CN217177660U - Quick ice-making calandria laying tool - Google Patents

Abstract

The utility model relates to a construction technical field discloses a quick system ice calandria laying tool, include: the ice making calandria pressing plate is arranged at the bottom of the integral frame; the integral frame comprises a bottom plate, an L-shaped fixed block arranged on the bottom surface of the bottom plate and a limiting column arranged on the front side of the top surface of the bottom plate; the guide member includes the backup pad, is fixed in the guide post of backup pad bottom surface and locates the backup pad both sides, a cardboard for the card is solid backup pad in the bottom plate, the guide post is transversely evenly arranged along the backup pad bottom surface between the cardboard, and system ice calandria clamp plate includes fixed socket, presses the pipe guide block and presses the pipe pulley, and a plurality of pipe pulley interval distribution of pressing is on system ice calandria clamp plate, presses the pipe pulley and presses pipe guide block parallel arrangement, and fixed socket pegs graft with L type shape fixed block, automatically controlled servo mobile device, the utility model discloses can be quick, laying of high-quality completion system ice calandria to can effectively protect system ice calandria in the work progress, accelerated the ice field system ice calandria and laid.

Description

Quick ice-making calandria laying tool

Technical Field

The utility model relates to a construction technical field especially relates to a quick system ice calandria laying tool.

Background

At present, the rink is permanent type mostly, along with the multi-modal application in venue, increases interim rink as newly-increased function, and interim rink adopts the quick ice making pipe process that can install, but interim rink also needs the ice making calandria, and the manual work of general is laid and is wasted time and energy, still need adjust the angle of ice making calandria at any time, and the preparation work of earlier stage is longer, lays fast for guaranteeing large tracts of land rink ice making calandria, the utility model provides a special ice making calandria laying tool.

SUMMERY OF THE UTILITY MODEL

The application provides a quick ice-making calandria laying tool to solve the ice-making calandria and lay inefficiency, lay the poor problem of quality.

In order to solve the technical problem, the application provides a quick ice-making calandria laying tool, includes: the ice making rack comprises an integral frame, a guide component arranged at the lower end of the front side of the integral frame and an ice making calandria pressing plate arranged at the bottom of the integral frame; the integral frame comprises a bottom plate, an L-shaped fixed block arranged on the bottom surface of the bottom plate and a limiting column arranged on the front side of the top surface of the bottom plate; the guide member comprises a supporting plate, guide posts and clamping plates, wherein the guide posts are fixed on the bottom surface of the supporting plate, the clamping plates are arranged on two sides of the supporting plate and used for clamping and fixing the supporting plate on the bottom plate, the guide posts are transversely and uniformly distributed along the bottom surface of the supporting plate between the clamping plates, the ice making pipe arranging plate comprises fixing sockets, pipe pressing guide blocks and pipe pressing pulleys, the pipe pressing pulleys are distributed on the ice making pipe arranging plate at intervals, the pipe pressing pulleys and the pipe pressing guide blocks are arranged in parallel, and the fixing sockets are connected with L-shaped fixing blocks in an inserting mode.

In some embodiments of this application, the cardboard is the L type, space between cardboard horizontal part and the backup pad is the spacing space of bottom plate, one side butt in spacing post of backup pad.

In some embodiments of the present application, the tube guide block is an elongated structure.

In some embodiments of this application, still include servo automatic control subassembly, servo automatic control subassembly sets up on the slide rail, along the running gear who lays regional length direction and remove including setting up in the slide rail of laying regional length direction both sides, sets up in the traction tooth track between two slide rails, connects in traction tooth track, reciprocating motion's between the slide rail servo traction table, two one side that the slide rail is relative is provided with the rubber gear pad, the running gear is last, the inboard of rubber gear pad is provided with first servo motor, the first rotating gear of fixedly connected with on first servo motor's the rotation axis, first rotating gear meshes with the rubber gear pad mutually.

In some embodiments of this application, servo traction table is fixed in the second servo motor on the traction seat including setting up in the traction seat that pulls tooth track one side, fixedly connected with second rotating gear on second servo motor's the rotation axis, second rotating gear meshes with the orbital tooth of traction tooth mutually, the one end of traction seat is connected in whole frame to drive whole frame along the orbital length direction reciprocating motion of traction tooth.

