CN218603327U - Magnetic suspension long stator coil winding laying equipment - Google Patents

Abstract

The utility model discloses a magnetic levitation long stator coil winding lays and equips relates to magnetic levitation track traffic technical field. The magnetic levitation long stator coil winding laying equipment comprises: a paying-off transport vehicle and a winding installation vehicle. The paying-off transport vehicle comprises a transport vehicle body, the transport vehicle body is provided with a transport vehicle advancing driving system, a coil winding drum is arranged on the transport vehicle body, and the coil winding drum is connected to a winding drum rotating driver. The winding installation vehicle comprises an installation vehicle body, the front end of the installation vehicle body is connected to the rear end of the transportation vehicle body, and a coil bending device, a coil shaping device and a coil pressing and embedding device are sequentially arranged on the installation vehicle body along the front-back direction. This lay and equip can improve the degree of automation of this process of coil coiling and pressure embedding with the help of coil reel, coil equipment of bending, coil plastic equipment and coil pressure embedding equipment, compare in the operation of artifical bending pressure embedding, and the machining precision is high, and the installation effectiveness is high, and the operational safety is high.

Description

Magnetic suspension long stator coil winding laying equipment

Technical Field

The utility model relates to a magnetic suspension track traffic technical field, in particular to magnetic levitation long stator coil winding lays and equips.

Background

Generally, magnetic suspension transportation equipment with the speed per hour higher than 450 kilometers can be called high-speed magnetic suspension, and the high-speed magnetic suspension transportation equipment is a high-speed transportation mode in the modern society, can become an effective way for high-quality high-speed travel, and greatly enriches the comprehensive three-dimensional transportation network in China.

The high-speed magnetic suspension long stator linear motor is one of the core components of a high-speed magnetic suspension train system and is the 'power heart' of the high-speed magnetic suspension train. The long stator linear motor mainly comprises a long stator iron core and a coil winding. The long stator core is directly installed on the functional piece of the high-speed magnetic floating track beam, and the coil is wound into an S shape and then is pressed and embedded into the groove of the long stator core.

In the existing stage of magnetic suspension track construction, manual coil winding bending is usually carried out in a production workshop, and then manual coil winding bending is carried out on the magnetic suspension track, and the magnetic suspension track is manually transmitted to a track beam to be pressed and embedded, so that the problems of difficulty in ensuring precision, low installation efficiency and the like exist

Therefore, how to improve the installation efficiency is a technical problem that needs to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a magnetism floats long stator coil winding and lays equipment can improve the degree of automation that coil coiling and pressure inlayed, and coil installation effectiveness is high.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a magnetic levitation long stator coil winding laying apparatus comprising: paying off a transport vehicle and a winding installation vehicle; the paying-off transport vehicle comprises a transport vehicle body, wherein the transport vehicle body is provided with a transport vehicle advancing driving system, a coil winding drum is arranged on the transport vehicle body, and the coil winding drum is connected to a winding drum rotating driver; the winding installation vehicle comprises an installation vehicle body, the front end of the installation vehicle body is connected with the rear end of the transportation vehicle body, and a coil bending device, a coil shaping device and a coil pressing and embedding device are sequentially arranged on the installation vehicle body along the front-back direction.

Preferably, a mounting vehicle traveling driving system is arranged on the mounting vehicle body.

Preferably, the rear end of the transport vehicle body is provided with a transport vehicle coupler, the front end of the installation vehicle body is provided with an installation vehicle coupler connected with the transport vehicle coupler, and the winding installation vehicle passes through the transport vehicle coupler and the installation vehicle coupler to be connected with the paying-off transport vehicle.

Preferably, the rear end of the transport vehicle body is provided with a conveyor belt butted with the front end of the installation vehicle body.

Preferably, the mounting vehicle body comprises an upper platform, a lower platform and a mounting vehicle bogie, and the lower platform and the mounting vehicle bogie are respectively connected below the upper platform; the coil bending device, the coil shaping device and the coil pressing and embedding device are arranged on the lower platform.

