CN116817049B - High-efficient refrigeration computer lab assembled module - Google Patents

Abstract

The invention relates to the technical field of refrigeration machine rooms, in particular to an efficient refrigeration machine room assembled module, which comprises a movable base, wherein an inclination mechanism is arranged above the movable base, and a zooming mechanism is arranged above the inclination mechanism. According to the invention, the pipeline is connected by the flange, and the pipeline is arranged in the scaling mechanism by utilizing the plurality of limiting mechanisms according to the design position, when the pipeline is used, the scaling mechanism is contracted by starting the telescopic mechanisms and the four push-pull mechanisms, the plurality of limiting mechanisms are loosened, then the internal pipeline is stacked, the module volume is reduced, the transportation is convenient, after the pipeline is transported to the designated position, the telescopic mechanisms and the four push-pull mechanisms are reset, the soft endless belt can be unfolded, the plurality of limiting mechanisms are straightened, the pipeline on the limiting mechanisms is restored to the design position, then a user sequentially connects the pipeline by utilizing bolts, and the frame is welded on site, and is connected with the pipeline by utilizing the connecting piece, so that the pipeline is convenient to position and install.

Description

High-efficient refrigeration computer lab assembled module

Technical Field

The invention relates to the technical field of refrigeration machine rooms, in particular to an efficient refrigeration machine room assembled module.

Background

The refrigeration principle of the refrigeration machine room is that refrigerant (ammonia and freon) is utilized to carry out evaporation and heat dissipation, firstly, a compressor compresses the refrigerant into liquid, the liquid is sent to an evaporator, the liquid is evaporated into gas to take away heat, the evaporator is cooled, cooling circulating water is adopted, the volatile liquid is converted into heat of the gas, the heat is also required to be treated, the heat is further transmitted to a cooling tower through another circulating water to carry out heat dissipation, the cooling water is called cooling water, the compressor does not stop working, cold and heat are respectively transmitted by two circulating water systems, namely, the central air conditioner operates, in general, a common central air conditioner consists of a compression unit, an evaporation system and two circulating systems, and because the working pumps in the units and the systems are usually high in pressure, the connection between the systems is usually carried out through rigid pipelines made of steel or other metal materials;

the construction of the machine room is mainly completed in the field of users, part of refrigeration machine rooms are prefabricated in factories by utilizing assembled modules, then the modules are connected with the modules in the field of the machine room, the installation process is simplified, thereby the installation of the machine room is completed quickly, common modules comprise a pump group module, a water collecting and distributing device module, a refrigeration unit module, an air conditioning unit module and the like, the main body of the module mainly comprises an anti-seismic frame and connecting pipelines, the pipelines mainly play roles of various pump bodies in transportation systems and units and air and water conveyed by air conditioners, are main channels for connecting various systems with the units in the refrigeration machine room, the pipelines also need to be connected with the pipelines by utilizing the frame in consideration of the influence of pressure on the vibration and the like of the pipelines during the installation, the anti-seismic performance of the pipelines is improved, the pipeline connection modes in the modules are mostly welded or connected by utilizing flanges, however, when a part of the modules are installed, the space of the site and the entrance of the machine room may be insufficient, or after a large part of the modules are installed, the reserved passageway is narrower, the space is insufficient, so that after the whole modules are assembled outside, or after the modules are spliced in a factory, the modules are difficult to transport into the machine room for installation, users need to demolish the modules again, then the parts are scattered and transported into the machine room, and then the splice assembly is carried out again according to the design position of each pipeline in the module, so that the installation of the modules in the machine room is completed, however, the pipeline layout in the part of the modules may be complicated, the pipeline caliber may be similar, and part of the pipelines may contain special protective coatings, so that the pipelines cannot be assembled and spliced in a mixed mode, the users need to reposition and re-measure the pipelines, and the installation quality can be guaranteed, and is less convenient.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide the high-efficiency assembled module of the refrigerating machine room, which is characterized in that the pipelines are connected by using flanges and are arranged in the scaling mechanism by using a plurality of limiting mechanisms according to the design positions, when the high-efficiency assembled module is used, the scaling mechanism is contracted by starting the telescopic mechanisms and the four push-pull mechanisms to loosen the plurality of limiting mechanisms, then the internal pipelines are stacked, the volume of the module is reduced, the module is convenient to transport, after the module is transported to a designated position, the telescopic mechanisms and the four push-pull mechanisms can be reset to unfold the soft endless belt, the limiting mechanisms are straightened, the pipelines on the limiting mechanisms are restored to the design positions, then the pipelines are sequentially connected by using bolts by using a user, the frame is welded on site, and the pipelines are connected with the frame by using connecting pieces, so that the positioning and the installation of the pipelines are facilitated.

The aim of the invention can be achieved by the following technical scheme:

the efficient refrigeration machine room assembled module comprises a movable base, wherein an inclination mechanism is arranged above the movable base, a zooming mechanism is arranged above the inclination mechanism, a limiting mechanism is arranged in the zooming mechanism in a matched mode, a telescopic mechanism is arranged on one side of the zooming mechanism in a matched mode, and four push-pull mechanisms are arranged on the telescopic mechanism;

The utility model provides a flexible ring belt, and the even fixedly connected with of flexible ring belt inside wall a plurality of go-between, and the evenly fixedly connected with go-between of flexible ring belt inside wall, stop gear and go-between movable joint, during the use, pipeline both ends in the module all are equipped with the ring flange, all link together through flange and bolt between pipeline and the pipeline, like partial pipeline overlength, when producing, the application is to originally the segmentation cutting of overlength pipeline, and the ring flange is all installed at pipeline both ends after overlength pipeline segmentation cutting is accomplished and is used for connecting, then during the installation, arrange each pipeline in the module according to predetermined interval and connection order in flexible ring belt, and pass a plurality of stop gear and go-between the hole on the ring flange on the pipeline and go-between, then when carrying, the whole shrink of flexible ring belt is used to the supporting four push-pull mechanisms of usable telescopic machanism, and each part pipeline among them wholly stacks together, then after the inside assigned position of computer lab, the usable telescopic machanism and four push-pull mechanisms are with soft expansion, and all install the ring flange together pipeline through a plurality of pipe ends after the telescopic machanism, then use is according to a plurality of stop gear on the pipeline is in proper order and the frame is carried out the frame, and the frame can be carried out the frame with the flexible ring belt is connected together at the time, then the frame is used for carrying the frame is convenient for carrying on the frame is used to the frame and the frame is connected to the frame in the whole, and the frame is used to the frame is connected to the frame to the frame.