In some embodiments of this application, running gear still includes to rotate a plurality of gyro wheels that set up for the position of slide rail, sets up in the cable bracket component of servo motor one side, and electric connection is in first servo motor and second servo motor's control assembly, the cable bracket includes along the up end of running gear one side, a plurality of vertical braces that the interval set up, connects the channel-section steel on a plurality of vertical braces, control assembly includes electric connection's touch control screen, PLC subassembly drive servo motor, the touch control screen controls the settlement.

In some embodiments of this application, ice-making calandria laying tool still includes electronic traction table, electronic traction table is fixed in traction motor on the traction frame including the traction frame, with traction motor electric connection's control box, rotationally connects in traction motor's the spool of pulling, be fixed with the haulage rope on the spool of pulling.

In some embodiments of this application, the upper end of bottom plate is fixed with pulls the platform, one side of pulling the platform is fixed with the haulage rope tool to lock, extend the haulage rope on pulling the spool, the haulage rope is connected to the haulage rope tool to lock for pull whole frame.

In some embodiments of the present application, lockable pulleys are arranged at four corners of the bottom of the traction frame, and a traction rope guide rod and a support beam are arranged on the traction frame relative to one side of the whole frame.

In some embodiments of the present application, the top surface of the bottom plate is symmetrically provided with fixing grooves centered on the traction platform, and the fixing grooves are internally inserted with artificial handrails.

In some embodiments of the present application, the crimp guide block has a thickness greater than the diameter of the crimp pulley.

In some embodiments of the present application, a viewing port is disposed on the base plate between the spacing post and the traction platform.

In some embodiments of the present application, the construction method specifically includes:

A. fixing 4L-shaped fixing blocks, 2 limiting columns, 2 fixing grooves and 1 traction platform on the whole frame through bolts to complete the permanent forming of the whole frame;

B. 4 fixing sockets are arranged on the ice-making calandria pressing plate and used for being fixed with the whole frame, 1 pressing pipe guide block and a plurality of pressing pipe pulleys are fixed below the ice-making calandria pressing plate through bolts to form the pressing plate, and the pressing plate can adjust the direction of the ice-making calandria pressing plate according to the laying direction to complete exchange of the pressing pipe guide blocks;

C. a plurality of clamping plates are fixed on the guide component to form a guide route, and 2 guide component clamping plates are fixed at two ends of the guide component and are used for being sleeved on the whole frame;

D. inserting an artificial handrail into a groove of a fixing groove of the integral frame to finish the artificial assembly of the ice-making calandria laying tool;

E. assembling a traction motor, a traction rope guide rod, a support beam, a counterweight beam and a control box on an electric traction worktable, subsequently connecting the traction motor with a traction scroll, and finally installing a lockable pulley, wherein the control box adopts an electric wire to form electric connection with the traction motor, and adjusting the positive and negative rotation and the rotating speed of the traction motor;

F. the method comprises the following steps that 2 sliding rails are arranged on two sides of a laying area in the length direction, rubber gear pads are fixedly arranged on the inner sides of the 2 sliding rails through screws, a traveling mechanism and a traction tooth rail are mounted on the 2 sliding rails, the traveling mechanism is used for adjusting the position of the traction tooth rail along the length direction of the sliding rails, a servo traction table is connected onto the traction tooth rail, a first servo motor and a second servo motor are electrically connected with a control assembly, the operation control assembly controls the positive and negative rotation and the rotating speed of the first servo motor and the second servo motor to control the moving direction and the moving speed of the traveling mechanism and a traction seat, the traction seat is connected with a traction rope lock arranged on the traction platform on an integral frame, and the traction connection of an ice-making pipe laying tool servo automatic control assembly is completed;

G. when the ice making calandria laying tool is used, the ice making calandria is penetrated into the gap between the guide posts on the guide component to play a role in guiding the ice making calandria; the ice making calandria is arranged below the pressure pipe pulley on the ice making calandria pressing plate, and the pressure pipe guide block is arranged in the ice making pipe supporting pipe groove. The guide member is clamped into the integral frame to push the manual handrail or start the electric traction worktable or control the servo automatic control assembly, so that the integral frame, the ice making calandria pressing plate and the guide member guide the integral frame to move, and the ice making calandria is quickly pressed into the pipe groove of the ice making pipe support.

Compared with the prior art the utility model has the following characteristics and beneficial effect:

1. the utility model assembles different components into a whole through mechanical guiding and groove pressing principles, thereby realizing the laying tool of the ice-making calandria;

2. the utility model realizes manual laying through the manual handrail and electric traction laying through the electric traction platform, and the two modes can be selected optionally, so that the applicability is strong;

3. the utility model discloses an ice system calandria laying tool, reducible manual work load of laying improves the efficiency of construction, can guarantee to press the pipe quality, reduces and uses the manual work.

