Negative pressure rope guiding mechanism of handbag rope threading machine
Technical Field
The invention relates to the technical field of handbag processing equipment, in particular to a negative pressure rope guiding mechanism of a handbag rope threading machine.
Background
The structure of the existing handbag for the user to carry has two kinds, one is a hand hole which is directly arranged on the bag body, and the other is a hand rope which is connected on the bag body.
At present, chinese patent publication No. CN201810034775.9 discloses a handbag rope threading device, which comprises two bases and a clamping driving part, the opposite surfaces of the two bases are respectively provided with a butt joint sealing surface, rope threading grooves are respectively arranged on the butt joint sealing surfaces, rope threading channels for allowing rope bodies to slide in are formed by buckling the two rope threading grooves when the two bases are jointed, the rope threading channels comprise rope inlet and rope flushing openings which are respectively positioned at two ends of the rope threading channels, the rope flushing opening of the rope threading channels is provided with a negative pressure part for sucking the rope bodies into the rope threading channels from the rope inlet, the rope accumulating part for accommodating the rope bodies into the rope threading channels from the rope inlet is arranged on one base, the rope inlet of the rope threading channels is provided with a plugging part for plugging the rope threading channels from the rope inlet, and the base is provided with a pushing part for pushing the rope bodies accommodated in the rope threading channels from the rope flushing openings. Although the device can realize the mechanical rope threading operation of the rope body, the negative pressure component in the device needs to manually contact the air suction nozzle with one end connected with the negative pressure pump with the rope punching port, so as to realize the attraction of the rope body into the rope threading channel; according to the scheme, each handbag rope threading machine at least needs to be additionally provided with one manual labor force, and when the quantity of the handbag rope threading machines is large, a large quantity of manual labor force needs to be additionally provided, so that the production cost of factories is greatly increased.
Disclosure of Invention
Aiming at the defects of the prior art, the invention aims to provide a negative pressure rope guiding mechanism of a handbag rope guiding machine, which can overcome the defect that a suction nozzle is required to be manually abutted to a rope flushing port, thereby being beneficial to improving the automation degree of the mechanism and reducing the production cost.
In order to achieve the above purpose, the present invention provides the following technical solutions: the negative pressure rope guiding mechanism of the handbag rope threading machine comprises a rope threading base and a rope threading channel arranged on the rope threading base, wherein the rope threading channel comprises rope inlet and rope punching openings respectively arranged at two ends of the rope threading channel, a negative pressure component used for sucking a rope body into the rope threading channel from the rope inlet is arranged at the rope punching opening of the rope threading channel, a buckling swing arm used for buckling a negative pressure end of the negative pressure component at the rope punching opening is further arranged on the rope threading base, the middle part of the length direction of the buckling swing arm is hinged with the rope threading base, the negative pressure end of the negative pressure component is positioned at one end of the length direction of the buckling swing arm, the other end of the length direction of the buckling swing arm is connected with a buckling driving component used for driving the buckling swing arm to rotate around a hinged shaft of the buckling swing arm and the rope threading base, and the space dimension of the negative pressure end of the buckling swing arm and the rope threading base is matched with the space dimension of the position of the rope punching opening, and the buckling driving component drives the buckling driving component to rotate towards one side face of the buckling swing arm, and the side face of the buckling swing arm can rotate towards one side face of the buckling base relative to the side of the buckling swing arm.
The invention is further provided with: the swing arm connecting rod is hinged between the buckling swing arm and the rope threading base, one end of the swing arm connecting rod is hinged with the rope threading base, the other end of the swing arm connecting rod is hinged with the middle of the buckling swing arm, the buckling driving component comprises a buckling air cylinder arranged below the rope threading base, the end part of a piston rod of the buckling air cylinder is hinged with the end part of the buckling swing arm, and the buckling air cylinder can turn over the buckling swing arm below the rope threading base around the swing arm connecting rod to the side surface provided with a rope flushing opening on the rope threading base through pushing the piston rod.
The invention is further provided with: the end face of the rope flushing port is matched with the horizontal distance between the swing arm connecting rod and the hinged position of the rope threading base in size, and the buckling air cylinder drives the buckling swing arm to outwards turn over until the end face of the negative pressure end of the negative pressure component is in a vertical state when the buckling swing arm is in a vertical state.
The invention is further provided with: the middle part of lock joint swing arm width direction is provided with the swing arm slot that is used for supplying the swing arm connecting rod male, the one end that the swing arm connecting rod inserted in the swing arm slot is articulated with the lock joint swing arm through the articulated shaft, the swing arm slot runs through the setting to the articulated one end of the piston rod of lock joint swing arm and lock joint cylinder, the one end that the piston rod of lock joint cylinder inserted in the swing arm slot also is articulated with the lock joint swing arm through the articulated shaft.
