CN111332669A - Discharging device of box body for communication equipment - Google Patents

Abstract

The invention relates to a discharging device of a box body for communication equipment, which comprises a bearing frame, wherein the bearing frame is used for bearing a coupler box body of a hanging frame of a paint spraying system, the hanging frame comprises a plurality of plug connectors, the lengths of a plurality of groups of plug connectors are horizontal and are arranged at intervals along the advancing direction of the hanging frame, a coupler box body dismounting device is arranged beside the bearing frame, and the coupler box body dismounting device is used for dismounting and separating a cover plate and a mounting box of the coupler box body; the bearing frame comprises a plurality of bearing plates, the bearing plates are integrally of a trough plate-shaped structure, the arrangement state of the bearing plates is consistent with the arrangement state of the plug connectors of the racks, the side of each bearing plate is provided with a material pushing mechanism, the material pushing mechanism drives the bearing plate to push out the coupler box body horizontally, the coupler box body on the racks is in a vertical state and is abutted against the bearing plates, the bearing plates move horizontally and push out the coupler box body horizontally on the bearing plates, and accordingly glue removing and disassembling processing operations of the coupler box body are achieved.

Description

Discharging device of box body for communication equipment

Technical Field

The invention relates to the technical field of automation equipment, in particular to a discharging device of a box body for communication equipment.

Background

As shown in fig. 1 and 2, the coupler box body of this type is designed to be a rectangular parallelepiped as a whole, and includes a mounting box a and a cover plate b, the electrical components of the coupler are mounted in the mounting box a, wiring holes a1 are respectively provided at two end positions and one side position of the mounting box a, and a wiring point a2 is provided at one side of the mounting box a where the wiring hole a1 is provided. The coupler box body is made of aluminum alloy, necessary paint spraying operation is needed after the box body is made, during actual paint spraying operation, paint spraying operation is not conducted on the outer surface of the installation box a where the wiring hole a1 and the wiring point a2 are located, so that influence of paint on electric conductivity of the coupler in later period is avoided, therefore, before the paint spraying operation, a paint spraying prevention label is needed to be adhered to the positions of the wiring hole a1 and the wiring point a2 of the coupler box body, after the wiring point is finished through automatic labeling operation, after the coupler box body is singly led out from an automatic adhesive tape sticking device, equipment needs to be led into a paint spraying room for paint spraying operation, in order to ensure that the outer surface of the coupler box body is evenly sprayed with the paint, the labeled coupler box body needs to be hung on a hanger, the position of a hanging hole b1 on a cover plate b is generally hung on the hanger, and the couplers are separated from each other, thereby make things convenient for a hanger to hang and establish in the spray booth, then the mode of manual operation spray gun sprays paint, above-mentioned hanger sprays paint the operation and finishes the back, carries out drying operation to the coupler box body through drying equipment implementation, then takes out the coupler box body on the hanger through artificial mode, thereby accomplish the dismantlement to the coupler, the coupler box body that dismantles gets off gets rid of the rubberizing through artificial mode, and dismantle, thereby the efficiency that leads to the coupler box body when actual production is lower.

Disclosure of Invention

The invention aims to provide a discharging device of a box body for communication equipment, which can realize automation of subsequent production and processing of a coupler box body after paint spraying operation and improve the production efficiency of the coupler box body.

The technical scheme adopted by the invention is as follows.

The unloading device of the box body for the communication equipment comprises a bearing frame, wherein the bearing frame is used for bearing a coupler box body of a hanging frame of a paint spraying system, the hanging frame comprises a plurality of plug connectors, the lengths of the plug connectors are horizontal and are arranged at intervals along the advancing direction of the hanging frame, a coupler box body dismounting device is arranged beside the bearing frame, and the coupler box body dismounting device is used for dismounting and separating a cover plate and a mounting box of the coupler box body; the bearing frame comprises a plurality of bearing plates, the bearing plates are integrally of a trough plate-shaped structure, the arrangement state of the bearing plates is consistent with the arrangement state of the plug connectors of the hanging frame, a material pushing mechanism is arranged beside the bearing plates, and the material pushing mechanism drives the coupler box body on the bearing plates to be horizontally pushed out.

The invention also has the following features:

the groove opening of the bearing plate is horizontal, the length direction of the groove opening of the bearing plate is parallel to the moving direction of the hanging rack, the bearing plate is arranged on the supporting frame in a sliding mode, and the sliding direction of the bearing plate on the supporting frame and the moving of the hanging rack form an included angle state.

The length direction of support frame extends the direction that the stores pylon was kept away from to the end and arranges, the tank bottom lower extreme of accepting the board is connected through linking bridge respectively, linking bridge slides along support frame length direction.

A baffle is arranged at a notch at one end of the bearing plate, and one side of the coupler box body on the hanging rack is abutted against the baffle at one end of the bearing plate.

