the second conversion member 302h includes a second hollow cylinder 302h-1 fixedly disposed on the rod body of the threaded rod 302d, and second teeth 302h-2 matched with the first teeth 302g-2 are circumferentially disposed on the left and right end surfaces of the second hollow cylinder 302 h-1.

Preferably, a second rotating motor 304 is fixed at the top of the chassis 101, an output end of the second rotating motor 304 penetrates through the top wall of the chassis 101 to be connected with a rotating shaft 304a, a second bevel gear 304b is connected to the bottom end of the rotating shaft 304a, and the second bevel gear 304b is located between the two partition plates 302b and is meshed with the two first bevel gears 302 g-3; after the second rotating motor 304 is turned on, since the second bevel gear 304b is located between the two isolation plates 302b and is engaged with the two first bevel gears 302g-3, when the second bevel gear 304b rotates, the two first bevel gears 302g-3 are driven to rotate, and the rotation directions of the two first bevel gears 302g-3 are opposite.

When a plurality of second teeth 302h-2 of the second converting member 302h engage with a plurality of first teeth 302g-2 of one of the two first converting members 302g, the threaded rod 302d is rotated, the threaded rod 302d moves the threaded sleeve 302e, when the threaded sleeve 302e approaches and slowly compresses the spring 302f-4 on the movable seat 302f, the spring 302f-4 provides a pushing force in the opposite direction to the threaded sleeve 302e, so that the threaded sleeve 302e also provides a pushing force to the threaded rod 302d, the threaded rod 302d moves the bearing 302c in the first through hole 302a-1, so that the second converting member 302h on the threaded rod 302d separates from the first converting member 302g and engages with the other first converting member 302g, while the other first converting member 302g drives the threaded sleeve 302d to rotate in the opposite direction, the threaded rod 302d moves the threaded sleeve 302e in the opposite direction, when the threaded sleeve 302e approaches and slowly compresses the spring 302f-4 on the other movable seat 302f, the spring 302f-4 provides a pushing force to the threaded sleeve 302f-4 on the threaded sleeve 302e, so that the threaded sleeve 302e moves back and forth, so that the bearing 302d moves back and forth in the first converting member 302a reciprocating movement of the threaded sleeve 302h and forth, so that the threaded sleeve 302e moves the second converting member 302e again.

Preferably, the blowing assembly 202 includes two rotating rods 202a rotatably disposed on the top wall of the chassis 101, a third gear 202b is disposed on a rod body of the rotating rods 202a, a plurality of blades 202c are circumferentially disposed on a bottom end of the rotating rods 202a, a fourth gear 304c is disposed at a position of the rotating shaft 304a corresponding to the third gear 202b, and the fourth gear 304c is connected to the two third gears 202b through a second transmission belt 304 d; when the second rotating motor 304 rotates, the rotating shaft 304a drives the fourth gear 304c to rotate, and the fourth gear 304c drives the two third gears 202b to rotate through the second transmission belt 304d, so that the plurality of blades 202c at the bottom end of the rotating shaft 202a rotate and generate wind force, and the hot air in the case 101 is circulated in an accelerated manner.

When the device is used, the electric heating wire 201 is electrically connected with an external power supply, the length of the concrete pipe pile 103 is measured in advance to adjust the distance between the two moving seats 302f, the moving seats 302f are moved by loosening the bolts 302f-2 in the threaded holes 302f-1, after the position is determined, the bolts 302f-2 are tightened, the bolts 302f-2 are tightly abutted against the bottom wall of the clamping groove 301b, the concrete pipe pile 103 is placed on the two rotary drums 102a in the case 101 through the material inlet 101a, the reciprocating cleaning mechanism 300 is positioned in the concrete pipe pile 103, the water-absorbing sponge 303b in the cleaning assembly 303 is abutted against the inner wall of the concrete pipe pile 103, the first rotary motor 102d is started, the first rotary motor 102d drives the second gear 102e to rotate, the second gear 102e drives the first transmission belt 102f to further drive the two first gears 102c to rotate, the concrete pipe pile 103 placed on the two rotary drums 102a also starts to rotate, after the second rotary motor 304 is started, the second rotary gear 304b is positioned between the two isolation plates 302b and is engaged with the two first bevel gears 302 g-302 g, and the first bevel gears 3-302 g rotate, and the two bevel gears 3-302 g rotate in opposite directions.

