CN112421341A

CN112421341A - Production equipment for protective sleeve of wiring terminal

Info

Publication number: CN112421341A
Application number: CN202011465743.8A
Authority: CN
Inventors: 陈新宙
Original assignee: Yueqing Jiayi Automation Equipment Co ltd
Current assignee: Yueqing Jiayi Automation Equipment Co ltd
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2021-02-26

Abstract

The invention relates to a production device of a protective sleeve of a wiring terminal, which comprises a rack, a bearing frame and a plurality of die heads; a slide rail is arranged on the frame; the bearing frame can be arranged on the slide rail in a sliding way; the die heads are arranged on the bearing frame in a square array, and the rack is provided with a driving assembly capable of driving the bearing frame to slide on the slide rail; a blanking area, a release agent coating area, a cooling area, a drying area and a hanging area are sequentially arranged on the rack along the length direction of the slide rail; a waiting area for the bearing frame to wait for waiting is arranged above the blanking area; scribble release agent district and contain the release agent groove, rotate and locate the swivel mount in the release agent groove and can drive swivel mount wobbling driving piece A, be the row along its axis on the swivel mount and be equipped with the rotatable rotatory brush of a plurality of, be equipped with the rotatory brush pivoted driving piece B of a plurality of drive on the swivel mount, the unloading district contains the feed opening, is equipped with the air cock that can blow off the protective sheath on the die head to feed opening department in the frame. By adopting the technical scheme, the wiring terminal protective sleeve can be produced in batch and automatically.

Description

Production equipment for protective sleeve of wiring terminal

Technical Field

The invention relates to the field of electrical equipment, in particular to a production device for a protective sleeve of a wiring terminal.

Background

The wiring terminal is an accessory product for realizing electrical connection, and is used for connecting a lead and transmitting an electrical signal. The protective sleeve is used for fixing and protecting the wiring terminal and preventing the wiring terminal from being damaged due to extrusion; in addition, the protective sleeve can also prevent the connection part of the wiring terminal and the lead from loosening, so that the connection of the wiring terminal and the lead is not easy to lose efficacy.

At present, the production process of producing the connecting terminal protective sleeve sequentially comprises the steps of manually coating a mold release agent on a die head, placing a grinding head into a drying box for drying, hanging a raw material on the dried die head, placing the grinding head with the raw material into the drying box for drying, and taking down the formed protective sleeve on the die head, so that the process of producing the connecting terminal protective sleeve is completed.

Manual operation wastes time and energy, and causes low production efficiency, so an urgent need exists for an apparatus capable of producing protective sleeves in batches and automatically.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects of the prior art, the invention provides a terminal protective sleeve production device which can be used for producing terminal protective sleeves in batch and automatically.

The technical scheme of the invention is as follows: a production device for a protective sleeve of a wiring terminal comprises a frame, a bearing frame and a plurality of die heads; a slide rail is arranged on the frame; the bearing frame can be arranged on the slide rail in a sliding way; the plurality of die heads are arranged on the upper frame of the bearing frame in a square array, and are provided with driving components capable of driving the bearing frame to slide on the slide rails; a blanking area, a release agent coating area, a cooling area, a drying area and a hanging area are sequentially arranged on the rack along the length direction of the slide rail; a waiting area for the bearing frame to wait for waiting is arranged above the blanking area; the demolding agent coating area comprises a demolding agent groove fixedly arranged on the rack and used for containing demolding agents, a rotating frame rotatably arranged in the demolding agent groove, and a driving piece A capable of driving the rotating frame to swing, a plurality of rotatable rotating brushes are arranged on the rotating frame in a row along the rotating axis of the rotating frame, a driving piece B capable of driving the rotating brushes to rotate is further arranged on the rotating frame, the rotating frame is arranged to the demolding agent groove, the rotating brushes can be arranged in the demolding agent groove in a soaked mode, the bearing frame is located at the demolding agent coating area, the rotating frame can be arranged to the bearing frame, and the rotating brushes arranged in the row can coat the demolding agents on the die heads arranged in a square matrix; the drying area comprises a drying box which can be fixed on the rack and covers the slide rail; the hanging area comprises a raw material groove for containing raw materials, and the rack is provided with a lifting assembly A capable of driving the raw material groove to lift; the cooling area comprises a cooling liquid tank for containing cooling liquid, and the rack is provided with a lifting assembly B capable of driving the cooling liquid tank to lift; the blanking area comprises a blanking port, and the frame is provided with an air faucet capable of blowing the protective sleeve on the die head to the blanking port.

