CN113444994A - Winding displacement terminal galvanizing equipment on meteorological and marine instruments - Google Patents

Abstract

The invention discloses a winding displacement terminal galvanizing device on a meteorological and oceanographic instrument, which comprises a winding displacement terminal feeding mechanism, a winding displacement terminal galvanizing mechanism and a winding displacement terminal blanking mechanism, wherein the winding displacement terminal feeding mechanism is arranged on a winding displacement terminal; the winding displacement terminal feeding mechanism and the winding displacement terminal blanking mechanism are respectively arranged on the left side and the right side of the winding displacement terminal galvanizing mechanism; the flat cable terminal feeding mechanism comprises a feeding support frame, a flat cable terminal storage device, a flat cable terminal jacking device, a flat cable terminal support frame and a flat cable terminal suction device; the invention has simple structure and high automation degree, can effectively avoid the damage to operators in galvanization, reduces the burrs at the tail parts of the flat cable terminals, improves the product quality and has good market application value.

Description

Winding displacement terminal galvanizing equipment on meteorological and marine instruments

Technical Field

The invention relates to the field of automatic assembly, in particular to a flat cable terminal galvanizing device on meteorological and oceanographic instruments.

Background

Galvanizing, also called hot dip galvanizing and hot dip galvanizing, is an effective metal anticorrosion mode and is mainly used for metal structure facilities in various industries. The steel member after rust removal is immersed in zinc liquid melted at about 450 ℃ to enable a zinc layer to be attached to the surface of the steel member, so that the purpose of corrosion prevention is achieved. The traditional hot galvanizing operation is carried out by manual work to move and transmit galvanized pipe fittings, the mode needs to consume a large amount of manpower, and when the manual operation is carried out, zinc liquid can continuously spill, thereby threatening the personal safety of operators, and the manual operation is difficult to accurately control the galvanizing time and the number of the galvanized parts, thereby easily causing the galvanized parts to be leaked to be galvanized or the galvanized layer to be uneven, the tail part has burrs, the galvanizing quality and the appearance quality of channel steel can not be ensured, the production efficiency is also low, therefore, the prior art has defects and needs to be improved.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a wire arrangement terminal galvanizing device on meteorological and marine instruments to solve the problems.

The invention provides a technical document, in particular to a winding displacement terminal galvanizing device on a meteorological and oceanographic instrument, which comprises a winding displacement terminal feeding mechanism, a winding displacement terminal galvanizing mechanism and a winding displacement terminal blanking mechanism; the winding displacement terminal feeding mechanism and the winding displacement terminal blanking mechanism are respectively arranged on the left side and the right side of the winding displacement terminal galvanizing mechanism;

the flat cable terminal feeding mechanism comprises a feeding support frame, a flat cable terminal storage device, a flat cable terminal jacking device, a flat cable terminal support frame and a flat cable terminal suction device; the flat cable terminal supporting frame is fixed on the feeding supporting frame, the flat cable terminal storing device is installed at the top end of the feeding supporting frame, the flat cable terminal jacking device is installed below the feeding supporting frame, and the flat cable terminal suction device is installed at the upper end of the flat cable terminal supporting frame;

the winding displacement terminal galvanizing mechanism comprises a galvanizing working frame, a left winding displacement terminal conveying device, a right winding displacement terminal conveying device, a primary galvanizing device, a winding displacement terminal displacement device and a winding displacement terminal galvanizing device; the left winding displacement terminal conveying device and the right winding displacement terminal conveying device are respectively installed at the left end and the right end of the galvanizing working frame, the initial device is installed below the right winding displacement terminal conveying device, the winding displacement terminal galvanizing device is installed in the middle of the galvanizing working frame, the winding displacement terminal displacement device is installed on the galvanizing working frame, and the winding displacement terminal displacement device is located above the winding displacement terminal galvanizing device.

Preferably, the flat cable terminal storage device comprises a rodless cylinder I, a rotary positioning plate, a rotary cylinder, a flat cable terminal supporting plate and two flat cable terminal storage boxes; the wire arranging terminal support plate is characterized in that the first rodless cylinder is arranged at the top end of the feeding support frame, the rotary positioning plate is arranged on the first rodless cylinder, the fixed end of the rotary cylinder is fixed on the upper surface of the rotary positioning plate, the middle of the wire arranging terminal support plate is arranged at the output end of the rotary cylinder, and the wire arranging terminal material storage boxes are respectively arranged at the left end and the right end of the wire arranging terminal support plate.

Preferably, the left end and the right end of the flat cable terminal supporting plate are both provided with U-shaped feeding holes, and the U-shaped feeding holes are located at the bottom of the flat cable terminal storage box.

