CN201702487U - Lining core solder installing machine - Google Patents

Abstract

A lining core solder installing machine comprises a frame (20), a control device (1), a lining core conveying device (2), a solder conveying device (3) and a pressing device (4), wherein the control device (1), the lining core conveying device (2), the solder conveying device (3) and the pressing device (4) are disposed on the frame (20), the control device (1) is respectively electrically connected with the lining core conveying device (2), the solder conveying device (3) and the pressing device (4), the lining core conveying device (2) is connected with the pressing device (4), and the solder conveying device (3) is arranged below the pressing device (4). Compared with the prior art, the whole process is completely controlled and completed by the control device without manpower, the installation machine is high in automation level, one worker can manage a plurality of installation machines, labor intensity of workers is lower, production efficiency is higher, and further daily output of one installation machine is equivalent to those of four workers, thereby greatly reducing production cost and increasing market competitiveness of follow-up products.

Description

Lining core scolder fitting machine

Technical field:

The utility model relates to a kind of lining core of brake hose assemblies metal solder lining core joint and lining core scolder fitting machine that scolder is installed automatically of being used for.

Background technology:

At present, brake hose assemblies metal solder lining core joint used on the market adopts the soldering form to be welded by fittings body and lining core, before welding, need on the outer circumference surface of lining core one end, be inserted in the scolder of annular, and this procedure all adopts manually mode to finish at present, but not only labour intensity is big for this mode of being inserted in scolder manually, and operating efficiency is lower, need a large amount of workmans could satisfy the demand of producing, this has just increased production cost of products greatly, has reduced the competitiveness of follow-up finished product on market.

The utility model content:

The utility model provides a kind of lining core scolder fitting machine of full-automatic installation lining core scolder at above problem.

The utility model overcomes the above problems used technical scheme: a kind of lining core scolder fitting machine with following structure is provided, it comprises frame and is arranged on control device on the frame, lining core conveying device, scolder conveying device and press-loading apparatus, described control device all is electrically connected with lining core conveying device, scolder conveying device and press-loading apparatus, described lining core conveying device is connected with press-loading apparatus, and described scolder conveying device is positioned at the below of press-loading apparatus.

Described control device comprises housing and is located at display, touch-screen, a plurality of vibrating disc controller and switch on the housing, described housing is connected with frame, be provided with integrated circuit in the housing, described display, touch-screen and switch all are electrically connected with integrated circuit.

Described lining core conveying device involving vibrations dish I, substrate, at least one flexible pipe and be fixed on the cylinder that connects material on the substrate, described vibrating disk I all is connected with frame with substrate, described substrate is provided with blanking groove and slide block I, the upper end of described blanking groove is connected with vibrating disk I discharge end, described slide block I is positioned at the blanking groove below and is slidingly connected with substrate, and slide block I is connected with the cylinder that connects material, described slide block I is provided with the through hole that be used to identical with flexible pipe quantity of a row receives the lining core that slides from blanking groove, and the lower end of described each through hole is connected with an end of each self-corresponding flexible pipe respectively.

Described scolder conveying device comprises at least one vibrating disk II, described vibrating disk II is connected with frame, the output of vibrating disk II is provided with scolder conveying device one by one, the frame of described vibrating disk II output side is provided with chute feeder, the rear end of described chute feeder is provided with pushes pin and cylinder II, a described end of pushing pin is slidingly fitted in the chute feeder, and the other end of pushing pin is connected with cylinder I I, and described cylinder I I is connected with frame.

Described scolder conveying device one by one comprises the cylinder I that is connected with frame, the backboard that is connected with cylinder I, the front apron that is connected with cylinder I and chute, described chute is connected with the output of vibrating disk II, one end of described chute is positioned at the below of front apron, the other end of chute is communicated with chute feeder, and the end that chute is positioned at front apron below is higher than the end that chute is connected with chute feeder.

Described press-loading apparatus comprises at least one the lining core anchor clamps that is slidingly fitted on the frame, at least one the anchor clamps cylinder that is connected with frame, the cylinder I II that is connected with frame, the connecting rod that is connected with cylinder I II, the hold-down devices that is connected with frame and at least one feed block that is connected with frame, described each lining core anchor clamps comprise motion block I, motion block II and motion block II resetting means, be equipped with the groove that when motion block I and motion block II are close to, is used to clamp the lining core on described motion block I and the motion block II, be provided with slide block II between described motion block I and the frame, described slide block II is provided with can slide up and down slide bar II and the vertical resetting means of motion block I, the top of described slide bar II is connected with motion block I, be equipped with the boost motor that is used to make motion block II activity on the described anchor clamps cylinder, described connecting rod is connected with slide block II, described hold-down devices is positioned on the frame of lining core anchor clamps top, the side opening that is equipped with the charging through hole on described each feed block and is used to ventilate, binding face when the axis of described charging through hole is close to motion block I and motion block II at grade, the axis of the axis of described side opening and charging through hole meets at right angles, one end opening of side opening is on the hole wall of charging through hole, the other end opening of side opening is provided with pipe joint, and the frame under the described feed block is provided with and prevents to serve as a contrast the block that core drops.