By adopting the technical scheme, a plurality of die heads are arranged on the bearing frame, the driving component drives the bearing frame to slide on the slide rail, when the bearing frame is positioned at the region for coating the demolding agent, the driving component A drives the rotating frame to swing, so that the rotating brush can be soaked in the demolding agent and can swing to the lower part of the bearing frame, the driving component B drives the rotating brush to rotate, so that the demolding agent can be uniformly coated on the die heads by the rotating brush in the moving process of the bearing frame, the die heads are moved to the drying region through the bearing frame, the die heads are dried in the drying box and then moved to the material hanging region through the bearing frame, the lifting component A drives the raw material groove to ascend, so that the die heads positioned on the bearing frame can be soaked in the raw materials in the raw material groove and then moved to the drying region, the drying box dries the die heads hung with the raw materials and then moved to the cooling region through the bearing, make the die head soak in the coolant liquid for protective sheath cooling back shaping, the rethread bears the frame and removes to the unloading district, and the air cock will be located the fashioned protective sheath on the die head and blow off to feed opening department and collect, and the whole journey of production binding post protective sheath is accomplished by this equipment is automatic, and the protective sheath that production binding post that this equipment can the batchization used, has solved the problem that the production efficiency is low that current dependence manual production caused.

The invention further provides that: the drive assembly contains rack A who locates and bear the frame both sides and rotates and locate in the frame and be located a plurality of drive gear that slide rail top interval set up, rack A and slide rail parallel arrangement, and drive gear and rack A mesh set up, and two adjacent drive gear's interval is less than rack A's length setting, be equipped with in the frame and drive a plurality of drive gear pivoted driving piece C.

By adopting the above further arrangement, the driving piece C drives the plurality of transmission gears arranged on the rack to rotate, and the plurality of transmission gears drive the rack A to move, so that the bearing frame can automatically slide on the slide rail, the die heads can sequentially slide to the release agent coating area, the drying area, the hanging area, the drying area, the cooling area and the blanking area from the waiting area through the bearing frame, and the automatic production of the wiring terminal protective sleeve is realized.

The invention further provides that: the stoving case is equipped with the lifter plate that closes or open the stoving case along the length direction of slide rail, be equipped with the driving piece D that can drive the lifter plate lift in the frame, the stoving case is last to be equipped with guide way A along the lifter plate direction, be equipped with on the lifter plate and to insert and locate in the guide way A and can go up and down the guide A that slides in the guide way A.

Adopt the aforesaid to further set up again, driving piece D drive lifter plate goes up and down to this realizes bearing the frame and can sliding to the stoving incasement, and the stoving case can carry out drying process to the die head, or bears a roll-off stoving case, makes the die head can carry out next process and handle, realizes automatic stoving function.

Still further arrangements of the invention are: the guide groove A is provided with an extending section which can enable the lifting plate to move towards the drying box when the drying box is closed by the lifting plate in an upward bending mode.

Adopt above-mentioned still further setting again, when driving piece D drive lifter plate closed the stoving case for the lifter plate can further seal the stoving case.

Still further arrangements of the invention are: the blanking area is provided with a lifting seat, a plurality of air nozzles are arranged at intervals along the length direction of the lifting seat, and two ends of the lifting seat are respectively provided with a lifting component C capable of lifting the lifting seat.

