CN111001782B - Steering wheel skeleton die-casting production facility - Google Patents

Abstract

The invention relates to a steering wheel framework die-casting production device which comprises a hot melting machine, a die communicated with a discharge hole of the hot melting machine, a cooling pool for cooling and shaping the die to die-cast a framework and a conveying chain plate for conveying the framework into the cooling pool; the conveying chain plate is provided with a conveying assembly, and the conveying assembly comprises a conveying plate hinged with a bracket of the conveying chain plate; a conveying cylinder is arranged on a bracket of the conveying chain plate, the conveying cylinder is hinged with the bracket of the conveying chain plate, a piston rod of the conveying cylinder is hinged with the conveying plate, and the position where the conveying cylinder is connected with the conveying plate is positioned at the lower side of the conveying plate; the edge of the conveying plate is fixedly connected with a baffle plate, and the baffle plate is arranged on one side of the conveying plate, which is far away from the side hinged with the conveying chain plate support. The invention has the effect that the framework can be more easily conveyed into the cooling pool for cooling after being taken out from the mold by a worker.

Description

Steering wheel skeleton die-casting production facility

Technical Field

The invention relates to the technical field of production of steering wheel frameworks, in particular to a steering wheel framework die-casting production device.

Background

The existing manufacturing method of the automobile steering wheel framework has two types, firstly, the magnesium alloy with the magnesium content of more than 95% is adopted as the material, and the whole body is formed by die casting, so that the automobile steering wheel framework has the advantages of accurate size of an assembly process hole formed by die casting, accurate positioning when the components of the steering wheel are assembled on the framework and simple assembly.

Chinese patent publication No. CN102514609A discloses a method for manufacturing a steering wheel frame, which includes welding a steel outer ring, spokes, and splines into a frame blank by using a welding process, and then press-casting an aluminum alloy mounting substrate containing 83% of aluminum on the frame blank by using a die-casting process at 670 ℃.

Chinese patent CN208879670U discloses a novel steering wheel framework die-casting die, which comprises a fixed die, a fixed die frame, a fixed die core, a positioning hole, a round rod, a positioning block, a sprue bush, a through hole, a movable die core and a front core-pulling structure; the top surface of the fixed die frame is provided with a positioning hole; the movable mold frame is provided with a through hole; a round rod is arranged on the fixed die frame and is in fit connection with the through hole; a movable mold core is arranged in the lower end face of the movable mold frame; and a fixed mold core is arranged in the upper end surface of the fixed mold base. Install preceding structure of loosing core and the back structure of loosing core between movable mould frame and the cover half frame among this prior art, and preceding structure of loosing core installs in movable mould frame front end position, and back structure of loosing core installs in cover half frame lower mould frame rear end position, is convenient for guarantee that the steering wheel skeleton can be smooth from the steering wheel drawing of patterns, reduces the sticking of patterns phenomenon of die casting, effectively improves the class product.

The above prior art solutions have the following drawbacks: in the casting process that carries out the steering wheel skeleton, and when taking out the skeleton from the mould, the skeleton generally is the high temperature state, the staff can put into the cooling bath with the skeleton and cool off, cooling water splashes when putting into the skeleton in order to prevent, generally arrange the transport link joint that is used for carrying the skeleton by the cooling bath, the staff puts the skeleton on carrying the link joint, in carrying the link joint to the cooling bath via carrying, be convenient for transport, but in the in-service use of reality, carry the link joint to have certain arrangement height, make the staff be difficult to throw away the skeleton to carrying on the link joint.

Disclosure of Invention

In view of the defects in the prior art, one of the purposes of the present invention is to provide a steering wheel frame die-casting production apparatus, which enables a worker to take out a frame from a mold and then to easily convey the frame to a cooling pool for cooling.

The above object of the present invention is achieved by the following technical solutions:

a steering wheel skeleton die-casting production device comprises a hot melting machine, a die communicated with a discharge hole of the hot melting machine, a cooling pool for cooling and shaping the skeleton formed by die-casting the die, and a conveying chain plate for conveying the skeleton into the cooling pool;

the conveying chain plate is provided with a conveying assembly, and the conveying assembly comprises a conveying plate hinged with a bracket of the conveying chain plate;

a conveying cylinder is arranged on a bracket of the conveying chain plate, the conveying cylinder is hinged with the bracket of the conveying chain plate, a piston rod of the conveying cylinder is hinged with the conveying plate, and the position where the conveying cylinder is connected with the conveying plate is positioned at the lower side of the conveying plate;

the edge of the conveying plate is fixedly connected with a baffle plate, and the baffle plate is arranged on one side of the conveying plate, which is far away from the side hinged with the conveying chain plate support.