Described each charging through hole upper end open is connected with the other end of each flexible pipe respectively.

Described hold-down devices comprises following air cylinder that is connected with frame and the push rod that presses down that is connected with following air cylinder, described press down push rod be positioned at chute feeder front end extreme position directly over, and the binding face the when axis that presses down push rod also is close to motion block I and motion block II at grade, and described motion block I and motion block II are all pressing down between push rod lower surface and the chute feeder front end extreme position upper surface.

Described motion block II resetting means comprises through hole that is located on the motion block I and the slide bar I that is slidingly fitted in the through hole, the length of described slide bar I is greater than the length of through hole, and the two ends of slide bar I are positioned at the outside of through hole, the end of slide bar I is fixedlyed connected with motion block II, the slide bar I other end is provided with limited block, be provided with spring I between described limited block and the motion block I, the summation of the length the when length of described through hole adds upper spring I and is free state is greater than the length of slide bar I; The vertical resetting means of described motion block I comprises resetting block, and described resetting block slides up and down with slide block II and is connected, and the lower surface of the upper surface of resetting block and motion block I is close to, and is provided with between the lower surface of resetting block and the slide block II to be used to spring II that resetting block is resetted.

After adopting above structure, the utility model compared with prior art, owing to be by control device, lining core conveying device, the machine that scolder conveying device and press-loading apparatus are formed, at first control device control lining core conveying device and scolder conveying device will serve as a contrast core and annular solder respectively and be transported in the press-loading apparatus, the press-loading apparatus of control device control subsequently will serve as a contrast core and annular solder pressing, promptly get annular solder and be inserted in the lining core, whole process has control device control to finish fully, need not artificial participation, so the utility model automaticity height, a workman can manage many playscripts with stage directions utility model, labor strength is lower, and production efficiency is also higher, and the daily output of a playscript with stage directions utility model is equivalent to four workmans' the daily output, greatly reduce production cost, improved the competitiveness of subsequent product on market.

As improvement, it also comprises and is located at the screening plant on the methods, rack under the press-loading apparatus, described screening plant comprises feeder and the screening washer that is connected with frame, described feeder is positioned at the below of lining core anchor clamps, the two ends of feeder are not on same horizontal plane, the low end of feeder is above screening washer, described screening washer is a strip, screening washer one end of described strip stretches out outside the frame, and the end of the screening washer of strip in frame is higher than the end of screening washer outside frame of strip, there is a slit screening washer of described strip centre along its length, and described gap width is greater than the diameter of lining core and less than the external diameter of scolder.

Description of drawings:

Fig. 1 is the structural representation of the utility model lining core scolder fitting machine.

Fig. 2 is the structural representation along A direction among Fig. 1.

Fig. 3 is the oblique plan structure schematic diagram of the utility model lining core scolder fitting machine.

Fig. 4 is the broken section structure for amplifying schematic diagram of the utility model lining core scolder fitting machine feed block.

As shown in the figure: 1, control device, 2, lining core conveying device, 3, the scolder conveying device, 4, press-loading apparatus, 5, vibrating disk I, 6, display, 7, blanking groove, 8, slide block I, 9, the cylinder that connects material, 10, flexible pipe, 11, feed block, 12, following air cylinder, 13, motion block I, 14, boost motor, 15, the anchor clamps cylinder, 16, housing, 17, touch-screen, 18, switch, 19, the vibrating disk controller.20, frame, 21, cylinder I, 22, vibrating disk II, 23, block, 24, screening washer, 25, cylinder I II, 26, press down push rod, 27, slide bar I, 28, limited block, 29, spring I, 30, slide bar II, 31, front apron, 32, backboard, 33, motion block II, 34, slide block II, 35, resetting block, 36, spring II, 37, cylinder I I, 38, push pin 39, chute feeder, 40, feeder, 41, connecting rod, 42, charging through hole, 43, side opening, 44, substrate, 45, chute.

The specific embodiment:

Below in conjunction with the drawings and specific embodiments, the utility model is described further:

As Fig. 1, Fig. 2 and a kind of lining core scolder fitting machine shown in Figure 3, it comprises frame 20 and is arranged on control device 1 on the frame 20, lining core conveying device 2, scolder conveying device 3 and press-loading apparatus 4, described control device 1 all is electrically connected with lining core conveying device 2, scolder conveying device 3 and press-loading apparatus 4, described lining core conveying device 2 is connected with press-loading apparatus 4, and described scolder conveying device 3 is positioned at the below of press-loading apparatus 4.

Described control device 1 comprises housing 16 and is located at display 6, touch-screen 17, a plurality of vibrating disk controller 19 (this example is six) and switch 18 on the housing 16, described housing 16 is connected with frame 20, be provided with integrated circuit in the housing 16, described display 6, touch-screen 17 and switch 18 all are electrically connected with integrated circuit, and switch 18 is a total power switch.