By adopting the above further arrangement, the height of the air nozzle is adjusted, so that the air nozzle can deal with the protective sleeves with different specifications, and the protective sleeves are blown off from the die head.

Still further arrangements of the invention are: the lifting component C comprises a screw fixed at two ends of the lifting seat and a fixing frame fixed on the frame and corresponding to the screw, the fixing frame is rotatably provided with a threaded sleeve matched with the screw in a threaded manner, one end of the threaded sleeve is provided with a bevel gear A, and the fixing frame is rotatably provided with a bevel gear B meshed with the bevel gear A and an operating rod capable of driving the bevel gear B to rotate.

Adopt the aforesaid to set up still further, through rotating the action bars, bevel gear B drives bevel gear A and rotates, and bevel gear A drives the swivel nut and rotates for the screw rod makes elevating movement, realizes the altitude mixture control to the air cock, so that the air cock can deal with the protective sheath of different specifications, and blows off the protective sheath from the die head.

Still further arrangements of the invention are: the lifting assembly A comprises a screw rod arranged at the bottom of the raw material groove and a driving piece E which is arranged on the frame and can drive the screw rod to lift, a guide groove B is arranged in the frame along the lifting direction of the raw material groove, and a guide piece B which can be inserted into the guide groove B and can lift and slide along the guide groove B is arranged at the periphery of the raw material groove.

Adopt above-mentioned still further setting, driving piece E drive lead screw is elevating movement for raw material groove goes up and down, and guide B inserts and locates in guide B, and when elevating movement was done to raw material groove, guide B can slide in guide B, and the raw material groove is more will be stable in the in-process of doing elevating movement.

Still further arrangements of the invention are: the lifting assembly B comprises a rack B arranged at the bottom of the cooling liquid tank and a driving piece E arranged on the frame and capable of driving the rack B to lift, a guide groove C is formed in the frame along the lifting direction of the cooling liquid tank, and a guide piece C which can be inserted into the guide groove C and can lift and slide along the guide groove C is arranged on the periphery of the cooling liquid tank.

By adopting the above further arrangement, the driving piece E drives the rack B to do lifting motion, so that the cooling liquid tank is lifted, the guide piece C is inserted into the guide groove C, and when the cooling liquid tank does lifting motion, the guide piece C can slide in the guide groove C, so that the cooling liquid tank is more stable in the process of lifting motion.

Drawings

FIG. 1 is a block diagram of an embodiment of the present invention;

FIG. 2 is a block diagram of an embodiment of the present invention;

FIG. 3 is a top view of an embodiment of the present invention;

FIG. 4 is a schematic diagram of a drying box according to an embodiment of the present invention;

FIG. 5 is a block diagram of a mold release area of an embodiment of the present invention;

FIG. 6 is a coolant configuration diagram according to an embodiment of the present invention;

FIG. 7 is a diagram of a blanking area structure according to an embodiment of the present invention;

FIG. 8 is a diagram of a lift assembly C according to an embodiment of the present invention;

FIG. 9 is a coolant field configuration of an embodiment of the present invention;

fig. 10 is a structural diagram of a hanging material area according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indications (such as up, down, front, and back … …) in the description of the present invention are only used to explain the relative positional relationship, movement, etc. of the components in a specific posture (the direction indicated by the arrow X shown in fig. 1 and 2 is defined as "up"), and if the specific posture is changed, the directional indication is changed accordingly.

In addition, in the description of the present invention, "a number" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to 10, the terminal protective sheath manufacturing apparatus of the present invention comprises a frame 100, a carrier 200 and a plurality of dies 300; a slide rail 101 is arranged on the frame 100; the bearing frame 200 can be arranged on the slide rail 101 in a sliding way; the plurality of die heads 300 are arranged on the bearing frame 200 in a square array; the frame 100 is provided with a driving assembly 400 which can drive the bearing frame 200 to slide on the slide rail 101;

wherein, drive assembly 400 contains rack A401 and the rotation of locating the both sides of bearing frame 200 and locates on frame 100 and be located a plurality of drive gear 402 that slide rail 101 top interval set up, rack A401 and slide rail 101 parallel arrangement, and drive gear 402 sets up with rack A401 meshing, and the interval of two adjacent drive gear 402 is less than the length setting of rack A401, be equipped with on the frame 100 and drive a plurality of drive gear 402 pivoted driving piece C403, driving piece C drive gear rotates, and drive gear drives rack A and removes for bear the frame and can slide on the slide rail automatically, in this embodiment, driving piece C is servo motor.