The lower end of the bearing plate is connected with the connecting bracket through a rotating shaft which is vertically arranged, the lower ends of the baffle plates are respectively arranged on the pushing slide rods in a sliding manner, the length direction of the pushing slide rod is parallel to the moving direction of the hanging rack, the rod ends of the pushing slide rod are respectively connected with the pushing truss, the upper part is sleeved with a return spring, two ends of the return spring are respectively abutted against the material pushing truss and the baffle plate, a pushing roller is arranged on the outer side of the baffle, the wheel core of the pushing roller is vertical, a pushing shifting plate is arranged on the side of the bearing frame, the surface of the material pushing and shifting plate is vertical and is abutted against the material pushing roller, one end of the material pushing and shifting plate is hinged through a shaft lever, the shaft lever is arranged directly, the outer side plate surface of the pushing and shifting plate is provided with an extrusion roller, the core of the extrusion roller is vertical and is connected with a driving cylinder, and the driving cylinder is horizontal and is vertical to the length direction of the bearing plate.

The other end notch the place ahead of accepting the board is provided with and connects the material step frame, connect the material step frame to present stair column structure and contain a plurality of material step boards that connect, connect the last face of material step board and the tank bottom parallel and level of accepting the board, connect one side of material step board and the notch of accepting the board to be close to, the opposite side that connects the material step board is neighbouring to be provided with to the backup plate.

Connect the whole right angle platelike structure that is in cross-section of material step board, connect one side horizontal plate of material step board to constitute the layer board of accepting the coupler box body, connect the both ends of material step board to be connected with the conveyer belt through the articulated shaft respectively, the conveyer belt is circulating conveyor belt, connect the material step board to be located to present circumference equidistant distribution on the conveyer belt, the conveyer belt contains slope material receiving section and level derivation section, connect the material step board to be located the slope and connect the material section to present the step form and arrange, connect the material step board to be located one side layer board that the level derivation section presented to present the whole plateform of face parallel and level and arrange.

Connect the both ends of material step board to be provided with first, second guide roll respectively, first, second guide roll level just arranges with the conveyer belt is perpendicular, first guide roll is located second guide roll the place ahead, the top is arranged, the side of conveyer belt is provided with the direction track, the direction track contains the slope section track, the slope section track meets material section parallel arrangement with the slope, the orbital side of slope section is provided with spacing swash plate, spacing swash plate and slope section track parallel arrangement, first guide roll supports and leans on at the slope section track, the second guide roll supports and leans on at spacing swash plate.

The guide track still includes the horizontal track section, horizontal track section and horizontal derivation section parallel arrangement, first guide roll supports and leans on horizontal track section position department, the high-end position of spacing swash plate extends and is provided with horizontal limiting plate, horizontal limiting plate is located horizontal track section below and arranges, the second guide roll supports and leans on horizontal limiting plate.

The support plate is vertically arranged on the frame body in a sliding mode, the support plate vertically rises and the upper end face of the support plate extends out or is lower than the upper face of the material receiving step plate.

The invention has the technical effects that: the coupler box body after the paint spraying and curing operation is guided and sent to the position of the bearing frame by the hanger, bearing operation of the coupler box body on the hanger is implemented by the bearing frame, the coupler box body is guided and sent to the coupler box body dismounting device after bearing, dismounting operation of the mounting box of the coupler box body and the screw on the cover plate is performed, separation operation of the mounting box of the coupler box body and the cover plate is further achieved, automation of follow-up production and processing of the coupler box body after the paint spraying operation can be achieved by the system, and production efficiency of the coupler box body is improved.

Drawings

Fig. 1 and 2 are schematic diagrams of two perspective structures of a coupler cassette body;

FIG. 3 is a front view of the hanger;

FIG. 4 is a top view of the hanger;

FIGS. 5 and 6 are schematic views of two kinds of view structures of the hanger;

FIG. 7 is a schematic plan view of a coupler cassette transport detachment system;

FIG. 8 is a top view of the carrier;

FIG. 9 is a front view of the carrier;

FIG. 10 is a left side view of the carrier;

FIGS. 11 and 12 are schematic views of two kinds of view structures of the receiving rack;

FIGS. 13-15 are schematic views of the partial structure of the carrier section from three different perspectives;

fig. 16 is a front view of the receiving step rack;

FIG. 17 is a front view of a receiving step panel in a receiving step rack;

FIG. 18 is a top view of the coupler cassette transport detachment system with the carrier removed;

FIG. 19 is a front view of the coupler cassette transport detachment system with the carrier removed;

FIGS. 20 and 21 are schematic views of the adhesive removing device and the coupler cassette detaching device in the coupler cassette transport detaching system;

FIGS. 22 and 23 are schematic diagrams of two perspective structures of the sticker removal device in the coupler cassette transport detachment system;

fig. 24 and 25 are schematic diagrams of two perspective structures of a coupler cassette dismounting device in a coupler cassette transport dismounting system.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention will now be described in detail with reference to the following examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed. As used herein, the terms "parallel" and "perpendicular" are not limited to their strict geometric definitions, but include tolerances for machining or human error legitimacy and inconsistency:

the following describes the invention in detail with reference to the whole coupling box transfer and disassembly system:

the coupler cassette transfer disassembly system of the present invention is described in detail below with reference to fig. 1 to 25:

a coupler box body transferring and disassembling system comprises a bearing frame 10, wherein the bearing frame 10 is used for bearing a coupler box body of a hanging frame 20 of a paint spraying system, the hanging frame 20 comprises a plurality of plug connectors 21, the lengths of the plurality of groups of plug connectors 21 are horizontal and are arranged at intervals along the advancing direction of the hanging frame 20, a coupler box body disassembling device is arranged beside the bearing frame 10, and the coupler box body disassembling device is used for disassembling and separating a cover plate and a mounting box of the coupler box body;

referring to fig. 3 to 7, the coupler box body after the painting and curing operations is guided and delivered to the position of the receiving frame 10 by the hanger 20, the receiving operation of the coupler box body on the hanger 20 is performed by the receiving frame 10, the coupler box body is received and delivered into the coupler box body detaching device, the mounting box of the coupler box body and the screw on the cover plate are detached, and then the mounting box of the coupler box body and the cover plate are separated.

