CN116031578A - Electrochemical energy storage PACK box convenient to wire - Google Patents

Abstract

The invention provides an electrochemical energy storage PACK box convenient to wire, belongs to the technical field of energy storage, and is used for solving the technical problem that the existing electrochemical energy storage PACK box is low in wire connection efficiency. The battery pack is arranged in the mounting cavity, a moving frame is arranged at the front end of the mounting frame, a translation mechanism is arranged between the moving frame and the mounting frame, a lifting mechanism is arranged at the upper end of the moving frame, a rotating plate is rotatably arranged on a cross rod of the moving frame, a connecting wire is arranged on the rotating plate, two ends of the connecting wire are respectively connected with a connector, and clamping mechanisms are respectively arranged at two ends of the rotating plate; according to the invention, after the battery packs are installed, all the battery packs can be wired at one time, so that the wiring efficiency is improved; before an operator moves the connecting wire, one-step manual operation is needed, so that the connecting wire is prevented from being disconnected due to misoperation of the operator; the convenient operating personnel changes when connecting wire and connector damage.

Description

Electrochemical energy storage PACK box convenient to wire

Technical Field

The invention belongs to the technical field of energy storage, and relates to an electrochemical energy storage PACK box convenient to wire.

Background

The energy storage is generally the storage of electric energy, namely, some energy is stored firstly and is used when needed, mainly aiming at wind energy, solar energy and wind energy which are green renewable energy sources, the container energy storage system has the characteristics of simplified infrastructure construction cost, short construction period, high modularization degree, convenient transportation and installation and the like, and can be suitable for application occasions such as power stations such as firepower, wind energy and solar energy, islands, communities, schools, scientific research institutions, factories, large-scale load centers and the like;

the electrochemical energy storage PACK box is generally internally provided with a large number of storage batteries, operators are required to wire when the electrochemical energy storage PACK box is used, each battery is required to be connected, the existing connecting wires exist independently, the operators are required to connect the two ends of the connecting wires to the positive electrode wiring holes and the negative electrode wiring holes of the batteries respectively, then the connecting wires are fixed by screws, the connecting wires are more, the time spent is longer, the installation efficiency is lower, certain requirements are met on the operation experience of the operators, and the error of wiring positions is prevented.

Based on this, we designed an electrochemical energy storage PACK box that facilitates wiring.

Disclosure of Invention

The invention aims at solving the problems in the prior art, and provides an electrochemical energy storage PACK box convenient for wiring, which aims at solving the technical problems that: how to realize the quick wiring of the electrochemical energy storage PACK box, and improve the wiring efficiency.

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

the utility model provides an electrochemical energy storage PACK case of convenient wiring, including the box and fix the inside mounting bracket of box, be provided with a plurality of installation cavities on the mounting bracket, the group battery has been placed in the installation cavity, the group battery front end is provided with positive and negative connecting hole, the upper end of mounting bracket is provided with two connecting seats, be provided with the wiring hole on the connecting seat, the front end of mounting bracket is provided with the movable frame, be provided with translation mechanism between movable frame and the mounting bracket, movable frame's upper end is provided with elevating system, movable frame's horizontal pole is gone up to rotate and is provided with the rotor plate, be provided with the connecting wire on the rotor plate, the both ends of connecting wire are connected with the connector respectively, the both ends of rotor plate all are equipped with joint mechanism, and two connectors are fixed respectively in the joint mechanism of corresponding position, the notch has been seted up on the movable frame, the connector is located the notch.

The working principle of the invention is as follows: after the battery packs are all placed in the installation cavity by the operating personnel, the translation mechanism drives the movable frame to move towards the front of the installation frame, then the lifting mechanism drives one end of the rotating plate to tilt upwards, two connectors on the rotating plate are respectively aligned with corresponding connecting holes on the battery packs on the upper side and the lower side of the rotating plate, then the translation mechanism drives the movable frame to reset, at the moment, the connectors are inserted into the connecting holes at the corresponding positions, all the battery packs are connected, independent connection of the operating personnel is not needed, and the wiring efficiency is improved.

