CN216272275U - Waterproof laying equipment of coiled material - Google Patents

Abstract

The utility model discloses a waterproof laying device for coiled materials, which belongs to the field of waterproof buildings and is used for integrated device operation in waterproof construction processes such as coiled material uncoiling, film coiling, laying, coiled material uncoiling, film coiling, blanking and the like, and comprises an uncoiling shaft and a film coiling shaft which are rotatably connected to a device bracket, wherein core shaft tube locking devices are respectively arranged on the uncoiling shaft and the film coiling shaft and are used for locking and fixing the coiled materials and the film coiling core shaft tubes; the unwinding torque limiting device provides tension required by unwinding of the coiled material for the unwinding shaft; and the film collecting motor is used for recovering the film collecting tension required by the film collecting shaft for the anti-sticking isolating film of the coiled material through the limitation of the film collecting torque. The utility model is mainly applied to the unrolling and laying of the wet-laid or self-adhesive waterproof coiled material and the blanking construction of the coiled material.

Description

Waterproof laying equipment of coiled material

Technical Field

The utility model relates to construction equipment in the field of building waterproofing, in particular to coiled material waterproof layer laying equipment with an anti-sticking isolating film covered on the surface.

Background

The waterproof roll is a flexible building material product which can be curled into a roll shape and is mainly used for resisting external rainwater and underground water leakage at the positions under building walls, roofs, tunnels, highways, bridges and the like, is used as a leakage-free connecting material between an engineering foundation and a building, is a first barrier for waterproofing of the whole engineering, and plays a vital role in the whole engineering.

The present commonly used waterproof coiled material in building waterproofing comprises a waterproof coiled material with a self-adhesive layer on the surface and an anti-sticking isolating film covered on the self-adhesive layer, such as a self-adhesive waterproof coiled material, a wet-laid waterproof coiled material and the like. However, most of the existing construction processes are generally completed by manual operation, and the defects or disadvantages of low construction efficiency, high labor intensity, high labor cost, huge volume of waste anti-sticking isolation film garbage generated, serious environmental pollution and the like exist. In addition, the manual film tearing is also easy to cause the phenomena of low construction efficiency and material waste because the front and the back of the adhesive layer of the coiled material are mistakenly touched and bonded together.

Through searching related technical documents, the inventor finds that the related published documents comprise a Chinese utility model patent with publication number CN207727862U and publication date of 2020, 08 and 14 days, "a roll material tiling forming machine", and a Chinese invention patent application with publication number CN111717697A and publication date of 2020, 8 and 14 days, "an uncoiling and coiling machine for laying waterproof roll materials", although the above-mentioned materials are replaced by manual film tearing and manual laying by mechanical construction, and anti-sticking isolating film recovery devices are arranged, the defects still exist. Firstly, in waterproofing membrane laying process, must guarantee that the coiled material exhibition is rolled up and antiseized barrier film retrieves synchronous, otherwise can take place to cause antiseized barrier film to be broken in the recovery process because of retrieving fast that the speed of roll-up is slow, perhaps the exhibition is rolled up fast and retrieve the condition emergence that untimely causes the laying of coiled material area membrane. And the receipts membrane roller among the above-mentioned prior art all lacks synchronizer with the exhibition roll roller, can't realize its coiled material exhibition book and antiseized barrier film recovery process synchronous. In CN207727862U, "a roll material laying forming machine", it adopts a gear engagement mode to ensure that the laying roll and the protective film winding roll rotate synchronously, but because the roll material radius on the waterproof roll material supporting roll and the film collecting radius on the protective film winding roll change in real time during the construction operation, the linear velocity of the film collecting and the film spreading changes in real time, so that the synchronous rotation can only ensure that the angular velocity in the processes of film spreading and film collecting is relatively constant, and the linear velocity cannot be ensured to be the same; also like CN111717697A "an uncoiling and coiling machine for laying waterproof rolls", it adopts the active film coiling mode of a film coiling motor. Therefore, the prior art cannot ensure proper film collecting tension, so that the anti-sticking isolating film of the coiled material is broken when the film collecting linear speed is greater than the coiled material unwinding linear speed; when receiving the membrane linear velocity and being less than coiled material exhibition book linear velocity, the coiled material protection film will unable in time be retrieved, causes the condition emergence that the coiled material "takes the membrane" laid. Secondly, the tensile device that provides of coiled material exhibition book is all lacked to the exhibition book roller among the above-mentioned prior art, can't provide effectual tensile to the exhibition book coiled material, and then leads to coiled material waterproof layer laying process to produce the defect that quality requirement that the waterproof layer laid can't be satisfied such as fold.

In addition, in CN111717697A "lay waterproofing membrane's uncoiling rolling machine", the roll-out roll adopts central siphon "axle expansion" device as the location locking device of roll-out coiled material central siphon, because of the bloated tight principle of central siphon axle expansion device (the axle that expands inserts in the coiled material central siphon, the bloated tight unit inflation of axle that expands causes the axle external diameter grow of expanding and then the bloated coiled material central siphon), it is best to decide in the 10mm scope that its axle external diameter size that expands is less than central siphon internal diameter size, when this kind of size deviation is too big, then the condition that can expand the inefficacy takes place, so adopt the mode of the bloated tight coiled material central siphon of the axle that expands will lead to "the axle" can't insert because of the transport in the middle of the coiled material central siphon that factor produced outward appearance deformation, cause the defect emergence of the unable quilt equipment use of above-mentioned outward appearance deformation's coiled material. All lack core shaft pipe locking device on receiving the membrane roller, the antiseized barrier film of coiled material directly twines on receiving the membrane roller, leads to the antiseized barrier film of coiled material and receives the membrane roller separation difficulty, has seriously reduced the efficiency of construction.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides waterproof layer laying equipment for a coiled material, which is used for solving the problem of synchronization of uncoiling and film rolling in the waterproof coiled material laying process and improving the laying quality.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows:

a waterproof laying device for coiled materials comprises an unfolding roller and a film folding roller which are rotatably connected to a device support, wherein the film folding roller is parallel to the unfolding roller, the film folding roller is in transmission connection with a film folding motor fixedly mounted on the device support, the film folding motor is electrically connected with an electric control device, a coiled material core shaft tube locking device is mounted on the unfolding roller, a power output end of an unfolding torque limiting device fixedly mounted on the device support is in transmission connection with the unfolding roller through a first transmission device, and the unfolding torque limiting device is used for providing braking torque for the unfolding roller so as to provide required unfolding tension for the coiled materials to be laid; the film winding shaft is provided with a film winding core shaft tube locking device, the film winding torque limiting device and the film winding motor are fixedly arranged on the equipment support, the power output end of the film winding motor is in transmission connection with the power input end of the film winding torque limiting device through a second transmission device, and the power output end of the film winding torque limiting device is in transmission connection with the film winding shaft through a third transmission device. The film collecting motor provides limited film collecting torque for the film collecting shaft through the film collecting torque limiting device, further provides film collecting tension for the recovery of the anti-sticking isolation film of the coiled material, and the film collecting linear speed provided by the film collecting motor for the film collecting shaft is always greater than the coiled material uncoiling speed. The electric control device is arranged on the equipment support and internally provided with a power supply and a control device, and the electric control device is electrically connected with electric facilities such as a film collecting motor and the like.

Furthermore, the locking device of the coiled material core shaft tube adopts one of the locking clamping heads or the locking forms of the expansion shaft of the coiled material core shaft tube.

When the locking device of the coiled material core shaft tube adopts a coiled material expanding shaft, the coiled material expanding shaft is coaxially and fixedly arranged on the unwinding shaft.

For the convenience at the job site locking fixed coiled material, including wherein the coiled material that the coiled material mandrel pipe warp, coiled material mandrel pipe locking device preferably adopts coiled material mandrel pipe locking chuck device.

Furthermore, the locking device of the film-winding core shaft tube adopts one of locking clamping heads or locking modes of an expanding shaft of the film-winding core shaft tube.

In order to facilitate the movement of equipment and realize the uncoiling and laying construction of a waterproof layer of a coiled material, a travelling mechanism is arranged below the equipment bracket, and the travelling mechanism can be pushed or pulled manually or can be driven by power to travel.