The invention is further provided with: the swing arm slot is provided with the one end extension that is provided with negative pressure part negative pressure end on the lock joint swing arm and is provided with the swing arm that is used for dodging the lock joint cylinder and drive the lock joint swing arm to produce the swing arm that interferes with the swing arm connecting rod and dodge the groove to the below upset of wire rope base, the swing arm connecting rod around dodging inslot pivoted in-process lock joint swing arm with the articulated axial swing arm of lock joint swing arm can overturn to wire rope base below until the lock joint swing arm is located the terminal surface of wire rope punching mouth and is close to wire rope base one side.
The invention is further provided with: the locking device is characterized in that a locking adjusting assembly is connected between a piston rod of the locking air cylinder and the locking swing arm, the locking adjusting assembly comprises a locking adjusting hinging rod hinged with the locking swing arm, a locking adjusting screwing rod capable of being screwed with the piston rod of the locking air cylinder, and a locking adjusting nut screwed on the locking adjusting screwing rod, and the locking adjusting hinging rod is connected with the head end and the tail end of the locking adjusting screwing rod.
The invention is further provided with: the negative pressure component comprises a negative pressure channel arranged on the buckling swing arm, two ends of the negative pressure channel penetrate through the side wall of the buckling swing arm and respectively form a negative pressure end and a negative pressure connecting end, and the negative pressure end is provided with a negative pressure sealing gasket which can be abutted with the rope flushing opening.
In summary, the invention has the following beneficial effects: the buckling driving part drives the buckling swing arm to rotate around the hinging position of the buckling swing arm and the rope threading base until the negative pressure end of the negative pressure part is abutted to the rope threading opening, so that the negative pressure operation can be implemented on the rope threading channel through the negative pressure part, the rope body positioned at the rope feeding opening is sucked into the rope threading channel, the automatic operation of negative pressure rope suction is realized, manual operation is not needed, the mechanical automation degree of the rope threading machine is improved, the manual labor force is reduced, and the production cost is reduced. The tight degree of the butt joint of the negative pressure end and the washout rope mouth can be adjusted by adjusting the acting force when the buckling driving part pushes the buckling swing arm, and the tight degree of the butt joint of the negative pressure end and the washout rope mouth can be effectively improved when the acting force of the buckling driving part pushing the buckling swing arm is large, so that the operation stability of the negative pressure rope guiding mechanism can be improved.
And the rope punching opening is positioned on one side surface of the rope threading base, and the buckling swing arm is hinged with the rope threading base, so that the periphery of one side surface of the rope threading opening, which is arranged on the rope threading base, can be overturned under the drive of the buckling driving component, and the buckling swing arm can be far away from one side surface of the rope threading base, which is provided with the rope punching opening, when the rope threading machine is in subsequent rope threading operation, and interference between the buckling swing arm and other equipment is avoided when the rope threading machine is in subsequent rope threading operation.
Drawings
FIG. 1 is a schematic perspective view of a negative pressure rope guiding mechanism;
FIG. 2 is a schematic perspective view of a fastening swing arm;
FIG. 3 is a schematic view of the negative pressure rope guiding mechanism when the buckling swing arm is turned over below the rope threading base;
fig. 4 is a schematic structural view of the negative pressure rope guiding mechanism when the fastening swing arm is fastened on the rope threading base.
Reference numerals: 1. a rope threading base; 11. a rope threading channel; 111. a rope inlet; 112. a rope punching opening; 2. a buckling driving part; 3. buckling the swing arm; 31. a swing arm connecting rod; 32. a swing arm slot; 33. swing arm dodges the groove; 34. the buckling adjusting component; 341. the hinge rod is buckled and adjusted; 342. buckling and adjusting the screwed rod; 343. buckling an adjusting nut; 35. a negative pressure channel; 36. and a negative pressure sealing gasket.
Detailed Description
The invention will now be described in further detail with reference to the drawings and examples. Wherein like parts are designated by like reference numerals. It should be noted that the words "front", "back", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "bottom" and "top", "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.