Through adopting above-mentioned technical scheme, after the staff takes out the skeleton, the transport plate is in the extreme low position this moment, the staff throws the skeleton into the transport plate on, the baffle prevents that the skeleton from sliding down, then the transportation cylinder promotes the transport plate, make the transport plate keep away from one side of carrying the link joint and constantly rise, when being higher than carrying the link joint, the skeleton slides down from the transport plate, slide to carrying on the link joint, compare in directly throwing the skeleton into carrying on the link joint, under the effect of transportation subassembly, the staff can send the skeleton into the cooling tank more easily.

The present invention in a preferred example may be further configured to: the conveying chain plate is also provided with a correcting component for correcting the position of the framework on the conveying chain plate;

the correcting assembly comprises two correcting plates which are obliquely arranged in a splayed shape, a lifting cylinder for controlling the correcting plates to lift and a mounting frame serving as a mounting position of the lifting cylinder;

the lifting cylinder is fixedly connected to the mounting frame and is arranged vertically downwards; the lifting cylinder is arranged on the upper side of the conveying chain plate;

when a piston rod of the lifting cylinder is not popped up, the correcting plate is positioned on the upper side of the conveying chain plate and is not in contact with the conveying chain plate.

By adopting the technical scheme, when the position of the framework on the conveying chain plate is corrected, the lifting cylinder is used for controlling the correction plate to descend to enable the correction plate to be in contact with the conveying chain plate, when the conveying chain plate drives the framework to advance, the framework can be in contact with the correction plate, the two correction plates are arranged in a splayed shape and can guide the advancing direction of the framework, so that the framework enters the middle position of the two correction plates, then the lifting cylinder is used for driving the correction plate to ascend, the blocking of the correction plate on the framework is removed, and the framework enters the cooling tank along the conveying chain plate to be cooled.

The present invention in a preferred example may be further configured to: the two straightening plates are connected into a whole.

Through adopting above-mentioned technical scheme, let two correct the board and be convenient for be connected with the piston rod of lift cylinder, the lift of the board is corrected to the official working of being convenient for.

The present invention in a preferred example may be further configured to: a lifting assembly used for controlling the lifting of the framework in the cooling pool is arranged in the cooling pool;

the lifting assembly comprises a lifting basket, and a gap for cooling liquid to pass through is reserved on the lifting basket; the lifting basket is driven to lift through a lifting motor.

Through adopting above-mentioned technical scheme, when the skeleton entered into the cooling bath from carrying the link joint, can drop earlier on promoting the basket, promote during the basket descends make the skeleton sink into the coolant liquid, carry out abundant cooling, the back that finishes of cooling, along with promoting the rising of basket, drive the skeleton and deviate from the coolant liquid, the staff of being convenient for takes out the skeleton from the cooling bath, need not go again to stir the coolant liquid in the cooling bath and fish out the skeleton.

The present invention in a preferred example may be further configured to: the lifting assembly further comprises a lifting frame, the lifting motor is fixedly connected to the lifting frame, a rotating shaft is fixedly connected to an output shaft of the lifting motor and is rotatably connected with the lifting frame, a lifting belt is fixedly connected to the rotating shaft, one end of the lifting belt is fixedly connected with the rotating shaft, and the other end of the lifting belt is fixedly connected with the lifting basket.

Through adopting above-mentioned technical scheme, when the promotion motor drove pivot corotation, can make the lifting belt winding in the pivot, drive the promotion basket and rise, when the promotion motor drove the pivot reversal, can emit the lifting belt of winding in the pivot, drive the promotion basket and descend, be convenient for drive the promotion basket and go up and down.

The present invention in a preferred example may be further configured to: the hot melting machine is provided with a cooling furnace end, the cooling furnace end is box-shaped and is communicated with the interior of the hot melting machine, a feed inlet is formed in the cooling furnace end, the cooling furnace end is arranged on the upper side of the hot melting machine, and the feed inlet is formed in the cooling furnace end along the horizontal direction.