The method is further characterized in that: the limiting mechanism comprises pull ropes, the two ends of each pull rope are fixedly connected with first safety buckles, the two first safety buckles are movably clamped with adjacent connecting rings, when the limiting mechanism is used, according to the design positions of all the pipelines, one hole of a flange plate on each pipeline is penetrated through a plurality of pipelines which are positioned in the same vertical direction or the same horizontal direction by the same pull rope, then the first safety buckles at the two ends of each pull rope are clamped at the adjacent connecting rings on the unfolded soft annular belt by a user, all the pull ropes are kept straight, the positions among the pipelines are kept at the design positions, then the flange plates among the pipelines are temporarily disconnected, after the soft annular belt is contracted by the telescopic mechanism and the four push-pull mechanisms, the inner plurality of pull ropes are loosened, so that the pipelines on the pull ropes are mutually wrapped by the contracted soft annular belt, the pipelines are stacked, and the pipelines on the pull the soft annular belt are straightened again after the soft annular belt is unfolded again, so that the pipelines on the pull ropes are restored to the design positions.

The method is further characterized in that: the utility model discloses a pipeline, including stay cord lateral wall activity has cup jointed the snap ring, and snap ring one side fixedly connected with two connecting plates, two threaded holes have all been seted up to connecting plate one side, and two threaded holes are inside all to spin and have been closed the bolt, two it has splint to spin to close adjacent one end of bolt all to rotate, the snap ring lateral wall rotates and has cup jointed the lantern ring, and lantern ring lateral wall fixedly connected with framework, rotate between the inside both ends of framework and be connected with spin pole, and spin pole lateral wall spin and close and be connected with two cardboards, two the equal sliding joint of cardboard is inside the framework, and the user can remove the snap ring on the stay cord to the pipeline department that is located one end in same vertical or same horizontal direction, then according to two spin bolts on the pipeline's the design position snap ring, makes two splint centre gripping stay cords fixed snap ring positions, then put into the pipeline inside same vertical or same horizontal direction that is located one end department with two cardboards, then spin the pole, spin pole is positive and negative tooth lead screw for can drive two cardboards and move in opposite directions or opposite directions when spin pole, make two cardboards to make adjacent pipeline inside the pipeline use the pipe position to rotate, can not make the pipeline position the pipe joint according to the same pipe position change and can be in proper order according to the pipeline, and the person is convenient for install in order according to the pipeline position and can be connected to the pipeline position according to the person.

The method is further characterized in that: the outer side wall of the pull rope is provided with a plurality of second safety buckles, when the number of pipelines in the same vertical direction or the same horizontal direction is too large, a user can install the plurality of second safety buckles on the loose pull rope, the first safety buckle at one end of the pull rope is kept unchanged in position, the same pull rope is arranged in the contracted soft endless belt in a wavy manner through the second safety buckles and is clamped on the connecting ring, so that the pipelines on the pull rope are easier to stack and place, the pipeline is placed to the user of being convenient for, then when waiting for soft clitellum to expand, the user only need loosen a plurality of second safety buckles to with the first safety buckle card of the stay cord other end on the go-between of stay cord one end department parallel position, after soft clitellum is expanded, will pull the stay cord again and straighten, and make the pipeline on it resume design position, accomodate the pipeline when transporting the pipeline through addding second safety buckle convenient to use personnel.

The method is further characterized in that: the telescopic mechanism comprises a connecting cylinder, two ring bodies are rotationally sleeved on the outer side wall of the connecting cylinder, two rectangular pipes are symmetrically and fixedly connected with the outer side wall of the ring body, four internal thread cylinders are arranged in the four rectangular pipes, one ends of the rectangular pipes are slidably sleeved with square pipes, fixing plates are fixedly connected with the inner parts of the four square pipes, the four rectangular pipes are of an internal end sealing structure, one ends of the internal thread cylinders are fixedly connected with connecting rods, one ends of the four connecting rods are rotationally connected with one ends of the inner parts of the adjacent rectangular pipes, threaded rods are rotationally combined in the inner parts of the four internal thread cylinders, one ends of the four threaded rods are fixedly connected with one sides of the adjacent fixing plates, connecting holes are formed in one sides of the rectangular pipes, the inner side walls of the four connecting holes are rotationally sleeved with first clamping cylinders, one sides of the four square pipes are rotationally connected with second clamping cylinders, the first clamping cylinder and the second clamping cylinder are provided with clamping heads in a matching way, the clamping heads are movably clamped in the first clamping cylinder or the second clamping cylinder, one end of each of the four first clamping cylinders is fixedly connected with bevel gears, two bevel gears which are arbitrarily adjacent are meshed with each other, the four push-pull mechanisms are respectively fixedly connected with the other sides of the four square through pipes, the clamping heads can be arranged on the existing large-torque electric spanner, the soft endless belt is supported by the four rectangular pipes and the adjacent square through pipes, the soft endless belt is kept in an unfolding state, when the soft endless belt is required to be contracted, the clamping heads are inserted into the first clamping cylinder, then the electric spanner is started to drive the connected first clamping cylinder to rotate by the clamping heads, the bevel gears on the first clamping cylinder drive the bevel gears on the adjacent internal threaded cylinders to rotate, so that the internal threaded cylinders rotate and the adjacent threaded rods are received into the internal threaded cylinders, the adjacent square tube is driven to be received into the adjacent rectangular tube, and a user can control the contraction degree of the soft endless belt by controlling the lengths of the four square tubes received into the adjacent rectangular tube, so that the soft endless belt is loosened, and the inner pipelines are stacked.