Drawings

FIG. 1 is a side view of an embodiment of the present invention;

FIG. 2 is a top view of the overall frame of the embodiment of the present invention;

fig. 3 is a bottom view of the overall frame according to the embodiment of the present invention;

FIG. 4 is a front view of a guide member according to an embodiment of the present invention;

fig. 5 is a bottom view of the pressing plate of the ice making rack according to the embodiment of the present invention;

FIG. 6 is a front view of an ice making calandria platen according to an embodiment of the present invention;

FIG. 7 is a side view of an electric traction table according to an embodiment of the present invention;

FIG. 8 shows an electric traction table according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of an automatic servo control assembly according to an embodiment of the present invention;

FIG. 10 is a schematic view of a rubber gear pad and a first rotating gear according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a control assembly according to an embodiment of the present invention;

fig. 12 is a schematic diagram of a touch control screen and a PLC assembly according to an embodiment of the present invention.

In the figure, 100, the whole frame; 110. a base plate; 120. an L-shaped fixed block; 130. a limiting column; 140. a traction platform; 141. a pull rope lock; 150. fixing grooves; 160. an artificial handrail; 170. a viewing port; 200. a guide member; 210. a support plate; 220. a guide block; 230. clamping a plate; 300. making an ice-making calandria pressing plate; 310. fixing the socket; 320. pressing the pipe guide block; 330. pressing a pipe pulley; 400. an electric traction table; 410. a traction frame; 411. the pulley can be locked; 412. a pull rope guide rod; 413. a support beam; 420. a traction motor; 430. a control box; 440. a traction reel; 500. a servo automatic control component; 510. a slide rail; 511. a rubber gear pad; 520. a traveling mechanism; 521. a first servo motor; 522. a first rotating gear; 523. a roller; 524. vertical support; 525. channel steel; 526. a control component; 527. a touch control screen; 528. a PLC component; 530. a traction tooth track; 540. a servo traction table; 541. a traction frame; 542. a second servo motor; 543. a second rotating gear.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

As shown in fig. 1-12, in some embodiments according to the present application, a rapid ice making bank pipe laying tool comprises: an integrated frame 100, a guide member 200 provided at a lower end of a front side of the integrated frame 100, and an ice-making discharge pipe pressing plate 300 provided at a bottom of the integrated frame 100; the whole frame 100 comprises a bottom plate 110, an L-shaped fixing block 120 arranged on the bottom surface of the bottom plate 110, and a limiting column 130 arranged on the front side of the top surface of the bottom plate 110; the guide member 200 includes a support plate 210, guide posts 220 fixed on the bottom surface of the support plate 210, and clamping plates 230 disposed on both sides of the support plate 210 and used for clamping and fixing the support plate 210 to the bottom plate 110, the guide posts 220 are transversely and uniformly arranged along the bottom surface of the support plate 210 between the clamping plates 230, the ice making pipe pressing plate 300 includes a fixing socket 310, a pipe pressing guide block 320 and a pipe pressing pulley 330, a plurality of pipe pressing pulleys 330 are distributed on the ice making pipe pressing plate 300 at intervals, the pipe pressing pulley 330 and the pipe pressing guide block 320 are arranged in parallel, and the fixing socket 310 is inserted into the L-shaped fixing block 120.

Here, the fixing socket 310 is used to fix the ice making bank discharging platen 300 to the entire frame 100, and the pressure pipe guide block 320 moves in the pipe groove to press the ice making bank into the pipe groove, thereby fixing the socket 310.

According to some embodiments of the present disclosure, the card 230 is L-shaped, the gap between the lateral portion of the card 230 and the support plate 210 is a space for limiting the position of the bottom plate 110, and one side of the support plate 210 abuts against the limiting post 130 to limit the guide member 200 from moving to the rear side of the bottom plate 110.

According to some embodiments of the present application, the tube guide block 320 is an elongated structure.