Preferably, the flat cable terminal jacking device comprises a first driving motor, a first ball screw, two sliding optical axes, a first screw nut seat, a screw positioning plate, a jacking extension plate and a jacking plate; the wire rod positioning plate is arranged at the upper end of the wire arrangement terminal support frame, the upper end and the lower end of the first ball screw are respectively and rotatably connected to the wire rod positioning plate and the feeding support frame, the first driving motor is fixed at the bottom of the feeding support frame, an output shaft of the first driving motor is fixedly connected with the lower end of the first ball screw, the sliding optical axes are respectively arranged on the left side and the right side of the first ball screw, the middle part of the first screw rod nut seat is sleeved on the first ball screw, and the left end and the right end of the first screw rod nut seat are in sliding sleeve connection with the sliding optical axes; the jacking extension plate is fixed on one side of the first screw rod nut seat, and the jacking plate is fixed at the top end of the jacking extension plate.

Preferably, the flat cable terminal suction device comprises a suction positioning plate, a rodless cylinder II, a suction positioning seat, a suction supporting plate, two pressing cylinders I and two suction components; the sucking positioning plate is installed at the top end of the flat cable terminal supporting frame, the rodless cylinder II is installed on the front wall of the sucking positioning plate, the sucking positioning seat is fixed on the rodless cylinder II, the sucking supporting plate is installed on the sucking positioning seat, the pressing cylinders are respectively and vertically fixed at the left end and the right end of the sucking supporting plate, and the sucking assemblies are respectively and correspondingly installed at the bottom ends of the pressing cylinders I.

Preferably, the right winding displacement terminal conveying device comprises a plurality of conveying support shafts, a conveying positioning plate, a conveying track, a second driving motor, a conveying belt and a winding displacement terminal material blocking block; the utility model discloses a transportation support shaft, including transportation locating plate, transportation back shaft, transportation track, driving motor two, transmission motor two, drive motor two, the output shaft of driving motor two links firmly the drive wheel, the drive wheel links firmly through the hold-in range, the transportation locating plate is installed on the zinc-plated work frame, and is a plurality of the bottom of transportation back shaft is fixed in four angles of transportation locating plate respectively, transportation track installs on the top of transportation back shaft, transportation orbital both ends of controlling all rotate the connection axis of rotation, the rotation wheel is all cup jointed at the both ends of axis of rotation, cup joint the transportation belt on the rotation wheel, link firmly in the axis of rotation of transportation track front end from the driving wheel, the stiff end of driving motor two is fixed in the orbital below of transportation, the output shaft of driving motor two links firmly the drive wheel, the drive wheel cup joints through the hold-in range from the driving wheel, winding displacement terminal material blocking block piece meal is fixed in transportation orbital one end for block the winding displacement terminal on the transportation belt.

Preferably, the primary plating device comprises a first jacking cylinder, a primary plating mounting plate, a plurality of primary plating supports, a primary plating positioning plate, a first tin plating box, a tin plating mounting seat, two flat cable supporting frames, two primary plating sliding shafts, a first jacking fixing plate, a first jacking sliding plate and a tin box extending plate; the utility model discloses a lead-acid battery lead.

Preferably, the wire arranging terminal displacement device comprises a first pressing cylinder, a second conveying motor, a third driving motor, a second ball screw, a displacement sliding frame, a second screw nut seat, a displacement extension plate, a pressing positioning plate, two pressing extension plates and two pressing rotating shafts; the second conveying motor is fixed at the bottom end of the galvanizing working frame, two ends of the second ball screw are installed at the bottom of the galvanizing working frame through screw positioning blocks, an output shaft of the second conveying motor is fixedly connected with one end of the second ball screw, the second ball screw nut seat is sleeved on the second ball screw, and the bottom end of the displacement extension plate is fixed at the top end of the second ball screw nut seat; the displacement sliding frame is connected with a sliding rail on the galvanizing working frame in a sliding mode through a sliding seat at the bottom, the top end of a displacement extension plate is fixedly connected with the sliding seat at the bottom of the displacement sliding frame, a first pressing cylinder is vertically fixed at the top end of the displacement sliding frame, an output shaft of the first pressing cylinder penetrates through the top end of the displacement sliding frame and is fixedly connected with a first pressing locating plate, two first pressing extension plates are respectively fixed at the left end and the right end of the bottom of the first pressing locating plate, a third driving motor is fixed at one side of the first pressing extension plate, the output shaft of the third driving motor is fixedly connected with a driving gear, two rotating ends of the first pressing rotating shaft are rotatably connected to the bottom of the first pressing extension plate, one ends of the two first pressing rotating shafts are fixedly connected with driven gears, and the driving gears are sleeved with the driven gears through driving chains; the bottom of the downward pressing rotation is provided with an absorption mounting plate, and a plurality of suction nozzles are mounted on the absorption mounting plate.

Preferably, the flat cable terminal galvanizing device comprises a flat cable terminal poking assembly, a terminal positioning bottom plate, a plurality of tin box supporting columns, a tin box supporting plate, a tin box jacking assembly and a tin box fixing seat; the terminal positioning bottom plate is installed on the tin-plating work frame, and is a plurality of the tin box support column is fixed in four angles of terminal positioning bottom plate respectively, the tin box backup pad is fixed in the top of tin box support column, the tin box fixing base is installed in the tin box backup pad, tin box jacking subassembly is installed on the zinc-plating work frame, the winding displacement terminal is stirred the subassembly and is installed in the below of tin box backup pad.