The method is further characterized in that: the push-pull mechanism comprises a fixed cylinder, a sliding rod is fixedly connected inside the fixed cylinder in a sliding clamping manner, the fixed cylinder is of an end sealing structure, one end of the fixed cylinder is fixedly connected with the other side of the adjacent Fang Tongguan, one end of the fixed cylinder is rotationally connected with a screw rod, one end of the sliding rod is provided with a circular hole, the inner side wall of the circular hole is provided with threads, the outer side wall of the screw rod is rotationally combined with the inner side wall of the circular hole, the other end of the screw rod penetrates through one end inside the fixed cylinder and the other side of the adjacent square tube, the other end of the screw rod is fixedly connected with one end of the adjacent second clamping cylinder, a user can insert a clamping head into any second clamping cylinder, then an electric spanner is started to drive the second clamping cylinder to rotate, the second clamping cylinder is driven to rotate, the adjacent screw rod is driven to retract inside the adjacent fixed cylinder, the user can control a soft annular belt to retract through the length inside the adjacent fixed cylinders of the four sliding rods, the inner side walls of the fixed cylinder are convenient to stack inner pipelines, the protruding strips are provided with grooves on the sliding rod, and the inner side walls of the fixed cylinder are slidably clamped inside the grooves, and the protruding strips can slide in the grooves only slide in the fixed cylinder.

The method is further characterized in that: the fixed cylinder one end has all rotated the annular plate with the slide bar other end and has been cup jointed, four cloth covers of the even fixedly connected with of soft clitellum inside wall, and fixed cylinder and slide bar on four push-and-pull mechanism are located respectively between four cloth covers and the soft clitellum, and soft clitellum both sides are located four cloth cover department equal fixedly connected with a plurality of connecting ropes, connecting rope one end all keeps supporting with adjacent annular plate one side, soft clitellum keeps the support through fixed cylinder and the slide bar on four push-and-pull mechanism, make soft clitellum be drawn into the frame form body, and fixed cylinder and slide bar pass through the cloth cover spacing, make it be difficult for breaking away from soft clitellum, the user can promote soft clitellum through the annular plate on fixed cylinder and the slide bar when controlling the slide bar income adjacent fixed cylinder and make its shrink, then when waiting that the slide bar resets from fixed cylinder inside, the accessible is connected with annular plate pulls soft clitellum and resets.

The method is further characterized in that: the tilting mechanism includes the baffle, and baffle fixed connection in removal base one side, remove the base top surface and be provided with the linking frame, and remove base opposite side and a linking frame bottom surface side rotation connection, baffle top surface fixedly connected with electric putter, and the spout has been seted up to baffle one side, electric putter's active end fixedly connected with clamp plate, and clamp plate one end runs through the spout and lie in the linking frame top, makes soft clitellum transport after the computer lab assigned position, and the user can expand soft clitellum through telescopic machanism and four push-pull mechanism, and later weld the frame in soft clitellum to utilize connecting pieces such as clamp to weld the pipeline with the frame, improve the antidetonation effect of frame to the pipeline, then the user can start electric putter, make the clamp plate reciprocate, and turn the linking frame, make the frame drop to ground with the pipeline synchronization that is connected, convenient to use person drops the frame.

The method is further characterized in that: two guide slots are formed in the top surface of the connecting frame, sliding strips are fixedly connected in the two guide slots in a sliding clamping manner, arc plates are fixedly connected to one ends, opposite to the sliding strips, of the two guide slots, rotating plates are rotatably connected to the other ends of the arc plates, one ends of the two rotating plates are movably connected with the side walls of the adjacent arc plates through screws, connecting strips are fixedly connected to the bottom surfaces of the sliding strips, the connecting strips are fixedly connected in the connecting frame in a sliding manner, a driving motor is fixedly connected to one side of the connecting frame, a motor shaft of the driving motor penetrates through the side walls of the adjacent connecting frame and is fixedly connected with a connecting screw rod, the connecting screw rod is rotatably connected between the two opposite inner side walls of the connecting frame, screw holes are formed in one side of the connecting strips, the two connecting strips are rotatably connected with the outer side walls of the connecting screw rod through the screw holes, the two fixing cylinders below the soft ring belt are placed on the two arc plates by a user, the adjacent rectangular pipes of the two fixing cylinders are not positioned on the same ring body, then the user can rotate the two rotating plates, one end of each rotating plate and one side of each arc plate are provided with bolt holes, the user can connect one end of each rotating plate with the side wall of the adjacent arc plate by using bolts, the two arc plates and the adjacent rotating plates are hooped by the connecting screw rod, then the connecting screw rod is driven by the user to rotate by starting a driving motor, the connecting screw rod is a positive and negative tooth screw rod, when the connecting screw rod rotates, the two connecting strips can be driven to rotate oppositely or reversely, so that the two arc plates are driven to pull the two adjacent fixing cylinders to move to control the distance of the connecting screw rod, the distance between the two fixing cylinders positioned above is synchronously controlled by the rotation of the two ring bodies, most of the bottom of the contracted soft ring belt can be borne by the connecting frame, is convenient for the transportation of the user.

The method is further characterized in that: the width of the connecting frame is smaller than that of the soft annular belt, after the soft annular belt is unfolded, the width of the connecting frame is longer than that of the connecting frame, and part of weight of the welding frame and part of weight of the pipeline are not borne by the connecting frame, so that after the pressing plate is lifted, the connecting frame is driven by the weight of the welding frame and the weight of the internal pipeline to incline and rotate, the frame and the pipeline can slide out of the soft annular belt conveniently, and the soft annular belt can be made of soft materials with good wear resistance such as nylon and Kevlar fiber.

The invention has the beneficial effects that:

1. through utilizing flange joint with the pipeline to split longer pipeline and install the ring flange, and utilize a plurality of stop gear to arrange inside the mechanism that zooms with the pipeline according to the design position, then during the use, make the mechanism that zooms shrink through starting telescopic machanism and four push-pull mechanism, and make a plurality of stop gear lax, then stack inside pipeline, thereby reduce the module volume, be convenient for it carries out transportation, wait to transport after the assigned position, reset telescopic machanism and four push-pull mechanism can expand soft clitellum, and pull out the stretching with a plurality of stop gear, make pipeline on the stop gear resume the design position, then use the personnel to connect the pipeline in proper order with the bolt, and on-the-spot welding frame, and utilize the connecting piece to connect pipeline and frame, thereby be convenient for carry out location installation to the pipeline.