As a preferred scheme of the present invention, a discharging port of the receiving frame 10 is provided with a paste removing device 30, and the paste removing device 30 is used for removing a paste at an end of the coupler box body;

when the coupler box body is positioned on the hanging frame 20 for curing operation, the temperature is high, heating and melting operation of rubberizing on the two sides of the coupler box body can be realized, the bonding viscosity of the rubberizing is weakened, and further the subsequent rubberizing removing operation is facilitated;

as shown in fig. 3 to fig. 6, the hanger 20 is in a state that the plurality of plugs 21 are arranged in a step-like interval, and the plugs 21 are in a horizontal state in the length direction and form a non-return insertion fit with the hanging holes on the cover plate of the coupler; the end parts of the plurality of inserting connectors 21 are matched with the coupler positions in a staggered arrangement mode, the inserting connectors 21 are arranged on the fixed support 22 in a sliding mode, and the inserting connectors 21 and the fixed support 22 form sliding fit in the horizontal direction;

the arrangement state of the plugs 21 of the hanger 20 can be conveniently explained by the top view and the front view of the system, as shown in fig. 4, when looking down the hanger 20, the plugs 21 are arranged in a step manner from the length direction of the hanger 20, and the length of the plug 21 at the front end is longest, and is sequentially shortened from front to back, as shown in fig. 3, when looking up the hanger 20 at the front, that is, the front view of the hanger 20, the left side of the hanger 20 is the lowest end, the right side is the highest end, and is step-wise and forward, an effective gap is formed between the plugs 21 and the plugs 21, so as to ensure that a larger dislocation gap exists between the coupler box bodies during the subsequent paint spraying operation of the paint spraying equipment, thereby ensuring effective paint spraying on the front surface, the back surface, the two sides, and the upper and lower ends of the coupler box bodies, and avoiding that atomized paint can not effectively fall on the blocking position between the coupler, to ensure a painting effect on the coupler cassette.

In order to realize the disassembly operation of the coupler on the hanger 20 with the structure, the receiving frame 10 comprises a plurality of receiving plates 11, the whole receiving plates 11 are of a trough plate-shaped structure, the arrangement state of the receiving plates is consistent with the arrangement state of the plug connectors 21 of the hanger 20, a material pushing mechanism is arranged beside the receiving plates 11, and the material pushing mechanism drives the coupler box body on the receiving plates 11 to be horizontally pushed out;

the arrangement state of the bearing plate 11 contained in the bearing frame 10 is consistent with that of the hanging frame 20, when the coupler box body on the hanging frame 20 is guided to the position of the bearing adapter 11, the coupler box body on the hanging frame 20 is in a vertical state and is abutted against the bearing plate 11, and the material pushing mechanism is started to enable the bearing plate 11 to horizontally move and horizontally push out the coupler box body on the bearing plate 11, so that the subsequent further arrangement of the coupler box body is realized, and the glue removal and the disassembly processing operation of the coupler box body are realized;

more specifically, the notch of the receiving plate 11 is horizontal, and the length direction is parallel to the moving direction of the hanging rack 20, the receiving plate 11 is slidably disposed on the supporting rack 12, and the receiving plate 11 is located in a state that the sliding direction of the supporting rack 12 and the moving of the hanging rack 20 form an included angle;

in the process of horizontal movement of the hanger 20, the plug 21 on the hanger 20 is led into the notch of the receiving plate 11, in the process of movement of the hanger 20, the receiving plate 11 slides along the supporting frame 12 and moves along with the hanger 20, and after the moving direction of the receiving plate 11 and the hanger 20 form an included angle, the receiving plate 11 is separated from the plug 21 of the hanger 20, so that the separation of the coupler box body on the plug 21 can be effectively realized, and the coupler box body stays in the notch of the receiving plate 11.

More specifically, as shown in fig. 8 to fig. 15, the lengthwise extending ends of the supporting frame 12 are arranged in a direction away from the hanging rack 20, the lower ends of the bottoms of the receiving plates 11 are respectively connected by a connecting bracket 13, the connecting bracket 13 slides along the lengthwise direction of the supporting frame 12, the supporting frame 12 is provided with a sliding rod 121, the connecting bracket 13 is arranged on the sliding rod 121 in a sliding manner, and the sliding rod 121 is arranged horizontally and along the lengthwise direction of the supporting frame 12;

after the coupler box bodies on the hanging rack 20 are respectively clamped in the clamping grooves of the supporting boards 11, the connecting bracket 13 can slide along with the supporting frame 12, and after the connecting bracket 13 is far away from the position of the plug connector 21 of the hanging rack 20, the coupler box bodies on the plug connector 21 can be effectively detached;

specifically, the one end notch of accepting board 11 is provided with baffle 15, coupler box body one side on the stores pylon 20 supports with the one end baffle 15 of accepting board 11 and leans on to along with the removal of stores pylon 20, can ask to send whole accepting frame 10 along with removing, and then can dismantle the coupler box body on the stores pylon 20 from bayonet joint 21.