Through adopting above-mentioned technical scheme, during the feed inlet entering hot melt machine on the raw materials via the cooling furnace end, the raw materials that get into in the hot melt machine from the feed inlet need just can get into the hot melt machine through the slope in addition for the molten liquid that arouses in the raw materials entering hot melt machine splashes the condition and is less than the condition of vertical entering, prevents that the molten liquid from the feed inlet is gone out and is revealed.

The present invention in a preferred example may be further configured to: and a sealing plate for sealing the feed inlet is arranged on the cooling furnace head.

Through adopting above-mentioned technical scheme, the feed inlet is sealed to the closing plate, prevents that the temperature from appearing revealing from the feed inlet.

The present invention in a preferred example may be further configured to: the hot melting machine is provided with a lifting cylinder for lifting the sealing plate, a supporting rod is fixedly connected to the hot melting machine, the lifting cylinder is hinged with the supporting rod, and a piston rod of the lifting cylinder is hinged with the sealing plate.

By adopting the technical scheme, when the piston rod on the lifting cylinder is popped up, the closing plate is pushed, and the lifting cylinder rotates along the position hinged with the support rod in the lifting process of the closing plate; when the piston rod of the lifting cylinder is recovered, the closing plate is pulled, and the closing plate closes the feeding hole.

The present invention in a preferred example may be further configured to: and a lifting machine used for conveying raw materials is arranged beside the hot melting machine, a pushing cylinder is arranged on the lifting machine, and the pushing cylinder is arranged on the lifting machine towards the cooling furnace end.

Through adopting above-mentioned technical scheme, under the effect of lifting machine, the raw materials can get into the hot melt machine more easily.

The present invention in a preferred example may be further configured to: the elevator is provided with a guide plate; the guide plate is arranged between the hot melting machine and the hoister.

Through adopting above-mentioned technical scheme, the guide board guides the route that the raw materials got into the feed inlet from the lifting machine, prevents that the raw materials from falling into between hot melt machine and the lifting machine, is convenient for during the raw materials gets into the feed inlet.

In summary, the invention includes at least one of the following beneficial technical effects:

1. by arranging the transportation assembly, and under the action of the transportation assembly, workers can more easily send the framework into the cooling pool;

2. the straightening assembly is arranged, so that the advancing position of the framework on the conveying chain plate is conveniently guided;

3. the lifting assembly is arranged, so that workers can take the framework out of the cooling pool conveniently;

4. through setting up cooling furnace end and lifting machine, the staff of being convenient for is reinforced in to the hot melt machine to protect the reinforced process of hot melt machine.

Drawings

FIG. 1 is a schematic diagram of a framework die-casting production apparatus according to the present embodiment;

FIG. 2 is a schematic view of a cooling furnace head disposed at the hot melt machine in the present embodiment;

fig. 3 is a schematic view of the conveyor link plate with the conveying assembly and the straightening assembly thereon in this embodiment;

FIG. 4 is a schematic view of the cooling tank connected to a conveying chain plate in the present embodiment;

fig. 5 is a schematic view of the lifting assembly in this embodiment.

In the figure, 1, a hot melting machine; 2. a mold; 3. cooling the furnace end; 31. a feed inlet; 32. a closing plate; 33. lifting the cylinder; 34. a strut; 4. a hoist; 41. a push cylinder; 42. a guide plate; 5. conveying chain plates; 51. a support; 6. a cooling pool; 7. a transport assembly; 71. a transport plate; 72. a baffle plate; 73. a transport cylinder; 8. a corrective component; 81. straightening a plate; 82. a lifting cylinder; 83. a mounting frame; 9. a lifting assembly; 91. lifting the basket; 92. a hoisting frame; 93. a hoisting motor; 94. a rotating shaft; 95. a lifting belt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the steering wheel skeleton die-casting production equipment disclosed by the invention comprises a hot melting machine 1 and a die 2 communicated with a discharge hole of the hot melting machine 1, wherein the hot melting machine 1 is used for melting a magnesium ingot or an aluminum ingot serving as a skeleton raw material and injecting slurry into the die 2, and the die 2 presses down the slurry and waits for the slurry to be cooled and formed.