In order to more easily realize the operation processes of installation, positioning and locking of the uncoiling coiled material on the uncoiling shaft, the uncoiling shaft is rotatably connected with the equipment support through a semicircular bearing, the semicircular bearing can be divided into two parts along the horizontal plane of the axial center of the bearing, the uncoiling shaft and the semicircular bearing can be quickly disassembled or assembled, and the disassembled uncoiling shaft and the uncoiling coiled material are installed on the equipment again after being positioned and locked.

In order to improve the blanking accuracy and the operation efficiency of the coiled material, the coiled material waterproof laying equipment provided by the utility model further comprises a meter-meter sensor and a meter-meter reading display screen, wherein the meter-meter sensor is installed on an equipment support, and the meter-meter reading display screen is installed on the equipment support or is arranged outside the equipment support in a split mode.

In order to reduce the energy consumption of the device, a monitoring device for monitoring the rotary unwinding of the unwinding coiled material is further mounted on the device bracket, the monitoring device is electrically connected with the electric control device, when the coiled material unwinding is laid or the coiled material blanking operation is started, the monitoring device detects that the coiled material positioned on the unwinding reel starts to rotate along with the unwinding reel at the moment, a generated signal is transmitted to the electric control device, and then the electric control device starts a film winding motor to run and wind the film; when the roll coil stops working, the signal of the monitoring device stops, and the film collecting motor also stops running.

In order to further improve the cutting efficiency and cutting accuracy of the coiled material and ensure the flatness of a cut of the coiled material, the coiled material waterproof laying equipment provided by the utility model further comprises a coiled material cutting device, wherein the coiled material cutting device and the equipment support are arranged in a split mode or fixedly connected to the equipment support at the discharging end of the discharged coiled material.

To further ensure the utility model can keep the coil unwinding and film winding processes synchronous all the time, the maximum unwinding torque output value T of the unwinding torque limiting device of the utility model is required before the utility model is manufactured_1maxMaximum film collecting torque output value T of film collecting torque limiting device_2maxMaximum film collecting rotating speed output value S of film collecting motor_2maxThe parameter value of the film winding device is designed, and meanwhile, the parameter design is used as a parameter selection basis of a film winding motor, a film unwinding torque limiting device and a film winding torque limiting device in the equipment.

To provide enough coil unwinding tensionThe waterproof layer of the coiled material laid by the uncoiling is ensured to be flat, and the maximum uncoiling torque output value T of the uncoiling torque limiting device_1maxThe parameter design of (2) need satisfy that the minimum exhibition book tension value that the exhibition book moment of torsion limiting device can provide the exhibition spool should be greater than the condition of guaranteeing waterproof layer to lay the required maximum exhibition book tension value of straight coiled material self all the time, promptly: t is_1max＞F_1max*D_1max/I₁So as to ensure that the unrolling torque limiting device can provide enough coiled material unrolling tension to ensure that the waterproof layer is unrolled and laid smoothly. Wherein, F_1maxEnsuring the maximum uncoiling tension value required by the flat coiled material paved on the waterproof layer; d_1maxThe maximum uncoiling radius value of the coiled material designed by the utility model; i is₁Is the transmission ratio of the first transmission designed by the utility model.

For providing enough film winding tension and ensuring that the anti-sticking isolating film of the roll-up coiled material can be smoothly recycled by a film winding shaft, the maximum film winding torque output value T of the film winding torque limiting device_2maxThe minimum film collecting tension value provided by the film collecting torque limiting device for the film collecting shaft is always larger than the maximum film uncovering tension value required in the process of peeling the anti-sticking isolating film of the coiled material from the coiled material, namely: t is_2max＞F_2max*D_2max/I₃So as to ensure that the film collecting torque limiting device can provide enough film collecting tension to ensure that the processes of roll material unwinding and film collecting are synchronous. Wherein, F_2maxIs the "maximum release tension" required for the process of peeling the web anti-adhesive release film from the web; d_2maxThe maximum film collecting radius of the film collecting shaft designed by the utility model; i is₃It is the gear ratio of the third transmission that the present invention is designed for.

For receive the antiseized barrier film that the membrane axle can in time retrieve the exhibition and roll up the coiled material, guarantee that the coiled material exhibition is rolled up and the antiseized barrier film recovery process of coiled material remains the synchronization throughout, receive the biggest receipts membrane rotational speed output value N of membrane motor_maxThe parameter design of (2) needs to meet the condition that the minimum film collecting linear speed which can be provided for a film collecting shaft by a film collecting motor is always greater than the maximum linear speed of the coiled material uncoiling, namely: n is a radical of_max＞S_max*I₂*I₃/(2D_2minPi) to ensure that the anti-sticking isolating film of the coiled material can be timely recovered in the uncoiling process, thereby ensuring that the uncoiling and coiling processes of the coiled material are always synchronous. Wherein S is_maxThe maximum uncoiling linear speed of the coiled material designed by the utility model; d_2minThe minimum film-winding radius designed by the utility model is the excircle radius of the film-winding core shaft tube; i is₂Is the gear ratio of the second transmission contemplated by the present invention.

In order to avoid the situation that the coiled material on the uncoiling shaft is pulled to passively rotate and uncoil under the action of 'film collecting tension' during the operation of equipment, the maximum uncoiling torque output value T_1maxThe parameter design of (2) also meets the condition that the minimum unwinding tension value which can be provided for the unwinding shaft by the unwinding torque limiting device is always larger than the maximum film winding tension value of the unwinding shaft, namely: t is_1max＞T_2max*D_1max*I₃/(D_2min*I₁)。

The waterproof roll paving equipment provided by the utility model comprises the following steps:

preparation work of coiled material laying and blanking: installing a coiled material and a film-winding core shaft pipe, and positioning and locking the waterproof coiled material on the unwinding shaft through a coiled material core shaft pipe locking device; the film collecting core shaft tube is positioned and locked on the film collecting shaft by the locking device of the film collecting core shaft tube. Uncovering the anti-sticking isolating film on the surface of the coiled material and winding and fixing the anti-sticking isolating film on the film-winding core shaft tube; and a power switch in the electric control device is turned on to supply power to each electric device of the equipment, and the film collecting motor works and drives the film collecting shaft to rotate so as to further tighten the anti-sticking isolation film of the coiled material on the film collecting core shaft pipe.

The waterproof layer of the coiled material is laid, equipment is aligned on a base surface to be constructed, the outermost end of the coiled material is pulled out of the equipment by holding, one person steps on the coiled material outside the pulled equipment to position the coiled material, the other person pulls or pushes the equipment in the opposite direction, the running direction of the equipment is controlled by an equipment handrail, at the moment, the coiled material lays an uncoiled roll on the waterproof base surface, and meanwhile, a film collecting shaft synchronously rotates to recover an anti-sticking isolation film of the uncoiled coiled material;

when the equipment is pulled or pushed to perform uncoiling and laying on the waterproof base surface, the torque borne by the uncoiling shaft is gradually increased to provide uncoiling tension for the coiled material, and when the actual torque borne by the uncoiling shaft is larger than or equal to the set torque of the uncoiling torque limiting device, the uncoiling torque limiting device slips, and at the moment, the uncoiling shaft passively rotates and starts to perform coiled material uncoiling and laying;

when the film is rolled and unwound by the coiled material, the linear speed of the film winding is always greater than the speed of the film rolling and unwinding, so that the film winding torque actually borne by the film winding shaft is always greater than or equal to the set torque of the film winding torque limiting device, namely, the film winding torque limiting device is always in a slipping state while the film winding shaft is winding the film, and the processes of rolling and unwinding the coiled material are always synchronous;

when pulling/pushing equipment is stopped, the unwinding shaft stops rotating, at the moment, the film winding shaft continuously tensions the anti-sticking isolating film of the coiled material, when the torque borne by the film winding shaft is larger than or equal to the torque set value of the film winding torque limiting device, the film winding torque limiting device slips, the film winding shaft stops rotating, and the film winding stops;

blanking of coiled materials: the utility model is used as the material for the coiled material when the waterproof construction parts which are not suitable for being directly unrolled and laid by using equipment, such as irregular-shaped base surfaces (such as structural parts of a bottom plate foundation pit, a foundation beam, a top plate high-low span and the like) or facades (such as structural parts of a ground storehouse vertical wall, a top plate main body facade, a roof parapet and the like) are used: and locking wheels below the equipment support, preventing the equipment from moving, holding one end of the coiled material and pulling the end out of the equipment to the length required by the waterproof base surface, synchronously recovering the anti-sticking isolating film of the coiled material in the process, cutting the coiled material according to the required material length, and finishing the blanking process of the coiled material.