Preferably, the flat cable terminal poking assembly comprises a rodless cylinder III, a plurality of sliding bearing seats, two sliding optical shafts, a poking positioning plate, a poking supporting plate, a telescopic cylinder I, a poking rotating shaft and a poking plate; a plurality of sliding bearing seat installs in tin box backup pad bottom, no pole cylinder three is fixed in the middle part of tin box bottom, two the slip optical axis cup joints in sliding bearing seat, stir the one end that the locating plate is fixed in the slip optical axis, stir the backup pad and be fixed in the top of stirring the locating plate, just stir the top that the backup pad is located tin box fixing base, stir the pivot and rotate the front end of connection at stirring the backup pad, telescopic cylinder one is fixed in the left end of stirring the backup pad, it links firmly with stirring the pivot through stirring the piece to stir the movable plate, the middle part of stirring the pivot links firmly stirs the switching piece, telescopic cylinder one's output rotates with the one end of stirring the switching piece and is connected.

Compared with the prior art, the invention has the beneficial effects that the flat cable terminal feeding mechanism is arranged to feed the flat cable terminals, the flat cable terminals are conveyed by the conveying belt on the flat cable terminal conveying device, the CCD detection device is arranged to detect the flat cable terminals on the conveying belt, unqualified flat cable terminals are detected and removed, the requirement of work at night is met by arranging the light supplement lamp, the whole process of galvanization of the flat cable terminals is driven by the displacement sliding frame, the whole process is automatically completed, manual participation is not needed, the personal safety of operating personnel is ensured, the precision of the galvanization time of the flat cable terminals is ensured, the flat cable terminals are stirred by the stirring plate to reduce burrs at the tail part, the galvanization quality of the flat cable terminals is improved, and the flat cable terminal galvanizing machine has good market application value.

Drawings

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

FIG. 2 is a schematic view of a flat cable terminal feeding mechanism according to the present invention;

FIG. 3 is a schematic structural view of a right-side winding displacement terminal transport device according to the present invention;

FIG. 4 is a schematic structural view of an initial plating apparatus according to the present invention;

FIG. 5 is a schematic structural diagram of a line terminal displacement device according to the present invention;

FIG. 6 is a schematic view of a flat cable terminal galvanizing device according to the present invention;

a flat cable terminal feeding mechanism 1; a flat cable terminal galvanizing mechanism 2; a flat cable terminal blanking mechanism 3; a feeding support frame 11; a flat cable terminal storage device 12; a flat cable terminal jacking device 13; a flat cable terminal support frame 14; a flat cable terminal suction device 15; a zinc plating work frame 21; a left flat cable terminal transport device 22; a right wire arranging terminal transporting device 23; a primary plating device 24; a flat cable terminal displacement device 25; a flat cable terminal galvanizing device 26; a rodless cylinder I121; rotating the positioning plate 122; a rotary cylinder 123; a flat cable terminal support plate 124; a flat cable terminal storage box 125; a first driving motor 131; a suction positioning plate 151; a second rodless cylinder 152; a suction support plate 153; a suction assembly 154; the transport support shaft 231; a transport positioning plate 232; a transport rail 233; a second drive motor 234; a conveyor belt 235; a flat cable terminal stop block 236; a rotating shaft 237; a second telescopic cylinder 238; a second push cylinder 239; pressing the second positioning plate 2310 downwards; detecting the slide plate 2311; detecting the support arm 2312; a first jacking cylinder 241; the primary plating mounting plate 242; the primary plating frame 243; the positioning plate 244 is initially plated; a first tinning box 245; a tin plated mount 246; a first jacking fixing plate 247; a first jacking sliding plate 248; a tin box extension plate 249; a flat cable support 2410; a first down-pressing cylinder 251; a second conveying motor 252; a third driving motor 253; a second ball screw 254; a displacement carriage 255; a second lead screw and nut seat 256; pressing down the positioning plate 257; pressing down on the extension plate 258; the rotating shaft 259 is pressed down; a terminal positioning bottom plate 261; tin box support posts 262; a tin box fixing seat 263; jacking sliding assembly one 264; a second jacking sliding assembly 265; drive motor four 266; ball screw III 267; rodless cylinder three 268; the positioning plate 269 is shifted; toggling the support plate 2610; a telescopic cylinder I2611; a toggle plate 2612.

Detailed Description

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

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

One embodiment as shown in fig. 1: a winding displacement terminal galvanizing device on meteorological and ocean instruments comprises a winding displacement terminal feeding mechanism 1, a winding displacement terminal galvanizing mechanism 2 and a winding displacement terminal blanking mechanism 3; the flat cable terminal feeding mechanism 1 and the flat cable terminal blanking mechanism 3 are respectively arranged at the left side and the right side of the flat cable terminal galvanizing mechanism 2;

the flat cable terminal feeding mechanism 1 comprises a feeding support frame 11, a flat cable terminal storage device 12, a flat cable terminal jacking device 13, a flat cable terminal support frame 14 and a flat cable terminal suction device 15; the flat cable terminal support frame 14 is fixed on the feeding support frame 11, the flat cable terminal storage device 12 is installed at the top end of the feeding support frame 11, the flat cable terminal jacking device 13 is installed below the feeding support frame 11, and the flat cable terminal suction device 15 is installed at the upper end of the flat cable terminal support frame 14;