Install cooling furnace end 3 on hot melt machine 1 for let during the staff drops into hot melt machine 1 with the raw materials, cooling furnace end 3 is the box, with the inside intercommunication of hot melt machine 1, has seted up feed inlet 31 on cooling furnace end 3, and cooling furnace end 3 arranges the upside at hot melt machine 1, and feed inlet 31 is seted up along the horizontal direction on cooling furnace end 3 in addition. Raw materials enter the hot melting machine 1 through the feeding hole 31 on the cooling furnace end 3, and the raw materials entering the hot melting machine 1 from the feeding hole 31 can enter the hot melting machine 1 only by inclining, so that the splashing condition of molten liquid caused by the raw materials entering the hot melting machine 1 is smaller than the condition of vertical entering, leakage of the molten liquid from the feeding hole 31 is prevented, a closing plate 32 used for closing the feeding hole 31 is installed on the cooling furnace end 3, the closing plate 32 is hinged with the cooling furnace end 3, the hinged position is located on the lower side of the closing plate 32, and the closing plate 32 is lifted from bottom to top when being opened.

The hot melting machine 1 is provided with a lifting cylinder 33 for lifting the closing plate 32, a support rod 34 is fixedly connected to the hot melting machine 1, the lifting cylinder 33 is hinged with the support rod 34, and a piston rod of the lifting cylinder 33 is hinged with the closing plate 32. When the piston rod on the lifting cylinder 33 is ejected, the closing plate 32 is pushed, and the lifting cylinder 33 rotates along the position hinged with the support rod 34 in the lifting process of the closing plate 32; when the piston rod of the lifting cylinder 33 is retracted, the closing plate 32 is pulled, so that the closing plate 32 closes the feed opening 31.

Still arranged the lifting machine 4 that is used for carrying the raw materials beside hot melt machine 1, install push cylinder 41 on lifting machine 4, and be provided with guide plate 42 on lifting machine 4, push cylinder 41 is arranged towards cooling furnace end 3 on lifting machine 4, a raw materials for transporting lifting machine 4 is released from lifting machine 4, make the raw materials can directly get into in feed inlet 31 when closing plate 32 opens, and under guide plate 42's effect, guide the route that the raw materials got into feed inlet 31 from lifting machine 4, prevent that the raw materials from falling into between hot melt machine 1 and the lifting machine 4, be convenient for the raw materials gets into in the feed inlet 31. Wherein the closing plate 32, when opened, is aligned with the guide plate 42 to provide an advancing path for the stock.

A conveying chain plate 5 is arranged beside the die 2, a cooling pool 6 is arranged at the other end of the conveying chain plate 5, cooling liquid is injected into the cooling pool 6, and when a worker opens the die, the die-cast framework is clamped out of the die 2 and thrown onto the conveying chain plate 5 and is conveyed into the cooling pool 6 through the conveying chain plate 5 for cooling and shaping. Therefore, the reason that the framework is thrown onto the conveying chain plate 5 by the worker is mainly because the temperature of the framework is higher when the mold is opened.

In order to make it easier for the worker to place the frame on the conveying chain plate 5, referring to fig. 1 and 3, a conveying assembly 7 is disposed on the conveying chain plate 5, the conveying assembly 7 includes a conveying plate 71 hinged with the bracket 51 of the conveying chain plate 5, a baffle plate 72 is fixedly connected with the edge of the conveying plate 71, and a conveying cylinder 73 (see fig. 4) is mounted on the bracket 51 of the conveying chain plate 5, the conveying cylinder 73 is hinged with the bracket 51 of the conveying chain plate 5, and the piston rod of the conveying cylinder 73 is hinged with the conveying plate 71, and the position where the conveying cylinder 73 is connected with the conveying plate 71 is located at the lower side of the conveying plate 71. When the piston rod of the transport cylinder 73 is not ejected, the transport plate 71 is disposed obliquely, and the side of the transport plate 71 remote from the transport link plate 5 is close to the ground and lower than the transport link plate 5, which is the initial position of the transport plate 71. When the piston rod of the transport cylinder 73 is ejected, the transport plate 71 is lifted so that the side of the transport plate 71 facing away from the conveyor link 5 is facing away from the ground and is higher than the conveyor link 5. The baffle 72 is used to prevent the frame from sliding off the transport plate 71 when the frame is dropped onto the transport plate 71. The other two sides of the transport plate 71 are not provided with baffles 72, which mainly facilitate the worker to throw the skeleton onto the transport plate 71 at the side.