When a plurality of second teeth 302h-2 of the second converting element 302h are engaged with a plurality of first teeth 302g-2 of one of the two first converting elements 302g, the threaded rod 302d is driven to rotate, the threaded rod 302d drives the threaded sleeve 302e to move, when the threaded sleeve 302e approaches and slowly compresses the spring 302f-4 on the moving seat 302f, the spring 302f-4 provides a thrust force in an opposite direction to the threaded sleeve 302e, so that the threaded sleeve 302e also provides a thrust force to the threaded rod 302d, and the threaded rod 302d drives the bearing 302c to displace in the first through hole 302a-1, so that the second converting element 302h on the threaded rod 302d is separated from the first converting element 302g and is engaged with the other first converting element 302 g.

At this time, the other first conversion member 302g drives the threaded rod 302d to rotate reversely, the threaded rod 302d drives the threaded sleeve 302e to move reversely, when the threaded sleeve 302e approaches and slowly compresses the spring 302f-4 on the other moving seat 302f, the spring 302f-4 provides a thrust force in the opposite direction to the threaded sleeve 302e, so that the threaded rod 302d drives the bearing 302c to generate displacement in the first through hole 302a-1, so that the second conversion member 302h on the threaded rod 302d is separated from the first conversion member 302g and is meshed with the other first conversion member 302g again, the threaded sleeve 302e can reciprocate back and forth due to the reciprocation, the water absorption sponge 303b in the cleaning assembly 303 arranged at the top end of the threaded sleeve 302e is also driven to move and cooperates with the rotation of the concrete pipe pile 103 to clean and absorb water on the inner wall of the concrete pipe pile 103, when the second rotation motor 304 rotates, the rotation shaft 304a drives the fourth gear 304c to rotate, thereby the bottom ends of the two third gears 202b are driven by the fourth gear 304c to rotate, and the air absorption sponge 202c in the drying machine box 103 a lot, thereby improving the drying efficiency of the concrete pipe pile 103.

Claims (8)

1. The utility model provides a concrete tubular pile drying device which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the tubular pile rolling mechanism (100) comprises a case (101) with a hollow structure inside and a rolling assembly (102) arranged inside the case (101), wherein the front surface of the case (101) is provided with a material inlet (101 a);

the drying mechanism (200) comprises electric heating wires (201) arranged on the left inner wall and the right inner wall of the case (101) and a blowing assembly (202) arranged on the top wall of the case (101); and the number of the first and second groups,

the reciprocating cleaning mechanism (300) comprises a supporting plate (301) arranged on the side wall of the chassis (101), a reciprocating component (302) arranged on the supporting plate (301), and a cleaning component (303) matched with the reciprocating component (302);

the reciprocating component (302) comprises a supporting block (302 a) arranged at the left side of the top end of the supporting plate (301), and two isolation plates (302 b) arranged on the right side of the top end of the support plate (301) in parallel, a threaded rod (302 d) is rotatably arranged on the support block (302 a), first conversion pieces (302 g) are respectively and oppositely and rotatably arranged in second through holes (302 b-1) of the two isolation plates (302 b), the first conversion piece (302 g) comprises first hollow cylinders (302 g-1), a plurality of first teeth (302 g-2) are circumferentially arranged at one opposite ends of the two first hollow cylinders (302 g-1), a first bevel gear (302 g-3) is circumferentially arranged on the cylinder body of the first hollow cylinder (302 g-1) at one side of the first teeth (302 g-2), the threaded rod (302 d) slides through the first hollow cylinder (302 g-1), a second conversion piece (302 h) is arranged on the rod body of the threaded rod (302 d) between the two first conversion pieces (302 g), the second conversion piece (302 h) comprises a second hollow cylinder (302 h-1) fixedly arranged on the rod body of the threaded rod (302 d), second teeth (302 h-2) matched with the first teeth (302 g-2) are circumferentially arranged on the left end face and the right end face of the second hollow cylinder (302 h-1).

