CN223342093U - High-pressure composite pipe coil separating auxiliary device - Google Patents

Abstract

A high-pressure composite pipe reeling auxiliary device comprises a horizontally arranged crossbeam with a pair of parallel and corresponding upright posts at each end of the crossbeam, both of which are arranged vertically perpendicular to the crossbeam. The ends of the crossbeam are respectively connected to the upright posts on the corresponding sides. A slidable auxiliary slot is provided above the crossbeam. The ends of the crossbeam are provided with a lifting device corresponding to the upright posts and a translation device corresponding to the auxiliary slot. The lifting and translation devices are both equipped with controllers that can be connected to external control devices. This utility model improves the accuracy, tightness, uniformity and smoothness of the reeling process, saves time and effort, and improves the reeling efficiency and quality of high-pressure composite pipes.

Description

High-pressure composite pipe coil separating auxiliary device

Technical Field

The utility model belongs to the technical field of pipe processing equipment, and particularly relates to a device for assisting in the separation and rolling of a high-pressure composite pipe.

Background

The high-pressure composite pipe can be continuously produced in production, and is required to be divided into lengths of fifty to hundreds of meters for delivery according to the requirements of customers, so that the longer high-pressure composite pipe is required to be cut and rolled in the production process. The high-pressure composite pipe is wound on the winding drum after being coated, the winding drum is in an H-shaped state, and then the winding drum is sequentially wound on a plurality of corresponding winding drums, the winding drum is in an I-shaped state, and the high-pressure composite pipe after being wound is more convenient to transport. In the process of winding, the H-shaped winding state of the high-pressure composite pipe is required to be changed into the I-shaped winding state, in the process, as the winding height of the high-pressure composite pipe cannot be adjusted by the high-pressure composite pipe, a winch is arranged between a winding drum and a winding drum in a traditional mode, the high-pressure composite pipe is lifted by the winch through a rope at the middle positions of the winding drum and the winding drum, the height of the winch is manually adjusted through a button in the winding process, so that the high-pressure composite pipe after winding is uniformly wound on the winding drum, the high-pressure composite pipe is judged by human eyes, the high-pressure composite pipe is low in accuracy, easy to generate the conditions of loose winding, uneven high and low high and is easy to collide with the winding drum, the scratch possibility of the outer wall of the high-pressure composite pipe is caused, the high-pressure composite pipe after winding by the mode is suitable for being used, the winding attractiveness is low, the requirement of modern production is not met, the high-time and labor is wasted, the efficiency is low, and the quality and the efficiency of the production of the high-pressure composite pipe is seriously influenced.

Disclosure of utility model

The utility model aims to provide a high-pressure composite pipe rolling auxiliary device, which solves the technical problems that the existing high-pressure composite pipe is low in accuracy and quality and efficiency are influenced by manually controlling a winch to assist rolling.

In order to achieve the above purpose, the specific technical scheme of the utility model is as follows:

The utility model provides a high-pressure composite pipe divides a roll auxiliary device, includes the crossbeam that the level set up, and the both ends of crossbeam are equipped with a pair of stand that corresponds in parallel, and both are all perpendicular to crossbeam vertical setting, and the both ends of crossbeam are connected respectively on the stand that corresponds the side, and the crossbeam top is equipped with slidable connection's auxiliary tank, and the tip of crossbeam is equipped with the elevating gear that corresponds with the stand and the translation device that corresponds with the auxiliary tank, all is equipped with the controller that can external controlling means on elevating gear and the translation device.