Preferably, the upper platform comprises an upper platform bottom plate, an upper platform guardrail, an escalator and a connecting arm; the upper platform guardrail is arranged above the upper platform bottom plate and fixed around the upper platform bottom plate, the lower platform is connected with the upper platform bottom plate through the connecting arm, and the escalator is connected with the upper platform bottom plate and extends downwards to the lower platform.

Preferably, the lower platform comprises a lower platform bottom plate and a lower platform guardrail, and the lower platform guardrail is arranged above the lower platform bottom plate and is fixed around the lower platform bottom plate; the coil bending device, the coil shaping device and the coil pressing and embedding device are arranged on the lower platform bottom plate.

Preferably, a drum crane is arranged on the transportation vehicle body.

Preferably, the transportation vehicle body comprises a driver cab, a transportation platform and a transportation vehicle bogie; the cab is connected in front of the transportation platform, and the transportation vehicle bogie is connected to the bottom of the transportation platform; the coil winding drum is arranged above the transportation platform, and the installation vehicle advancing driving system and the transportation vehicle advancing driving system are connected with the controller in the cab.

Preferably, the transportation platform comprises a transportation platform bottom plate and transportation platform guardrails, and the transportation platform guardrails are arranged above the transportation platform bottom plate and fixed around the transportation platform bottom plate.

The utility model provides a long stator coil winding of magnetism floats lays and equips, include: a paying-off transport vehicle and a winding installation vehicle. The paying-off transport vehicle comprises a transport vehicle body, the transport vehicle body is provided with a transport vehicle advancing driving system, a coil winding drum is arranged on the transport vehicle body, and the coil winding drum is connected to a winding drum rotating driver. The winding installation vehicle comprises an installation vehicle body, the front end of the installation vehicle body is connected to the rear end of the transportation vehicle body, and a coil bending device, a coil shaping device and a coil pressing and embedding device are sequentially arranged on the installation vehicle body along the front and back directions.

When construction starts, a coil is placed on a coil winding drum, the coil winding drum is driven to rotate through a winding drum rotary driver, the coil winding drum is unwound, the coil moves to an installation vehicle body, S-shaped bending is carried out on the coil through coil bending equipment, end shaping is carried out on the coil through coil shaping equipment, and the coil is pressed and embedded to a long stator core through coil pressing and embedding equipment in sequence, so that installation of the single-phase long stator core is completed.

The magnetic levitation long stator coil winding laying equipment can improve the automation degree of the coil winding and press embedding process by means of a coil winding drum, a coil bending device, a coil shaping device and a coil press embedding device, and compared with the manual bending press embedding operation, the magnetic levitation long stator coil winding laying equipment is high in processing precision, high in installation efficiency and high in operation safety; the operations of transportation, winding, shaping, press embedding and the like on a construction site are finished only by matching the two vehicle bodies, so that the space and resources can be saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a structural diagram of a first embodiment of a laying device provided by the present invention;

fig. 2 is a structural diagram of a pay-off transport vehicle according to a first embodiment of the laying apparatus of the present invention;

fig. 3 is a structural diagram of a winding installation vehicle according to an embodiment of the present invention.

Reference numerals are as follows:

the system comprises a paying-off transport vehicle 100, a cab 110, a driver platform 111, a seat 112, a hydraulic pump station 113, a headlamp 114, a front window 115, a side window 116, a vehicle door 117, a transport platform 120, a transport platform bottom plate 121, a transport platform guardrail 122, a coil winding drum 123, a winding drum crane 124, a conveyor belt 125, a transport vehicle coupler 126 and a transport vehicle bogie 130;

the winding installation vehicle comprises a winding installation vehicle 200, an upper platform 210, an upper platform bottom plate 211, an upper platform guardrail 212, an installation vehicle coupler 213, an escalator 214, a connecting arm 215, a lower platform 220, a lower platform bottom plate 221, a lower platform guardrail 222, a coil bending device 223, a coil shaping device 224, a coil press-embedding device 225 and an installation vehicle bogie 230.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The core of the utility model is to provide a magnetism floats long stator coil winding and lays and equip, can improve the degree of automation that the coil coiling inlayed with pressing, and coil installation effectiveness is high.