The utility model has the beneficial effects that:

1. the roll unfolding torque limiting device is arranged on the roll unfolding shaft, and the roll unfolding torque limiting device is used for providing braking torque for the roll unfolding shaft, so that necessary unfolding tension is provided for the roll unfolding to straighten the rolled roll, the waterproof layer of the roll is guaranteed to be laid smoothly, and the defect that waterproof layer wrinkles are prone to occur in the waterproof layer laying process due to tension-free unfolding in the prior art is overcome.

2. The film collecting shaft is provided with the film collecting torque limiting device, a film collecting motor provides the highest film collecting limiting torque for the film collecting shaft through the film collecting torque limiting device to drive the film collecting shaft to operate and collect a film, the film collecting linear speed provided by the film collecting motor for the film collecting shaft is always greater than the roll spreading speed of a coiled material, when the film collecting shaft bears the torque which is greater than or equal to the limiting output torque of the film collecting torque limiting device, the inside of the film collecting torque limiting device slips, the synchronization of the roll spreading and the film collecting process is ensured, and the defect that an anti-sticking isolating film of the coiled material is broken to cause the film collecting to be incapable of continuing in the prior art due to the fact that a necessary tension control device is not provided for the film collecting of the coiled material on the film collecting shaft is overcome;

3. the utility model adopts the locking device of the core shaft tube of the uncoiling reel, is convenient to clamp and fix the coiled material with deformed core shaft tube on site, and overcomes the defect that the coiled material with deformed appearance cannot be used by equipment because the 'expanding shaft' cannot be inserted into the core shaft tube of the coiled material with deformed appearance caused by factors such as transportation and the like in the prior art;

4. the film winding shaft is provided with the locking device of the film winding core shaft pipe, the film winding core shaft pipe is locked and fixed on the locking device of the film winding core shaft pipe, and the coiled material anti-sticking isolating film is recovered on the film winding core shaft pipe, so that the coil changing operation of the recovered coiled material anti-sticking isolating film is more conveniently and quickly realized, and the defects that the recovered coiled material anti-sticking isolating film is difficult to separate from the film winding shaft and the work efficiency is further reduced due to the fact that the coiled material anti-sticking isolating film is directly wound on the film winding shaft in the prior art are overcome;

5. the utility model has the advantages of simple structure, smaller volume, lighter weight, convenient carrying and the like, realizes the equipment integrated operation of the functions of roll material unrolling, film collecting and laying and roll material unrolling, film collecting and laying, not only realizes the laying construction operation of the waterproof large-area planar roll material, but also realizes that a base surface (such as a base surface with a complex vertical surface or structure) which is not suitable for the equipment to directly lay the waterproof roll material is used as a roll material laying machine, and has extremely strong construction adaptability.

6. The utility model greatly improves the waterproof laying construction efficiency, reduces the labor intensity of constructors, not only realizes the timely recovery of the anti-sticking isolating film of the uncoiled coiled material, avoids the pollution of the waste anti-sticking isolating film to the environment, but also has no secondary pollution phenomenon of slurry in the recovery process of the anti-sticking isolating film, provides necessary conditions for the reasonable reuse of the recovered anti-sticking isolating film, and highly realizes environmental friendliness.

Description of the drawings:

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

FIG. 2 is a schematic top view of the general structure of the apparatus of the present invention;

FIG. 3 is a schematic illustration of the apparatus of the present invention shown in FIG. 2 after installation of a coil core tube and a take-up core tube;

FIG. 4 is a schematic front view of embodiment 1 of the present invention;

FIG. 5 is a schematic top view of embodiment 1 of the present invention;

FIG. 6 is an enlarged view of i-i in FIG. 5;

FIG. 7 is a schematic front view of embodiment 2 of the present invention;

FIG. 8 is a schematic top view of embodiment 2 of the present invention;

FIG. 9 is a schematic top view of embodiment 3 of the present invention;

FIG. 10 is an enlarged view of the first propulsion device 25 of FIG. 9;

fig. 11 is an enlarged view of the second propulsion device 37 of fig. 9.

Reference numbers for parts of the drawings illustrate: 10- -equipment support, 11- -wheel, 201- -first semicircular bearing, 202- -second semicircular bearing, 203- -third bearing, 204- -fourth bearing, 205- -first bearing, 206- -second bearing, 21- -unwinding shaft, 210- -coil core tube, 211- -first unwinding shaft, 212- -second unwinding shaft, 22- -coil core tube locking, 220- -unwinding shaft, 2201- -expansion knob, 221- -first coil core tube locking clip, 222- -second coil core tube locking clip, 223- -third coil core tube locking clip, 224- -fourth coil core tube locking clip, 23- -unwinding torque limiting device, 202- -second semicircular bearing, 203- -third bearing, 204- -fourth bearing, 2201- -expansion knob, 220- -first coil core tube locking clip, 222- -second coil core tube locking clip, 223- -third coil core tube locking clip, 224- -fourth coil core tube locking clip, 23- -unwinding torque limiting device, 231- -magnetic powder brake, 232- -mechanical torque limiter for unrolling, 24- -first transmission device, 241- -first gear, 242- -second gear, 25- -first propulsion device, 251- -first nut, 252- -first screw propulsion rod, 253- -first handle, 26- -web guide roll, 301- -first bearing, 302- -second bearing, 303- -third bearing device, 304- -fourth bearing device, 305- -slide rail device, 31- -film take-up shaft, 310- -film take-up core shaft tube, 311- -first film take-up shaft, 312- -second film take-up shaft, 32- -film take-up core shaft locking device, 320- -film take-up expansion shaft, 32- -film take-up core shaft tube, 3201- -expanding knob, 321- -first film winding core shaft tube locking chuck, 322- -second film winding core shaft tube locking chuck, 323- -third film winding core shaft tube locking chuck, 324- -fourth film winding core shaft tube locking chuck, 33- -film winding torque limiter, 331- -magnetic powder clutch, 332- -film winding mechanical torque limiter, 34- -film winding motor, 35- -second transmission device, 36- -third transmission device, 37- -second propulsion device, 371- -second nut, 372- -second thread propulsion rod, 373- -second handle, 38- -film winding guide roller, 40- -electric control device, 51- -meter sensor, 52- -meter reading display screen, 322- -second thread winding core shaft tube locking chuck, 34- -third transmission device, 35- -second transmission device, 35- -third transmission device, 37- -second propulsion device, 371- -second nut, 372- -second thread propulsion rod, 373- -second handle, 38- -film winding guide roller, 40- -electric control device, 51- -meter sensor, 52- -meter reading display screen, 60-coil cutting device, 61-motor, 62-cutter, 63-cutter groove.

Detailed Description

The utility model relates to a coiled material waterproof laying device, which is mainly suitable for waterproof construction operation equipment for underground engineering bottom plates, top plates, roofs and other parts of buildings, and the specific implementation mode of the utility model is further explained by combining the accompanying drawings as follows:

as shown in fig. 1, 2 and 3, the present invention comprises an equipment support 10, an unwinding shaft 21, a locking device 22 for a core tube of coiled material, an unwinding torque limiting device 23, a first transmission device 24, a winding shaft 31, a locking device 32 for a core tube of wound film, a winding torque limiting device 33, a winding motor 34, a second transmission device 35 and a third transmission device 36. The connection relationship among the specific components of the utility model is as follows:

the unwinding shaft 21 is rotationally connected to the equipment bracket 10; the locking device 22 for the coiled material core shaft tube is arranged on the unwinding shaft 21, and the coiled material core shaft tube 210 locks and fixes the coiled material on the unwinding shaft 21 through the locking device 22 for the coiled material core shaft tube; the unrolling torque limiting device 23 is fixedly mounted on the equipment support 10, the unrolling torque limiting device 23 is in transmission connection with the unrolling shaft 21 through a first transmission device 24, the unrolling torque limiting device 23 provides braking torque for the unrolling shaft 21, and then required unrolling tension is provided when the coiled materials are paved, so that wrinkles are prevented from occurring when the waterproof layers are paved. The unrolling torque limiting device 23 adopts an electric control torque controller or a mechanical torque limiter, the unrolling electric control torque controller can adopt a magnetic powder brake or other torque limiting devices controlled in an electric control mode, and the unrolling mechanical torque limiter can adopt one of a ball type torque limiter, a friction type torque limiter or other mechanical torque limiters; the first transmission device can be formed by one transmission form of gear transmission, chain transmission, belt transmission, worm and gear transmission, shaft coupling transmission or shaft direct connection transmission and the like.