2. The pipeline in the same transverse direction or the same vertical direction is penetrated by a user through the same pull rope, the pull rope can pass through the holes in the flange plate, then the user can clamp the first safety buckles at the two ends of the pull rope on the connecting rings on the soft ring belt to keep the horizontal or vertical form of each pull rope, so that the positions of each pipeline are fixed, the user can arrange a clamping ring at the side of the pipeline in the same transverse direction or the same vertical end position, fix the clamping ring on the pull rope through the clamping plate, and rotate the screwing bolts on the adjacent frames to clamp the two clamping plates in the adjacent pipelines, limit the pipelines in the same transverse direction or the same vertical end position, and sequentially connect other pipelines on the pull rope according to the pipeline positions, so that the positions of the connected pipelines coincide with the designed positions, like two sections of unconnected pipelines in the same vertical direction or the same transverse direction, the two sections of unconnected pipelines can be respectively arranged on the pull rope in an additionally arranged mode, when the soft ring belt is contracted, the user can also additionally arrange a second safety buckle on the pull rope, the pull rope is connected with the connecting rings in an easily contracted state through the second safety buckles, the second safety buckles are connected with the connecting rings in the mode, the pipeline in the contracted state, and the pipeline in the same state is more contracted state, so that the module is convenient to stack by the user;

3. The clamping head is connected with the electric spanner by a user, then the clamping head is inserted into any first clamping cylinder, then the user starts the electric spanner to drive the connected first clamping cylinder to rotate, and drives the adjacent internal thread cylinder to rotate through the bevel gear, so that the adjacent threaded rod is retracted into the internal thread cylinder, and the adjacent square tube is retracted into the adjacent rectangular tube, the user can insert the clamping head into any second clamping cylinder, drive the adjacent threaded rod to rotate through starting the electric spanner, so that the adjacent sliding rod is retracted into the adjacent fixed cylinder, the soft endless belt is further retracted by controlling the length of the four sliding rods retracted into the adjacent fixed cylinder, simultaneously, the user can drive the connecting screw rod to rotate through starting the driving motor to control the two sliding strips to move oppositely, and change the shape of the soft endless belt through the four rectangular rods and the adjacent square tube, so as to retract the soft endless belt;

4. the user accessible reduction telescopic machanism and four push-pull mechanism to start driving motor and reset two draw runner positions, prop up soft clitellum, and before soft clitellum is propped up, take off the second safety catch on a plurality of stop gear from the go-between, and reset the first safety catch of the last other end of a plurality of stop gear, and treat that soft clitellum will prop up a plurality of stop gear when reset afterwards, make a plurality of pipelines resume the design position, then the user is through connecting the pipeline in proper order, and weld the frame, install the pipeline that will connect on the frame again, then take off a plurality of stop gear, and start electric putter and drive the clamp plate and upwards move, make frame dead weight and pipeline weight automatic pressure move the connecting frame and rotate, make the frame drop the ground.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the relationship between the tilt mechanism and the movable base in the present invention;

FIG. 3 is a schematic view of a zoom mechanism according to the present invention;

FIG. 4 is an exploded view of the spacing mechanism of the present invention;

FIG. 5 is a schematic view of the telescopic mechanism of the present invention;

FIG. 6 is an exploded view of the telescopic mechanism of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6A in accordance with the present invention;

FIG. 8 is an exploded view of the push-pull mechanism of the present invention;

FIG. 9 is a schematic view of the tilting mechanism of the present invention;

FIG. 10 is a schematic view of the use of the tilting mechanism of the present invention;

FIG. 11 is an exploded view of the tilt mechanism of the present invention;

FIG. 12 is an enlarged view of a portion of the invention at B in FIG. 11;

FIG. 13 is a schematic view of a soft endless belt deployment limiting mechanism in accordance with the present invention;

fig. 14 is a schematic view of the use of the soft endless belt contraction limiting mechanism according to the invention.

In the figure: 100. a scaling mechanism; 110. a soft endless belt; 111. a connecting rope; 120. a connecting ring; 130. a cloth cover; 200. a limiting mechanism; 210. a pull rope; 211. a first safety catch; 220. a clasp; 221. a collar; 230. a frame; 231. a screwing rod; 232. a clamping plate; 240. a connecting plate; 241. screwing the bolt; 242. a clamping plate; 250. a second safety buckle; 300. a telescoping mechanism; 301. a first clamping cylinder; 302. a second clamping cylinder; 303. a chuck; 310. a connecting cylinder; 320. a ring body; 330. a rectangular tube; 331. a connection hole; 340. a square tube; 350. an internal thread cylinder; 351. a connecting rod; 352. a threaded rod; 341. a fixing plate; 360. bevel gears; 400. a push-pull mechanism; 410. a fixed cylinder; 420. a slide bar; 421. a circular hole; 430. a screw; 440. a ring plate; 500. a tilting mechanism; 510. a guide plate; 511. a chute; 520. a connection frame; 521. a guide groove; 530. an electric push rod; 540. a pressing plate; 550. a slide bar; 551. a connecting strip; 560. a driving motor; 561. connecting a screw rod; 570. an arc-shaped plate; 571. a rotating plate; 600. and (5) moving the base.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-14, an efficient refrigeration machine room assembly module includes a mobile base 600, an inclination mechanism 500 is disposed above the mobile base 600, a scaling mechanism 100 is disposed above the inclination mechanism 500, a limiting mechanism 200 is disposed inside the scaling mechanism 100 in a matching manner, a telescoping mechanism 300 is disposed on one side of the scaling mechanism 100 in a matching manner, and four push-pull mechanisms 400 are disposed on the telescoping mechanism 300;

the scaling mechanism 100 comprises a soft annular band 110, a plurality of connecting rings 120 are uniformly and fixedly connected to the inner side wall of the soft annular band 110, the limiting mechanisms 200 are movably clamped with the connecting rings 120, during use, flanges are arranged at two ends of a pipeline in a module, the pipeline is connected with the pipeline through flanges and bolts, if part of the pipeline is overlong, the pipeline is cut in sections by the aid of the originally overlong pipeline during production, flanges are arranged at two ends of the pipeline after the completion of the overlong pipeline section cutting, the pipelines are connected, then when the pipeline is installed, the pipelines in the module are arranged in the soft annular band 110 according to preset intervals and connection sequence, the limiting mechanisms 200 penetrate through holes in the flanges on the pipeline and are connected with the connecting rings 120, then during conveying, the flexible annular band 110 is integrally contracted by the four push-pull mechanisms 400 matched with the telescopic mechanisms 300, and all parts of the pipelines are integrally stacked together, then after the pipeline is moved to a designated position in a machine room, the flexible annular band 110 is unfolded by a user through the telescopic mechanisms 300 and the four push-pull mechanisms 400, and the pipeline is stacked together through the limiting mechanisms 200, then the pipeline is connected with the frame by the aid of the human body through the limiting mechanisms, and then the human body is connected with the frame by the human body through the human body, and the human body is connected with the frame by the human body in a mode, and the human body is connected with the human body in a mode, and the human body is convenient to position-used, and the human body can be connected with the human body in the frame by the human body in the frame, and can be connected with the human body.