The utility model provides a magnetism floats long stator coil winding and lays equipment's concrete embodiment one, please refer to fig. 1 to fig. 3, include: a pay-off transport vehicle 100 and a winding installation vehicle 200.

The payoff transporter 100 is used for transport and payoff of long stator coils, as well as power control of two vehicles. As shown in fig. 2, the payoff transporter 100 includes a transporter body having a transporter travel drive system, optionally with a maximum speed of the payoff transporter 100 of 0.3km/h. And a coil winding drum 123 is arranged on the transport vehicle body and used for placing a wire coil. The coil bobbin 123 is connected to a bobbin rotation driver, which is embodied as a motor, to be able to drive the coil bobbin 123 to automatically pay out by the bobbin rotation driver.

The winding installation vehicle 200 is used for laying long stator coils. The winding installation cart 200 includes an installation cart body having a front end attached to a rear end of a transport cart body. The coil bending device 223, the coil shaping device 224, and the coil caulking device 225 are provided in this order in the front-rear direction on the mounting vehicle body. The coil bending equipment is used for bending S-shaped coils, can be composed of a coil die, a guide rail, a servo motor and the like, and can be a general automatic coil winding device in the market. The coil shaping equipment 224 is used for shaping the end of the S-shaped coil, and may be composed of an end mold, a jacking device, a motor, and the like, and may be a general automatic coil shaping device in the market. The coil press-fitting device 225 is used for press-fitting the S-shaped coil into the long stator core, and may be composed of a jig, a jacking device, a slide rail, and the like, and may be a coil press-fitting device that is generally used in the market.

When construction starts, a coil is placed on the coil winding drum 123, the coil winding drum 123 is driven to rotate through the winding drum rotary driver, the coil winding drum 123 is paid off, the coil moves to the installation vehicle body, S-shaped bending is conducted on the coil through the coil winding device 223, the coil shaping device 224 conducts end shaping on the coil, the coil is pressed and embedded into the long stator core through the coil pressing and embedding device 225, and installation of the single-phase long stator core is completed.

The magnetic levitation long stator coil winding laying equipment in the embodiment can improve the automation degree of the coil winding and press-embedding process by means of the coil winding drum 123, the coil bending equipment 223, the coil shaping equipment 224 and the coil press-embedding equipment 225, and compared with the manual bending press-embedding operation, the magnetic levitation long stator coil winding laying equipment is high in processing precision, high in installation efficiency and high in operation safety; the operations of transportation, winding, shaping, press-fitting and the like on a construction site are completed only by matching the two vehicle bodies, so that the space and resources can be saved.

Furthermore, a mounting vehicle advancing driving system is arranged on the mounting vehicle body. That is, the pay-off transporter 100 and the winding installation vehicle 200 have separate driving systems to form a dual-power and dual-vehicle driving system, and the dual drives are started simultaneously, so that the device can have enough traction force during the process of moving. Of course, it is also possible to start only the carriage travel drive system and advance the winding installation carriage 200 by paying out the carriage 100.

Furthermore, as shown in fig. 2 and 3, a transport vehicle coupler 126 is arranged at the rear end of the transport vehicle body, an installation vehicle coupler 213 connected with the transport vehicle coupler 126 is arranged at the front end of the installation vehicle body, and the winding installation vehicle 200 is connected to the pay-off transport vehicle 100 through the connection of the transport vehicle coupler 126 and the installation vehicle coupler 213, so that the two vehicles are convenient to disassemble and assemble. Of course, the front end of the transport body and the rear end of the installation body may also be connected to the coupler for connection to other bodies, respectively.