The film collecting shaft 31 and the film unfolding shaft 21 are installed in parallel, the film collecting shaft 31 is rotatably connected to the equipment support 10, the film collecting core shaft tube locking device 32 is arranged on the film collecting shaft 31, and the film collecting core shaft tube 310 is locked and fixed on the film collecting shaft 31 through the film collecting core shaft tube locking device 32; the film collecting torque limiting device 33 and the film collecting motor 34 are fixedly mounted on the equipment support 10, the power output end of the film collecting motor 34 is in transmission connection with the power input end of the film collecting torque limiting device 33 through a second transmission device 35, and the power output end of the film collecting torque limiting device 33 is in transmission connection with the film collecting shaft 31 through a third transmission device 36. The film collecting motor 34 provides a limited film collecting torque for the film collecting shaft 31 through the torque limiting device 33, and further provides required film collecting tension for the recovery of the anti-sticking isolating film of the coiled material. The film-collecting torque limiting device is 33 and adopts an electric control torque controller or a mechanical torque limiter, the film-collecting electric control torque controller adopts a magnetic powder clutch or other torque limiting devices controlled in an electric control mode, and the film-collecting mechanical torque limiter adopts one of a ball type torque limiter, a friction type torque limiter or other mechanical torque limiters; the second transmission device and the third transmission device can be formed by one transmission form of gear transmission, chain transmission, belt transmission, worm and gear transmission, shaft coupling transmission or shaft direct connection transmission and the like.

In order to facilitate the movement of the equipment, a travelling mechanism can be arranged on the utility model, and the travelling mechanism consists of one or more wheels 11 arranged below the equipment bracket 10.

The first embodiment is as follows:

as shown in fig. 4, 5, and 6, the embodiment discloses a waterproof roll laying device, which includes a device support 10, a traveling mechanism, a first semicircular bearing 201, a second semicircular bearing 202, a unwinding shaft 21, a first roll core shaft tube locking chuck 221, a second roll core shaft tube locking chuck 222, a first gear 241, a second gear 242, a magnetic powder brake 231, a roll guiding roller 26, a first bearing 301, a second bearing 302, a winding shaft 31, a first winding core shaft tube locking chuck 321, a second winding core shaft tube locking chuck 322, a magnetic powder clutch 331, a winding motor 34, a second transmission device 35, a third transmission device 36, a winding guiding roller 38, and an electric control device 40.

The travelling mechanism of the embodiment is composed of 4 wheels 11 and is arranged at four corners below the equipment support 10.

The first semicircular bearing 201 and the second semicircular bearing 202 are respectively and fixedly arranged at two sides of the equipment support 10, the unfolding reel 21 is a through long shaft which penetrates through two sides of the equipment support 10 and is respectively and rotatably connected with the first semicircular bearing 201 and the second semicircular bearing 202 (the semicircular bearing 201 and the semicircular bearing 202 can be divided into two along the horizontal plane of the axial center of the bearings, and the unfolding reel 21 can be quickly installed or taken out in the vertical direction);

in this embodiment, the locking device of the coiled material core shaft tube is composed of a first locking chuck 221 of the coiled material core shaft tube and a second locking chuck 222 of the coiled material core shaft tube, the clamping working surfaces of the first locking chuck 221 of the coiled material core shaft tube, the second locking chuck 222 of the coiled material core shaft tube and the coiled material core shaft tube are designed like conical surfaces, and are provided with middle holes, and are symmetrically sleeved on the unwinding shaft 21 respectively; the first winding core shaft tube locking clamp 221 is fixedly connected with the unwinding shaft 21, or a locking unit is arranged in the first winding core shaft tube locking clamp 221, and a locking fixed connection form is formed between the locking unit and the unwinding shaft 21. The second coil mandrel pipe locking clamp 222 can freely slide left and right on the unwinding shaft 21, after the second coil mandrel pipe locking clamp 222 is removed from the unwinding shaft 21, the coil is installed on the unwinding shaft 21, and meanwhile, the first coil mandrel pipe locking clamp 221 is pressed into the coil mandrel pipe on one side; the second locking collet 222 is then re-installed on the unwinding shaft 21 and pressed into the bobbin tube on the other side to lock and fix the coil, so that the unwinding shaft 21 transmits the torque to the unwinding coil through the first locking collet 221 fixedly connected to the unwinding shaft 21, and further transmits the tension required for unwinding the coil. It should be noted that, the preferable scheme here is to add a locking unit in the second coil core tube locking chuck 222, where the locking unit can form a locking fixed connection form with the unwinding shaft 21, and the unwinding shaft 21 transmits torque together through the first coil core tube locking chuck 221 and the second coil core tube locking chuck 222 fixedly connected to the unwinding shaft 21, so that the left and right sides of the unwound coil obtain balanced coil unwinding tension, thereby improving the laying quality of the waterproof layer. After releasing the locking unit, the second coil mandrel locking collet 222 is free to slide side-to-side on the unwind spool 21.

In this embodiment, the unwinding torque control device 23 is a magnetic powder brake 231, and the magnetic powder brake 231 is fixedly mounted on one side of the equipment support 10; the first transmission device 24 is composed of a first gear 241 and a second gear 242, the first gear 241 is fixedly connected with the power output end of the magnetic particle brake 231, the second gear 242 is fixedly installed at one side of the unwinding shaft 21 at the corresponding position above the first gear 241, and the first gear 241 and the second gear 242 are in meshing transmission (as shown in fig. 6). The present embodiment adopts a gearing manner to facilitate the quick detachment or installation of the unwinding shaft 21 from the device bracket 10. The magnetic powder brake 231 provides braking torque for the unwinding shaft 21 through the meshing transmission of the first gear 241 and the second gear 242, and further provides necessary unwinding tension for the coiled material when the coiled material is laid, so as to avoid wrinkles and bending when the waterproof layer is laid.

The coiled material guide roll 26 is arranged on the equipment support 10 below the unwinding shaft 21, two sides of the coiled material guide roll can be fixedly connected with two sides of the equipment support 10 (the connection mode can also adopt a rotating connection mode), the coiled material can provide a constant coiled material unwinding height when being unwound by the coiled material guide roll 26, and the laying precision of a waterproof layer of the coiled material is further ensured.

The first bearing 301 and the second bearing 302 are fixedly installed on one side of the equipment support 10, and the film collecting shaft 31 penetrates through a long penetrating shaft on two sides of the equipment support 10 and is rotatably connected with the first bearing 301 and the second bearing 302;

in this embodiment, the locking device of the coiled material core shaft tube is composed of a first film winding core shaft tube locking chuck 321 and a second film winding core shaft tube locking chuck 322, the clamping working surfaces of the first film winding core shaft tube locking chuck 321, the second film winding core shaft tube locking chuck 322 and the coiled material core shaft tube are designed like conical surfaces, and are provided with middle holes, and are symmetrically sleeved on the film unwinding shaft 31 respectively, wherein the first film winding core shaft tube locking chuck 321 is fixedly connected with the film winding shaft 31, or the first film winding core shaft tube locking chuck 321 is provided with a locking unit, and the locking unit and the film winding shaft 31 can form a locking fixed connection form; the second film winding mandrel pipe locking chuck 322 can freely slide left and right on the film winding shaft 31, the second film winding mandrel pipe locking chuck 322 is moved out of the film winding shaft 21, the film winding mandrel pipe is installed on the film winding shaft 31, the first film winding mandrel pipe locking chuck 321 is pressed into the film winding mandrel pipe on one side, the second film winding mandrel pipe locking chuck 322 is installed on the film winding shaft 31 again and is pressed into the film winding mandrel pipe on the other side, the locking and fixing process of the film winding mandrel pipe is completed, so far, the film winding shaft 31 transmits torque to the film winding mandrel pipe through the first film winding mandrel pipe locking chuck 321 fixedly connected to the film winding shaft 31, and the film winding tension required by the anti-sticking isolation film of the coiled material is transmitted and recovered. It should be noted that, the preferable scheme here is that a locking unit is additionally arranged in the second film winding core shaft tube locking chuck 322, the locking unit can form a locking fixed connection form with the film winding shaft 31, the film winding shaft 31 transmits torque together through the first film winding core shaft tube locking chuck 321 and the second film winding core shaft tube locking chuck 322 which are fixedly connected to the film winding shaft 31, so that the left and right sides of the film winding core shaft tube obtain balanced film winding tension, and further the film winding quality is improved. After the locking unit of the second film winding mandrel pipe locking chuck 322 is released, the second film winding mandrel pipe locking chuck 322 can freely slide left and right on the film winding shaft 31.