According to some embodiments of the present application, the automatic servo control assembly 500 is further included, the automatic servo control assembly 500 includes slide rails 510 disposed on two sides of the length direction of the laying area, a traveling mechanism 520 disposed on the slide rails 510 and moving along the length direction of the laying area, a traction tooth rail 530 disposed between the two slide rails 510, a servo traction table 540 connected to the traction tooth rail 530 and reciprocating between the slide rails 510, a rubber gear pad 511 disposed on one side of the two slide rails 510 opposite to each other, a first servo motor 521 disposed on the traveling mechanism 520 and on the inner side of the rubber gear pad 511, a first rotating gear 522 fixedly connected to a rotating shaft of the first servo motor 521, and the first rotating gear 522 engaged with the rubber gear pad 511.

According to some embodiments of the present application, the servo traction table 540 includes a traction base 541 disposed at one side of the traction tooth track 530, a second servo motor 542 fixed on the traction base 541, a second rotary gear 543 fixedly connected to a rotation shaft of the second servo motor 542, the second rotary gear 543 engaged with teeth of the traction tooth track 530, and one end of the traction base 541 connected to the overall frame 100 to drive the overall frame to reciprocate along a length direction of the traction tooth track 530.

According to some embodiments of the present application, the traveling mechanism 520 further includes a plurality of rollers 523 rotatably disposed relative to the position of the sliding rail 510, a cable bracket member disposed on one side of the servo motor, and a control component 526 electrically connected to the first servo motor 521 and the second servo motor 542, wherein the cable bracket includes an upper end surface along one side of the traveling mechanism 520, a plurality of vertical supports 524 disposed at intervals, and channel steel 525 connected to the plurality of vertical supports 524, the control component 526 includes a touch control screen 527 electrically connected to the control component 528, the PLC component 528 drives the servo motor, and the touch control screen 527 performs control setting.

According to some embodiments of the present application, the ice-making bank pipe laying tool further includes a power traction table 400, and the power traction table 400 includes a traction frame 410, a traction motor 420 fixed to the traction frame 410, a control box 430 electrically connected to the traction motor 420, and a traction reel 440 rotatably connected to the traction motor 420, and a traction rope is fixed to the traction reel 440.

According to some embodiments of the present application, the upper end of the base plate 110 is fixed with a towing platform 140, one side of the towing platform 140 is fixed with a towing rope lock 141, and a towing rope extends from the towing reel 440 and is connected to the towing rope lock 141 for towing the whole frame 100.

It should be noted that the electric traction table 400 is placed at an end far from the whole frame 100, and the traction rope is paid out, and one end of the traction rope is connected to the traction rope lock 141, and the traction reel 440 is driven, so that the traction rope is rewound to drive the whole frame 100 to move in a direction close to the electric traction table 400.

According to some embodiments of the present application, lockable pulleys 411 are disposed at four corners of the bottom of the traction frame 410, and a traction rope guide 412 and a support beam 413 are disposed on one side of the traction frame 410 opposite to the integrated frame 100.

It should be noted that, during the traction process, the lockable pulley 411 is in a locked state, and the support beam 413 is used for supporting the integral framework of the electric traction table 400, so as to enhance the overall firmness.

According to some embodiments of the present application, a traction servo motor is disposed at one end of the traveling mechanism 520, a traction reel 440 is disposed at a rotating end of the traction servo motor, a traction rope is fixed on the traction reel 440, and the traction rope is connected to the traction rope lock 141 to pull the entire frame 100 to lay the ice making bank pipe.

According to some embodiments of the present application, the top surface of the base plate 110 is symmetrically provided with fixing grooves 150 centering on the traction platform 140, and the artificial handrail 160 is inserted into the fixing grooves 150.

According to some embodiments of the present application, the thickness of the crimp guide block 320 is greater than the diameter of the crimp pulley 330.

According to some embodiments of the present application, a viewing port 170 is provided in the base plate 110 between the restraint post 130 and the traction platform 140.

It should be noted that, the constructor can check the guidance of the ice making bank pipe through the observation port 170 to ensure the laying quality of the ice making bank pipe.