Further, as shown in fig. 1 and 2, a conveyor belt 125 abutting on the front end of the mounting vehicle body is provided at the rear end of the transport vehicle body, and the coil is stably transferred to the winding mounting vehicle 200 through the conveyance of the conveyor belt 125 after being discharged from the coil bobbin 123, thereby improving the stability of the transfer of the coil in the workshop.

Further, as shown in fig. 3, the mounting vehicle body includes an upper platform 210, a lower platform 220 and a mounting vehicle bogie 230, and the lower platform 220 and the mounting vehicle bogie 230 are respectively connected below the upper platform 210. The mounting bogie 230 is connected to the upper platform 210 via a steel structure interface welded to the bottom of the upper platform 210. The mounting car bogie 230 is a double-shaft bogie, and the double shafts are power shafts. The mounting car travel drive system may be provided on the mounting car truck 230. The coil bending device 223, the coil shaping device 224 and the coil press-fitting device 225 are provided on the lower platform 220.

Since the lower platform 220 is connected to the mounting bogie 230 through the upper platform 210, rather than being directly connected to the mounting bogie 230, impact due to a portion of the unevenness of the ground during traveling can be eliminated by the upper platform 210. In addition, the upper platform 210 provides an operation space for a worker. In addition, the coil bending device 223 and the coil shaping device 224 are arranged on the lower platform 220, and particularly, the lower platform 220 can be lower than the track beam, so that the track beam can be prevented from influencing the transmission of the coil, and the coil deformation caused in the conveying process can be reduced.

Further, as shown in fig. 2, the upper deck 210 includes an upper deck base 211, an upper deck balustrade 212, an escalator 214, and a connecting arm 215.

The upper platform bottom plate 211 is formed by welding a steel structure square pipe and a steel plate. The upper platform guard rail 212 is arranged above the upper platform base plate 211 and fixed around the upper platform base plate 211, and can be fully enclosed or semi-enclosed, the lower platform 220 is connected to the upper platform base plate 211 through a connecting arm 215, and the escalator 214 is connected to the upper platform base plate 211 and extends downwards to the lower platform 220, so that the movement of workers from the upper platform 210 to the lower platform 220 is facilitated. Specifically, the upper end of the upper platform bottom plate 211 is welded with each connecting seat interface to connect the upper platform guardrail 212, the connecting arm 215 and the staircase 214, the lower end is welded with the steel structure interface to connect the mounting bogie 230, and the front end and the rear end are welded with the mounting seats to connect the corresponding car coupler.

Further, the lower platform 220 includes a lower platform bottom plate 221 and a lower platform guard bar 222, and the lower platform guard bar 222 is disposed above the lower platform bottom plate 221 and fixed around the lower platform bottom plate 221, and may be fully enclosed or semi-enclosed, so as to effectively protect the equipment on the lower platform bottom plate 221.

Specifically, the lower platform bottom plate 221 is formed by welding a steel-structure square tube and a steel plate, and is connected with the upper platform 210 through a connecting arm 215, and the upper end of the lower platform bottom plate 221 is welded with each connecting seat interface to be respectively connected with the lower platform guardrail 222, the coil bending device 223, the coil shaping device 224 and the coil press-embedding device 225.

In addition, a coil winding device 223, a coil shaping device 224, and a coil caulking device 225 are provided on the lower stage base 221.

Further, as shown in fig. 2, a reel crane 124 is disposed on the transportation vehicle body, and the coil crane 124 is specifically a folding arm crane, so as to facilitate taking and placing the coil on the coil reel 123.

Further, as shown in fig. 2, the transporter body includes a cab 110, a transport platform 120, and a transporter bogie 130.