More specifically, the lower end of the bearing plate 11 is connected with the connecting support 13 through the rotating shaft 14, the rotating shaft 14 is vertically arranged, the rotating shaft 14 can be sleeved with a torsion spring, in a normal state, the length direction of a slot groove of the bearing plate 11 is parallel to the moving direction of the hanging rack 20, when the hanging rack 20 is hung and the coupler box body is horizontally transferred to the slot position of the bearing plate 11, the bearing plate 11 and the connecting support 13 slide along the support frame 12, so that the connecting support 13 is far away from the hanging rack 20, the bearing plate 11 rotates around the rotating shaft 14, the bearing plate 11 always presents the parallel state of the length direction of the slot and the moving direction of the hanging rack 20, and the separation of the connector of the coupler box body and the hanging rack 20 is realized.

Referring to fig. 8 to 12, the lower end of the receiving plate 11 is connected to the connecting bracket 13 through a rotating shaft 14, the rotating shaft 14 is vertically arranged, the lower ends of the blocking plates 15 are respectively slidably disposed on the pushing slide bars 151, the length direction of the pushing slide bars 151 is parallel to the moving direction of the rack 10, the rod ends of the pushing slide bars 151 are respectively connected to the pushing trusses, the upper sleeves are provided with return springs 152, two ends of the return springs 152 are respectively abutted to the pushing trusses and the blocking plates 15, the outer sides of the blocking plates 15 are provided with pushing rollers 153, the wheel cores of the pushing rollers 153 are vertical, a pushing and poking plate 154 is disposed beside the receiving rack 10, the plate surface of the pushing and poking plate 154 is vertical and abutted to the pushing rollers 153, one end of the poking plate 154 is hinged through a shaft rod, the shaft rod is vertically arranged, and the plate surface outside the pushing, the core of the extrusion roller 155 is vertical and is connected with a driving cylinder 156, the driving cylinder 156 is horizontal and vertical to the length direction of the bearing plate 11, and the lengths of the pushing slide rod 151 and the return spring 152 are different;

referring to fig. 16, after the coupler box on the hanger 20 is clamped in the slot of the receiving plate 11, the hanger 20 is transferred out, the baffle 15 is slidably disposed on the pushing slide rod 151, the driving cylinder 156 is started to rotate the pushing shifting plate 154 around the rotation axis, so that the length line of the pushing shifting plate 154 is perpendicular to the length direction of the receiving plate 11, and the pushing roller 153 is further driven to roll until the driving baffle 15 slides along the length direction, so that the coupler box in the slot of the receiving plate 11 is guided out from the slot position;

a material receiving step frame 16 is arranged in front of a notch at the other end of the bearing plate 11, the material receiving step frame 16 is of a stair-like structure and comprises a plurality of material receiving step plates 161, the upper plate surface of each material receiving step plate 161 is flush with the groove bottom of the bearing plate 11, one side of each material receiving step plate 161 is close to the notch of the bearing plate 11, and a leaning plate 17 is arranged adjacent to the other side of each material receiving step plate 161;

in the process of horizontally starting the material pushing cylinder 153, the coupler box bodies are led out from the notches of the clamping grooves of the receiving plate 11 to the material receiving step plates 161 of the material receiving step racks 16, and the arrangement state of the material receiving step plates 161 on the material receiving step racks 16 is consistent with the step arrangement pitch of the hanging rack 20 and the arrangement of the material receiving step plates 11, so that the coupler box bodies can be horizontally pushed to the material receiving step plates 161, and then the coupler box bodies are transferred to the material receiving step plates 161, and are arranged on the material receiving step racks 16 in a step shape;

more specifically, the cross section of the material receiving step plate 161 is of a right-angled plate-shaped structure as a whole, a horizontal plate on one side of the material receiving step plate 161 forms a support plate for receiving a coupler box, two ends of the material receiving step plate 161 are connected with the conveying belt 162 through hinge shafts respectively, the conveying belt 162 is a circulating conveying belt, the material receiving step plate 161 is located on the conveying belt 162 and is distributed circumferentially at equal intervals, the conveying belt 162 comprises an inclined material receiving section 1621 and a horizontal derivation section 1622, the material receiving step plate 161 is located on the inclined material receiving section 1621 and is distributed in a step-shaped manner, and a support plate on one side of the material receiving step plate 161 located on the horizontal derivation section 1622 is distributed in a whole plate shape with a;

the conveying belt 162 included in the material receiving step frame 16 enables the material receiving step plate 161 located on the conveying belt 162 to be arranged to timely receive coupler boxes on the receiving plate 11, the inclined material receiving section 1621 enables the material receiving step plate 161 to be arranged in a step shape to achieve receiving operation of the coupler boxes, along with rotation of the conveying belt 162, the coupler boxes on the material receiving step plate 161 of the inclined material receiving section 1621 are transferred to the position of the horizontal derivation section 1622, and the material receiving adjusting plate 1621 on the horizontal derivation end 1622 is flat-shaped, so that the coupler boxes are in a horizontal and orderly arranged state, and then subsequent derivation is facilitated and subsequent processing is performed.