2. The concrete pipe pile drying device as claimed in claim 1, wherein: the rolling assembly (102) comprises two rotating drums (102 a) arranged in parallel, first rotating shafts (102 b) are arranged in the rotating drums (102 a), the left ends and the right ends of the two first rotating shafts (102 b) are rotatably connected with the front inner wall and the rear inner wall of the case (101), and the gap between the two rotating drums (102 a) is smaller than the diameter of the concrete pipe pile (103).

3. The concrete pipe pile drying device as claimed in claim 2, wherein: the same side of the two first rotating shafts (102 b) penetrates through the inner wall of the case (101) and is connected with a first gear (102 c), a first rotating motor (102 d) is arranged on one side of the two first gears (102 c), the output end of the first rotating motor (102 d) is connected with a second gear (102 e), the second gear (102 e) is connected with the two first gears (102 c) through a first transmission belt (102 f), the outer walls of the two rotating drums (102 a) are wrapped with protective layers (102 a-1), and the protective layers (102 a-1) are made of rubber materials.

4. The concrete pipe pile drying device of claim 3, wherein: the middle of the supporting block (302 a) is provided with a first through hole (302 a-1), a bearing (302 c) is arranged in the first through hole (302 a-1) in a sliding mode, and second through holes (302 b-1) are respectively formed in the positions, corresponding to the bearing (302 c), of the two isolation plates (302 b).

5. The concrete pipe pile drying device of claim 4, wherein: a threaded rod (302 d) is fixed in an inner ring of the bearing (302 c), the other end of the threaded rod (302 d) sequentially penetrates through the two second through holes (302 b-1), a first sliding groove (302 a-2) is formed above the first through hole (302 a-1), a limiting block (302 c-1) is arranged at the top end of the bearing (302 c), and the limiting block (302 c-1) is connected into the first sliding groove (302 a-2) in a sliding mode.

6. The concrete pipe pile drying device of claim 5, wherein: the top end of the supporting plate (301) and the position corresponding to the threaded rod (302 d) are provided with a second sliding groove (301 a), the side edge of the second sliding groove (301 a) is provided with a clamping groove (301 b), and the threaded rod (302 d) is screwed

Thread connection has thread bush (302 e), thread bush (302 e) bottom is provided with the slider, the slider slide set up in second spout (301 a), the slip joint has two to remove seat (302 f) in joint groove (301 b), two it has the direct to remove seat (302 f) top screw hole (302 f-1) of joint groove (301 b) diapire, screw hole (302 f-1) female connection has bolt (302 f-2), two it has block board (302 f-3) to remove seat (302 f) side, two it is provided with spring (302 f-4) to block the relative one side of board (302 f-3), install thread bush (302 e) top clean subassembly (303), clean subassembly (303) including erect in bracing piece (303 a) on thread bush (302 e) top to and bond in sponge (303 b) that absorbs water on bracing piece (303 a) top.

7. The concrete pipe pile drying device of claim 6, wherein: a second rotating motor (304) is fixed at the top of the case (101), the output end of the second rotating motor (304) penetrates through the top wall of the case (101) and is connected with a rotating shaft (304 a), the bottom end of the rotating shaft (304 a) is connected with a second bevel gear (304 b), and the second bevel gear (304 b) is located between the two isolation plates (302 b) and is meshed with the two first bevel gears (302 g-3).

8. The concrete pipe pile drying device of claim 7, wherein: blow subassembly (202) include two rotate set up in dwang (202 a) of quick-witted case (101) top wall, the dwang (202 a) body of rod is equipped with third gear (202 b), dwang (202 a) bottom circumference sets up a plurality of blade (202 c), axis of rotation (304 a) with the corresponding position of third gear (202 b) is equipped with fourth gear (304 c), fourth gear (304 c) and two connect through second transmission band (304 d) between third gear (202 b).

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