Further, the crossbeam is established in the front side of stand, it includes a pair of beam column that is located same horizontal plane, the parallel corresponds around, be equipped with the transverse rail that corresponds with the auxiliary tank on the beam column, its bottom mounting is on the top surface of beam column, two transverse rails on corresponding two beam columns correspond around parallel, the auxiliary tank passes through transverse rail and crossbeam sliding connection, be equipped with certain clearance between two beam columns, the bottom of auxiliary tank passes the clearance and is connected with translation device, a pair of deflector that corresponds is established at the both ends of beam column, the top at corresponding side deflector is connected respectively at the both ends of beam column, the rear end of deflector extends to the stand rear side backward, the stand is established at the inboard at corresponding side deflector, the stand includes the cylinder, be equipped with vertical parallel corresponding perpendicular guide rail and rack on the lateral surface of cylinder, wherein the rack corresponds with elevating gear, it locates on the external side of cylinder one end that corresponds with elevating gear, perpendicular guide rail corresponds with the deflector, the inboard all is equipped with the perpendicular spout that corresponds with corresponding side perpendicular guide rail.

Further, the auxiliary tank is including locating the bottom plate of beam column top, and the left and right sides of bottom plate is equipped with corresponding a pair of baffle, and the side fixed connection of bottom plate is in the medial surface bottom that corresponds the side baffle, and the below of bottom plate is equipped with a pair of sideslip groove that corresponds with the transverse rail of crossbeam and the connecting plate that corresponds with translation device, and the top of both is all connected on the bottom surface of bottom plate, and wherein the connecting plate is located between two sideslip grooves, and the lower extreme of connecting plate passes between two beam columns and is connected with translation device correspondence in its below.

Further, a corresponding roller is arranged between the two baffles above the bottom plate of the auxiliary tank, two ends of the roller are respectively connected to the inner side surfaces of the corresponding side baffles, and the front end and the rear end of each baffle are respectively provided with a extending plate which is unfolded towards the outer side of each baffle.

Further, the translation device locates the front side of stand, it is including locating the lead screw between two deflector of crossbeam below, the cover is equipped with corresponding screw on the lead screw, its top is connected rather than the connecting plate bottom of auxiliary tank, a pair of second bearing frame rather than corresponding is established to the deflector inboard that the both ends of lead screw correspond, rotate between second bearing frame and the lead screw and be connected, the deflector outside is equipped with the translation motor rather than the lead screw, the corresponding end of lead screw passes and corresponds the side deflector and be connected rather than the output shaft correspondence of translation motor, the controller rather than corresponding is established to the outside end of translation motor, this is the second controller.

Further, a corresponding second coupler is arranged between the lead screw and the translation motor and is arranged on the outer side of the guide plate on the corresponding side of the translation motor.

Further, the lifting device is arranged at the rear side of the upright post and comprises a lifting motor arranged at the outer side of the guide plate, a driving shaft corresponding to the lifting motor is arranged between the two guide plates, the corresponding end of the driving shaft penetrates through the corresponding side guide plate to be correspondingly connected with the output shaft of the lifting motor, a first bearing seat corresponding to the driving shaft is arranged at the outer side of the guide plate at the opposite side of the lifting motor, the corresponding end of the driving shaft penetrates through the corresponding side guide plate to be rotationally connected with the first bearing seat, a pair of gears respectively meshed with the two racks on the two upright posts are arranged at the two ends of the driving shaft at the inner side of the two guide plates, and a controller corresponding to the driving shaft is arranged at the outer side end of the lifting motor and is a first controller.

Further, a corresponding first coupler is arranged between the lifting motor and the driving shaft, and the first coupler is arranged on the outer side face of the guide plate on the corresponding side of the lifting motor.

Further, the bottom of stand is equipped with corresponding base, and the bottom fixed connection of cylinder is on the top surface of base, is equipped with corresponding strengthening rib between stand and the base, and a plurality of strengthening ribs are around circumferencial direction equipartition around the cylinder.

According to the high-pressure composite pipe winding auxiliary device, traditional manual winding is replaced by machinery, the accuracy, compactness, uniformity and flatness of winding are improved, the winding disc is attractive, the requirements of modern production are met, time and labor are saved, the winding efficiency and the winding quality of the high-pressure composite pipe are improved, the overall production quality of the high-pressure composite pipe is improved, the production efficiency is improved, and the high-pressure composite pipe can produce higher economic benefits.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a left side view of FIG. 1 in accordance with the present utility model;

FIG. 3 is a right side view of FIG. 1 in accordance with the present utility model;