The translation mechanism comprises a push rod motor and a moving plate, wherein a plurality of guide sliding rods are arranged on two sides of the moving frame, a plurality of sleeves are fixed at the side ends of the mounting frame, the guide sliding rods are arranged in the sleeves at corresponding positions in a sliding mode, cavities are formed in vertical rods on two sides of the moving frame, the moving plate is located inside the cavities, matching holes are formed in the edges of the moving frame, a plurality of vortex springs are arranged between the moving plate and the inner side of the cavities, the push rod motor is fixed at the side ends of the mounting frame, and clamping grooves matched with the moving plate are formed in the output shaft of the push rod motor.

By adopting the structure, the guide slide bar and the sleeve limit the movable frame, the clamping groove on the push rod motor is clamped with the edge of the movable plate, and the movable frame moves and resets to the front of the mounting frame along with the extension and contraction of the push rod motor.

The translation mechanism is still including fixing the elastic plate at the mounting bracket side, and the end fixing of elastic plate has the extrusion piece, has seted up the through-hole on the movable frame, and extrusion piece aligns with the through-hole, and the mounting bracket side is fixed with the slide rail, and the slip is provided with the sliding block on the slide rail, and the side of sliding block is fixed with the diaphragm, has seted up the dovetail groove on the diaphragm, is fixed with the fixed block on the movable frame, and the fixed block aligns with the dovetail groove.

By adopting the structure, when the initial position is reached, the extrusion block extrudes into the through hole under the action of the elastic plate, and the compression vortex spring enables the movable plate to be separated from the clamping groove, at the moment, the movement of the push rod motor can not drive the movable frame to move, and the misoperation of operators is prevented, so that the connecting wire is disconnected, when the battery pack needs to be replaced or overhauled and other operations are carried out, the sliding block can be moved towards the direction close to the elastic plate, the elastic plate is extruded towards the outer side, the transverse plate moves downwards, the fixing block is just positioned in the trapezoid groove, then the push rod motor can drive the movable frame to move, and when the movable frame moves outwards for a certain distance, the fixing block extrudes one side of the trapezoid groove, upwards pushes the transverse plate and the sliding block to reset under the action of the elastic plate, and after the next movable frame resets, the extrusion block can still extrude the movable plate.

Lifting mechanism includes lifter and alignment subassembly, is provided with a plurality of fasteners on the movable frame, and the lifter slides and sets up in the fastener, and is fixed with a plurality of fixed plates on the lifter, and the notch has all been seted up at the both ends of fixed plate, and the one end of rotor plate is fixed with the fixed pin, and the fixed pin articulates in the notch of corresponding position, and the upper end of lifter is fixed with the rack, and the upper end of mounting bracket is fixed with the promotion motor, and is fixed with the gear on the output shaft of promotion motor, and the gear is located the rack place ahead.

By adopting the structure, after the movable frame moves forwards by a certain distance, the racks are meshed with the gears, at the moment, the lifting motor rotates to drive the gears to rotate, then the racks are driven to move upwards, at the moment, the fixed plate moves upwards along with the lifting rod and drives the rotating plate to rotate, so that the two connectors on the rotating plate are aligned with the positive and negative connecting holes of the battery pack at the corresponding positions respectively, and when the movable frame is not moved, the racks are separated from the gears, and the operation sequence of operators is prevented from being wrong.

The alignment assembly comprises a magnetic ring, the magnetic ring is arranged on the connecting head in a sliding manner, a limiting groove is formed in the connecting head, an iron ring is sleeved outside the positive and negative wiring holes of the battery pack, and the diameter of the iron ring is consistent with that of the magnetic ring.

By adopting the structure, when the connector is close to the positive and negative electrode wiring holes on the battery pack, the magnetic ring and the iron ring are mutually attracted, so that the connector and the connecting holes can be further ensured to be aligned, and the damage during insertion is prevented.

The clamping mechanism comprises a clamping ring and a limiting block, a fixing groove is formed in the rotating plate, the clamping ring is fixed on the connecting head, the clamping ring is located inside the fixing groove, a sliding cavity is formed in the side wall of the fixing groove, the limiting block is arranged in the sliding cavity in a sliding mode, and a clamping spring is arranged between the bottom of the limiting block and the inner wall of the sliding cavity.