the flat cable terminal galvanizing mechanism 2 comprises a galvanizing working frame 21, a left flat cable terminal conveying device 22, a right flat cable terminal conveying device 23, a primary galvanizing device 24, a flat cable terminal displacement device 25 and a flat cable terminal galvanizing device 26; the left winding displacement terminal conveying device 22 and the right winding displacement terminal conveying device 23 are respectively installed at the left end and the right end of the galvanized working frame 21, the initial device is installed below the right winding displacement terminal conveying device 23, the winding displacement terminal galvanizing device 26 is installed in the middle of the galvanized working frame 21, the winding displacement terminal displacement device 25 is installed on the galvanized working frame 21, and the winding displacement terminal displacement device 25 is located above the winding displacement terminal galvanizing device 26.

Further, the left winding displacement terminal transport device 22 and the right winding displacement terminal transport device 23 have the same structure.

Embodiment 2 on the basis of embodiment 1, the flat cable terminal storage device 12 includes a rodless cylinder one 121, a rotary positioning plate 122, a rotary cylinder 123, a flat cable terminal supporting plate 124 and two flat cable terminal storage boxes 125; the first rodless cylinder 121 is mounted at the top end of the feeding support frame 11, the rotary positioning plate 122 is mounted on the first rodless cylinder 121, the fixed end of the rotary cylinder 123 is fixed on the upper surface of the rotary positioning plate 122, the middle of the flat cable terminal support plate 124 is mounted at the output end of the rotary cylinder 123, and the flat cable terminal storage boxes 125 are respectively mounted at the left end and the right end of the flat cable terminal support plate 124.

Embodiment 3 is based on embodiment 2, the flat cable terminal supporting plate 124 is provided with U-shaped feeding holes at both left and right ends, and the U-shaped feeding holes are located at the bottom of the flat cable terminal storage box 125.

Embodiment 4 on the basis of embodiment 1, the flat cable terminal jacking device 13 includes a first driving motor 131, a first ball screw, two sliding optical axes, a first screw nut seat, a first screw positioning plate, a jacking extension plate, and a jacking plate; the lead screw positioning plate is arranged at the upper end of the flat cable terminal supporting frame 14, the upper end and the lower end of the first ball screw are respectively and rotatably connected to the lead screw positioning plate and the feeding supporting frame 11, the first driving motor 131 is fixed at the bottom of the feeding supporting frame 11, an output shaft of the first driving motor 131 is fixedly connected with the lower end of the first ball screw, the sliding optical axes are respectively arranged at the left side and the right side of the first ball screw, the middle part of the first lead screw nut seat is sleeved on the first ball screw, and the left end and the right end of the first lead screw nut seat are in sliding sleeve connection with the sliding optical axes; the jacking extension plate is fixed on one side of the first screw rod nut seat, and the jacking plate is fixed at the top end of the jacking extension plate.

Further, the flat cable terminal blanking mechanism 3 has the same structure as the flat cable terminal feeding mechanism 1.

Embodiment 5 on the basis of embodiment 1, the flat cable terminal suction device 15 includes a suction positioning plate 151, a rodless cylinder two 268152, a suction positioning seat, a suction supporting plate 153, two pressing cylinders one 251, and two suction assemblies 154; the sucking and positioning plate 151 is installed at the top end of the flat cable terminal support frame 14, the second rodless cylinder 152 is installed on the front wall of the sucking and positioning plate 151, the sucking and positioning seat is fixed on the second rodless cylinder 152, the sucking and supporting plate 153 is installed on the sucking and positioning seat, the first lower pressing cylinders 251 are respectively and vertically fixed at the left end and the right end of the sucking and supporting plate 153, and the sucking assemblies 154 are respectively and correspondingly installed at the bottom ends of the first lower pressing cylinders 251.

Embodiment 6 is based on embodiment 1, the right flat cable terminal transportation device 23 includes a plurality of transportation support shafts 231, a transportation positioning plate 232, a transportation track 233, a second driving motor 234, a transportation belt 235 and a flat cable terminal stop block 236; the transportation locating plate 232 is installed on the zinc-plated work frame 21, and is a plurality of four angles of transportation locating plate 232 are fixed in respectively to the bottom of transportation back shaft 231, transportation track 233 is installed on the top of transportation back shaft 231, both ends all rotate about transportation track 233 and connect axis of rotation 237, the rotation wheel is all cup jointed at the both ends of axis of rotation 237, cup joint transportation belt 235 on the rotation wheel, link firmly on the axis of rotation 237 of transportation track 233 front end from the driving wheel, the stiff end of two driving motor 234 is fixed in the below of transportation track 233, the output shaft of two driving motor 234 links firmly the drive wheel, the drive wheel cup joints through the hold-in range with from the driving wheel, winding displacement terminal material stopping block 236 meal is fixed in the one end of transportation track 233 respectively for block the winding displacement terminal on the transportation belt 235.