More specifically, in order to realize the cyclic driving of the material receiving step plate 161, the material receiving step plate 161 is located at the inclined material receiving section 1621 and is in a step shape, and is located at the horizontal lead-out section 1622 and is in a flat plate shape, the two ends of the material receiving step plate 161 are respectively provided with a first guide roller 163 and a second guide roller 164, the first and second guide rollers 163 and 164 are horizontally arranged and vertically arranged with respect to the conveyor belt 162, the first guide roller 163 is disposed in front of and above the second guide roller 164, a guide rail 165 is provided beside the conveyor belt 162, the guide rail 165 includes an inclined section rail 1651, the inclined section rail 1651 is arranged in parallel with the inclined material receiving section 1621, a limit sloping plate 166 is arranged beside the inclined rail 1651, the limit sloping plate 166 is arranged in parallel with the inclined rail 1651, the first guide roller 163 abuts against the inclined section rail 1651, and the second guide roller 164 abuts against the inclined limit plate 166;

the two ends of the material receiving step plate 161 are horizontally provided with a first guide roller 163 and a second guide roller 164 in a suspending manner, and along with the rotation of the conveying belt 162, when the material receiving step plate is located at the inclined material receiving section 1621 of the conveying belt 162, the first guide roller 163 and the second guide roller 164 are respectively abutted against the inclined section rail 1651 and the limit inclined plate 166, so that the material receiving plate on the material receiving step plate 161 is horizontally arranged and is arranged at the discharge end of the receiving plate 11, and the receiving operation of the coupler box body on the receiving plate 11 is further facilitated;

more specifically, the guide rail 165 further includes a horizontal rail segment 1652, the horizontal rail segment 1652 is arranged in parallel with the horizontal guiding-out segment 1622, the first guide roller 163 abuts against the horizontal rail segment 1652, a horizontal position-limiting plate 1661 is extended from a high end position of the inclined limit plate 166, the horizontal position-limiting plate 1661 is arranged below the horizontal rail segment 1652, and the second guide roller 164 abuts against the horizontal position-limiting plate 1661;

after the conveying belt 1622 is linked with the material receiving step plate 161 and is transferred to the position of the horizontal leading-out section 1622, the first guide roller 163 abuts against the position of the horizontal track section 1652, and the second guide roller 164 abuts against the horizontal limiting plate 1661, so that the material receiving step plate 161 is in a horizontal plate-shaped structure, and the coupler box body is conveniently pushed out;

more specifically, for the realization is derived the level of the coupler box body on the section 1622 to the level and is released, support the vertical slip setting of backup plate 17 on support body 171, support the vertical lift of backup plate 17 and up end and stretch out or be less than the last face that connects material step board 161.

Specifically, as shown in fig. 18, after the coupler boxes are horizontally arranged at the horizontal leading-out end 1622, the conveyer belt 162 stops, a leading-out push plate 172 is arranged beside the horizontal leading-out section 1622 of the conveyer belt 162, one end of the leading-out push plate 172 is connected with the pushing cylinder 173, a piston rod of the pushing cylinder 173 is horizontal and perpendicular to the extending direction of the conveyer belt 162, and the front end and the rear end of the leading-out push plate 172 are provided with the clamping plates 174; the pushing cylinder 173 is driven to horizontally move the guiding push plate 172 and horizontally push out the coupler box on the material receiving step plate 161.

In order to realize the bearing of the coupler box body horizontally pushed out, a material receiving flat plate 18 is arranged in front of the pushing plate 172, the material receiving flat plate 18 is arranged beside a horizontal leading-out section 1622 of the conveying belt 162, the material receiving flat plate 18 comprises a plurality of groups of roller rods and is arranged beside an elastic pushing-out plate 19, a glue removing device 30 is arranged in front of the elastic pushing-out plate 19, the glue removing device 30 comprises roller brushes 31 arranged on two sides of the elastic pushing-out plate 19, the roller brushes 31 are rotatably arranged on a roller frame 32, and in the process that the elastic pushing-out plate 19 pushes the coupler box body to move forwards, the roller brushes 31 are close to and carry out the removal operation of the glue on the coupler box body;

the aforesaid derive push pedal 172 with a plurality of coupler box body translation propelling movement to connect the material dull and stereotyped 18 on the back, the last thrust mechanism of elasticity ejector plate 19 starts, the moving direction of elasticity ejector plate 19 is perpendicular with the moving direction who derives push pedal 172, and then can merge the coupler box body together and remove along the length direction who connects the material dull and stereotyped 18, after the position of roller brush 31, utilize roller brush 31 can effectively realize clearing away the remaining subsides of coupler box body both sides position to convenient realization is to the clean operation on coupler surface.

More preferably, as shown in fig. 19 to 23, the roller frame 32 is hinged to the bracket through a hinge shaft, the roller frame 32 is vertically arranged in the hinge shaft, a torsion spring is sleeved on the hinge shaft, two ends of the torsion spring are respectively abutted to the roller frame 32 and the frame, the torsion spring makes the roller brush 31 far away from the position of the receiving flat plate 18, a pushing roller 321 is arranged on the roller frame 32 in an extending manner, a wheel core of the pushing roller 321 is vertically arranged, pushing rails 191 are arranged on two sides of the elastic pushing plate 19, the pushing rails 191 are in a folding rod shape, the front ends of the pushing rails are arranged near the elastic pushing plate 19, and the pushing roller 321 is abutted to the pushing rails 191;

in the process of starting the elastic pushing plate 19, the pushing track 191 on the elastic pushing plate 19 abuts against the pushing roller 321, and the pushing roller 321 makes the roller frame 32 rotate around the hinge shaft under the bending action of the pushing track 191, and makes the roller brush 31 approach and abut against the two sides of the coupler box body on the receiving flat plate 18, thereby realizing the operation of removing the residual adhesive on the coupler box body.