Referring to figures 1-4, a negative pressure rope guiding mechanism of a handbag rope guiding machine comprises a rope guiding base 1 and a rope guiding channel 11 arranged on the rope guiding base 1, wherein the rope guiding channel 11 comprises a rope inlet 111 and a rope flushing port 112 which are respectively arranged at two ends of the rope guiding channel 11, a negative pressure component for sucking a rope body into the rope guiding channel 11 from the rope inlet 111 is arranged at the rope flushing port 112 of the rope guiding channel 11, a buckling swing arm 3 for buckling a negative pressure end of the negative pressure component at the rope flushing port 112 is also arranged on the rope guiding base 1, the middle part of the length direction of the buckling swing arm 3 is hinged with the rope guiding base 1, the negative pressure end of the negative pressure component is arranged at one end of the length direction of the buckling swing arm 3, the other end of the length direction of the buckling swing arm 3 is connected with a buckling driving component 2 for driving the buckling swing arm 3 to rotate around a hinge shaft of the buckling swing arm with the rope guiding base 1, the space size of the negative pressure end of the negative pressure component on the buckling swing arm 3 and the hinged position of the rope threading base 1 is matched with the space size of the negative pressure end of the negative pressure component on the buckling swing arm 3 and the hinged position of the buckling swing arm 3 and the rope threading base 1 is matched with the space size of the rope threading opening 112, the buckling driving component 2 drives one end of the negative pressure component on the buckling swing arm 3 to rotate towards one side of the rope threading base 1, the negative pressure end can be buckled with the rope threading opening 112, and the buckling driving component 2 drives one end of the negative pressure component on the buckling swing arm 3 to rotate towards the peripheral side surface of one side surface of the rope threading base 1 opposite to the rope threading opening 112 in the rotating process of the negative pressure end of the negative pressure component on the side far away from the rope threading base 1.
The negative pressure component is a known technology, adopts a common design, and can be connected with a negative pressure pipe by using a negative pressure pump to realize the negative pressure technology, and the end part of the negative pressure pipe can be the negative pressure end of the negative pressure component. According to the scheme, when the scheme is implemented, the buckling driving part 2 drives the buckling swinging arm 3 to rotate around the hinging position of the buckling swinging arm and the rope threading base 1 until the negative pressure end of the negative pressure part is abutted to the rope threading opening 112, negative pressure operation can be implemented on the rope threading channel 11 through the negative pressure part, the rope body positioned at the rope inlet 111 is sucked into the rope threading channel 11, automatic operation of negative pressure rope suction is realized, manual operation is not needed, the mechanical automation degree of a rope threading machine is improved, the labor force is reduced, and the production cost is reduced. The tight degree of the butt joint of the negative pressure end and the rope-flushing opening 112 can be further adjusted by adjusting the acting force when the buckling driving part 2 pushes the buckling swinging arm 3, and the tight degree of the butt joint of the negative pressure end and the rope-flushing opening 112 can be effectively improved when the acting force of the buckling driving part 2 pushing the buckling swinging arm 3 is large, so that the operation stability of the negative pressure rope-guiding mechanism can be improved.
And the rope punching opening 112 is positioned on one side surface of the rope threading base 1, and the buckling swinging arm 3 is hinged with the rope threading base 1, so that the periphery of one side surface of the rope threading base 1, which is provided with the rope punching opening 112, can be overturned under the drive of the buckling driving component 2, and the buckling swinging arm 3 can be far away from one side surface of the rope threading base 1, which is provided with the rope punching opening 112, when a subsequent rope threading operation is performed by the rope threading machine, and interference between the buckling swinging arm 3 and other components is avoided when the subsequent rope threading operation is performed by the rope threading machine.
The swing arm connecting rod 31 is hinged between the buckling swing arm 3 and the rope threading base 1, one end of the swing arm connecting rod 31 is hinged with the rope threading base 1, the other end of the swing arm connecting rod is hinged with the middle of the buckling swing arm 3, the buckling driving part 2 comprises a buckling air cylinder arranged below the rope threading base 1, the end part of a piston rod of the buckling air cylinder is hinged with the end part of the buckling swing arm 3, and the buckling air cylinder can turn over the buckling swing arm 3 positioned below the rope threading base 1 to the side surface of the rope threading base 1, which is provided with the rope flushing port 112, around the swing arm connecting rod 31 by pushing the piston rod. The swing arm connecting rod 31 is hinged between the buckling swing arm 3 and the rope threading base 1, when the buckling driving part 2 turns over the buckling swing arm 3 to the lower part of the rope threading base 1, the buckling swing arm 3 can be far away from the rope threading base 1 through the arrangement of the swing arm connecting rod 31, and interference between the buckling swing arm 3 and other parts during subsequent rope threading operation of the rope threading machine can be effectively avoided; and the lock joint cylinder is located the below of wire rope base 1, and the lock joint cylinder can overturn its below to wire rope base 1 at the in-process that drives lock joint swing arm 3 upset, and this scheme design benefit can effectively utilize wire rope base 1's everywhere space.
The horizontal distance between the end surface of the rope flushing port 112 and the hinged position of the swing arm connecting rod 31 and the rope threading base 1 is matched with the horizontal distance between the end surface of the negative pressure end of the negative pressure component and the hinged position of the swing arm connecting rod 31 and the rope threading base 1 when the buckling air cylinder drives the buckling swing arm 3 to outwards overturn until the buckling swing arm 3 is in a vertical state. The above scheme is characterized in that when the negative pressure end of the negative pressure component is abutted against the washline port 112, the buckling swing arm 3 can be in a vertical state, the buckling swing arm 3 can be kept in a vertical state under the buckling state by limiting the length of the swing arm connecting rod 31, and the buckling swing arm 3 under the state can be beneficial to improving the abutting sealing degree of the negative pressure end of the negative pressure component and the washline port 112, so that the negative pressure effect of the negative pressure component is improved.