In this embodiment, the film collecting torque limiting device is a magnetic powder clutch 331, the magnetic powder clutch 331 and the film collecting motor 34 are fixedly mounted on the equipment support 10 at the same side, and the second transmission device 35 and the third transmission device 36 are in a chain transmission mode and respectively comprise a chain wheel and a chain; the power output end of the film collecting motor 34 is in transmission connection with the power input end of the magnetic powder clutch 331 through a second transmission device 35, and the power output end of the magnetic powder clutch 331 is in transmission connection with the film collecting shaft 31 through a third transmission device 36. The film collecting motor 34 provides the torque required for collecting the film for the film collecting shaft 31 through the magnetic powder clutch 331, further provides the film collecting tension for the film collecting shaft 31, and changes the magnitude of the film collecting tension by adjusting the torque value of the magnetic powder clutch;

the film collecting guide roller 38 is arranged on the equipment support 10 between the film spreading shaft 21 and the film collecting shaft 31, two sides of the film collecting guide roller are respectively and fixedly connected with two sides of the equipment support 10 (the connection mode can also adopt a rotating connection mode here), and the anti-sticking isolation film of the coiled material is further flattened through the film collecting guide roller 38.

The electric control device 40 is arranged on the equipment support 10 and internally provided with a power supply, a power supply switch device and a control device, wherein the control device comprises a magnetic powder brake torque adjusting device, a magnetic powder clutch torque adjusting device and a motor control device, and the power supply is respectively and electrically connected with the magnetic powder brake torque adjusting device, the magnetic powder brake, the magnetic powder clutch torque adjusting device, the motor control device and the film collecting motor through the power supply switch device. The electric control device 40 provides power and corresponding control and regulation functions for the present invention.

To ensure that the present embodiment can always keep synchronization during the roll unwinding and film winding process, the maximum unwinding torque output value T of the unwinding torque limiting device of the present embodiment is_1maxMaximum film collecting torque output value T of film collecting torque limiting device_2maxMaximum film collecting rotating speed output value S of film collecting motor_2maxThe parameter value design and the parameter selection values of the magnetic powder brake 231, the magnetic powder clutch 331 and the film collecting motor 34 are as follows: 1. to ensure that the present invention unrolls and receives the film in synchronization,maximum film collecting torque output value T of film collecting torque limiting device_2maxShould satisfy T_2max＞F_2max*D_2maxDesign conditions of/I3. Firstly, according to the practical situation of field application, the maximum film uncovering tension value F required by the coil material itself in the most extreme case of the design of the embodiment is determined_2max60N, the maximum film collecting radius D of the film collecting shaft 31_2max0.15m, the transmission ratio I3 of the third transmission 36 is 1.8. And then the design parameter values are calculated to obtain: t is_2max> 5 Nm. According to T_2maxThe maximum film-collecting torque output value T of the magnetic powder clutch 331 of the embodiment is finally determined under the condition of more than 5Nm design parameters_2maxThe selected parameter is 6Nm (the output torque of the magnetic powder clutch 331 can be adjusted at will between 0Nm and 6Nm, and the more appropriate torque output value of the magnetic powder clutch 331 can be adjusted and set according to different working conditions on site).

2. In order to ensure that the coil uncoiling tension of the utility model is enough and the coil uncoiling and film collecting are synchronous, the maximum uncoiling torque output value T of the uncoiling torque limiting device_1maxShould satisfy T_1max＞F_1max*D_1maxI1, and T_1max＞T_2max*D_1max*I3/(D_2minI1). Firstly, according to the actual situation of field application, the maximum uncoiling tension value F required by the coil material in the most extreme condition designed by the embodiment is determined_1maxIs 100Nm, maximum coil radius value D_1max0.15m and a minimum film-collecting radius D_2min0.05 (i.e., the outer radius of the coil bobbin tube), and 3 for the first transmission 24. Calculated from the above design parameter values: t is_1max> 5Nm and at the same time also satisfying T_1max> 9 Nm. According to T_1max＞5Nm、T_1maxThe finally determined maximum uncoiling torque output value T of the magnetic powder brake 231 of the embodiment under the condition of design parameters of more than 9Nm_1maxThe selected torque parameter is 10Nm (the output torque of the magnetic powder brake 231 can be adjusted at will between 0 and 10Nm, and can be adjusted and set to a more appropriate torque output value of the magnetic powder brake 231 according to different working conditions on site).

3. Designed for realizing the synchronization of film unwinding and film winding of the utility modelMaximum film collecting rotating speed output value N of film collecting motor 34_maxShould satisfy N_max≥S_1max*I2*I3/(2D_2minPi) of the design. Firstly, the minimum film-winding radius D of the film-winding core shaft tube 310 designed by the embodiment is determined according to the practical situation of field application_2minIs 0.05m (namely the excircle radius of the film collecting mandrel pipe), and the transmission ratio I2 of the second transmission device 35 is 1: 1.8, maximum unwinding speed S_1maxIs 20 m/min. Calculated from the above design parameter values: n is a radical of_maxIs more than or equal to 115 r/min. According to the satisfaction of N_maxThe finally determined maximum rotating speed output value N of the film collecting motor 34 of the embodiment under the design parameter condition of not less than 115r/min_maxIs 120 r/min.

It should be noted that, in the actual application process, the design value of the device operation parameter may be dynamically adjusted in the construction process according to the actual situation of the field device, so that the value of the certain parameter is set to be closer to the actual value required by the actual use, so as to realize that the device can be kept in the optimal state for operation at any time.

The coil laying and blanking in the embodiment comprises the following steps:

firstly, preparation work of laying and blanking of coiled materials:

mounting the coil, separating the upper half bearings of the semicircular bearings 201 and 202, removing the coil take-up spool 21 from the semicircular bearing 201/202 → removing the coil mandrel tube locking clip 222 on the coil take-up spool 21 furthest from the first actuator (the coil mandrel tube locking clip 221 on the proximal end from the first actuator remains locked with the take-up spool) → inserting the coil take-up spool 21 into the coil mandrel, pressing one end of the coiled material core shaft tube into the coiled material core shaft tube locking clamp 221 which is near the first transmission device → remounting the locking clamp 222 which is taken off on the unwinding shaft and pressing the locking clamp into the coiled material core shaft tube, positioning and locking the locking clamp and the unwinding shaft → placing the unwinding shaft and the coiled material fixed on the unwinding shaft back into the semicircular bearing 201/202, and the upper half of the split semicircular bearing 201/202 is reinstalled. At this point, the coil installation is complete.

Installing the film winding core shaft tube, taking out the film winding core shaft tube locking chuck 322 (the core shaft tube locking chuck 321 and the film winding shaft which are the most proximal ends of the third transmission devices 36 are always kept in a locking state) on the film winding shaft 31, pressing the film winding shaft 31 into the film winding core shaft tube 310, pressing one end of the film winding core shaft tube into the core shaft tube locking chuck 321, reinstalling the taken-off locking chuck 322 on the film winding shaft, pressing the locking chuck 322 into the film winding core shaft tube, and positioning and locking the chuck and the film winding shaft. And finishing the installation of the film-winding core shaft tube.

Uncovering the anti-sticking isolating film on the lower surface of the coiled material installed on the coiled material winding device, and winding and fixing the anti-sticking isolating film on the film-winding mandrel pipe 310; and (3) turning on a power switch in the electric control device to supply power to each electric device of the equipment, and at the moment, the film collecting motor 34 works and drives the film collecting shaft 31 to rotate to further tighten the anti-sticking isolation film of the coiled material on the film collecting core shaft tube 310.