After the staff takes out the skeleton, transport plate 71 was in initial position this moment, the staff throws away the skeleton to transport plate 71 on, baffle 72 prevents that the skeleton from sliding down, then transportation cylinder 73 promotes transport plate 71, make transport plate 71 keep away from the one side of carrying link joint 5 constantly rising, when being higher than carrying link joint 5, the skeleton slides down from transport plate 71, slide to carrying link joint 5 on, compare in directly throwing away the skeleton to carrying link joint 5 on, under the effect of transportation subassembly 7, the staff can send the skeleton into cooling bath 6 more easily.

Referring to fig. 4 and 5, a straightening assembly 8 for straightening the position of the framework on the conveying chain plate 5 is further provided on the conveying chain plate 5. The correcting unit 8 includes two correcting plates 81 arranged in a splayed shape with inclination, a lifting cylinder 82 for controlling the lifting of the correcting plates 81, and a mounting bracket 83 as a mounting position of the lifting cylinder 82. Under correction assembly 8's effect, the skeleton can be accurate get into cooling bath 6 in, prevent to get into the in-process deviation that appears, lead to the unable condition of getting into cooling bath 6 of skeleton to appear.

Specifically, the mounting frame 83 is fixedly connected to the bracket 51 of the conveying link plate 5 and is disposed on the upper side of the conveying link plate 5, and the lifting cylinder 82 is fixedly connected to the mounting frame 83 and is disposed vertically downward. The piston rod of the elevating cylinder 82 is connected to the correction plate 81, and the two correction plates 81 are integrally connected in order to facilitate the connection of the two correction plates 81 to the piston rod of the elevating cylinder 82. Wherein the two straightening plates 81 are arranged symmetrically along the center line of the length direction of the conveying chain plate 5. When the piston rod of the lift cylinder 82 is not ejected, the correction plate 81 is positioned on the upper side of the conveyor link plate 5 and does not contact the conveyor link plate 5.

When the position of the framework on the conveying chain plate 5 is corrected, the lifting cylinder 82 controls the correction plate 81 to descend, the correction plate 81 is in contact with the conveying chain plate 5, when the conveying chain plate 5 drives the framework to advance, the framework can be in contact with the correction plate 81, the two correction plates 81 are arranged in a splayed shape, the advancing direction of the framework can be guided, the framework enters the middle position of the two correction plates 81, then the lifting cylinder 82 drives the correction plate 81 to ascend, the blocking of the correction plate 81 on the framework is removed, and the framework enters the cooling pool 6 along the conveying chain plate 5 to be cooled.

In the cooling bath 6, in order to facilitate taking out the skeleton from the cooling bath 6, a lifting unit 9 for controlling the lifting of the skeleton in the cooling bath 6 is provided in the cooling bath 6.

Lifting unit 9 includes lifting basket 91, and lifting basket 91 is formed by a plurality of straight-bar fixed connection, has the clearance between the adjacent straight-bar, and the coolant liquid of being convenient for passes through. At the outside installation hoisting frame 92 of cooling bath 6, fixedly connected with elevator motor 93 on hoisting frame 92, fixedly connected with pivot 94 on elevator motor 93's the output shaft, pivot 94 rotates with elevator frame 92 to be connected, and fixedly connected with elevator belt 95 in pivot 94, elevator belt 95's one end and pivot 94 fixed connection, the other end and hoisting basket 91 fixed connection, when elevator motor 93 drives pivot 94 corotation, can make elevator belt 95 twine in pivot 94, it rises to drive hoisting basket 91, when elevator motor 93 drives pivot 94 reversal, can emit hoisting belt 95 of winding in pivot 94, it descends to drive hoisting basket 91.