A blanking area 500, a release agent coating area 600, a cooling area 700, a drying area 800 and a hanging area 900 are sequentially arranged on the rack 100 along the length direction of the slide rail, and a waiting area 1000 for the bearing frame 200 to stand is arranged above the blanking area 500;

wherein, the carrier passes through release agent district, drying zone, string material district, drying zone, cooling space and unloading district in proper order at drive assembly's drive and according to the production process requirement of binding post protective sheath.

The mold release agent coating area 600 comprises a mold release agent groove 601 fixedly arranged on the frame 100 and used for containing a mold release agent, a rotating frame 602 rotatably arranged in the mold release agent groove 601, and a driving piece A603 capable of driving the rotating frame 602 to swing, wherein a plurality of rotatable rotating brushes 604 are arranged on the rotating frame 602 in rows along the rotating axis of the rotating frame, a driving piece B605 capable of driving the plurality of rotating brushes 604 to rotate is further arranged on the rotating frame 602, the rotating brushes can be arranged in the mold release agent groove when the rotating frame swings to the mold release agent groove, the bearing frame is arranged at the mold release agent coating area and can swing to the bearing frame, and the rotating brushes can coat the mold release agent on the mold head;

the drying zone 800 comprises a drying box 801 which can be fixed on the rack 100 and covers the slide rail 101;

the drying box 801 is provided with a lifting plate 802 for closing or opening the drying box 801 along the length direction of the sliding rail 101, the rack 100 is provided with a driving piece D803 capable of driving the lifting plate 802 to lift, the drying box 801 is provided with a guide groove a8011 along the direction of the lifting plate 802, the lifting plate 802 is provided with a guide piece a804 capable of being inserted into the guide groove a8011 and sliding up and down in the guide groove a8011, and the driving piece D drives the lifting plate to lift, so that the bearing frame can slide into the drying box, the drying box can dry the die head or slide out of the drying box, the die head can be processed in the next process, and an automatic drying function is realized.

The guide groove a8011 is bent upward to form an extending section 8012 which can enable the lifting plate 801 to move towards the drying box 802 when the lifting plate 802 closes the drying box 801, and when the driving member D drives the lifting plate to close the drying box, the lifting plate can further seal the drying box.

The hanging area 900 comprises a raw material tank 901 for holding raw materials, and the rack 100 is provided with a lifting assembly A902 capable of driving the raw material tank 901 to lift;

the lifting assembly a902 includes a screw rod 9021 disposed at the bottom of the raw material tank, and a driving member E9022 disposed in the frame 100 and capable of driving the screw rod 9021 to lift, a guide groove B102 is disposed on the frame 100 along the lifting direction of the raw material tank 901, a guide member B903 which can be inserted into the guide groove B102 and can slide along the guide groove B102 in a lifting manner is disposed at the periphery of the raw material tank 901, the driving member E drives the screw rod to move up and down, so that the raw material tank is lifted up and down, the guide member B is inserted into the guide groove B, and when the raw material tank moves up and down, the guide member B can slide in the guide groove B, so that the raw material tank is more stable in the lifting movement process of the raw material tank.