Embodiment 7 on the basis of embodiment 1, the primary plating device 24 includes a first jacking cylinder 241, a primary plating mounting plate 242, a plurality of primary plating brackets 243, a primary plating positioning plate 244, a first tin plating box 245, a tin plating mounting base 246, two flat cable supporting frames 2410, two primary plating sliding shafts, a first jacking fixing plate 247, a first jacking sliding plate 248 and a tin box extending plate 249; the primary plating mounting plate 242 is fixed on the zinc plating working frame 21, the primary plating brackets 243 are respectively fixed at four corners of the primary plating mounting plate 242, the primary plating positioning plate 244 is mounted at the top end of the primary plating bracket 243, the tin plating mounting seat 246 is fixed at the top end of the primary plating positioning plate 244, the first tin plating box 245 is mounted in the tin plating mounting seat 246, the flat cable support frames 2410 are respectively mounted at the front and rear ends of the primary plating positioning plate 244, flat cable terminal discharge openings are respectively formed in the middle of the flat cable support frames 2410, two primary plating sliding shafts are fixed at the rear side of the primary plating mounting plate 242, the first jacking fixing plate 247 is fixed at the lower end of the primary plating sliding shaft, the first jacking cylinder 241 is vertically fixed on the first jacking fixing plate 247, the first jacking sliding plate 248 is slidably connected at the upper end of the primary plating sliding shaft, and one end of the tin box extending plate 249 is fixed on the first jacking sliding plate 248, the other end is fixed on a first tinning box 245.

Embodiment 8 on the basis of embodiment 1, the flat cable terminal displacement device 25 includes a first push-down cylinder 251, a second conveying motor 252, a third driving motor 253, a second ball screw 254, a second displacement carriage 255, a second screw-nut seat 256, a displacement extension plate, a push-down positioning plate 257, two push-down extension plates 258 and two push-down rotating shafts 259; the second conveying motor 252 is fixed at the bottom end of the galvanizing working frame 21, two ends of the second ball screw 254 are mounted at the bottom of the galvanizing working frame 21 through a screw positioning block, an output shaft of the second conveying motor 252 is fixedly connected with one end of the second ball screw 254, the second screw nut seat 256 is sleeved on the second ball screw 254, and the bottom end of the displacement extension plate is fixed at the top end of the second screw nut seat 256; the displacement sliding frame 255 is connected with a sliding rail on the galvanizing working frame 21 in a sliding manner through a sliding seat at the bottom, the top end of the displacement extension plate is fixedly connected with the sliding seat at the bottom of the displacement sliding frame 255, the first push cylinder 251 is vertically fixed at the top end of the displacement sliding frame 255, an output shaft of the first push cylinder 251 penetrates through the top end of the displacement sliding frame 255 and is fixedly connected with the push positioning plate 257, the two push extension plates 258 are respectively fixed at the left end and the right end of the bottom of the push positioning plate 257, the third drive motor 253 is fixed at one side of the push extension plate 258, an output shaft of the third drive motor 253 is fixedly connected with a drive gear, the two rotating ends of the push rotating shafts 259 are rotatably connected to the bottom of the push extension plate 258, one end of each of the two push rotating shafts 259 is fixedly connected with a driven gear, and the drive gear is sleeved with the driven gear through a drive chain; the bottom of the downward pressing rotation is provided with an absorption mounting plate, and a plurality of suction nozzles are mounted on the absorption mounting plate.

Embodiment 9 on the basis of embodiment 1, the flat cable terminal galvanizing device 26 includes a flat cable terminal poking assembly, a terminal positioning bottom plate 261, a plurality of tin box supporting columns 262, a tin box supporting plate, a tin box jacking assembly, and a tin box fixing seat 263; terminal location bottom plate 261 is installed on the tin-plating work frame, and is a plurality of tin box support column 262 is fixed in four angles of terminal location bottom plate 261 respectively, the tin box backup pad is fixed in the top of tin box support column 262, tin box fixing base 263 is installed in the tin box backup pad, tin box jacking subassembly is installed on zinc-plating work frame 21, the winding displacement terminal is stirred the subassembly and is installed in the below of tin box backup pad.

Embodiment 10 is based on embodiment 9, the flat cable terminal toggling assembly includes a rodless cylinder three 268, a plurality of sliding bearing seats, two sliding optical axes, a toggling positioning plate 269, a toggling supporting plate 2610, a telescopic cylinder one 2611, a toggling rotating shaft and a toggling plate 2612; the sliding bearing seats are installed at the bottom of the tin box supporting plate, the rodless cylinder three 268 is fixed to the middle of the bottom end of the tin box, the two sliding optical shafts are sleeved in the sliding bearing seats, the stirring positioning plate 269 is fixed to one end of the sliding optical shaft, the stirring supporting plate 2610 is fixed to the top end of the stirring positioning plate 269, the stirring supporting plate 2610 is located above the tin box fixing seat 263, the stirring rotating shaft is rotatably connected to the front end of the stirring supporting plate 2610, the telescopic cylinder one 2611 is fixed to the left end of the stirring supporting plate 2610, the stirring plate 2612 is fixedly connected with the stirring rotating shaft through a stirring block, the middle of the stirring rotating shaft is fixedly connected with the stirring transfer block, and the output end of the telescopic cylinder one 2611 is rotatably connected with one end of the stirring transfer block.