FIG. 4 is a top view of FIG. 1 in accordance with the present utility model;

FIG. 5 is a perspective view of the present utility model;

FIG. 6 is a state diagram of the present utility model;

The figure shows that 1, a cross beam, 11, a beam column, 12, a transverse guide rail, 13, a guide plate, 14, a vertical sliding groove, 2, a vertical column, 21, a column, 22, a vertical guide rail, 23, a rack, 24, a base, 25, a reinforcing rib, 3, an auxiliary groove, 31, a bottom plate, 32, a baffle, 33, a transverse sliding groove, 34, a connecting plate, 35, a roller, 36, a delay plate, 4, a lifting device, 41, a lifting motor, 42, a driving shaft, 43, a first bearing seat, 44, a gear, 5, a translation device, 51, a translation motor, 52, a lead screw, 53, a screw, 54, a second bearing seat, 6, a controller, 61, a first controller, 62, a second controller, 7, a wire collecting disc, 8, a split-winding disc, 9 and a high-pressure composite pipe.

Detailed Description

For a better understanding of the objects, structures and functions of the present utility model, a high pressure composite pipe separator according to the present utility model will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-6, the high-pressure composite pipe reeling auxiliary device comprises a beam 1, upright posts 2 and an auxiliary groove 3, wherein the beam 1 is horizontally arranged, a pair of corresponding upright posts 2 are arranged at two ends of the beam 1, the two upright posts 2 are vertical to the beam 1 and vertically correspond to each other in parallel, two ends of the beam 1 are respectively connected to the upright posts 2 at corresponding sides, the auxiliary groove 3 is arranged above the beam 1, the bottom surface of the auxiliary groove is mutually attached to the top surface of the beam 1, the two parts can be connected in a sliding manner, a lifting device 4 corresponding to the upright posts 2 and a translation device 5 corresponding to the auxiliary groove 3 are arranged at the end part of the beam 1, the beam 1 can move up and down along the upright posts 2 under the action of the lifting device 4, the auxiliary groove 3 is driven to lift up and down, the auxiliary groove 3 can move left and right along the beam 1 under the action of the translation device 5 when in use, the high-pressure composite pipe 9 passes through the upper part of the cross beam 1 between the two vertical columns 2, the lower end of the high-pressure composite pipe 9 is erected in the auxiliary groove 3, the auxiliary groove 3 can drive the high-pressure composite pipe 9 above the auxiliary groove to freely move up and down and left and right between the two vertical columns 2 under the cooperation of the cross beam 1 through the action of the lifting device 4 and the translation device 5, so that the auxiliary device can be suitable for the high-pressure composite pipes 9 with different types and specifications, the auxiliary device is more smooth, regular and safe for separation, the lifting device 4 and the translation device 5 are respectively provided with a corresponding controller 6, the controllers 6 are provided with a corresponding signal transceiver, the controllers 6 can be externally connected with corresponding control devices, such as mobile phones, tablets or computers, and the like through the external control devices, the parameters of the controllers 6 associated with the lifting device 4 and the translation device 5 can be preset, and further, the auxiliary device is more convenient and intelligent.