When the skeleton entered into cooling tank 6 from carrying link joint 5, can drop earlier on promoting basket 91, make the skeleton sink into the coolant liquid when promoting basket 91 descends, carry out abundant cooling, the back that finishes in the cooling, along with promoting the rising of basket 91, drive the skeleton and deviate from the coolant liquid, the staff of being convenient for takes out the skeleton from cooling tank 6, need not go to mix the coolant liquid in cooling tank 6 again and fish out the skeleton.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (4)

1. The utility model provides a steering wheel skeleton die-casting production facility which characterized in that: the hot melting machine comprises a hot melting machine (1), a die (2) communicated with a discharge hole of the hot melting machine (1), a cooling pool (6) for cooling and shaping a framework cast by the die (2), and a conveying chain plate (5) for conveying the framework into the cooling pool (6);

the conveying chain plate (5) is provided with a conveying assembly (7), and the conveying assembly (7) comprises a conveying plate (71) hinged with a bracket (51) of the conveying chain plate (5);

a conveying cylinder (73) is mounted on a bracket (51) of the conveying chain plate (5), the conveying cylinder (73) is hinged with the bracket (51) of the conveying chain plate (5), a piston rod of the conveying cylinder (73) is hinged with the conveying plate (71), and the position where the conveying cylinder (73) is connected with the conveying plate (71) is located on the lower side of the conveying plate (71);

a baffle plate (72) is fixedly connected to the edge of the conveying plate (71), and the baffle plate (72) is arranged on one side, far away from the side hinged with the bracket (51) of the conveying chain plate (5), of the conveying plate (71);

the hot melting machine (1) is provided with a cooling furnace end (3), the cooling furnace end (3) is box-shaped and is communicated with the interior of the hot melting machine (1), a feeding hole (31) is formed in the cooling furnace end (3), the cooling furnace end (3) is arranged on the upper side of the hot melting machine (1), and the feeding hole (31) is formed in the cooling furnace end (3) along the horizontal direction;

a closing plate (32) used for closing the feed inlet (31) is arranged on the cooling furnace end (3);

the hot melting machine (1) is provided with a lifting cylinder (33) for lifting the closing plate (32), a support rod (34) is fixedly connected to the hot melting machine (1), the lifting cylinder (33) is hinged with the support rod (34), and a piston rod of the lifting cylinder (33) is hinged with the closing plate (32);

the hot melting machine (1) is also provided with a lifting machine (4) used for conveying raw materials, a pushing cylinder (41) is arranged on the lifting machine (4), and the pushing cylinder (41) is arranged on the lifting machine (4) towards the cooling furnace end (3);

a guide plate (42) is arranged on the hoisting machine (4); the guide plate (42) is arranged between the hot-melting machine (1) and the hoisting machine (4);

the conveying chain plate (5) is also provided with a correcting component (8) for correcting the position of the framework on the conveying chain plate (5);

the correcting component (8) comprises two correcting plates (81) which are obliquely arranged in a splayed shape, a lifting cylinder (82) used for controlling the lifting of the correcting plates (81), and a mounting rack (83) used as the mounting position of the lifting cylinder (82);

the lifting cylinder (82) is fixedly connected to the mounting frame (83) and is vertically arranged downwards; the lifting cylinder (82) is arranged on the upper side of the conveying chain plate (5);

when the piston rod of the lifting cylinder (82) is not popped up, the correcting plate (81) is positioned on the upper side of the conveying chain plate (5) and is not contacted with the conveying chain plate (5).

2. The steering wheel skeleton die-casting production equipment of claim 1, characterized in that: the two straightening plates (81) are connected into a whole.

3. The steering wheel skeleton die-casting production equipment of claim 1, characterized in that: a lifting assembly (9) for controlling the lifting of the framework in the cooling pool (6) is arranged in the cooling pool (6);

the lifting assembly (9) comprises a lifting basket (91), and a gap for the cooling liquid to pass through is reserved on the lifting basket (91); the lifting basket (91) is driven to lift through a lifting motor (93).

4. The steering wheel skeleton die-casting production equipment of claim 3, characterized in that: lifting unit (9) still includes hoisting frame (92), and lifting motor (93) fixed connection is on hoisting frame (92), fixedly connected with pivot (94) on the output shaft of lifting motor (93), and pivot (94) rotate with hoisting frame (92) and are connected, and fixedly connected with lifting belt (95) in addition on pivot (94), the one end and pivot (94) fixed connection of lifting belt (95), the other end and promote basket (91) fixed connection.

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