The limiting mechanism 200 comprises pull ropes 210, two ends of each pull rope 210 are fixedly connected with first safety buckles 211, the two first safety buckles 211 are movably clamped with the adjacent connecting rings 120, when the limiting mechanism is used, according to the design positions of all the pipelines, a plurality of pipelines located in the same vertical direction or the same horizontal direction penetrate through one hole of a flange plate on the pipeline by the same pull rope 210, then a user clamps the first safety buckles 211 at two ends of each pull rope 210 at the adjacent connecting rings 120 on the unfolded soft endless belt 110, keeps each pull rope 210 straight, keeps the positions among the pipelines at the design positions, then the flange plates among the pipelines are temporarily disconnected, after the soft endless belt 110 is contracted by the telescopic mechanism 300 and the four push-pull mechanisms 400, the inner pull ropes 210 are loosened, so that the pipelines on the pull ropes 210 are mutually wrapped by the contracted soft endless belt 110, the pipelines are stacked, and after the soft endless belt 110 is re-unfolded, the pipelines on the pull ropes 210 are stretched straight again, so that the pipelines on the pull ropes 210 are restored to the design positions.

The outer side wall of the pull rope 210 is movably sleeved with a snap ring 220, one side of the snap ring 220 is fixedly connected with two connecting plates 240, one side of each of the two connecting plates 240 is provided with threaded holes, the interiors of the two threaded holes are respectively screwed with a screwing bolt 241, the adjacent ends of the two screwing bolts 241 are respectively connected with a clamping plate 242 in a rotating way, the outer side wall of the snap ring 220 is rotatably sleeved with a lantern ring 221, the outer side wall of the lantern ring 221 is fixedly connected with a frame 230, a screwing rod 231 is rotatably connected between the two ends of the inner side of the frame 230, the outer side wall of the screwing rod 231 is rotatably connected with two clamping plates 232, the two clamping plates 232 are respectively and slidably clamped in the frame 230, a user can move the snap ring 220 on the pull rope 210 to a pipeline which is positioned at one end in the same vertical direction or the same transverse direction, then the two screwing bolts 241 on the snap ring 220 are rotated according to the design position of the pipeline, the two clamping plates 242 clamp the pull rope 210 to fix the position of the clamping ring 220, then the two clamping plates 232 are placed in the pipeline at one end in the same vertical direction or the same transverse direction, then the screwing rod 231 is rotated, the screwing rod 231 is a positive and negative screw rod, so that the two clamping plates 232 can be driven to move in opposite directions or in opposite directions when the screwing rod 231 is rotated, the two clamping plates 232 are clamped in the adjacent pipelines, the position of the pipeline on the pull rope 210 is unchanged, after the pull rope 210 is straightened, a user can sequentially connect the pipelines according to the original point of the pipeline, so that the user can conveniently position the pipeline when installing the pipeline, and the clamping ring 220 can be additionally arranged on the pull rope 210 according to specific needs by the user just like two disconnected pipelines at the design position of the pipeline in the same transverse direction or the same vertical direction.

The outer side wall of the pull rope 210 is provided with a plurality of second safety buckles 250, when the number of pipelines in the same vertical direction or the same horizontal direction is too large, a user can install the plurality of second safety buckles 250 on the loose pull rope 210, the first safety buckles 211 at one end of the pull rope 210 are kept unchanged in position, the second safety buckles 250 are clamped on the connecting ring 120, the same pull rope 210 is arranged in the contracted soft annular belt 110 in a wavy manner, so that the pipelines on the pull rope 210 are easier to stack and place, convenience is brought to the user for placing the pipelines, then when the soft annular belt 110 is unfolded, the user only needs to loosen the plurality of second safety buckles 250, the first safety buckles 211 at the other end of the pull rope 210 are clamped on the connecting ring 120 at the parallel position at one end of the pull rope 210, after the soft annular belt 110 is unfolded, the pull rope 210 is pulled again to be straightened, the pipelines on the pull rope are restored to the designed position, and the user can conveniently store the pipelines when the user transports the pipelines by additionally arranging the second safety buckles 250.

The telescopic mechanism 300 comprises a connecting cylinder 310, wherein the outer side wall of the connecting cylinder 310 is rotationally sleeved with two ring bodies 320, the outer side walls of the two ring bodies 320 are symmetrically and fixedly connected with two rectangular pipes 330, the interiors of the four rectangular pipes 330 are respectively provided with an internal thread cylinder 350, one ends of the four rectangular pipes 330 are respectively and slidingly sleeved with a square pipe 340, the interiors of the four square pipes 340 are respectively and fixedly connected with a fixed plate 341, the four rectangular pipes 330 are respectively and fixedly provided with an internal end sealing structure, one ends of the four internal thread cylinders 350 are respectively and fixedly connected with a connecting rod 351, one ends of the four connecting rods 351 are respectively and rotationally connected with one end of the interiors of the adjacent rectangular pipes 330, one ends of the four threaded rods 352 are respectively and fixedly connected with one side of the adjacent fixed plate 341, one sides of the four rectangular pipes 330 are respectively provided with connecting holes 331, the inner side walls of the four connecting holes 331 are respectively and rotationally sleeved with a first clamping cylinder 301, one side of each of the four square tubes 340 is rotatably connected with a second clamping cylinder 302, the first clamping cylinder 301 and the second clamping cylinder 302 are provided with a clamping head 303 in a matched manner, the clamping head 303 is movably clamped in the first clamping cylinder 301 or the second clamping cylinder 302, one end of each of the four first clamping cylinders 301 and one end of each of the four internal thread cylinders 350 are fixedly connected with bevel gears 360, any two adjacent bevel gears 360 are meshed, four push-pull mechanisms 400 are fixedly connected with the other side of each of the four square tubes 340, the clamping head 303 can be mounted on an existing large-torque electric spanner, the soft ring belt 110 is supported by the four rectangular tubes 330 and the adjacent square tubes 340, when the soft ring belt 110 is required to be contracted, the clamping head 303 is inserted into the first clamping cylinder 301, then the electric spanner is started to rotate by using the clamping head 303, the bevel gears 360 on the first clamping cylinder 301 drive the bevel gears 360 on the adjacent internal thread cylinders 350 to rotate, thus, the internal thread cylinder 350 rotates to receive the adjacent threaded rod 352 into the internal thread cylinder 350, so that the adjacent square tube 340 is driven to receive the adjacent rectangular tube 330, and a user can control the contraction degree of the soft endless belt 110 by controlling the lengths of the four square tubes 340 received into the adjacent rectangular tube 330, so that the soft endless belt 110 is loosened, and the internal pipelines are stacked.