The cooling zone 700 comprises a cooling liquid tank 701 for containing cooling liquid, and the frame 100 is provided with a lifting assembly B702 capable of driving the cooling liquid tank 701 to lift;

the lifting assembly B702 comprises a rack B7021 arranged at the bottom of the cooling liquid tank and a driving piece E7022 arranged on the rack 100 and capable of driving the rack B7021 to lift, a guide groove C103 is formed in the rack 100 along the lifting direction of the cooling liquid tank 701, a guide piece C703 which can be inserted into the guide groove C103 and can lift and slide along the guide groove C103 is arranged on the periphery of the cooling liquid tank 701, the driving piece E drives the rack B to lift, so that the cooling liquid tank can lift, the guide piece C is inserted into the guide groove C, and the guide piece C can slide in the guide groove C while the cooling liquid tank does lifting motion, so that the cooling liquid tank is more stable in the lifting motion process of the cooling liquid tank.

The blanking area 500 includes a blanking port 501, and the frame 100 is provided with an air nozzle 502 capable of blowing off a protective sleeve on the die head to the blanking port 501.

Wherein, unloading district 500 department is equipped with lift seat 503, and a plurality of air cock 502 sets up along the length direction interval of lift seat 503, the both ends of lift seat 503 are equipped with respectively and make the lift subassembly C504 that lift seat 503 goes up and down, adjust the height of air cock for the protective sheath of different specifications can be dealt with to the air cock, and blows off the protective sheath from the die head.

The lifting component C504 comprises a screw 5041 fixed at two ends of the lifting seat 503 and a fixing frame 5042 fixed on the rack 100 and corresponding to the screw 5041, the fixing frame 5042 is rotatably provided with a thread sleeve 5043 capable of being in threaded fit with the screw 5041, one end of the thread sleeve 5043 is provided with a bevel gear a5044, the fixing frame 5042 is rotatably provided with a bevel gear B5045 meshed with the bevel gear a5044 and an operating rod 5046 capable of driving the bevel gear B5045 to rotate, the bevel gear B drives the bevel gear a to rotate by rotating the operating rod, the bevel gear a drives the thread sleeve to rotate, so that the screw is lifted and lowered, the height of the air nozzle is adjusted, the air nozzle can be used for protecting sleeves of different specifications, and the protecting sleeves are blown off from the die heads.

The plurality of die heads are arranged on the bearing frame, the driving assembly drives the bearing frame to slide on the slide rail, when the bearing frame is positioned on a die release agent coating area, the driving assembly A drives the rotating frame to swing, so that the rotating brush can be soaked in the die release agent and can swing to the lower part of the bearing frame, the driving assembly B drives the rotating brush to rotate, so that in the moving process of the bearing frame, the rotating brush can uniformly coat the die release agent on the die heads, then the die heads are moved to a drying area through the bearing frame, the die heads are dried in the drying box and then moved to a material hanging area through the bearing frame, the lifting assembly A drives the raw material groove to rise, so that the die heads positioned on the bearing frame can be soaked in the raw materials in the raw material groove and then moved to the drying area through the bearing frame, the drying box dries the die heads hung with the raw materials, then the die heads are, make the die head soak in the coolant liquid for protective sheath cooling back shaping, the rethread bears the frame and removes to the unloading district, and the air cock will be located the fashioned protective sheath on the die head and blow off to feed opening department and collect, and the whole journey of production binding post protective sheath is accomplished by this equipment is automatic, and the protective sheath that production binding post that this equipment can the batchization used, has solved the problem that the production efficiency is low that current dependence manual production caused.