By adopting the structure, under the action of the clamping spring, the limiting block extrudes between the fixed grooves to prevent the connector from falling off, and the connector can be detached, so that the connecting wire and the connector are convenient to replace.

Compared with the prior art, the electrochemical energy storage PACK box convenient to wire has the following advantages:

1. through hoist mechanism, translation mechanism pivoted board and connecting wire, can carry out disposable wiring to all group batteries after the group battery of installing, need not the manual wiring alone of operating personnel, improved wiring efficiency, reduced wiring error rate.

2. Through translation mechanism, need carry out one step manual operation before operating personnel removes the connecting wire, provide the insurance effect, prevent that operating personnel maloperation from leading to the connecting wire disconnection.

3. Through joint mechanism, carry out detachable fixedly to the connector, make things convenient for operating personnel to change when connecting wire and connector damage, improve in-service use effect.

Drawings

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

FIG. 2 is a schematic view of the structure of the mounting frame of the present invention;

FIG. 3 is a schematic view of the structure of the translating frame of the present invention;

FIG. 4 is a schematic view of a partial front structure of a translating frame in accordance with the present invention;

FIG. 5 is a schematic view of a partial back structure of a translating frame in accordance with the present invention;

FIG. 6 is a schematic view of a clamping mechanism according to the present invention;

FIG. 7 is a schematic view of a part of the lifting mechanism of the present invention;

FIG. 8 is a schematic cross-sectional view of a moving frame of the present invention;

FIG. 9 is an enlarged schematic view of the structure of FIG. 8A in accordance with the present invention;

FIG. 10 is a schematic view of a part of the translation mechanism of the present invention;

in the figure: 1. a mounting frame; 2. a mounting cavity; 3. a battery pack; 4. a connecting seat; 5. a moving frame; 6. a translation mechanism; 601. a cavity; 602. a moving plate; 603. a vortex spring; 604. a mating hole; 605. a push rod motor; 606. a clamping groove; 607. a through hole; 608. an elastic plate; 609. extruding a block; 610. a slide rail; 611. a sliding block; 612. a cross plate; 613. a trapezoid groove; 614. a fixed block; 7. a lifting mechanism; 701. a lifting rod; 702. a fixing plate; 703. a notch; 704. a fixing pin; 705. a rack; 706. a gear; 707. lifting the motor; 708. a magnetic ring; 709. a limit groove; 8. a rotating plate; 9. a connecting wire; 10. a connector; 11. a clamping mechanism; 1101. a clamping ring; 1102. a fixing groove; 1103. a sliding chamber; 1104. a limiting block; 1105. a clamping spring; 12. a recess.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Embodiments of the present patent are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the patent and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be configured and operated in a particular orientation, and are therefore not to be construed as limiting the patent.

In the description of this patent, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "disposed" are to be construed broadly, and may be fixedly connected, disposed, detachably connected, disposed, or integrally connected, disposed, for example. The specific meaning of the terms in this patent will be understood by those of ordinary skill in the art as the case may be.

Referring to fig. 1-10, this embodiment provides an electrochemical energy storage PACK box convenient for wiring, including a box body and a mounting frame 1 fixed in the box body, a plurality of mounting cavities 2 are provided on the mounting frame 1, a battery PACK 3 is placed in the mounting cavities 2, the front end of the battery PACK 3 is provided with positive and negative connecting holes, the upper end of the mounting frame 1 is provided with two connecting seats 4, wiring holes are provided on the connecting seats 4, the front end of the mounting frame 1 is provided with a movable frame 5, a translation mechanism 6 is provided between the movable frame 5 and the mounting frame 1, the upper end of the movable frame 5 is provided with a lifting mechanism 7, a rotating plate 8 is rotatably provided on a cross rod of the movable frame 5, connecting wires 9 are provided on the rotating plate 8, two ends of the connecting wires 9 are respectively connected with connectors 10, two ends of the rotating plate 8 are respectively provided with clamping mechanisms 11, the two connectors 10 are respectively fixed in the clamping mechanisms 11 at corresponding positions, a notch 12 is provided on the movable frame 5, and the connectors 10 are located in the notch 12; after the battery pack 3 is completely placed in the installation cavity 2 by an operator, the translation mechanism 6 drives the movable frame 5 to move towards the front of the installation frame 1, then the lifting mechanism 7 drives one end of the rotating plate 8 to tilt upwards, two connectors 10 on the rotating plate 8 are respectively aligned with corresponding connecting holes on the battery pack 3 on the upper side and the lower side of the rotating plate, then the translation mechanism 6 drives the movable frame 5 to reset, at the moment, the connectors 10 are inserted into the connecting holes at corresponding positions, all the battery packs 3 are connected, independent connection of operators is not needed, and the wiring efficiency is improved.