More specifically, in the process that the elastic pushing plate 19 pushes the coupler box body to move forward, the sticker removing device 30 further includes a glue removing pipe 33, the glue removing pipe 33 is integrally in a square pipe shape, a pipe core is horizontally arranged, the elastic pushing plate 19 moves along the length direction of the glue removing pipe 33, a material blocking burr 331 is arranged on the inner pipe wall of the glue removing pipe 33, and the material blocking burr 331 extends towards the pipe core direction of the glue removing pipe 33;

the elastic pushing plate 19 horizontally pushes the coupler box bodies, the coupler box bodies are pushed into the glue removing pipeline 33, the material blocking bristles 331 arranged in the glue removing pipeline 33 are utilized, the coupler box bodies are arranged together in order, the problem that the coupler box bodies topple over is avoided, and the coupler box bodies are accurately guided into the coupler box body dismounting device to be dismounted;

more specifically, the coupler box body dismounting device comprises a screw dismounting head 41 arranged at the position of the pipe orifice of the glue removing pipe 33, the screw dismounting head 41 is horizontal and close to or far away from the pipe orifice of the glue removing pipe 33, and the screw dismounting head 41 carries out dismounting operation on screws;

as shown in fig. 24 and fig. 25, in the process that the elastic pushing plate 19 pushes the coupler box forward, and accurately pushes the coupler box to the end position of the material receiving flat plate 18, the screw detaching head 41 moves horizontally and is inserted into the screw hole of the cover plate, so as to detach the screw.

Because the size of the screw mounting hole of the coupler box body is small, in order to ensure that the screw dismounting head 41 can accurately carry out the dismounting operation of the screw, an expansion sleeve 42 is arranged in front of the screw dismounting head 41, one end of the expansion sleeve 42 is large, and the other end of the expansion sleeve 42 is small, a strip-shaped opening is formed in the length direction of the expansion sleeve 42, the small-sized end of the expansion sleeve 42 abuts against the screw dismounting hole of the coupler box body, the screw dismounting head 41 is horizontally moved and inserted into the expansion sleeve 42, the expansion sleeve 42 is slidably arranged on a sliding rod 422 on a truss 421, the sliding rod 422 is horizontal and parallel to the expansion sleeve 42, a spring 423 is sleeved on the sliding rod 422, and two ends of the spring 423 abut against the truss 421 and the expansion sleeve 42 respectively;

the expansion sleeve 42 is arranged on the truss 421 in a sliding manner through the sliding rod 422, and when the screw dismounting head 41 moves horizontally, the expansion sleeve 42 is sleeved in the expansion sleeve and slides horizontally until the small-size end of the expansion sleeve 42 is accurately guided into the screw mounting hole of the coupler box body, so that the screw dismounting head 41 is guided into the screw mounting hole of the coupler through the expansion sleeve 42 accurately, and the dismounting operation of the screw of the coupler is realized; when the screw disassembling head 41 retreats, the expansion sleeve 42 correspondingly retreats until the expansion sleeve 42 is separated from the coupler box body, and the disassembling operation of the coupler is completed;

more specifically, in order to realize the receiving operation of the detached screws, a receiving frame 51 is arranged below the pipe orifice of the glue removing pipe 33, the receiving frame 51 is a rod-shaped structure formed by a plurality of rods, a gap on the receiving frame 51 forms a blanking hole through which the screws pass, and a receiving bin 52 is arranged below the receiving frame 51; the material receiving frame 51 is arranged obliquely.

In order to further realize the separation of the coupler box body after the screws are removed, a material receiving groove plate 34 is arranged on one side of a pipe orifice of the glue removing pipeline 33, the length direction of the material receiving groove plate 34 is horizontal, a groove cavity forms an opening for clamping the coupler box body, a pushing plate 35 is arranged on the other side of the pipe orifice of the glue removing pipeline 33, the pushing plate 35 moves along the length direction of the material receiving groove plate 34 and pushes the coupler box body into the material receiving groove plate 34, the material receiving groove plate 34 is arranged on a turnover mechanism, the turnover mechanism drives the material receiving groove plate 34 to turn over, and a rotating shaft is horizontal to the length direction of the material receiving groove plate 34;

a power mechanism of the pushing plate 35 is started, coupler box bodies detached from the pipe orifice position of the glue removing pipeline 33 are pushed into the material receiving groove plate 34 until all coupler box bodies in a batch are pushed into the material receiving groove plate 34, so that the coupler box bodies are placed, and then the turnover mechanism is started, so that the material receiving groove plate 34 is turned over, and the next operation is realized;

in order to realize the separation operation of the mounting box and the cover plate of the coupler box body with the screws removed, a separation plate 36 is arranged beside the material receiving groove plate 34, the surface of the separation plate 36 is horizontal, the edge of one side of the separation plate is provided with a convex cambered surface 362, and the turnover mechanism drives the material receiving groove plate 34 to turn over and enables the coupler box body to be abutted against the convex cambered surface 362 of the separation plate 36; a vibration motor is arranged below the separation plate 36 and drives the separation plate 36 to vibrate;