According to some embodiments of the application, a construction method of a rapid ice-making pipe laying tool comprises the following specific steps:

A. 4L-shaped fixing blocks 120, 2 limiting columns 130, 2 fixing grooves 150 and 1 traction platform 140 are fixed on the integral frame 100 through bolts, and the integral frame is formed permanently;

B. 4 fixing sockets 310 are arranged on the ice-making calandria pressing plate 300 and used for being fixed with the whole frame 100, 1 pressing pipe guide block 320 and a plurality of pressing pipe pulleys 330 are fixed below the ice-making calandria pressing plate 300 through bolts to form the pressing plate, and the pressing plate can adjust the direction of the ice-making calandria pressing plate 300 according to the laying direction to complete exchange of the pressing pipe guide blocks 320;

C. a plurality of clamping plates 230 are fixed on the guide member 200 to form a guide route, and 2 guide member clamping plates 230 are fixed at two ends of the guide member and are used for being sleeved on the whole frame 100;

D. inserting a manual handrail 160 into a groove of the fixing groove 150 of the integral frame 100 to complete manual assembly of the ice-making calandria laying tool;

E. assembling a traction motor 420, a traction rope guide rod 412, a support beam 413, a counterweight beam and a control box 430 on the electric traction workbench 400, subsequently connecting the traction motor 420 with a traction scroll 440, finally installing a lockable pulley 411, electrically connecting the control box 430 with the traction motor 420 by adopting an electric wire, adjusting the positive and negative rotation and the rotating speed of the traction motor 420, connecting the electric traction workbench 400 with a traction rope lock 141 arranged on a traction platform 140 on the integral frame 100 through a traction wire, and completing the traction connection of the electric traction workbench 400 of the ice-making pipe arrangement laying tool;

F. the method comprises the following steps that 2 sliding rails 510 are arranged on two sides of the length direction of a laying area, rubber gear pads 511 are fixedly arranged on the inner sides of the 2 sliding rails 510 through screws, a traveling mechanism 520 and a traction tooth rail 530 are mounted on the 2 sliding rails 510, the traveling mechanism 520 is used for adjusting the position of the traction tooth rail 530 along the length direction of the sliding rails 510, a servo traction table 540 is connected onto the traction tooth rail 530, a first servo motor 521 and a second servo motor 542 are electrically connected with a control assembly 526, the operation control assembly 526 controls the positive rotation, the negative rotation and the rotating speed of the first servo motor 521 and the second servo motor 542 to control the moving direction and the moving speed of the traveling mechanism 520 and a traction seat 541, the traction seat 541 is connected with a traction rope lock 141 arranged on a traction platform 140 on an integral frame 100, and the traction connection of an ice-making calandria laying tool servo automatic control assembly 500 is completed;

G. when the ice-making calandria laying tool is used, the ice-making calandria is penetrated into the gaps between the guide posts on the guide member 200, so that the ice-making calandria is guided; the ice making calandria is placed under the upper pressure pipe pulley 330 of the ice making calandria pressing plate 300, and the pressure pipe guide block 320 is placed in the ice making pipe supporting pipe groove. The guide member 200 is engaged with the entire frame 100 to push the manual handle 160 or start the electric traction table 400 or control the servo automatic control assembly 500, so that the entire frame 100, the ice making bank pipe pressing plate 300 and the guide member guide the entire frame to move, and the ice making bank pipe is quickly pressed into the pipe groove of the ice making pipe support.

To sum up, the utility model relates to a construction technical field discloses a quick system ice calandria laying tool, include: the ice making calandria pressing plate is arranged at the bottom of the integral frame; the integral frame comprises a bottom plate, an L-shaped fixed block arranged on the bottom surface of the bottom plate and a limiting column arranged on the front side of the top surface of the bottom plate; the guide member includes the backup pad, is fixed in the guide post of backup pad bottom surface and locates the backup pad both sides, a cardboard for the card is solid backup pad in the bottom plate, the guide post is transversely evenly arranged along the backup pad bottom surface between the cardboard, and system ice calandria clamp plate includes fixed socket, presses the pipe guide block and presses the pipe pulley, and a plurality of pipe pulley interval distribution of pressing is on system ice calandria clamp plate, presses the pipe pulley and presses pipe guide block parallel arrangement, and fixed socket pegs graft with L type shape fixed block, automatically controlled servo mobile device, the utility model discloses can be quick, laying of high-quality completion system ice calandria to can effectively protect system ice calandria in the work progress, accelerated the ice field system ice calandria and laid.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (9)