The push-pull mechanism 400 comprises a fixed cylinder 410, a sliding rod 420 is fixedly connected inside the fixed cylinder 410 in a sliding manner, the fixed cylinder 410 is of a sealed structure at one end, one end of the fixed cylinder 410 is fixedly connected with the other side of the adjacent Fang Tongguan, one end of the fixed cylinder 410 is rotatably connected with a screw rod 430, one end of the sliding rod 420 is provided with a circular hole 421, the inner side wall of the circular hole 421 is provided with threads, the outer side wall of the screw rod 430 is rotatably combined with the inner side wall of the circular hole 421, the other end of the screw rod 430 penetrates through one end inside the fixed cylinder 410 and the other side of the adjacent square tube 340, the other end of the screw rod 430 is fixedly connected with one end of the adjacent second clamping cylinder 302, a user can insert the clamping head 303 into any second clamping cylinder 302, then an electric spanner is started to drive the second clamping cylinder 302 to rotate, the adjacent screw rod 430 is driven to rotate, the sliding rod 420 is driven to retract inside the adjacent fixed cylinder 410, the user can control the soft ring belt 110 to retract through the lengths of the inner parts of the four sliding rods 420, the inner pipelines are stacked conveniently, the inner side walls of the fixed cylinder 410 are provided with raised strips, the raised strips are slidably clamped inside the grooves are clamped inside the grooves, and the sliding rods 420 can slide in the grooves only slide inside the fixed cylinder 410.

The fixed cylinder 410 and the other end of the slide bar 420 are both rotatably sleeved with the annular plate 440, the inner side wall of the soft annular belt 110 is uniformly and fixedly connected with four cloth sleeves 130, the fixed cylinder 410 and the slide bar 420 on the four push-pull mechanisms 400 are respectively positioned between the four cloth sleeves 130 and the soft annular belt 110, the two opposite sides of the soft annular belt 110 are fixedly connected with a plurality of connecting ropes 111 at the positions of the four cloth sleeves 130, one end of each connecting rope 111 is fixedly connected with one side of the adjacent annular plate 440, the soft annular belt 110 is supported by the fixed cylinder 410 and the slide bar 420 on the four push-pull mechanisms 400, the soft annular belt 110 is pulled into a frame shape, the fixed cylinder 410 and the slide bar 420 are limited by the cloth sleeves 130, the soft annular belt 110 is not easy to separate from the soft annular belt 110, a user can push the soft annular belt 110 to shrink through the annular plate 440 on the fixed cylinder 410 and the slide bar 420 when controlling the slide bar 420 to reset from the inside of the fixed cylinder 410, and the soft annular belt 110 can be pulled to reset through the connecting ropes 111 connected with the annular plate 440.

The tilting mechanism 500 includes baffle 510, and baffle 510 fixed connection is in mobile base 600 one side, mobile base 600 top surface is provided with connecting frame 520, and mobile base 600 opposite side and connecting frame 520 bottom surface side rotate and are connected, baffle 510 top surface fixedly connected with electric putter 530, and spout 511 has been seted up to baffle 510 one side, electric putter 530's active end fixedly connected with clamp plate 540, and clamp plate 540 one end runs through spout 511 and is located connecting frame 520 top, make soft clitellum 110 transport to the computer lab assigned position after, the user can expand soft clitellum 110 through telescopic machanism 300 and four push-pull mechanism 400, and afterwards weld the frame in soft clitellum 110 inside, and utilize connecting piece such as clamp to weld with the frame with the pipeline, improve the shock resistance effect of frame to the pipeline, then the user can start electric putter 530, make clamp plate 540 reciprocate connecting frame 520, make the frame drop to ground together with the synchronous unloading of the pipeline that is good, the user falls the frame down in step.

Two guide grooves 521 are formed in the top surface of the connecting frame 520, sliding strips 550 are clamped inside the two guide grooves 521 in a sliding manner, arc plates 570 are fixedly connected to opposite ends of the two sliding strips 550, screw holes are formed in one sides of the two connecting strips 551, the other ends of the two arc plates 570 are rotationally connected with rotating plates 571, one ends of the two rotating plates 571 are movably connected with the side walls of the adjacent arc plates 570 through screws, connecting strips 551 are fixedly connected to the bottom surfaces of the two sliding strips 550, the two connecting strips 551 are clamped inside the connecting frame 520 in a sliding manner, a driving motor 560 is fixedly connected to one side of the connecting frame 520, a motor shaft of the driving motor 560 penetrates through the side walls of the adjacent connecting frame 520 and is fixedly connected with a connecting screw rod 561, the connecting screw rod 561 is rotationally connected between the opposite inner side walls of the connecting frame 520, the two connecting strips 551 are rotationally connected with the outer side walls of the connecting screw rod 561 through screw holes, the two fixing cylinders 410 positioned below the soft endless belt 110 are placed on the two arc plates 570 by a user, the adjacent rectangular tubes 330 of the two fixing cylinders 410 are not positioned on the same ring body 320, then the user can rotate the two rotating plates 571, one end of each rotating plate 571 and one side of each arc plate 570 are respectively provided with a bolt hole, the user can connect one end of each rotating plate 571 with the side wall of the adjacent arc plate 570 by bolts, the two arc plates 570 and the adjacent rotating plates 571 can clamp the two fixing cylinders 410, then the user can drive the connecting screw 561 to rotate by starting the driving motor 560, the connecting screw 561 is a positive and negative screw rod, when the connecting screw rod rotates, the connecting screw rod 561 can drive the two connecting strips 551 to rotate in opposite directions or opposite directions, so as to drive the two arc plates 570 to pull the two adjacent fixing cylinders 410 to move to control the distance, and the distance between the two fixing cylinders 410 positioned above is synchronously controlled by the rotation of the two ring bodies 320, so that most of the bottom of the contracted soft endless belt 110 can be carried by the connecting frame 520, thereby facilitating the transportation of the user.