Further, the suction assembly 154 comprises a lateral support plate, a gripping suction nozzle and a suction air pipe; the utility model discloses a suction trachea, including side direction backup pad, suction pipe, suction nozzle, air valve, air passage, lateral support plate, mounting hole, suction pipe, grabbing suction nozzle, air valve, air passage and air valve, lateral support plate installs in the output of holding down cylinder 251, the middle part of lateral support plate sets up the mounting hole, it is fixed in the mounting hole to absorb the trachea, it sets up hollow bolt on the suction nozzle to snatch, it is connected with the tracheal bottom of absorption through hollow bolt to snatch the suction nozzle, the air cock that snatchs the suction nozzle is connected with the through-hole in the hollow bolt, absorb the intraductal air passage that sets up, the air passage is recanalized with the air valve, saves the air-vent line.

Further, the tin box jacking assembly comprises a driving motor IV 266, a ball screw III 267, a screw nut III, a jacking support plate, a jacking sliding assembly I264, a jacking sliding assembly II 265, two jacking extension plates and a tin box II; four 266 of driving motor are fixed in the bottom of galvanized work frame 21 through four drive locating plate, four angles of four drive locating plate all set up the lead screw auxiliary rod, the output shaft that terminal positioning bottom plate 261 and four 266 of driving motor are run through to the one end of three 267 of ball screw links firmly, three cup joints on three 267 of ball screw nut seat, the middle part of jacking backup pad is fixed on three of lead screw nut seat, install respectively in the left and right sides of jacking backup pad, two in jacking sliding assembly 264 and jacking sliding assembly two 265 the one end of jacking extension plate is fixed in the both ends of jacking backup pad respectively, and tin-plated box two is connected to the other end, just the tin-plated box is for being located tin box fixing base 263.

Further, the first jacking sliding assembly 264 comprises two jacking sliding rods, a jacking sliding block, two sliding shaft sleeves and a jacking upper plate; the two jacking sliding rods are fixed at one end of the terminal positioning bottom plate 261, the bottoms of the jacking sliding blocks are fixed on the jacking supporting plate, the two ends of each jacking sliding block are connected with the jacking sliding rods in a sliding mode through sliding shaft sleeves, and the jacks are fixed at the top ends of the jacking sliding rods on duty; the second jacking sliding assembly 265 and the first jacking sliding assembly 264 have the same structure.

Further, a CCD detection device is arranged on the right wire arrangement terminal transportation device 23, and the CCD detection device includes a second telescopic cylinder 238, a second downward pressing cylinder 239, a second downward pressing positioning plate 2310, a detection sliding plate 2311, a detection positioning plate, two detection optical axes and a detection supporting arm 2312; the detection sliding plate 2311 is in sliding connection with a sliding rail on the conveying track 233 through a sliding seat at the bottom, the second telescopic cylinder 238 is fixed to one side of the conveying track 233 through a second telescopic positioning plate, the output end of the second telescopic cylinder 238 is fixedly connected with one end of the detection extending plate, and the other end of the detection extending plate is connected with the detection sliding plate 2311; the two detection optical axes are fixed on the detection sliding plate 2311, the detection positioning plate is sleeved on the detection optical axes, the second lower pressing positioning plate 257 II 2310 is fixed at the top end of the detection optical axes, the second lower pressing air cylinder 239 is vertically fixed on the second lower pressing positioning plate 257 2310, an output shaft of the second lower pressing air cylinder 239 penetrates through the second lower pressing positioning plate 257 II 2310 to be connected with the detection positioning plate, the second lower pressing air cylinder 239 drives the detection positioning plate to move up and down along the detection optical axes, and the detection supporting arms 2312 are fixed at the left side and the right side of the detection positioning plate; an industrial camera is arranged on the detection supporting arm 2312, and the industrial camera is inclined by 30 degrees.

Further, one side that detects support arm 2312 sets up industry light filling lamp, the illumination terminal of industry light filling lamp corresponds transportation track 233 material receiving mouth department, industry light filling lamp is the industry camera light filling at night, and the detection of shooing is carried out to the winding displacement terminal to the industry camera of being convenient for.