And secondly, laying a waterproof layer of the coiled material, aligning the equipment on a base surface to be constructed, holding the outermost end of the coiled material and pulling the coiled material out of the equipment, stepping on the coiled material out of the equipment by one person for positioning, pulling or pushing the equipment in the opposite direction by another person, controlling the running direction of the equipment through an equipment handrail, laying the uncoiled coiled material on the waterproof base surface, and synchronously rotating a film collecting shaft to recover an anti-sticking isolation film of the uncoiled coiled material.

When the equipment is pulled or pushed to perform uncoiling and paving on the waterproof base surface, the torque borne by the uncoiling shaft 21 is gradually increased to provide uncoiling tension for the coiled material, when the actual torque borne by the uncoiling shaft 21 is larger than or equal to the set torque of the magnetic powder brake 231, the magnetic powder brake 231 slips, and at the moment, the uncoiling shaft 21 rotates passively and starts to perform coiled material uncoiling and paving.

When the film is rolled up and unwound by the coiled material, the linear speed of the film winding is always greater than the speed of the film winding and unwinding, so that the film winding torque actually borne by the film winding shaft is always greater than or equal to the set torque of the magnetic powder clutch 331, that is, the magnetic powder clutch 331 is always in a slipping state while the film winding shaft 31 is winding the film, thereby ensuring that the processes of the film winding and unwinding of the coiled material are always synchronous.

When pulling/pushing equipment stops, the unwinding shaft stops rotating, at the moment, the film winding shaft 31 continuously tensions the anti-sticking isolation film of the coiled material, when the torque borne by the film winding shaft 31 is larger than or equal to the torque set value of the magnetic powder clutch 331, the magnetic powder clutch 331 slips, the film winding shaft stops rotating, and the film winding stops.

Thirdly, blanking of coiled materials: the utility model is used as the material for the coiled material when the waterproof construction parts which are not suitable for being directly unrolled and laid by using equipment, such as irregular-shaped base surfaces (such as structural parts of a bottom plate foundation pit, a foundation beam, a top plate high-low span and the like) or facades (such as structural parts of a ground storehouse vertical wall, a top plate main body facade, a roof parapet and the like) are used: and locking wheels below the equipment support, preventing the equipment from moving, holding one end of the coiled material and pulling the end out of the equipment to the length required by the waterproof base surface, synchronously recovering the anti-sticking isolating film of the coiled material in the process, cutting the coiled material according to the required material length, and finishing the blanking process of the coiled material.

Example two:

as shown in fig. 7 and 8, the present embodiment discloses a waterproof roll laying device, which includes a device support 10, a third bearing 203, a fourth bearing 204, a unrolling shaft 21, an unrolling expanding shaft 220, an unrolling expanding shaft locking knob 2201, an unrolling mechanical torque limiter 232, a first transmission device 24, a first gear 241, a second gear 242, a roll guiding roller 26, a first bearing 301, a second bearing 302, a film collecting shaft 31, a film collecting expanding shaft 320, a film collecting expanding shaft locking knob 3201, a film collecting mechanical torque limiter 332, a film collecting motor 34, a second transmission device 35, a third transmission device 36, an electric control device 40, a meter sensor 51, a meter reading display screen 52, a roll cutting device 60, a film cutting motor 61, a cutter 62, and a trough 63.

The third bearing 203 and the fourth bearing 204 are fixedly arranged at one side of the equipment bracket 10, and the unwinding shaft 21 is rotationally connected with the third bearing 203 and the fourth bearing 204; the expansion shaft 220 is fixedly connected with the expansion shaft 21 coaxially, the other end of the expansion shaft 220 is provided with a locking knob 2201, and the expansion or the expansion release of the coiled material core shaft tube is realized by rotating the locking knob 2201.

The unrolling torque limiting device of the embodiment adopts an unrolling mechanical torque limiter 232, the unrolling mechanical torque limiter 232 is fixedly installed on one side of the equipment support 10 below the unrolling shaft 21, and a power output end of the unrolling mechanical torque limiter 232 is in transmission connection with the unrolling shaft 21 through a first transmission device 24.

The coiled material guide roll 26 is arranged on the equipment support 10 below the unwinding shaft 21, two ends of the coiled material guide roll can be fixedly connected with two sides of the equipment support 10 (the connection mode can also adopt a rotating connection mode), the coiled material can provide a constant coiled material unwinding height when being unwound by the coiled material guide roll 26, and the laying precision of a waterproof layer of the coiled material is further ensured.

The first bearing 301 and the second bearing 302 are fixedly arranged on one side of the equipment support 10, and the film collecting shaft 31 is rotatably connected with the first bearing 301 and the second bearing 302; the film collecting expansion shaft 320 is coaxially and fixedly connected with the film collecting shaft 31, the other end of the film collecting expansion shaft 320 is provided with a locking knob 3201, and the expansion or the release of the expansion of the film collecting core shaft tube 310 is realized by rotating the locking knob 3201. It should be noted that: the film collecting expansion shaft 320 can also adopt other power expansion forms such as an electric locking expansion shaft, a pneumatic locking expansion shaft and the like.

The film collecting mechanical torque limiter 332 and the film collecting motor 34 are fixedly mounted on the equipment support 10 at the same side, a power output end of the film collecting motor 34 is in transmission connection with a power input end of the film collecting mechanical torque limiter 332 through a second transmission device 35, and a power output end of the film collecting mechanical torque limiter 332 is in transmission connection with one side of the film collecting shaft 31 through a third transmission device 36. Wherein, the transmission mode of the second transmission device 35 is chain transmission, and the second transmission device is respectively composed of a chain wheel and a chain; the third transmission device 36 is in a transmission mode of direct shaft connection, and the film collecting motor 34 provides the film collecting torque required by the film collecting shaft 31 through the film collecting mechanical torque limiter 332, so as to provide film collecting tension for the film collecting shaft 31;

the electric control device 40 is fixedly arranged on the equipment bracket 10 and internally comprises a power supply and a control device.

In order to improve the accuracy and the operating efficiency of the utility model and reduce the energy consumption of the equipment, the utility model is also provided with a meter-counting sensor 51 and a meter-counting reading display screen 52, the meter-counting sensor 51 is hinged on the equipment bracket 10, a spring is fixedly connected between the meter-counting sensor device and the equipment bracket, the spring provides an upward pulling force for the meter-counting sensor, the meter-counting sensor 51 is always ensured to be in contact with the outer surface of the coiled material fixedly arranged on the unwinding shaft, and meanwhile, the meter-counting sensor 51 is electrically connected with the meter-counting reading display screen 52 and the electric control device 40; when the coiled material is spread or the coiled material is fed, the coiled material on the spreading reel rotates and drives the meter sensor 51 to rotate, at the moment, the meter sensor 51 transmits a generated meter signal to the meter reading display screen 52, the length value of the coiled material is displayed on the meter reading display screen 52, and the meter reading display screen 52 is installed on the equipment support 10 or is installed in a split mode with the equipment support 10. Meanwhile, the meter sensor 51 is also used as a "monitoring device" for monitoring the rotation of the coiled material on the unwinding shaft 21, when the meter sensor 51 rotates, that is, the coiled material on the unwinding shaft is monitored to start rotating, at this time, the meter sensor 51 transmits a signal to the electric control device 40, and the electric control device 40 starts the film collecting motor 34 to operate and collect the film; when the roll positioned above the unwinding reel stops rotating, the signal of the meter sensor 51 is interrupted, the film collecting motor 34 stops operating, and the film collecting stops. It should be noted that: the "monitoring device" may directly monitor the rotation of the web located on the unwinding shaft 21, or may determine whether the unwinding web rotates by monitoring the rotation of the unwinding shaft 21.

In order to improve the accuracy and the operation efficiency of the coiled material blanking of the utility model, the utility model is also provided with a coiled material cutting device 60, the coiled material cutting device 60 and the equipment bracket 10 are installed in a split or fixed connection way, and the coiled material cutting device 60 cuts off the blanked coiled material during the blanking of the coiled material. The coil cutting device 60 of this embodiment is composed of a motor 61, a cutter 62, a feeding slot 63, and the like, and the operation principle is that the motor 61 drives the cutter 62 to reciprocate left and right in the feeding slot 63, thereby cutting the coil placed on the coil cutting device 60.