when the turnover mechanism is started, the material receiving groove plate 34 is turned over, so that one side of the cover plate of the coupler box body is impacted towards the convex cambered surface 362, the convex cambered surface 362 enables the mounting box of the coupler box body and the cover plate to form an effective avoiding space, and further the mounting box and the cover plate form a separation gap, so that the mounting box and the cover plate are effectively separated;

the convex cambered surface 362 forms a line, so that when the coupler box body collides with the coupler box body, a gap is formed instantly when the cover plate is positioned on the convex cambered surface 362, and the cover plate is separated from the mounting box, so that the cover plate and the mounting box are separated;

further separating the separated cover plate and the separated mounting box, forming a final product, and then performing mounting operation on a production line for mounting electronic equipment, wherein the separation plate 36 is obliquely arranged, a V-shaped guide chute 361 is arranged at the lower end of the separation plate 36, an opening 3611 is arranged at the bottom of the V-shaped guide chute 361, the width of the opening 3611 is slightly larger than the thickness of the cover plate, and the V-shaped guide chute 361 extends horizontally;

after the mounting box of the coupler box body is separated from the cover plate, the mounting box obliquely slides to the position of the opening 3611 from the separating plate 36, the cover plate falls into the material receiving frame from the opening 3611 under the vibration force of the whole motor, the mounting box is led out of the notch of the V-shaped guide groove 361 to the other material receiving frame, then the raw materials are respectively led to an electronic assembly line, and finally the coupler is assembled.

The coupler box body transferring and disassembling method comprises the following steps:

firstly, after a coupler box body hung on a hanger 20 is painted by a painting mechanism and cured by a curing device, the coupler box body is guided to the position of a bearing frame 10;

secondly, the hanging rack 20 continues to be transported until the coupler box body on the plug-in connector 21 of the hanging rack 20 is clamped in the clamping groove of the bearing plate 11 of the bearing rack 10, the bearing rack 10 moves along with the movement of the hanging rack 20, the coupler box body on the hanging rack 20 is detached from the plug-in connector 21, and the coupler box body is enabled to stay on the bearing plate 11;

thirdly, starting a material pushing mechanism to push the coupler on the receiving frame 10 to the receiving step frame 16, so that the coupler boxes on the receiving step frame 16 are arranged in a step shape;

fourthly, starting the conveyer belt 162 of the material receiving step frame 16, and transferring the coupler boxes on the conveyer belt 162 to the position of the horizontal leading-out section 1622 of the conveyer belt 162, so that the coupler boxes are positioned at the horizontal leading-out section 1622 and are in a horizontally attached arrangement state;

fifthly, starting the material pushing cylinder 173, namely horizontally moving the leading-out push plate 172 and horizontally pushing the coupler box body at the position of the horizontal leading-out section 1622 to the material receiving flat plate 18;

sixthly, starting the elastic pushing plate 19, pushing the coupler box body on the material receiving flat plate 18 to move horizontally and to a position between roller frames 32 of the adhesive removing device 30, and enabling roller brushes 31 on the roller frames 32 to be close to two sides of the coupler box body so as to achieve adhesive removing operation on two sides of the coupler box body;

seventhly, continuously pushing the elastic pushing plate 19 until the coupler box body is pushed to the position of the coupler box body dismounting device, starting the screw dismounting head 41 to horizontally move and insert in the screw mounting hole of the coupler box body, and dismounting the screw in the mounting hole;

eighthly, starting the pushing plate 35, pushing the coupler box bodies with the screws removed into the material receiving groove plate 34 until all the coupler box bodies in a batch are pushed;

ninth, the turnover mechanism is started, so that the material receiving chute plate 34 is turned over and collides with the convex arc 362 of the separating plate 36, the mounting box of the coupler box body is separated from the cover plate, the mounting box and the cover plate of the separated coupler box body slide into the V-shaped material guiding groove 361, the cover plate falls off from the opening 3611 of the V-shaped material guiding groove 361, the mounting box is led out from one end of the V-shaped material guiding groove 361, and the mounting box is separated from the cover plate.

Claims (10)

1. The utility model provides a discharge apparatus of box body for communication equipment which characterized in that: the coupler box body dismounting device comprises a bearing frame (10), wherein the bearing frame (10) is used for bearing a coupler box body of a hanging frame (20) of a paint spraying system, the hanging frame (20) comprises a plurality of plug connectors (21), the lengths of the plurality of groups of plug connectors (21) are horizontal and are arranged at intervals along the advancing direction of the hanging frame (20), a coupler box body dismounting device is arranged beside the bearing frame (10), and the coupler box body dismounting device is used for dismounting and separating a cover plate and a mounting box of the coupler box body; the bearing frame (10) comprises a plurality of bearing plates (11), the bearing plates (11) are integrally of a trough plate-shaped structure, the arrangement state of the bearing plates is consistent with the arrangement state of the plug connectors (21) of the hanging racks (20), a material pushing mechanism is arranged beside the bearing plates (11), and the material pushing mechanism drives the coupler box bodies on the bearing plates (11) to be horizontally pushed out.