As shown in fig. 2-6, the working principle of the present invention is: a flat cable terminal jacking device on a flat cable terminal feeding mechanism feeds flat cable terminals in a flat cable terminal storage device, a rodless cylinder II on a flat cable terminal suction device drives a suction assembly to suck the flat cable terminals sent by the flat cable terminal jacking device and place the flat cable terminals on a conveying belt of a right flat cable terminal conveying device, a driving motor II drives the conveying belt to rotate to send the flat cable terminals to a flat cable terminal material blocking block, a conveying motor II on a flat cable terminal displacement device drives a ball screw rod II to rotate to enable a displacement sliding frame to move to the upper side of the conveying belt, a pressing cylinder I drives a pressing rotating shaft to move downwards, a driving motor tee drives the pressing rotating shaft to rotate through a driving chain, and then a suction nozzle on a suction mounting plate fixed at the bottom of the pressing rotating shaft sucks and feeds the flat cable terminals on the conveying belt, displacement carriage moves to the top of just plating the device afterwards, drive tin box extension board up-motion by the first jacking cylinder on the device of just plating, the drive is fixed in tin box extension board on the tinning box up-motion, make the winding displacement terminal invade and tin-plate in the tinning box, the displacement carriage continues to move to winding displacement terminal galvanizing unit's top afterwards, it is galvanized once more to the winding displacement terminal to push up subassembly drive tin box by tin box, the winding displacement terminal is stirred the flexible cylinder drive on the subassembly and is dialled the movable plate and stir the winding displacement terminal afterwards, the winding displacement terminal that finishes with tin-plating afterwards is delivered to winding displacement terminal unloading mechanism and is carried out the unloading.

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A winding displacement terminal galvanizing device on meteorological and ocean instruments is characterized by comprising a winding displacement terminal feeding mechanism, a winding displacement terminal galvanizing mechanism and a winding displacement terminal blanking mechanism; the winding displacement terminal feeding mechanism and the winding displacement terminal blanking mechanism are respectively arranged on the left side and the right side of the winding displacement terminal galvanizing mechanism;

the flat cable terminal feeding mechanism comprises a feeding support frame, a flat cable terminal storage device, a flat cable terminal jacking device, a flat cable terminal support frame and a flat cable terminal suction device; the winding displacement terminal support frame is fixed on the feeding support frame, the winding displacement terminal material storing device is installed at the top end of the feeding support frame, the winding displacement terminal jacking device is installed below the feeding support frame, and the winding displacement terminal suction device is installed at the upper end of the winding displacement terminal support frame.

2. The plating zinc equipment of claim 1, wherein the wire terminal storage device comprises a rodless cylinder I, a rotary positioning plate, a rotary cylinder, a wire terminal supporting plate and two wire terminal storage boxes; the wire arranging terminal support plate is characterized in that the first rodless cylinder is arranged at the top end of the feeding support frame, the rotary positioning plate is arranged on the first rodless cylinder, the fixed end of the rotary cylinder is fixed on the upper surface of the rotary positioning plate, the middle of the wire arranging terminal support plate is arranged at the output end of the rotary cylinder, and the wire arranging terminal material storage boxes are respectively arranged at the left end and the right end of the wire arranging terminal support plate.

3. The apparatus of claim 1, wherein the plating mechanism comprises a plating frame, a left plating terminal transportation device, a right plating terminal transportation device, a primary plating device, a plating terminal displacement device, and a plating terminal plating device; the left winding displacement terminal conveying device and the right winding displacement terminal conveying device are respectively arranged at the left end and the right end of the galvanizing working frame, the initial degree device is arranged below the right winding displacement terminal conveying device, the winding displacement terminal galvanizing device is arranged in the middle of the galvanizing working frame, and the front end of the rear end of the galvanizing working frame; the left end and the right end of the flat cable terminal supporting plate are provided with U-shaped feeding holes, and the U-shaped feeding holes are located at the bottom of the flat cable terminal storage box.

4. The plating zinc equipment of claim 1, wherein the wire-arranging terminal jacking device comprises a first driving motor, a first ball screw, two sliding optical axes, a first screw nut seat, a screw positioning plate, a jacking extension plate and a jacking plate; the wire rod positioning plate is arranged at the upper end of the wire arrangement terminal support frame, the upper end and the lower end of the first ball screw are respectively and rotatably connected to the wire rod positioning plate and the feeding support frame, the first driving motor is fixed at the bottom of the feeding support frame, an output shaft of the first driving motor is fixedly connected with the lower end of the first ball screw, the sliding optical axes are respectively arranged on the left side and the right side of the first ball screw, the middle part of the first screw rod nut seat is sleeved on the first ball screw, and the left end and the right end of the first screw rod nut seat are in sliding sleeve connection with the sliding optical axes; the jacking extension plate is fixed on one side of the first screw rod nut seat, and the jacking plate is fixed at the top end of the jacking extension plate.

5. The flat cable terminal galvanizing equipment on the meteorological and ocean instrument according to claim 1, wherein the flat cable terminal suction device comprises a suction positioning plate, a rodless cylinder II, a suction positioning seat, a suction supporting plate, two pressing cylinders I and two suction components; the sucking positioning plate is installed at the top end of the flat cable terminal supporting frame, the rodless cylinder II is installed on the front wall of the sucking positioning plate, the sucking positioning seat is fixed on the rodless cylinder II, the sucking supporting plate is installed on the sucking positioning seat, the pressing cylinders are respectively and vertically fixed at the left end and the right end of the sucking supporting plate, and the sucking assemblies are respectively and correspondingly installed at the bottom ends of the pressing cylinders I.