The beam 1 comprises beam columns 11, which are arranged in pairs at the front sides of the upright posts 2, the two corresponding beam columns 11 are positioned on the same horizontal plane, the front and the rear sides are parallel and correspond, the beam columns 11 are provided with transverse guide rails 12 corresponding to the auxiliary grooves 3, the transverse guide rails 12 are horizontally arranged, the bottom ends of the transverse guide rails 12 are fixed on the top surfaces of the beam columns 11, the two transverse guide rails 12 on the corresponding two beam columns 11 are parallel and correspond, the auxiliary grooves 3 are in sliding connection with the beam 1 through the transverse guide rails 12, a certain gap is arranged between the two beam columns 11, the bottom ends of the auxiliary grooves 3 penetrate through the gap between the two beam columns 11 and are connected with the translation device 5, two ends of the beam columns 11 are provided with a corresponding pair of guide plates 13, two ends of the beam columns 11 are respectively connected with the guide plates 13 at the corresponding sides, the guide plates 13 are arranged below the beam columns 11 in the embodiment, the bottom surfaces of the two ends of the beam columns 11 are connected with the front parts of the top surfaces of the guide plates 13 at the corresponding sides, the translation device 5 is arranged at the front ends of the outer sides of the guide plates 13 at one side of the beam columns 11, the rear end of the guide plate 13 extends backwards to the rear side of the upright post 2, the upright post 2 is arranged at the inner side of the guide plate 13 at the corresponding side, the beam column 11 is connected with the upright post 2 at the corresponding side through the guide plate 13, the upright post 2 comprises a column body 21, the outer side of the column body 21 is provided with a corresponding vertical guide rail 22 and a rack 23 which are vertically parallel and corresponding, and are fixedly arranged on the outer side surface of the column body 21, wherein the rack 23 corresponds to the lifting device 4, the lifting device 4 drives the guide plate 13 to move up and down along the column body 21 through meshing with the rack 23, in order to keep balance of the auxiliary device, the lifting device 4 and the translation device 5 are respectively arranged at two opposite sides of the upright post 2, in the embodiment, the translation device 5 is arranged at the front end of the outer side of the guide plate 13 at the right side of the cross beam 1 and at the front side of the upright post 2, the lifting device 4 is arranged at the rear end of the outer side of the guide plate 13 at the left side of the cross beam 1 opposite to the upright post 2, the rack 23 corresponding to the rack is arranged at the rear end of the outer side surface of the column body 21 at the rear side of the column 2, so that the stability of the auxiliary device is better, the auxiliary device is not easy to topple over, the high-pressure composite pipe 9 can be assisted to be more uniformly split and rolled, the vertical guide rail 22 corresponds to the guide plate 13, the vertical guide rail 22 is arranged on the outer side surface of the column body 21 at the front part of the rack 23, the inner sides of the two guide plates 13 are respectively provided with the vertical sliding grooves 14 corresponding to the vertical guide rails 22 at the corresponding sides, and the vertical guide rails 22 and the vertical sliding grooves 14 are mutually matched to provide a guiding effect for the up-and-down movement of the guide plate 13.

Further, the bottom of stand 2 is equipped with corresponding base 24, the bottom fixed connection of its cylinder 21 is on the top surface of base 24, stand 2 passes through the external fixed mounting of base 24, the setting of base 24 has increased the external connection area of stand 2 for when its bearing capacity is bigger, increased its stability to external connection, be equipped with corresponding strengthening rib 25 between stand 2 and the base 24, a plurality of strengthening ribs 25 equipartitions around cylinder 21 around circumferencial direction, its inner circle is connected on the lateral wall of cylinder 21, its bottom is connected on the up end of base 24, the setting of strengthening rib 25 makes the connection between cylinder 21 and the base 24 more firm, stable.

The auxiliary groove 3 comprises a bottom plate 31 arranged above the beam column 11, a pair of corresponding baffle plates 32 are arranged on the left side and the right side of the bottom plate 31, the side edges of the bottom plate 31 are connected with the bottom ends of the inner side surfaces of the corresponding side baffle plates 32, the two baffle plates are integrally formed and fixedly connected, when in use, the high-pressure composite pipe 9 passes through the two baffle plates 32 above the bottom plate 31, the bottom plate 31 and the baffle plates 32 are mutually matched to provide guiding action for the passing high-pressure composite pipe 9, a pair of transverse sliding grooves 33 corresponding to the transverse guide rails 12 of the transverse beam 1 and a connecting plate 34 corresponding to the translation device 5 are arranged below the bottom plate 31, the tops of the transverse sliding grooves 33 and the connecting plates 34 are connected to the bottom surface of the bottom plate 31, wherein the connecting plates 34 are arranged between the two transverse sliding grooves 33, the lower ends of the connecting plates 34 extend out from between the two beam columns 11 to the lower sides of the two beam columns 11, and are correspondingly connected with the translation device 5 below the beam columns 11.