The width of the connecting frame 520 is smaller than that of the soft endless belt 110, after the soft endless belt 110 is unfolded, the width of the soft endless belt 110 is longer than that of the connecting frame 520, and part of the weight of the welding frame and part of the weight of the pipeline are not carried by the connecting frame 520, so that after the pressing plate 540 is lifted, the connecting frame 520 is driven by the weight of the welding frame and the internal pipeline to incline and rotate, the frame and the pipeline can slide out of the soft endless belt 110 conveniently, and the soft endless belt 110 can be made of soft materials with better wear resistance such as nylon, kevlar fiber and the like.

Working principle: when in use, two fixing drums 410 positioned below the soft endless belt 110 are placed on two arc plates 570, the rectangular pipes 330 adjacent to the two fixing drums 410 are not positioned on the same ring 320, then a user can rotate the two rotating plates 571, bolt holes are formed at one ends of the two rotating plates 571 and one sides of the two arc plates 570, the user can connect one ends of the two rotating plates 571 with the side walls of the adjacent arc plates 570 by using bolts, the two arc plates 570 and the adjacent rotating plates 571 are used for hooping the two fixing drums 410, flanges are arranged at two ends of a pipeline in the module, the pipeline is connected with the pipeline by flanges and bolts, for example, part of the pipeline is overlong, when in production, the pipeline is cut in sections aiming at the originally overlong pipeline, the flanges are arranged at the two ends of the pipeline after the section cutting of the overlong pipeline is finished for connection, and then when in installation, arranging the pipelines in the module in the soft annular belt 110 according to a preset interval and a preset connection sequence, clamping the first safety buckles 211 at the two ends of the pull ropes 210 on the connecting rings 120 on the soft annular belt 110, keeping the pull ropes 210 straight, enabling the pull ropes 210 to penetrate through one hole on the flange plate on the pipeline, enabling the pipeline to be distributed in the soft annular belt 110 according to the pipeline design position by the pull ropes 210, arranging the clamping rings 220 at the pipeline positions of the pipeline ends on the pull ropes 210 by a user, rotating the two screwing bolts 241 on the clamping rings 220, enabling the clamping rings 220 to be clamped by the two clamping plates 242, rotating the screwing rods 231, driving the two clamping plates 232 to move oppositely or reversely, enabling the two clamping plates 232 to be clamped in the adjacent pipelines, enabling the positions of the pipelines on the pull ropes 210 to be unchanged, enabling the user to connect the pipelines according to the pipeline origin in sequence after the pull ropes 210 are straightened, as two sections of unconnected pipelines are arranged on the same horizontal or same vertical pipeline according to the design position, a user can add a clamping ring 220 on the pull rope 210 according to specific needs;

When a user needs to transport a pipeline, such as a pipeline passing position and a door position are too narrow, the user can install the clamping head 303 on the large-torque electric wrench, then the user inserts the clamping head 303 into each first clamping cylinder 301, then starts the electric wrench to drive the first clamping cylinders 301 to rotate, so that the adjacent internal thread cylinders 350 are driven to rotate through the bevel gears 360, the adjacent threaded rods 352 are screwed into the adjacent internal thread cylinders 350, the adjacent square pipes 340 are retracted into the adjacent rectangular pipes 330, the user retracts the soft endless belt 110 by retracting four square pipes 340 into four corners of the adjacent rectangular pipes 330, simultaneously the user can insert the clamping head 303 into the second clamping cylinder 302 to start the electric wrench to drive the adjacent threaded rods 430 to rotate, so that the adjacent sliding rods 420 are retracted into the adjacent fixed cylinders 410, the flexible endless belt 110 is further contracted by adjusting the lengths of the four sliding rods 420 and the four fixed cylinders 410, then a user can add a second safety buckle 250 on each loose pull rope 210, keep the position of the first safety buckle 211 at one end of each pull rope 210 unchanged, and clamp the same pull rope 210 on the connecting ring 120 through the second safety buckle 250, so that the same pull rope 210 is arranged in the contracted flexible endless belt 110 in a wavy manner, the pipes are stacked and placed, the user can drive the connecting screw 561 to rotate through starting the driving motor 560 to drive the two connecting strips 551 to rotate oppositely or reversely, thereby driving the two arc plates 570 to pull the two adjacent fixed cylinders 410 to move to control the distance between the two adjacent fixed cylinders 410, and synchronously control the distance between the two fixed cylinders 410 positioned above through the two ring bodies 320, so that most of the bottoms of the contracted flexible endless belt 110 can be carried by the connecting frame 520, then, a user can push the contracted soft endless belt 110 to move by using the movable base 600, after the user reaches a designated position, the user can take down the second safety buckle 250 on each pull rope 210 from the connecting ring 120, and buckle the first safety buckle 211 at the other end of each pull rope 210 back to the connecting ring 120 at the original position, the user can reset the four sliding bars 420 and the four square tubes 340 by resetting the four sliding bars 420 and starting the driving motor 560 to drive the two sliding bars 550 to reset the soft endless belt 110, so that the plurality of pull ropes 210 are restored to be straightened, the pipelines on the pull ropes are restored to the designed position, then the user sequentially connects each section of pipeline by using bolts and flanges, splices the pipelines, holes penetrated by the pull ropes 210 are not spliced by the bolts when the steel ropes are spliced, the steel ropes are transported, the frame is welded outside the spliced pipelines by using the connecting piece, the pipelines are fixed on the frame, the frame is positioned inside the soft endless belt 110, the user can detach the plurality of pull ropes 210 from the soft endless belt 110 and the pipelines, the user installs each flange again, and then the user drives the electric press plate 530 to rotate the frame together with the last frame 520, and the last frame is installed together with the last frame is installed, and the user rotates the frame is connected with the last frame to the flange, and the last frame is installed.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the invention, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims (3)

1. The utility model provides a high-efficient refrigeration computer lab assembled module, includes removes base (600), its characterized in that, remove base (600) top and be provided with tilting mechanism (500), make the frame with connect good pipeline and unload to the ground simultaneously, and tilting mechanism (500) top is provided with scaling mechanism (100), scaling mechanism (100) inside is provided with stop gear (200) in a matched way, and scaling mechanism (100) one side is provided with telescopic machanism (300) in a matched way, be provided with four push-pull mechanism (400) on telescopic machanism (300);