6. The winding displacement terminal galvanizing equipment on the meteorological and ocean instrument according to claim 1, wherein the right winding displacement terminal conveying device comprises a plurality of conveying support shafts, a conveying positioning plate, a conveying track, a second driving motor, a conveying belt and a winding displacement terminal material blocking block; the utility model discloses a transportation support shaft, including transportation locating plate, transportation back shaft, transportation track, driving motor two, transmission motor two, drive motor two, the output shaft of driving motor two links firmly the drive wheel, the drive wheel links firmly through the hold-in range, the transportation locating plate is installed on the zinc-plated work frame, and is a plurality of the bottom of transportation back shaft is fixed in four angles of transportation locating plate respectively, transportation track installs on the top of transportation back shaft, transportation orbital both ends of controlling all rotate the connection axis of rotation, the rotation wheel is all cup jointed at the both ends of axis of rotation, cup joint the transportation belt on the rotation wheel, link firmly in the axis of rotation of transportation track front end from the driving wheel, the stiff end of driving motor two is fixed in the orbital below of transportation, the output shaft of driving motor two links firmly the drive wheel, the drive wheel cup joints through the hold-in range from the driving wheel, winding displacement terminal material blocking block piece meal is fixed in transportation orbital one end for block the winding displacement terminal on the transportation belt.

7. The flat cable terminal galvanizing equipment on the meteorological and ocean instrument according to claim 1, wherein the primary plating device comprises a first jacking cylinder, a primary plating mounting plate, a plurality of primary plating supports, a primary plating positioning plate, a first tin plating box, a tin plating mounting base, two flat cable supporting frames, two primary plating sliding shafts, a first jacking fixing plate, a first jacking sliding plate and a tin box extending plate; the utility model discloses a lead-acid battery lead.

8. The plating equipment of claim 1, wherein the wire-arranging terminal displacement device comprises a first pressing cylinder, a second conveying motor, a third driving motor, a second ball screw, a displacement sliding frame, a second screw nut seat, a displacement extension plate, a pressing positioning plate, two pressing extension plates and two pressing rotating shafts; the second conveying motor is fixed at the bottom end of the galvanizing working frame, two ends of the second ball screw are installed at the bottom of the galvanizing working frame through screw positioning blocks, an output shaft of the second conveying motor is fixedly connected with one end of the second ball screw, the second ball screw nut seat is sleeved on the second ball screw, and the bottom end of the displacement extension plate is fixed at the top end of the second ball screw nut seat; the displacement sliding frame is connected with a sliding rail on the galvanizing working frame in a sliding mode through a sliding seat at the bottom, the top end of a displacement extension plate is fixedly connected with the sliding seat at the bottom of the displacement sliding frame, a first pressing cylinder is vertically fixed at the top end of the displacement sliding frame, an output shaft of the first pressing cylinder penetrates through the top end of the displacement sliding frame and is fixedly connected with a first pressing locating plate, two first pressing extension plates are respectively fixed at the left end and the right end of the bottom of the first pressing locating plate, a third driving motor is fixed at one side of the first pressing extension plate, the output shaft of the third driving motor is fixedly connected with a driving gear, two rotating ends of the first pressing rotating shaft are rotatably connected to the bottom of the first pressing extension plate, one ends of the two first pressing rotating shafts are fixedly connected with driven gears, and the driving gears are sleeved with the driven gears through driving chains; the bottom of the downward pressing rotation is provided with an absorption mounting plate, and a plurality of suction nozzles are mounted on the absorption mounting plate.

9. The flat cable terminal galvanizing equipment on the meteorological and ocean instrument according to claim 1, wherein the flat cable terminal galvanizing device comprises a flat cable terminal poking assembly, a terminal positioning bottom plate, a plurality of tin box supporting columns, a tin box supporting plate, a tin box jacking assembly and a tin box fixing seat; the terminal positioning bottom plate is installed on the tin-plating work frame, and is a plurality of the tin box support column is fixed in four angles of terminal positioning bottom plate respectively, the tin box backup pad is fixed in the top of tin box support column, the tin box fixing base is installed in the tin box backup pad, tin box jacking subassembly is installed on the zinc-plating work frame, the winding displacement terminal is stirred the subassembly and is installed in the below of tin box backup pad.

10. The plating zinc equipment of claim 9, wherein the wire terminal shifting assembly comprises a rodless cylinder III, a plurality of sliding bearing seats, two sliding optical axes, a shifting positioning plate, a shifting support plate, a telescopic cylinder I, a shifting rotating shaft and a shifting plate; a plurality of sliding bearing seat installs in tin box backup pad bottom, no pole cylinder three is fixed in the middle part of tin box bottom, two the slip optical axis cup joints in sliding bearing seat, stir the one end that the locating plate is fixed in the slip optical axis, stir the backup pad and be fixed in the top of stirring the locating plate, just stir the top that the backup pad is located tin box fixing base, stir the pivot and rotate the front end of connection at stirring the backup pad, telescopic cylinder one is fixed in the left end of stirring the backup pad, it links firmly with stirring the pivot through stirring the piece to stir the movable plate, the middle part of stirring the pivot links firmly stirs the switching piece, telescopic cylinder one's output rotates with the one end of stirring the switching piece and is connected.

Images