Further, the auxiliary tank 3 is further provided with a corresponding roller 35, the roller 35 is arranged between the two baffles 32 above the bottom plate 31, two ends of the roller 35 are respectively connected to the inner side surfaces of the corresponding side baffles 32, when the auxiliary tank is in operation, the bottom end of the high-pressure composite pipe 9 is lapped on the roller 35, the roller 35 rotates along with the passing of the high-pressure composite pipe 9 above, the front end and the rear end of the baffles 32 are respectively provided with a delay plate 36 which is unfolded towards the outer side of the baffle 32, the delay plates 36 and the roller 35 are mutually matched to provide buffer protection for the high-pressure composite pipe 9, and the damage to the outer wall of the auxiliary tank 3 during the passing is prevented.

The lifting device 4 is arranged at the rear side of the upright post 2 and comprises a lifting motor 41, the lifting motor 41 is arranged at the outer side of a guide plate 13 at the left side of the corresponding cross beam 1, a driving shaft 42 corresponding to the lifting motor 41 is arranged between the two guide plates 13 at the rear side of the upright post 2, the left end of the driving shaft 42 corresponds to the lifting motor 41, an output shaft of the lifting motor 41 passes through the corresponding guide plate 13 and is connected with the corresponding end of the driving shaft 42, the lifting motor 41 provides rotating force for the driving shaft 42, a first bearing seat 43 corresponding to the driving shaft 42 is arranged at the outer side of the guide plate 13 at the right side of the cross beam 1, the right end of the driving shaft 42 is the tail end of the driving shaft 42, the tail end of the driving shaft 42 passes through the guide plate 13 and is connected with the first bearing seat 43 in a rotating way, the guide plate 13 at the right side of the cross beam 1 provides supporting force for the driving shaft 42 at the tail end of the driving shaft 42 through the first bearing seat 43, a pair of gears 44 corresponding to the two racks 23 on the two columns 2 are respectively meshed with the two ends of the driving shaft 42 on the inner sides of the two guide plates 13, the gears 44 are fixedly arranged on the driving shaft 42 and rotate along with the rotation of the driving shaft 42, the driving shaft 42 can be driven to move up and down along the columns 2 through the meshing of the corresponding racks 23 during the rotation, so that the cross beam 1 is driven to move up and down relative to the columns 2 through the guide plates 13, when the rotation directions of the driving shaft 42 are different, the meshing directions of the gears 44 and the racks 23 are different, so that the lifting device 4 drives the cross beam 1 to move in different directions, in the embodiment, when the driving motor rotates positively, the driving shaft 42 drives the gears 44 to synchronously rotate positively, the gears 44 gradually mesh to the upper sides of the racks 23, the driving shaft 42 drives the guide plate 13 to move to the upper sides of the columns 2 through the driving shaft 42, when the driving motor rotates reversely, the driving shaft 42 drives the gears 44 to synchronously rotate reversely, the gear 44 is engaged with the lower part of the rack 23 gradually, and the guide plate 13 is driven by the driving shaft 42 to move downwards of the upright post 2, so that the beam 1 moves upwards and downwards relative to the upright post 2 under the action of the driving motor, the corresponding controller 6 is arranged at the outer side end of the lifting motor 41, which is the first controller 61, and parameters of the first controller 61 can be preset through an external control device, so that the movement of the auxiliary groove 3 in the vertical direction is controlled.

Further, a corresponding first coupling is arranged between the lifting motor 41 and the driving shaft 42, the first coupling is arranged on the outer side face of the lifting motor 41 corresponding to the side guide plate 13, the outer side end of the first coupling is correspondingly connected with the lifting motor 41, the inner side end of the first coupling is correspondingly connected with the corresponding end of the driving shaft 42, when the lifting motor 41 is started, the driving shaft 42 is driven to rotate through the first coupling, and the connection between the lifting motor 41 and the driving shaft 42 is safer and more stable due to the arrangement of the first coupling.