2. The discharging device of a cartridge for a communication apparatus according to claim 1, wherein: the groove opening of the bearing plate (11) is horizontal, the length direction of the groove opening is parallel to the moving direction of the hanging rack (20), the bearing plate (11) is arranged on the support frame (12) in a sliding mode, and the sliding direction of the bearing plate (11) on the support frame (12) and the moving direction of the hanging rack (20) are in an included angle state.

3. The discharging device of a cartridge for a communication apparatus according to claim 2, wherein: the length direction of support frame (12) extends the direction that the end kept away from stores pylon (20) and arranges, the tank bottom lower extreme of accepting board (11) is connected through linking bridge (13) respectively, linking bridge (13) slide along support frame (12) length direction.

4. The discharging device of a cartridge for a communication apparatus according to claim 3, wherein: a baffle (15) is arranged at a notch at one end of the bearing plate (11), and one side of the coupler box body on the hanging rack (10) is abutted against the baffle (15) at one end of the bearing plate (11).

5. The discharging device of a cartridge for a communication apparatus according to claim 4, wherein: the lower end of the bearing plate (11) is connected with a connecting support (13) through a rotating shaft (14), the rotating shaft (14) is vertically arranged, the lower ends of the baffles (15) are respectively arranged on the pushing sliding rods (151) in a sliding mode, the length direction of the pushing sliding rods (151) is parallel to the moving direction of the hanging rack (10), the rod ends of the pushing sliding rods (151) are respectively connected with pushing trusses, a return spring (152) is sleeved on the upper cover, two ends of the return spring (152) are respectively abutted against the pushing trusses and the baffles (15), a pushing roller (153) is arranged on the outer side of each baffle (15), a wheel core of the pushing roller (153) is vertical, a pushing shifting plate (154) is arranged on the side of the bearing rack (10), the plate surface of the pushing shifting plate (154) is vertical and abutted against the pushing roller (153), one end of the pushing shifting plate (154) is hinged through a shaft lever, the shaft rod is arranged straight, the outer side plate surface of the material pushing and shifting plate (154) is provided with an extrusion roller (155), the core of the extrusion roller (155) is vertical and is connected with a driving cylinder (156), and the driving cylinder (156) is horizontal and is vertical to the length direction of the bearing plate (11).

6. The discharging device of a cartridge for a communication apparatus according to claim 1, wherein: a material receiving step frame (16) is arranged in front of a notch at the other end of the bearing plate (11), the material receiving step frame (16) is of a stair-shaped structure and comprises a plurality of material receiving step plates (161), the upper plate surface of each material receiving step plate (161) is flush with the groove bottom of the bearing plate (11), one side of each material receiving step plate (161) is close to the notch of the bearing plate (11), and a leaning plate (17) is arranged adjacent to the other side of each material receiving step plate (161); the support plate (17) is vertically arranged on the frame body (171) in a sliding mode, the support plate (17) vertically goes up and down, and the upper end face of the support plate stretches out or is lower than the upper face of the material receiving step plate (161).

7. The discharging device of a cartridge for a communication apparatus according to claim 6, wherein: connect the whole right angle platelike structure that is in cross-section of material step board (161), connect one side horizontal plate of material step board (161) to constitute the layer board of accepting the coupler box body, the both ends of connecing material step board (161) are connected with conveyer belt (162) through the articulated shaft respectively, conveyer belt (162) are circulating conveyer belt, connect material step board (161) to be located and present circumference equidistant distribution on conveyer belt (162), conveyer belt (162) contain slope material receiving section (1621) and level derivation section (1622), connect material step board (161) to be located slope material receiving section (1621) and present the step form and arrange, one side layer board that material receiving step board (161) is located level derivation section (1622) and presents the whole plateform of face parallel and level and arrange.

8. The discharging device of a cartridge for a communication apparatus according to claim 7, wherein: the material receiving step plate comprises a material receiving step plate (161), wherein two ends of the material receiving step plate (161) are respectively provided with a first guide roller (163) and a second guide roller (164), the first guide roller (163) and the second guide roller (163) are arranged horizontally and are perpendicular to a conveying belt (162), the first guide roller (163) is located in front of and above the second guide roller (164), a guide rail (165) is arranged beside the conveying belt (162), the guide rail (165) comprises an inclined section rail (1651), the inclined section rail (1651) is arranged in parallel with an inclined material receiving section (1621), a limiting inclined plate (166) is arranged beside the inclined section rail (1651), the limiting inclined plate (166) is arranged in parallel with the inclined section rail (1651), the first guide roller (163) abuts against the inclined section rail (1651), and the second guide roller (164) abuts against the limiting inclined plate (166).

9. The discharging device of a cartridge for a communication apparatus according to claim 8, wherein: the guide rail (165) further comprises a horizontal rail section (1652), the horizontal rail section (1652) is arranged in parallel with the horizontal guiding-out section (1622), the first guide roller (163) abuts against the horizontal rail section (1652), a horizontal limiting plate (1661) extends from the high-end position of the inclined limit plate (166), the horizontal limiting plate (1661) is arranged below the horizontal rail section (1652), and the second guide roller (164) abuts against the horizontal limiting plate (1661).

10. The utility model provides a coupler box body is transported and is dismantled system which characterized in that: the coupler box body transferring and disassembling system comprises a discharging device of the box body for the communication equipment, which is defined by any one of claims 1 to 9.

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