The middle part of the width direction of the buckling swing arm 3 is provided with a swing arm slot 32 for inserting a swing arm connecting rod 31, one end of the swing arm connecting rod 31 inserted into the swing arm slot 32 is hinged with the buckling swing arm 3 through a hinge shaft, one end of the swing arm slot 32, which is hinged with a piston rod of a buckling air cylinder, of the buckling swing arm 3 is penetrated, and one end of the piston rod of the buckling air cylinder inserted into the swing arm slot 32 is also hinged with the buckling swing arm 3 through the hinge shaft. The piston rods of the swing arm connecting rod 31 and the buckling air cylinder are hinged to the middle part of the width direction of the buckling swing arm 3 through the swing arm slot 32, and the outer diameter sizes of the piston rods of the swing arm connecting rod 31 and the buckling air cylinder are preferably matched with the width sizes of the swing arm slot 32, so that the swing structure can effectively prevent the piston rods of the swing arm connecting rod 31 and the buckling air cylinder from swinging in the swing arm slot 32, the stability of the buckling swing arm 3 in the overturning process is improved, and the negative pressure end of the negative pressure component can always and accurately align with the rope flushing port 112.
The swing arm slot 32 is provided with the one end extension that is provided with negative pressure part negative pressure end to lock joint swing arm 3 and is provided with the swing arm that is used for dodging lock joint cylinder and drives lock joint swing arm 3 to produce the swing arm dodge groove 33 that interferes with swing arm connecting rod 31 in the upset of wire rope base 1 below, and swing arm connecting rod 31 is around the articulated axial swing arm dodge inslot 33 internal rotation in-process with lock joint swing arm 3 can overturn to wire rope base 1 below until lock joint swing arm 3 is located the terminal surface of wire rope punching mouth 112 and is close to wire rope base 1 one side. The lock joint air cylinder drives the lock joint swing arm 3 to overturn towards the lower side of the rope threading base 1 through the piston rod until the swing arm connecting rod 31 winds around the hinge axis direction swing arm avoidance groove 33 of the lock joint swing arm 3 and can be pulled by the lock joint air cylinder in the process of rotating, until the lock joint swing arm 3 can be completely hidden under the rope threading base 1, namely, the lock joint swing arm 3 does not extend out of a plane formed by the end face of the rope punching port 112, and the swing arm connecting rod 31 gradually approaches the rope threading base 1 towards the swing arm avoidance groove 33 in the process of rotating.
The buckling adjusting assembly 34 is connected between a piston rod of the buckling air cylinder and the buckling swing arm 3, and the buckling adjusting assembly 34 comprises a buckling adjusting hinging rod 341 hinged with the buckling swing arm 3, a buckling adjusting screwed rod 342 which can be screwed with the piston rod of the buckling air cylinder, and a buckling adjusting nut 343 screwed on the buckling adjusting screwed rod 342, wherein the buckling adjusting hinging rod 341 and the head end and the tail end of the buckling adjusting screwed rod 342 are connected. The articulated pole 341 of lock joint regulation and lock joint regulation spiro union pole 342 can integrative setting, the piston rod of lock joint cylinder can axial displacement with the lock joint regulation spiro union pole 342 of its spiro union in rotatory in-process, the lock joint adjusting nut 343 with the spiro union on lock joint regulation spiro union pole 342 again realizes fixed connection between the two with piston rod tip butt, can realize adjusting the stroke of lock joint cylinder propelling movement lock joint swing arm 3 through above-mentioned scheme, make lock joint swing arm 3 drive the effort realization adjustable on the washout mouth 112 of negative pressure end lock joint of negative pressure part, the flexible degree of operation of negative pressure rope guide has been improved greatly.
The negative pressure component comprises a negative pressure channel 35 arranged on the buckling swing arm 3, two ends of the negative pressure channel 35 penetrate through the side wall of the buckling swing arm 3 and respectively form a negative pressure end and a negative pressure connecting end, and the negative pressure end is provided with a negative pressure sealing pad 36 which can be abutted with the rope flushing port 112. A negative pressure channel 35 is formed on the buckling swing arm 3 in a drilling mode, a negative pressure pipe connected with a negative pressure pump is connected with a negative pressure connecting end, and negative pressure can be formed at the negative pressure end after the negative pressure pump is started; and in order to improve the sealing degree when the negative pressure end is abutted with the rope-flushing port 112, the sealing effect can be effectively improved by additionally arranging the negative pressure sealing gasket 36 which can be made of rubber, so that the negative pressure rope-sucking effect of the negative pressure component is favorably ensured.
The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.