In order to provide power and corresponding control and regulation functions for the film collecting device, a power supply is electrically connected with power utilization devices such as a film collecting motor, a meter counting sensor 51, a meter counting reading display screen 52, a coiled material cutting device 60 and the like through a power supply switch device respectively, and the power supply and the related control functions are provided for the power utilization devices or equipment.

Example three:

as shown in fig. 9, 10 and 11, the present embodiment discloses a waterproofing laying device for rolls, the device comprises an equipment support 10, a travelling mechanism, a first bearing device 205, a second bearing device 206, a first unwinding shaft 211, a second unwinding shaft 212, a third coiled core-tube locking chuck 223, a fourth coiled core-tube locking chuck 224, a magnetic powder brake 231, a first transmission device 24, a first propulsion device 25, a first nut 251, a first threaded propulsion rod 252, a first handle 253, a third bearing device 303, a fourth bearing device 304, a first film collecting shaft 311, a second film collecting shaft 312, a third coiled core-tube locking chuck 323, a fourth coiled core-tube locking chuck 324, a magnetic powder clutch 331, a film collecting motor 34, a second transmission device 35, a third transmission device 36, a second propulsion device 37, a second nut 371, a second threaded propulsion rod 372, a second handle 373 and an electric control device 40. The structural relationship among the specific parts is as follows:

the travelling mechanism of the embodiment is composed of 4 wheels 11 and is arranged at four corners below the equipment support 10, wherein one or more of the wheels 11 are driving wheels. The running mechanism is prior art and is not described in detail here.

In this embodiment, the unwinding shaft 21 is composed of a pair of first unwinding shaft 211 and second unwinding shaft 212 coaxially installed on both sides of the equipment support 10, and a third coil core tube locking collet 223 and a fourth coil core tube locking collet 224 are coaxially, symmetrically and fixedly installed on the first unwinding shaft 211 and the second unwinding shaft 212, respectively. The first unwinding shaft 211 is in cantilever rotation connection with a first bearing device 205 fixedly arranged on one side of the equipment support 10, the second unwinding shaft 212 is in cantilever rotation connection with a second bearing device 206 fixedly arranged on the other side of the equipment support 10, and the second unwinding shaft 212 can freely slide left and right along the axial direction of the unwinding shaft relative to the second bearing device 206;

the first propelling device 25 is a screw propelling device and is composed of a first nut 251, a first thread propelling rod 252 and a first handle 253, the first nut 251 and the second bearing device 206 are fixed on the equipment bracket 10 at the same side, one end of the first thread propelling rod 252 is hinged with one outermost end of the second unwinding shaft 212, and the other end of the first thread propelling rod 252 is fixedly provided with the first handle 253; the first threaded pushing rod 252 can be extended and retracted in the first nut 251 by rotating the first handle 253, and the second unwinding shaft 212 can be pushed/pulled to move left and right along the axial direction, so as to clamp and position or release the waterproof coiled material between the first unwinding shaft 211 and the second unwinding shaft 212.

Among them, it should be noted that: the first propulsion device 25 may be one of an electric screw propulsion device, a pneumatic cylinder, a hydraulic cylinder, and the like;

among them, it should be noted that: the second reel 212 can also adopt an axially fixed rotary connection mode relative to the second bearing device 206, the second bearing device 206 is connected with the equipment bracket 10 in a sliding mode through a sliding rail device along the axial direction of the second reel 212, and the first propelling device 25 realizes clamping positioning or releasing of the waterproof coiled material between the first reel 211 and the second reel 212 through a propelling mode of pushing the bearing device 204 to slide left and right along the axial direction of the reel.

The magnetic powder brake 231 is fixedly installed on the equipment bracket 10, and the power output end of the magnetic powder brake 231 is in transmission connection with the first unwinding shaft 211 through the first transmission device 24. The transmission mode of the first transmission device 24 is axial direct connection, that is, the power output end of the magnetic powder brake 231 is fixedly connected and transmitted with the outermost end face of the first unwinding shaft 211; thereby providing web unwinding tension to the first unwinding spool 211.

In this embodiment, the film collecting shaft 31 is composed of a pair of first film collecting shaft 311 and second film collecting shaft 312 coaxially installed at two sides of the apparatus support 10, and a third film collecting core shaft pipe locking chuck 323 and a fourth film collecting core shaft pipe locking chuck 324 are symmetrically, coaxially and fixedly installed on the first film collecting shaft 311 and the second film collecting shaft 312 respectively. It should be noted that, the third film-winding mandrel pipe locking clamp 323 and the fourth film-winding mandrel pipe locking clamp 324 may also be replaced by an expanding shaft locking mode.

The first film collecting shaft 311 is rotatably connected with a third bearing device 303 fixedly arranged on one side of the equipment support 10, and the second film collecting shaft 312 is rotatably connected with a fourth bearing device 304 on the other side of the equipment support 10; the slide rail device 305 is fixed on the equipment bracket 10, the fourth bearing device 304 is fixedly arranged on a slidable slide block of the slide rail device 305, and the fourth bearing device 304 can freely slide along the axial direction of the film collecting shaft relative to the slide rail device 305;

the second propelling device 37 is a screw propelling device and is composed of a second nut 371, a second screw propelling rod 372 and a second handle 373, wherein the second nut 371 and the fourth bearing device 304 are fixed on the equipment bracket 10 at the same side, one end of the second screw propelling rod 372 is hinged with one end of the outermost side of the fourth bearing device 304, and the other end of the second screw propelling rod 372 is fixedly provided with the second handle 373; the second screw pushing rod 372 can extend and retract in the second nut 371 by rotating the second handle 373, and the fourth bearing device 304 is pushed/pulled to move left and right along the axial direction of the second film collecting shaft 312, so as to clamp, position or release the film collecting core shaft tube between the first film collecting shaft 311 and the second film collecting shaft 312.

Among them, it should be noted that: the second propelling device 37 can also be one of an electric screw propelling device or a pneumatic cylinder assembly, a hydraulic cylinder assembly and other devices with propelling functions;

among them, it should be noted that: the second film collecting shaft 312 can also adopt a connection form that the second film collecting shaft 312 is rotatably connected relative to the fourth bearing device 304 and the second film collecting shaft 312 can be slidably connected with the fourth bearing device 304 along the axial direction of the film collecting shaft, while the fourth bearing device 304 is fixedly connected with the equipment bracket 10, and the second pushing device 37 directly pushes the second film collecting shaft 312 to slide left and right along the axial direction of the second film collecting shaft, so as to clamp and position or release the film collecting core shaft pipe between the first film collecting shaft 311 and the second film collecting shaft 312.

The magnetic powder clutch 331 and the film collecting motor 34 are fixedly arranged on the equipment support 10, the power output end of the film collecting motor 34 is in transmission connection with the power input end of the magnetic powder clutch 331 through a second transmission device 35, and the power output end of the magnetic powder clutch 331 is in transmission connection with the first film collecting shaft 311 through a third transmission device 36; the transmission mode of the third transmission device 36 is axial direct connection, that is, the power output end of the magnetic powder clutch 331 is fixedly connected and transmitted with the outermost end face of the first film collecting shaft 311. The film collecting motor 34 transmits torque to the first film collecting shaft 311 through the magnetic powder clutch 331, and drives the film collecting shaft 311 to rotate to collect the film.

The electric control device 40 is installed on the equipment support 10, a power supply switch device and a control device are arranged in the electric control device 40, the control device comprises a magnetic powder brake torque adjusting device, a magnetic powder clutch torque adjusting device and a motor control device, and the power supply is electrically connected with the magnetic powder brake torque adjusting device, the magnetic powder brake, the magnetic powder clutch torque adjusting device, the magnetic powder clutch, the motor control device, the film collecting motor and the drive control device through the power supply switch device.

Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art can make modifications and equivalents to the present invention without departing from the spirit and scope of the present invention, which should be construed as being limited only by the claims.

It should be noted that, in the present disclosure, the terms "front", "back", "left", "right", "side" and the like are used to refer to the same direction as the operation direction of the equipment, namely "front", the opposite direction is "back", and the vertical direction is "side", compared to the operation direction of the equipment; the term "up" and "down" as used herein means that the side closer to the base surface (ground surface) is "down" and the other is "up" as compared with the direction of the construction base surface (ground surface).