The translation mechanism 6 comprises a push rod motor 605 and a moving plate 602, wherein a plurality of guide sliding rods are arranged on two sides of the moving frame 5, a plurality of sleeves are fixed on the side end of the mounting frame 1, the guide sliding rods are slidably arranged in the sleeves at corresponding positions, a cavity 601 is formed in vertical rods on two sides of the moving frame 5, the moving plate 602 is positioned in the cavity 601, a matching hole 604 is formed in the edge of the moving frame 5, a plurality of vortex springs 603 are arranged between the moving plate 602 and the inner side of the cavity 601, the push rod motor 605 is fixed on the side end of the mounting frame 1, and a clamping groove 606 matched with the moving plate 602 is formed in an output shaft of the push rod motor 605; the guide slide bar and the sleeve limit the movable frame 5, the clamping groove 606 on the push rod motor 605 is clamped with the edge of the movable plate 602, and the movable frame 5 moves and resets to the front of the mounting frame 1 along with the extension and contraction of the push rod motor 605.

The translation mechanism 6 further comprises an elastic plate 608 fixed at the side end of the mounting frame 1, an extrusion block 609 is fixed at the end part of the elastic plate 608, a through hole 607 is formed in the moving frame 5, the extrusion block 609 is aligned with the through hole 607, a sliding rail 610 is fixed at the side end of the mounting frame 1, a sliding block 611 is arranged on the sliding rail 610 in a sliding manner, a transverse plate 612 is fixed at the side end of the sliding block 611, a trapezoid groove 613 is formed in the transverse plate 612, a fixed block 614 is fixed on the moving frame 5, and the fixed block 614 is aligned with the trapezoid groove 613; at the initial position, the extrusion block 609 extrudes into the through hole 607 under the action of the elastic plate 608, and compresses the vortex spring 603 to enable the movable plate 602 to be separated from the clamping groove 606, at the moment, the movement of the push rod motor 605 does not drive the movable frame 5 to move, the connecting wire 9 is prevented from being disconnected due to misoperation of an operator, when the battery pack 3 needs to be replaced or overhauled, and the like, the sliding block 611 can be moved towards the direction close to the elastic plate 608, the elastic plate 608 is extruded outwards, the transverse plate 612 moves downwards at the moment, the fixed block 614 is just positioned in the trapezoid groove 613, then the push rod motor 605 can drive the movable frame 5 to move, and when the movable frame 5 moves outwards for a certain distance, the fixed block 614 extrudes one side of the trapezoid groove 613, the transverse plate 612 and the sliding block 611 are pushed upwards and reset under the action of the elastic plate 608, and the extrusion block 609 can still extrude the movable plate 602 after the next movable frame 5 resets.

The lifting mechanism 7 comprises a lifting rod 701 and an alignment assembly, a plurality of fasteners are arranged on the movable frame 5, the lifting rod 701 is arranged in the fasteners in a sliding manner, a plurality of fixing plates 702 are fixed on the lifting rod 701, notches 703 are formed in two ends of the fixing plates 702, a fixing pin 704 is fixed at one end of a rotating plate 8, the fixing pin 704 is hinged in the notches 703 at corresponding positions, a rack 705 is fixed at the upper end of the lifting rod 701, a lifting motor 707 is fixed at the upper end of the mounting frame 1, a gear 706 is fixed on an output shaft of the lifting motor 707, and the gear 706 is positioned in front of the rack 705; when the moving frame 5 moves forward for a certain distance, the rack 705 is meshed with the gear 706, at this time, the lifting motor 707 rotates to drive the gear 706 to rotate, and then drive the rack 705 to move upward, at this time, the fixed plate 702 moves upward along with the lifting rod 701 and drives the rotating plate 8 to rotate, so that the two connectors 10 on the rotating plate 8 are aligned with the positive and negative connecting holes of the battery pack 3 at corresponding positions respectively, and when the moving frame 5 is not moving, the rack 705 and the gear 706 are diverged, so as to prevent the operator from operating the sequence error.