The translation device 5 is arranged at the front side of the upright post 2 and comprises a translation motor 51 and a screw rod 52, wherein the screw rod 52 is arranged between two guide plates 13 below the cross beam 1, a corresponding screw nut 53 is sleeved on the screw rod 52, the top end of the screw rod is correspondingly connected with the auxiliary groove 3, the bottom end of a connecting plate 34 of the auxiliary groove 3 is fixedly connected with the top end of the screw nut 53 in the embodiment, the screw nut 53 can move left and right along with the rotation of the screw rod 52, the auxiliary groove 3 is driven by the connecting plate 34 to move left and right along the cross beam 1, two corresponding second bearing seats 54 are arranged at two ends of the screw rod 52, the two second bearing seats 54 are in rotary connection with the screw rod 52, the two second bearing seats 54 are respectively arranged at the inner sides of corresponding side guide plates 13, the screw rod 52 is arranged on the guide plates 13 through the second bearing seats 54, the translation motor 51 is arranged at the outer sides of the right side guide plates 13 opposite to the cross beam 1 and the lifting motor 41, the right end of the screw rod 52 passes through the guide plates 13 at the corresponding side, the output shaft of the corresponding screw motor 51 is correspondingly connected, the translation motor 51 provides power for the rotation of the screw rod 52, when the translation motor 51 rotates, the translation motor 51 rotates to drive the auxiliary groove 3 to move right through the corresponding screw nut 52 to the corresponding screw rod 3, and the corresponding screw rod 3 rotates to the corresponding screw rod 3 to the left and right side guide plate 3 through the corresponding screw nut 52, and the corresponding screw rod 3 is driven by the corresponding screw nut 52 to move the corresponding screw nut 3, and the corresponding device to rotate controller to the corresponding screw rod 3, and the corresponding device is driven by the corresponding screw nut 52 to move left and the corresponding to the corresponding nut 3 to move left and the corresponding screw nut 52 to move in the opposite controller to the corresponding nut 3.

Further, a corresponding second coupling is arranged between the screw rod 52 and the translation motor 51, the second coupling is arranged on the outer side of the guide plate 13 corresponding to the translation motor 51, the outer side end of the second coupling is correspondingly connected with the translation motor 51, the inner side end of the second coupling is correspondingly connected with the corresponding end of the screw rod 52, when the translation motor 51 is started, the screw rod 52 is driven to rotate through the second coupling, and the connection between the translation motor 51 and the screw rod 52 is safer and more stable due to the arrangement of the second coupling.

When the high-pressure composite pipe winding auxiliary device is used, the high-pressure composite pipe winding auxiliary device is arranged between a take-up reel 7 and a corresponding winding reel 8 of a high-pressure composite pipe 9, and an auxiliary groove 3 is required to be adjusted according to the specification of a winding high-pressure composite roll; secondly, the horizontal position of the auxiliary groove 3 is regulated to correspond to the high-pressure compound reel through the translation motor 51, then, a worker pulls out the free end of the high-pressure compound tube 9 on the take-up reel 7 to be fixed at the lowest position of the sub-reel 8 after passing through the auxiliary groove 3, meanwhile, the parameters of the lifting device 4 and the translation device 5 are preset through the external control device of the controller 6 according to the specification of the sub-reel high-pressure compound reel, the auxiliary device is set to be in a state of being linked with the sub-reel 8 and the take-up reel 7, at the moment, the sub-reel 8 can be started to rotate, and the high-pressure compound tube 9 is wound around the sub-reel 8 in the rotating process, when the high-pressure compound tube 9 wound on the sub-reel 8 is wound for one circle, the lifting motor 41 is started by itself, two gears 44 on the driving shaft 42 are respectively meshed and rolled to the upper sides of the corresponding racks 23, so that the guide plate 13 drives the auxiliary groove 3 to move upwards through the cross beam 1, the high-pressure compound tube 9 above the auxiliary groove is lifted upwards by one compound tube outside diameter height, then, the sub-reel 8 is stopped to be wound on the sub-reel 8, the high-pressure compound tube 9 is wound on the sub-reel 9, and the high-pressure compound reel 9 is wound for a plurality of times, and the lifting groove 3 is wound repeatedly, to the top of the split reel 8, the splitting of the first layer is completed, then the switching is performed to the splitting winding of the second layer from the upper end of the split reel 8 downwards, the reciprocating cycle is performed until the split reel 8 is split to the required length, the worker controls the split reel 8 to stop rotating, and the high-pressure composite pipe 9 is cut off, and the splitting operation is completed. In the above-mentioned bundling, to the high-pressure composite pipe 9 of different specifications, the auxiliary tank 3 need the high and control distance parameter who removes all can be according to its earlier stage test parameter input in advance in the controller 6, when setting up the controller 6 parameter, select corresponding parameter according to the diameter of the high-pressure composite pipe 9 material of bundling as required, so labour saving and time saving more.