Claims

1. The utility model provides a binding post protective sheath production facility which characterized in that: comprises a frame, a bearing frame and a plurality of die heads; a slide rail is arranged on the frame; the bearing frame can be arranged on the slide rail in a sliding way; the plurality of die heads are arranged on the upper frame of the bearing frame in a square array, and are provided with driving components capable of driving the bearing frame to slide on the slide rails; a blanking area, a release agent coating area, a cooling area, a drying area and a hanging area are sequentially arranged on the rack along the length direction of the slide rail; a waiting area for the bearing frame to wait for waiting is arranged above the blanking area; the demolding agent coating area comprises a demolding agent groove fixedly arranged on the rack and used for containing demolding agents, a rotating frame rotatably arranged in the demolding agent groove, and a driving piece A capable of driving the rotating frame to swing, a plurality of rotatable rotating brushes are arranged on the rotating frame in a row along the rotating axis of the rotating frame, a driving piece B capable of driving the rotating brushes to rotate is further arranged on the rotating frame, the rotating frame is arranged to the demolding agent groove, the rotating brushes can be arranged in the demolding agent groove in a soaked mode, the bearing frame is located at the demolding agent coating area, the rotating frame can be arranged to the bearing frame, and the rotating brushes arranged in the row can coat the demolding agents on the die heads arranged in a square matrix; the drying area comprises a drying box which can be fixed on the rack and covers the slide rail; the hanging area comprises a raw material groove for containing raw materials, and the rack is provided with a lifting assembly A capable of driving the raw material groove to lift; the cooling area comprises a cooling liquid tank for containing cooling liquid, and the rack is provided with a lifting assembly B capable of driving the cooling liquid tank to lift; the blanking area comprises a blanking port, and the frame is provided with an air faucet capable of blowing the protective sleeve on the die head to the blanking port.

2. The production equipment of the wiring terminal protective sleeve as claimed in claim 1, wherein the driving assembly comprises a rack a disposed on two sides of the bearing frame and a plurality of transmission gears disposed on the rack and above the sliding rail at intervals, the rack a is disposed parallel to the sliding rail, the transmission gears are meshed with the rack a, a distance between two adjacent transmission gears is smaller than a length of the rack a, and a driving member C capable of driving the plurality of transmission gears to rotate is disposed on the rack.

3. The production equipment for the protective sleeve of the wiring terminal is characterized in that the drying box is provided with a lifting plate for closing or opening the drying box along the length direction of the sliding rail, the rack is provided with a driving piece D capable of driving the lifting plate to lift, the drying box is provided with a guide groove A along the direction of the lifting plate, and the lifting plate is provided with a guide piece A which can be inserted into the guide groove A and can lift and slide in the guide groove A.

4. The production equipment for the protective sleeve of the wiring terminal as claimed in claim 3, wherein the guide groove A is bent upward to form an extension section which enables the lifting plate to move toward the drying box when the drying box is closed by the lifting plate.

5. The production equipment for the protective sleeve of the wiring terminal as claimed in claim 1 or 2, wherein a lifting seat is arranged at the blanking area, a plurality of air nozzles are arranged at intervals along the length direction of the lifting seat, and lifting components C capable of lifting the lifting seat are respectively arranged at two ends of the lifting seat.

6. The production equipment of the wiring terminal protective sleeve according to claim 5, wherein the lifting assembly C comprises screws fixed at two ends of the lifting seat and a fixing frame fixed on the frame and corresponding to the screws, the fixing frame is rotatably provided with a threaded sleeve capable of being in threaded fit with the screws, one end of the threaded sleeve is provided with a bevel gear A, and the fixing frame is rotatably provided with a bevel gear B capable of being meshed with the bevel gear A and an operating rod capable of driving the bevel gear B to rotate.

7. The production equipment of the wiring terminal protective sleeve as claimed in claim 1 or 2, wherein the lifting assembly a comprises a screw rod arranged at the bottom of the raw material tank and a driving member E arranged on the frame and capable of driving the screw rod to lift, a guide groove B is arranged on the frame along the lifting direction of the raw material tank, and a guide member B which can be inserted into the guide groove B and can slide along the guide groove B in a lifting manner is arranged on the periphery of the raw material tank.

8. The production equipment of the wiring terminal protective sleeve as claimed in claim 1 or 2, wherein the lifting assembly B comprises a rack B arranged at the bottom of the cooling liquid tank and a driving member E arranged on the frame and capable of driving the rack B to lift, a guide groove C is arranged on the frame along the lifting direction of the cooling liquid tank, and a guide member C which can be inserted into the guide groove C and can slide along the guide groove C in a lifting manner is arranged on the periphery of the cooling liquid tank.