The alignment assembly comprises a magnetic ring 708, the magnetic ring 708 is arranged on the connector 10 in a sliding manner, a limit groove 709 is formed in the connector 10, an iron ring is sleeved outside the positive and negative electrode wiring holes of the battery pack 3, and the diameter of the iron ring is consistent with that of the magnetic ring 708; when the connector 10 is close to the positive and negative electrode wiring holes on the battery pack 3, the magnetic ring 708 and the iron ring attract each other, so that the alignment of the connector 10 and the connecting holes can be further ensured, and the damage during insertion is prevented.

The clamping mechanism 11 comprises a clamping ring 1101 and a limiting block 1104, a fixing groove 1102 is formed in the rotating plate 8, the clamping ring 1101 is fixed on the connector 10, the clamping ring 1101 is positioned in the fixing groove 1102, a sliding cavity 1103 is formed in the side wall of the fixing groove 1102, the limiting block 1104 is arranged in the sliding cavity 1103 in a sliding mode, and a clamping spring 1105 is arranged between the bottom of the limiting block 1104 and the inner wall of the sliding cavity 1103; under the effect of joint spring 1105, stopper 1104 extrudees between to fixed slot 1102, prevents that connector 10 from coming off, and connector 10 can dismantle moreover, conveniently changes connecting wire 9 and connector 10.

The fixing modes are all the most commonly used fixing connection modes in the field, such as welding, bolting and the like; the above electrical components, such as the push rod motor 605, the lifting motor 707, and the battery pack 3, are all products in the prior art, and can be directly purchased and used in the market, and the specific principle is not repeated.

The working principle of the invention is as follows:

after the battery pack 3 is placed in the installation cavity 2 by an operator, the operator moves the sliding block 611 to the direction close to the elastic plate 608, the elastic plate 608 is extruded outwards, the clamping groove 606 on the push rod motor 605 is clamped with the edge of the moving plate 602, the moving frame 5 moves towards the front of the installation frame 1 along with the extension of the push rod motor 605, then the rack 705 is meshed with the gear 706, at the moment, the lifting motor 707 rotates to drive the gear 706 to rotate, and then the rack 705 moves upwards, at the moment, the fixed plate 702 moves upwards along with the lifting rod 701 and drives the rotating plate 8 to rotate, so that the two connectors 10 on the rotating plate 8 are aligned with the positive and negative connecting holes of the battery pack 3 at corresponding positions respectively, when the connectors 10 are close to the positive and negative connecting holes of the battery pack 3, the magnetic rings 708 and the iron rings are mutually attracted, the connectors 10 can be further guaranteed to be aligned with the connecting holes, damage during insertion can be prevented, then the translation mechanism 6 drives the moving frame 5 to reset, at the moment, the connectors 10 are inserted into the connecting holes at the corresponding positions, all the battery packs 3 are connected, no separate connecting wires are needed by the operator, the connecting efficiency is improved, in addition, the connecting efficiency of the connecting wires 1105 is improved, the effect of the connecting wires can be realized, and the connectors 10 can be conveniently removed by the fixing the connectors 10 through the clamping springs 10, and the connection blocks 9 are extruded to the connection boxes 9.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (6)