According to the high-pressure composite pipe winding auxiliary device, automatic adjustment of winding of the high-pressure composite pipe 9 is achieved through mutual matching of mechanical parts, winding of the winding high-pressure composite pipe 9 is tighter and more uniform, compared with manual winding, the possibility that winding of the high-pressure composite pipe 9 is uneven during operation and outer wall scratches are caused is reduced, when the high-pressure composite pipe 9 is lifted for winding, the auxiliary groove 3 is used for reducing the damage rate of the high-pressure composite pipe 9 in the winding process through rolling friction between the roller 35 and the high-pressure composite pipe 9, left-right movement of the auxiliary groove 3 is achieved through matching of the translation device 5, horizontal position of the auxiliary groove 3 can be automatically adjusted according to the requirement of the high-pressure composite pipe 9 during winding, winding force of winding is guaranteed, and compared with manual winding, winding possibility of the high-pressure composite pipe 9 during operation is reduced.

It will be understood that the utility model has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (9)

1. The utility model provides a high-pressure composite pipe divides a roll auxiliary device, a serial communication port, it includes crossbeam (1) that the level set up, the both ends of crossbeam (1) are equipped with a pair of stand (2) that correspond in parallel, both perpendicular to crossbeam (1) are vertical to be set up, but on stand (2) of corresponding side are connected respectively at the both ends of crossbeam (1), crossbeam (1) top is equipped with sliding connection's auxiliary tank (3), the tip of crossbeam (1) is equipped with elevating gear (4) and translation device (5) that correspond with auxiliary tank (3) that correspond, but all be equipped with external controlling means's controller (6) on elevating gear (4) and translation device (5).

2. The high-pressure composite pipe reeling auxiliary device according to claim 1, characterized in that the cross beam (1) is arranged at the front side of the upright post (2), and comprises a pair of beam columns (11) which are positioned at the same horizontal plane and correspond to each other in a front-back parallel manner, the beam columns (11) are provided with transverse guide rails (12) corresponding to the auxiliary grooves (3), the bottom ends of the transverse guide rails are fixed on the top surfaces of the beam columns (11), the two transverse guide rails (12) on the corresponding two beam columns (11) correspond to each other in a front-back parallel manner, the auxiliary grooves (3) are connected with the cross beam (1) in a sliding manner through the transverse guide rails (12), a certain gap is arranged between the two beam columns (11), the bottom ends of the auxiliary grooves (3) are connected with the translation device (5) through the gap, the two ends of the beam columns (11) are provided with a corresponding pair of guide plates (13), the two ends of the beam columns (11) are respectively connected with the top ends of the corresponding side guide plates (13), the rear ends of the guide plates (13) extend backwards to the rear sides of the upright post (2), the upright post (2) are arranged on the inner sides of the corresponding side guide plates (13), the upright post (2) respectively) comprises a vertical rack (21), the corresponding to the vertical rack (21) is arranged on the corresponding to the outer side surface of the upright post (21), and the corresponding to the vertical rack (4) is arranged on the outer side (4), the vertical guide rails (22) correspond to the guide plates (13), and vertical sliding grooves (14) corresponding to the corresponding side vertical guide rails (22) are formed in the inner sides of the two guide plates (13).