1. A quick ice-making calandria laying tool, comprising: the refrigerator comprises an integral frame (100), a guide component (200) arranged at the lower end of the front side of the integral frame (100) and an ice making calandria pressing plate (300) arranged at the bottom of the integral frame (100); the integral frame (100) comprises a bottom plate (110), an L-shaped fixing block (120) arranged on the bottom surface of the bottom plate (110) and a limiting column (130) arranged on the front side of the top surface of the bottom plate (110); the whole frame is connected with a servo automatic control assembly (500), the servo automatic control assembly (500) comprises slide rails (510) arranged at two sides of the length direction of a laying area, a walking mechanism (520) arranged on the slide rails (510) and moving along the length direction of the laying area, a traction tooth track (530) arranged between the two slide rails (510), and a servo traction table (540) connected with the traction tooth track (530) and reciprocating between the slide rails (510), wherein rubber gear pads (511) are arranged at one opposite sides of the two slide rails (510), a first servo motor (521) is arranged on the traveling mechanism (520) and on the inner side of the rubber gear pad (511), a first rotating gear (522) is fixedly connected to the rotating shaft of the first servo motor (521), the first rotary gear (522) is engaged with the rubber gear pad (511).

2. The quick ice-making pipe laying tool according to claim 1, wherein the guide member (200) comprises support plates (210), guide posts (220) fixed on the bottom surfaces of the support plates (210) and clamping plates (230) arranged on both sides of the support plates (210) and used for clamping and fixing the support plates (210) on the bottom plate (110), the guide posts (220) are transversely and uniformly arranged along the bottom surfaces of the support plates (210) between the clamping plates (230), the ice-making pipe laying plate (300) comprises fixing sockets (310), pipe pressing guide blocks (320) and pipe pressing pulleys (330), a plurality of pipe pressing pulleys (330) are distributed on the ice-making pipe laying plate (300) at intervals, the pipe pressing pulleys (330) and the pipe pressing guide blocks (320) are arranged in parallel, and the fixing sockets (310) are inserted into the L-shaped fixing blocks (120).

3. The quick ice-making pipe laying tool according to claim 1, wherein the servo traction table (540) comprises a traction base (541) disposed at one side of the traction tooth rail (530), and a second servo motor (542) fixed on the traction base (541), a second rotary gear (543) is fixedly connected to a rotation shaft of the second servo motor (542), the second rotary gear (543) is engaged with teeth of the traction tooth rail (530), and one end of the traction base (541) is connected to the whole frame (100) to drive the whole frame to reciprocate along a length direction of the traction tooth rail (530).

4. The quick ice-making calandria laying tool according to claim 2, wherein said clamping plate (230) is L-shaped, the gap between the lateral part of the clamping plate (230) and the supporting plate (210) is a spacing space of the bottom plate (110), and one side of the supporting plate (210) abuts against the spacing post (130).

5. The rapid ice-making bank pipe laying tool according to claim 2, wherein the pressure pipe guide block (320) is of an elongated structure.

6. The quick ice-making pipe laying tool according to claim 4, wherein the traveling mechanism (520) further comprises a plurality of rollers (523) rotatably disposed relative to the slide rail (510), a cable bracket member disposed on one side of the servo motor, and a control assembly (526) electrically connected to the first servo motor (521) and the second servo motor (542), the cable bracket comprises a plurality of vertical supports (524) disposed at intervals along the upper end surface of one side of the traveling mechanism (520), and channel steel (525) connected to the plurality of vertical supports (524), the control assembly (526) comprises a touch control screen (527) and a PLC assembly (528) electrically connected to each other, the PLC assembly (528) drives the servo motor, and the touch control screen (527) is controlled and set.

7. The quick ice-making pipe laying tool according to claim 1, further comprising an electric traction table (400), wherein the electric traction table (400) comprises a traction base (541), a traction motor (420) fixed on the traction base (541), a control box (430) electrically connected with the traction motor (420), and a traction reel (440) rotatably connected to the traction motor (420), wherein a traction rope is fixed on the traction reel (440).

8. The quick ice making bank pipe laying tool according to claim 7, wherein a traction platform (140) is fixed to the upper end of the bottom plate (110), a traction rope lock (141) is fixed to one side of the traction platform (140), a traction rope extends from the traction reel (440), and the traction rope is connected to the traction rope lock (141) for traction of the whole frame (100); lockable pulleys (411) are arranged at four corners of the bottom of the traction seat (541), and a traction rope guide rod (412) and a support beam (413) are arranged on one side, opposite to the integral frame (100), of the traction seat (541).

9. The quick ice-making pipe laying tool according to any one of claims 1 to 8, wherein the top surface of the bottom plate (110) is symmetrically provided with fixing grooves (150) centering on the traction platform (140), an artificial handrail (160) is inserted into the fixing grooves (150), and a viewing port (170) is provided on the bottom plate (110) and between the limiting column (130) and the traction platform (140).

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