1. The utility model provides an electrochemical energy storage PACK case of convenient wiring, includes the box and fixes at inside mounting bracket (1) of box, a serial communication port, be provided with a plurality of installation cavity (2) on mounting bracket (1), place group battery (3) in installation cavity (2), group battery (3) front end is provided with positive and negative connecting hole, the upper end of mounting bracket (1) is provided with two connecting seats (4), be provided with the wiring hole on connecting seat (4), the front end of mounting bracket (1) is provided with movable frame (5), be provided with translation mechanism (6) between movable frame (5) and mounting bracket (1), the upper end of movable frame (5) is provided with elevating system (7), rotate on the horizontal pole of movable frame (5) and be provided with rotor plate (8), be provided with connecting wire (9) on rotor plate (8), the both ends of connecting wire (9) are connected with connector (10) respectively, the both ends of rotor plate (8) all are equipped with joint mechanism (11), and two connector (10) are fixed respectively in joint mechanism (11) of corresponding position, movable frame (5) have seted up notch (12) on movable frame (5).

2. The electrochemical energy storage PACK box convenient to wire according to claim 1, wherein the translation mechanism (6) comprises a push rod motor (605) and a moving plate (602), two sides of the moving frame (5) are provided with a plurality of guide sliding rods, the side ends of the mounting frame (1) are fixedly provided with a plurality of sleeves, the guide sliding rods are arranged in the sleeves at corresponding positions in a sliding mode, cavities (601) are formed in the vertical rods at two sides of the moving frame (5), the moving plate (602) is located in the cavities (601), matching holes (604) are formed in the edges of the moving frame (5), a plurality of vortex springs (603) are arranged between the moving plate (602) and the inner sides of the cavities (601), the push rod motor (605) is fixed at the side ends of the mounting frame (1), and clamping grooves (6) (0) (6) matched with the moving plate (602) are formed in the output shaft of the push rod motor (605).

3. The electrochemical energy storage PACK box convenient for wiring according to claim 2, wherein the translation mechanism (6) further comprises an elastic plate (608) fixed at the side end of the mounting frame (1), the end of the elastic plate (608) is fixed with a squeezing block (609), the moving frame (5) is provided with a through hole (607), the squeezing block (609) is aligned with the through hole (607), the side end of the mounting frame (1) is fixed with a sliding rail (610), the sliding rail (610) is provided with a sliding block (611) in a sliding manner, the side end of the sliding block (611) is fixed with a transverse plate (612), the transverse plate (612) is provided with a trapezoid groove (613), the moving frame (5) is fixed with a fixing block (614), and the fixing block (614) is aligned with the trapezoid groove (613).

4. The electrochemical energy storage PACK box convenient to wire according to claim 1, wherein the lifting mechanism (7) comprises a lifting rod (701) and an alignment assembly, a plurality of fasteners are arranged on the moving frame (5), the lifting rod (701) is slidably arranged in the fasteners, a plurality of fixing plates (702) are fixed on the lifting rod (701), notches (703) are formed in two ends of the fixing plates (702), one end of the rotating plate (8) is fixed with a fixing pin (704), the fixing pin (704) is hinged in the notches (703) at corresponding positions, racks (705) are fixed at the upper ends of the lifting rod (701), lifting motors (707) are fixed at the upper ends of the mounting frames (1), gears (706) are fixed on output shafts of the lifting motors (707), and the gears (706) are located in front of the racks (705).

5. The electrochemical energy storage PACK box convenient to wire according to claim 4, wherein the alignment assembly comprises a magnetic ring (708), the magnetic ring (708) is slidably arranged on the connector (10), a limit groove (709) is formed in the connector (10), an iron ring is sleeved outside a positive and negative electrode wiring hole of the battery PACK (3), and the diameter of the iron ring is consistent with that of the magnetic ring (708).

6. The electrochemical energy storage PACK box convenient to wire according to claim 2 or 4, wherein the clamping mechanism (11) comprises a clamping ring (1101) and a limiting block (1104), a fixing groove (1102) is formed in the rotating plate (8), the clamping ring (1101) is fixed on the connector (10), the clamping ring (1101) is located inside the fixing groove (1102), a sliding cavity (1103) is formed in the side wall of the fixing groove (1102), the limiting block (1104) is slidably arranged in the sliding cavity (1103), and a clamping spring (1105) is arranged between the bottom of the limiting block (1104) and the inner wall of the sliding cavity (1103).

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