It is to be understood that the foregoing relative terms are merely used to facilitate describing the utility model and to simplify the description, and are not intended to indicate or imply that the claimed device or element must be constructed and operated in a particular orientation or orientation and should not be considered as limiting the scope of the utility model.

The above embodiments are only for illustrating the detailed description of the possible specific embodiments of the present invention, and do not cover all the possible embodiments under the technical solution of the present invention, and any modifications or partial replacements of the embodiments with reference to the technical solution of the present invention shall be covered within the protection scope of the claims of the present invention.

Claims (13)

1. The utility model provides a waterproof laying equipment of coiled material, includes equipment support (10), exhibition reel (21), receives membrane axle (31), receives membrane motor (34), electrically controlled device (40), exhibition reel (21) parallel and rotate respectively with receipts membrane axle (31) and connect on equipment support (10), receive membrane axle (31) and fixed mounting receive between membrane motor (34) on equipment support (10) transmission be connected, electrically controlled device (40) fixed mounting on equipment support (10), electrically controlled device (40) include power and controlling means and receipts membrane motor (34) between the electricity connect its characterized in that: the utility model discloses a film winding machine, including the take-up shaft (21), take-up shaft (31) and take up the power output end of taking up the power output end of the take-up torque limiting device (23) of fixed mounting on equipment support (10) and be connected through the transmission between first transmission (24) and take-up shaft (21), take up the power output end of film motor (34) and be connected through the power input end transmission of second transmission (35) and the take-up torque limiting device (33) of fixed mounting on equipment support (10), the power output end of take-up torque limiting device (33) pass through third transmission (36) and be connected with take-up shaft (31) transmission.

2. The waterproofing laying installation of rolls according to claim 1, characterized in that: the locking device (22) of the coiled material core shaft tube is composed of a first coiled material core shaft tube locking chuck (221) and a second coiled material core shaft tube locking chuck (222), through holes are formed in the first coiled material core shaft tube locking chuck (221) and the second coiled material core shaft tube locking chuck (222), the through holes are respectively and symmetrically sleeved on the unwinding shaft (21), and at least one of the first coiled material core shaft tube locking chuck (221) and the second coiled material core shaft tube locking chuck (222) is in a fixed locking connection state with the unwinding shaft (21).

3. The waterproofing laying installation of rolls according to claim 2, characterized in that: the unrolling shaft (21) is rotatably connected with the equipment support (10) through a first semicircular bearing (201) and a second semicircular bearing (202) which are respectively and fixedly installed on two sides of the equipment support (10).

4. The waterproofing laying installation of rolls according to claim 1, characterized in that: the locking device (22) of the coiled material core shaft tube is a coiled material expanding shaft (220), and the coiled material expanding shaft (220) is coaxially and fixedly arranged on the unwinding shaft (21).

5. The waterproofing laying installation of rolls according to claim 1, characterized in that: the locking device (22) of the coiled material core shaft tube is composed of a third locking chuck (223) of the coiled material core shaft tube and a fourth locking chuck (224) of the coiled material core shaft tube, the unwinding shaft (21) is composed of a first unwinding shaft (211) and a second unwinding shaft (212), the first unwinding shaft (211) and the second unwinding shaft (212) are symmetrically and respectively coaxially and rotatably connected to the equipment bracket (10), the third locking chuck (223) of the coiled material core shaft tube and the fourth locking chuck (224) of the coiled material core shaft tube are symmetrically and respectively coaxially and fixedly installed on the first unwinding shaft (211) and the second unwinding shaft (212), and the power output end of the unwinding torque limiting device (23) is in transmission connection with the first unwinding shaft (211) through a first transmission device (24); the first propelling device (25) is fixedly arranged on the equipment support (10), and the second unwinding shaft (212) is driven to move left and right along the axial direction of the first propelling device (25) under the pushing and pulling action of the first propelling device.

6. The waterproofing laying installation of rolls according to claim 1, characterized in that: receive membrane core central siphon locking device (32) by first receipts membrane core central siphon locking chuck (321) and second receipts membrane core central siphon locking chuck (322) constitute, establish the through-hole in first receipts membrane core central siphon locking chuck (321) and the second receipts membrane core central siphon locking chuck (322), the symmetry cover is worn on receipts membrane axle (31) respectively, at least one and receipts membrane axle (31) are the connected state of fixed locking in first receipts membrane core central siphon locking chuck (321) and the second receipts membrane core central siphon locking chuck (322).

7. The waterproofing laying installation of rolls according to claim 1, characterized in that: the film winding mandrel tube locking device (32) is a film winding expanding shaft (320), and the film winding expanding shaft (320) is coaxially and fixedly arranged on the film winding shaft (31).

8. The waterproofing laying installation of rolls according to claim 1, characterized in that: the film collecting shaft (31) is composed of a first film collecting shaft (311) and a second film collecting shaft (312), the first film collecting shaft (311) and the second film collecting shaft (312) are symmetrically and coaxially and rotatably connected to the equipment support (10), a third film collecting core shaft tube locking device (323) and a fourth film collecting core shaft tube locking device (324) are respectively coaxially and fixedly installed on the first film collecting shaft (311) and the second film collecting shaft (312), the power output end of a film collecting motor (34) is in transmission connection with the power input end of a film collecting torque limiting device (33) through a second transmission device (35), the power output end of the film collecting torque limiting device (33) is in transmission connection with the first film collecting shaft (311) through a third transmission device (36), a second propulsion device (37) is fixed on the equipment support (10), the second film collecting shaft (312) is driven to move left and right along the axial direction of the second film collecting shaft by the push-pull action of the second propelling device (37).

9. The waterproofing laying installation of rolls according to claim 1, characterized in that: a walking mechanism is arranged below the equipment bracket (10).

10. The waterproofing laying installation of rolls according to claim 1, characterized in that: still include meter rice sensor (51) and meter rice reading display screen (52), meter rice sensor (51) install on equipment support (10), meter rice reading display screen (52) install on equipment support (10) or the components of a whole that can function independently set up outside equipment support (10), electricity is connected between meter rice sensor (51) and meter rice reading display screen (52).

11. The waterproofing laying installation of rolls according to claim 1, characterized in that: still install the rotatory monitoring devices of monitoring exhibition book coiled material on equipment support (10), monitoring devices and electrically controlled device (40) between the electricity be connected, when monitoring devices monitors to be located the epaxial coiled material of exhibition book rotatory, electrically controlled device (40) start to receive membrane motor (34) operation and receive the membrane, when monitoring devices monitors to be located the epaxial coiled material stop rotation of exhibition book, receive membrane motor (34) stall.

12. The waterproofing laying installation of rolls according to claim 1, characterized in that: the coil cutting device (60) and the equipment support (10) are arranged in a split mode or fixedly connected to the equipment support (10) at the discharging end of the discharged coil.

13. Roll waterproofing laying device according to any one of claims 1 to 12, characterized in that: the conditions that the design parameters of the maximum unrolling torque output value T1max of the unrolling torque limiting device (23), the maximum film collecting torque output value T2max of the film collecting torque limiting device (33) and the maximum rotating speed output value S2max of the film collecting motor (34) are satisfied are as follows:

the maximum uncoiling torque output value T1max of the uncoiling torque limiting device (23) is required to meet the parameter design conditions as follows: t1max is more than F1max D1max/I1, T1max is more than T2max D1max I3/(D2 min I1), wherein F1max is the maximum coil spreading tension value required for stretching and flattening the spreading coil in the coil spreading and laying process, D1max is the maximum radius value of the coil, D2min is the outer radius of the film-collecting core shaft tube (310), and I1 is the transmission ratio of the first transmission device (24);

the maximum film collecting torque output value T2max of the film collecting torque limiting device (33) is required to meet the parameter design conditions as follows: t2max > F2max x D2max/I3, where F2max is the maximum release tension required for the release process of the web release liner from the web, D2max is the maximum take-up radius, and I3 is the transmission ratio of the third transmission (36);

the maximum rotating speed output value Nmax of the film collecting motor (34) meets the following conditions: nmax > Smax I2I 3/(2D 2min pi), wherein Smax is the maximum unwinding speed; i2 is the gear ratio of the second transmission (35).

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