The cab 110 includes a cab base 111, a seat 112, a hydraulic pump station 113, a headlight 114, a front window 115, a side window 116, a door 117, and the like. The driver platform 111 is specifically a glass fiber reinforced plastic cabinet. The driver platform 111 is placed at the front end of the driver cab 110, electric elements such as a controller and the like are placed in the driver platform 111, the installation vehicle advancing driving system and the transport vehicle advancing driving system are connected to the controller in the driver cab 110, and the controller is used for controlling the operation of the installation vehicle advancing system and the transport vehicle advancing system so as to control the starting, stopping and speed of the pay-off transport vehicle 100 and the winding installation vehicle 200.

In addition, the cab 110 is connected to the front of the transport platform 120, and the transporter bogie 130 is connected to the bottom of the transport platform 120. The coil reel 123 is disposed above the transport platform 120.

Further, as shown in fig. 2, the transport platform 120 includes a transport platform floor 121 and transport platform side rails 122.

The transportation platform bottom plate 121 is formed by welding a steel structure square pipe and a steel plate. Transportation platform guardrail 122 is located transportation platform bottom plate 121 top and around being fixed in around transportation platform bottom plate 121, specifically can surround or half surround completely, can effectively protect the equipment on transportation platform bottom plate 121. Specifically, a connecting seat interface is reserved at the upper end of the transportation platform bottom plate 121 to be connected with the driver platform 111, the hydraulic pump station 113, the transportation platform guardrail 122 and the like respectively, the rear end of the transportation platform bottom plate is connected with the transportation vehicle coupler 126 through a mounting seat, and a steel structure interface is welded at the lower end of the transportation platform bottom plate to be connected with the transportation vehicle bogie 130. The transporter bogie 130 is a dual-axis bogie, and the dual axes are power axes.

The magnetic levitation long stator coil winding laying equipment that this embodiment provided, the theory of operation includes:

before construction begins, coils required to be used in the day are placed on a transport platform 120 of the pay-off transport vehicle 100, and the pay-off transport vehicle 100 and the winding installation vehicle 200 are connected and fastened with an installation vehicle coupler 213 through a transport vehicle coupler 126. The driver controls the vehicle to travel to the winding paving place through the driver platform 111 to start paving.

Firstly, a wire coil is hoisted to a coil drum 123 through a drum crane 124 and installed well, the process needs cooperation of an operator, then, a drum rotary driver drives the coil drum 123 to pay off, the coil is directly transmitted to a coil bending device 223 in a lower platform 220 of a winding installation vehicle 200 through a conveyor belt 125, the coil is bent in an S shape through the coil bending device 223 and then is conveyed to a coil shaping device 224, the S-shaped end of the coil is shaped, the shaping of the end part is beneficial to smooth press-embedding of each phase of cable into a long stator core, finally, the output formed cable is conveyed to a coil press-embedding device 225, and the coil press-embedding device 225 press-embeds the coil into the long stator core through mechanisms such as clamping, aligning and jacking to complete the installation of the unidirectional long stator core.

When the coil in the coil drum 123 is exhausted, the replacement of the cable coil is performed manually by means of the coil crane 124. The high-speed magnetic levitation long stator is a three-phase winding, and the second phase and the third phase are paved after the single-phase cable is paved, wherein the coil shaping equipment 224 needs to be adjusted before paving to perform distinguishing processing on the shaping of the end part of the S-shaped coil for the convenience of press embedding.

The magnetic levitation long stator coil winding laying equipment in the embodiment can realize automatic machine winding and press embedding of coils, manual bending press embedding is relative, the precision is high, the installation efficiency is high, the safety is high, on an installation vehicle, the coils after bending and shaping are directly pressed and embedded into a long stator core, coil deformation caused by a conveying process is reduced, one phase can be laid once during construction, coil interfaces can be fewer, the cost is reduced, and interface fault risks exist. The equipment adopts a double-power double-vehicle system, the layout of each system is compact, the space is fully utilized, and the cost is saved.

It will be understood that when an element is referred to as being "secured" to another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In addition, in the description of the present invention, "a plurality", and "a plurality" mean two or more unless otherwise specified.

The terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

It is right above the utility model provides a magnetism floats long stator coil winding and lays and equip and carry out the detailed introduction. The principles and embodiments of the present invention have been explained herein using specific examples, and the above description of the embodiments is only used to help understand the method and its core idea of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. A magnetic levitation long stator coil winding laying device is characterized by comprising: a paying-off transport vehicle (100) and a winding installation vehicle (200);

the paying-off transport vehicle (100) comprises a transport vehicle body, wherein the transport vehicle body is provided with a transport vehicle advancing driving system, a coil winding drum (123) is arranged on the transport vehicle body, and the coil winding drum (123) is connected to a winding drum rotating driver;

winding installation car (200) is including the installation automobile body, the front end of installation automobile body connect in the rear end of transportation automobile body, set gradually coil around bending equipment (223), coil plastic equipment (224) and coil pressure along the fore-and-aft direction on the installation automobile body and inlay equipment (225).

2. The magnetic levitation long stator coil winding arrangement equipment as recited in claim 1, wherein a mounting vehicle travel drive system is provided on the mounting vehicle body.

3. The magnetic levitation long stator coil winding arrangement equipment as recited in claim 1, characterized in that the rear end of the transport car body is provided with a transport car coupler (126), the front end of the installation car body is provided with an installation car coupler (213) connected with the transport car coupler (126), and the winding installation car (200) is connected with the paying-off transport car (100) through the connection of the transport car coupler (126) and the installation car coupler (213).

4. The magnetic levitation long stator coil winding arrangement equipment as recited in claim 1, wherein the rear end of the transport vehicle body is provided with a conveyor belt (125) abutting the front end of the mounting vehicle body.

5. The magnetic levitation long stator coil winding laying equipment as claimed in any one of claims 1 to 4, wherein the mounting vehicle body comprises an upper platform (210), a lower platform (220) and a mounting vehicle bogie (230), the lower platform (220) and the mounting vehicle bogie (230) being respectively connected below the upper platform (210); the coil winding device (223), the coil shaping device (224) and the coil press-fitting device (225) are arranged on the lower platform (220).

6. The magnetic levitation long stator coil winding laying equipment as recited in claim 5, wherein the upper platform (210) comprises an upper platform floor (211), an upper platform guardrail (212), an escalator (214) and a connecting arm (215); the upper platform guardrail (212) is arranged above the upper platform bottom plate (211) and fixed around the upper platform bottom plate (211), the lower platform (220) is connected to the upper platform bottom plate (211) through the connecting arm (215), and the escalator (214) is connected to the upper platform bottom plate (211) and extends downwards to the lower platform (220).

7. The magnetic levitation long stator coil winding arrangement equipment as recited in claim 5, wherein the lower platform (220) comprises a lower platform floor (221) and a lower platform guard rail (222), the lower platform guard rail (222) is disposed above the lower platform floor (221) and fixed around the circumference of the lower platform floor (221); the coil bending device (223), the coil shaping device (224) and the coil press-embedding device (225) are arranged on the lower platform bottom plate (221).

8. The magnetic levitation long stator coil winding laying apparatus as claimed in any one of claims 1 to 4, wherein a drum crane (124) is provided on the transport vehicle body.

9. The magnetic levitation long stator coil winding laying apparatus as recited in claim 2, wherein the transporter body comprises a cab (110), a transport platform (120) and a transporter bogie (130); the driver cab (110) is connected to the front of the transportation platform (120), and the transportation truck bogie (130) is connected to the bottom of the transportation platform (120); the coil winding drum (123) is arranged above the transportation platform (120), and the installation vehicle advancing driving system and the transportation vehicle advancing driving system are connected to a controller in the cab (110).

10. The magnetic levitation long stator coil winding arrangement equipment as recited in claim 9, wherein the transport platform (120) comprises a transport platform floor (121) and transport platform guard rails (122), the transport platform guard rails (122) being disposed above the transport platform floor (121) and secured around the circumference of the transport platform floor (121).

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