The scaling mechanism (100) comprises a soft annular belt (110), wherein a plurality of connecting rings (120) are uniformly and fixedly connected to the inner side wall of the soft annular belt (110), and the limiting mechanism (200) is movably clamped with the connecting rings (120);

the limiting mechanism (200) comprises a pull rope (210), first safety buckles (211) are fixedly connected to two ends of the pull rope (210), and the two first safety buckles (211) are movably clamped with the adjacent connecting rings (120);

the utility model discloses a pull rope, including stay cord (210), snap ring (220), two connecting plates (240) of snap ring (220) one side fixedly connected with, two screw holes have all been seted up to connecting plate (240) one side, and two screw holes are inside all to be screwed with screwing bolt (241), two adjacent one end of screwing bolt (241) all rotates and is connected with splint (242), snap ring (220) lateral wall has rotated and has cup jointed lantern ring (221), and lantern ring (221) lateral wall fixedly connected with framework (230), rotate between the inside both ends of framework (230) and be connected with screwing pole (231), and screwing pole (231) lateral wall screwing is connected with two cardboard (232), two cardboard (232) all slide the joint in framework (230) inside, screwing pole (231) are positive and negative tooth lead screw;

Telescoping mechanism (300) are including connecting tube (310), and connecting tube (310) lateral wall rotates and cup joints two ring bodies (320), two ring body (320) lateral wall equal symmetry fixedly connected with two rectangular tubes (330), and four inside internal thread section of thick bamboo (350) that all are provided with of rectangular tube (330), four rectangular tube (330) one end has all slidingly cup jointed square tube (340), and four inside equal fixedly connected with fixed plate (341) of square tube (340), four rectangular tube (330) are inside one end seal structure, four internal thread section of thick bamboo (350) one end all fixedly connected with connecting rod (351), and four connecting rod (351) one end all rotates with adjacent rectangular tube (330) inside one end to be connected, four internal thread section of thick bamboo (350) inside all the rotation has threaded rod (352), and four threaded rod (352) one end all with adjacent fixed plate (341) one side fixedly connected with connecting hole (331) have all been seted up on one side of rectangular tube (330), and four inside wall (331) inside all rotate first card (301) and first card (301) are all connected with one side (301), first card (302) are all connected with two rectangular tube (301) and second card (302) are all rotated one side (302) The clamping heads (303) are movably clamped in the first clamping cylinder (301) or the second clamping cylinder (302), one ends of the four first clamping cylinders (301) and one ends of the four internal thread cylinders (350) are fixedly connected with bevel gears (360), any two adjacent bevel gears (360) are meshed, and the four push-pull mechanisms (400) are fixedly connected with the other sides of the four square tubes (340) respectively;

The push-pull mechanism (400) comprises a fixed cylinder (410), a sliding rod (420) is connected inside the fixed cylinder (410) in a sliding clamping manner, the fixed cylinder (410) is of an end sealing structure, one end of the fixed cylinder (410) is fixedly connected with the other side of the adjacent Fang Tongguan (340), one end of the inside of the fixed cylinder (410) is rotationally connected with a screw rod (430), one end of the sliding rod (420) is provided with a circular hole (421), the inner side wall of the circular hole (421) is provided with threads, the outer side wall of the screw rod (430) is screwed with the inner side wall of the circular hole (421), the other end of the screw rod (430) penetrates through one end of the inside of the fixed cylinder (410) and the other side of the adjacent square tube (340), and the other end of the screw rod (430) is fixedly connected with one end of the adjacent second clamping cylinder (302);

one end of the fixed cylinder (410) and the other end of the sliding rod (420) are both rotationally sleeved with a ring plate (440), when the sliding rod (420) is reset from the inside of the fixed cylinder (410), the soft endless belt (110) is pulled to reset through a connecting rope (111) connected with the ring plate (440), four cloth covers (130) are uniformly and fixedly connected to the inner side wall of the soft endless belt (110), the fixed cylinder (410) and the sliding rod (420) on the four push-pull mechanisms (400) are respectively positioned between the four cloth covers (130) and the soft endless belt (110), a plurality of connecting ropes (111) are fixedly connected to the two opposite sides of the soft endless belt (110) at the positions of the four cloth covers (130), and one end of each connecting rope (111) is fixedly connected with one side of the adjacent ring plate (440);

The tilting mechanism (500) comprises a guide plate (510), the guide plate (510) is fixedly connected to one side of the movable base (600), a connecting frame (520) is arranged on the top surface of the movable base (600), the other side of the movable base (600) is rotationally connected with one side of the bottom surface of the connecting frame (520), an electric push rod (530) is fixedly connected to the top surface of the guide plate (510), a sliding groove (511) is formed in one side of the guide plate (510), a pressing plate (540) is fixedly connected to the movable end of the electric push rod (530), and one end of the pressing plate (540) penetrates through the sliding groove (511) and is located above the connecting frame (520);

two guide slots (521) have been seted up to connecting frame (520) top surface, and inside all slip joint of two guide slots (521) has draw runner (550), and two draw runner (550) are all fixedly connected with arc (570) away from one end mutually, two the arc (570) other end all rotates and is connected with rotating plate (571), and two rotating plate (571) one end all pass through screw and adjacent arc (570) lateral wall swing joint, two draw runner (550) bottom surface all fixedly connected with connecting strip (551), and two connecting strip (551) all slip joint in connecting frame (520) inside, connecting frame (520) one side fixedly connected with driving motor (560), and the motor shaft of driving motor (560) runs through adjacent connecting frame (520) lateral wall and fixedly connected with connecting screw (561), connecting screw (561) are rotated and are connected between two opposite inner lateral walls of connecting frame (520), two connecting strip (551) one side all has seted up screw, and two connecting strip (551) all pass through and are connected with connecting screw (561) outside.

2. An efficient refrigeration machine room assembly module as recited in claim 1, wherein a plurality of second safety buckles (250) are provided on the outer side wall of the pull rope (210).

3. An efficient refrigeration machine room assembly module as recited in claim 1 wherein said connecting frame (520) has a width less than a width of the soft endless belt (110).