3. The high-pressure composite pipe rolling auxiliary device according to claim 2, wherein the auxiliary groove (3) comprises a bottom plate (31) arranged above the beam columns (11), a pair of corresponding baffles (32) are arranged on the left side and the right side of the bottom plate (31), the side edges of the bottom plate (31) are fixedly connected to the bottom ends of the inner side surfaces of the corresponding side baffles (32), a pair of transverse sliding grooves (33) corresponding to the transverse guide rails (12) of the transverse beams (1) and a connecting plate (34) corresponding to the translation device (5) are arranged below the bottom plate (31), the top ends of the transverse sliding grooves and the connecting plate are connected to the bottom surface of the bottom plate (31), the connecting plate (34) is arranged between the two transverse sliding grooves (33), and the lower end of the connecting plate (34) penetrates through the position between the two beam columns (11) and is correspondingly connected to the translation device (5).

4. A high-pressure composite pipe reeling auxiliary device according to claim 3, characterized in that a corresponding roller (35) is arranged between two baffles (32) above a bottom plate (31) of the auxiliary tank (3), two ends of the roller (35) are respectively connected to the inner side surfaces of the corresponding side baffles (32), and the front end and the rear end of the baffles (32) are respectively provided with a extending plate (36) which is unfolded towards the outer side.

5. The high-pressure composite pipe reeling auxiliary device according to claim 3, wherein the translation device (5) is arranged at the front side of the upright post (2), and comprises a screw rod (52) arranged between two guide plates (13) below the cross beam (1), a corresponding screw nut (53) is sleeved on the screw rod (52), the top end of the screw rod is correspondingly connected with the bottom end of a connecting plate (34) of the auxiliary groove (3), a pair of second bearing seats (54) corresponding to the screw rod are arranged at the inner sides of the guide plates (13) corresponding to the two ends of the screw rod (52), the second bearing seats (54) are rotationally connected with the screw rod (52), a translation motor (51) corresponding to the screw rod (52) is arranged at the outer sides of the guide plates (13), the corresponding end of the screw rod (52) penetrates through the corresponding side guide plates (13) and is correspondingly connected with an output shaft of the translation motor (51), and a controller (6) corresponding to the outer side end of the translation motor (51) is provided with the second controller (62).

6. The high-pressure composite pipe unreeling auxiliary device according to claim 5, wherein a corresponding second coupling is arranged between the screw rod (52) and the translation motor (51), and is arranged outside a guide plate (13) at the corresponding side of the translation motor (51).

7. The high-pressure composite pipe reeling auxiliary device according to claim 2, wherein the lifting device (4) is arranged at the rear side of the upright post (2), and comprises a lifting motor (41) arranged at the outer side of the guide plates (13), a driving shaft (42) corresponding to the lifting motor (41) is arranged between the two guide plates (13), the corresponding end of the driving shaft (42) penetrates through the corresponding side guide plate (13) to be correspondingly connected with an output shaft of the lifting motor (41), a first bearing seat (43) corresponding to the driving shaft (42) is arranged at the outer side of the guide plate (13) at the opposite side of the lifting motor (41), the corresponding end of the driving shaft (42) penetrates through the corresponding side guide plate (13) to be rotationally connected with the first bearing seat (43), a pair of gears (44) corresponding to the two racks (23) on the two upright posts (2) are respectively meshed at the two ends of the driving shaft (42), and a controller (6) corresponding to the driving shaft is arranged at the outer side end of the lifting motor (41), which is the first controller (61).

8. The high-voltage composite pipe reeling auxiliary device according to claim 7, wherein a corresponding first coupling is arranged between the lifting motor (41) and the driving shaft (42), and the first coupling is arranged on the outer side surface of the side guide plate (13) corresponding to the lifting motor (41).

9. The high-pressure composite pipe rolling auxiliary device according to claim 2, wherein the bottom end of the upright post (2) is provided with a corresponding base (24), the bottom end of the column body (21) is fixedly connected to the top surface of the base (24), corresponding reinforcing ribs (25) are arranged between the upright post (2) and the base (24), and the reinforcing ribs (25) are uniformly distributed around the column body (21) around the circumferential direction.