Described lining core conveying device 2 involving vibrations dish I 5, substrate 44, at least one flexible pipe 10 (this example is four) and be fixed on the cylinder 9 that connects material on the substrate 44, described vibrating disk I 5 all is connected with frame 20 with substrate 44, vibrating disk I 5 is electrically connected with vibrating disk controller 19 simultaneously, described substrate 44 is provided with blanking groove 7 and slide block I 8, the upper end of described blanking groove 7 is connected with vibrating disk I 5 discharge ends, the width of blanking groove 7 is slightly larger than the diameter of lining core, described slide block I 8 is positioned at blanking groove 7 belows and is slidingly connected with substrate 44, and slide block I 8 is connected with the cylinder 9 that connects material, described slide block I 8 is provided with the through hole that a row and identical being used to of flexible pipe 10 quantity receive the lining core that slides from blanking groove 7, i.e. four through holes, the slightly larger in diameter of flexible pipe 10 is in the diameter of lining core, the upper end of slide block I 8 is provided with groove simultaneously, groove is so that the lining core that slides from blanking groove 7 is easier to enter into through hole, the lower end of described each through hole is connected with an end of each self-corresponding flexible pipe 10 respectively, blanking groove 7 is provided with induction installation simultaneously, this induction installation is transferred to lining core landing situation in the blanking groove 7 in the control device, cylinder 9 makes slide block I 8 slidably reciprocate so that control device control connects material, and the lining core of landing is received in the corresponding through hole.

Described scolder conveying device 3 comprises at least one vibrating disk II 22 (this example is two), described vibrating disk II 22 all is connected with frame 20, and vibrating disk II 22 all is electrically connected with vibrating disk controller 19, the output of each vibrating disk II 22 is equipped with scolder conveying device one by one, and the middle part of the output of each vibrating disk II 22 is equipped with the straight-line oscillation device, this vibrator all is electrically connected with vibrating disk controller 19, the frame 20 of described vibrating disk II 22 output sides is provided with chute feeder 39, and the level height of chute feeder 39 is lower than the level height of vibrating disk II 22 outputs, the rear end of described chute feeder 39 is provided with pushes pin 38 and cylinder II 37, described 38 the end of pushing pin is slidingly fitted in the chute feeder 39,38 the other end of pushing pin is connected with cylinder I I 37, described cylinder I I 37 is connected with frame 20,38 in chute feeder 39, slidably reciprocate pushing pin under the effect of cylinder I I 37, push pin 38 be mainly used in from scolder one by one the conveying device single scolder of coming shift the extreme position of chute feeder 39 front ends onto so that press-loading apparatus 4 will serve as a contrast core and scolder pressing.

Described scolder conveying device one by one comprises the cylinder I 21 that is connected with frame 20, the backboard 32 that is connected with cylinder I 21, front apron 31 that is connected with cylinder I 21 and chute 45, described chute 45 is connected with the output of vibrating disk II 22, one end of described chute 45 is positioned at the below of front apron 31, the other end of chute 45 is communicated with chute feeder 39, and the end that chute 45 is positioned at front apron 31 belows is higher than the end that chute 45 is connected with chute feeder 39, then backboard 32 and front apron 31 asynchronous lifting and decline under the effect of cylinder I 21, promptly front apron 31 descends when backboard 32 promotes, and backboard 32 when descending front apron 31 promote, and the distance between backboard 32 and the front apron 31 is the external diameter that is slightly larger than scolder, the scolder of coming from chute feeder 39 is at first blocked by backboard 32 like this, when backboard 32 rises, scolder enters between backboard 32 and the front apron 31, but by front apron 31 spacing a bit of vibrating disk II22 outputs between backboard 32 and front apron 31, follow-up scolder is blocked in backboard 32 declines subsequently, front apron 31 rises simultaneously, scolder between backboard 32 and the front apron 31 is slipped in the chute 45 at this moment, slide at last in the chute feeder 39, so circulation then can with scolder one by one at interval certain hour deliver to chute feeder 39.

Described press-loading apparatus 4 comprises that (this example is four at least one the lining core anchor clamps that is slidingly fitted on the frame 20, identical with the quantity of flexible pipe 10), (this example is four at least one the anchor clamps cylinder 15 that is connected with frame 20, identical with lining core anchor clamps quantity), the cylinder I II25 that is connected with frame 20, the connecting rod 41 that is connected with cylinder I II25, (this example is four to the hold-down devices that is connected with frame 20 with at least one feed block 11 that is connected with frame 20, identical with the quantity of flexible pipe 10), four lining core anchor clamps are symmetrically distributed on frame 20 for two one group, the distribution of four feed block 11 is with the distribution of four lining core anchor clamps, the corresponding feed block 11 of each lining core anchor clamps, described each lining core anchor clamps comprise motion block I 13, motion block II 33 and motion block II resetting means, be equipped with the groove that when motion block I 13 and motion block II 33 are close to, is used to clamp the lining core on described motion block I 13 and the motion block II 33, the end face that is nearly motion block II 33 ends on the motion block I 13 is provided with groove, the end face of nearly motion block I 13 ends also is provided with groove on the motion block II 33, and the position of the groove on the groove on the motion block I13 and the motion block II 33 is corresponding, when the end face of the end face of motion block I 13 and motion block II 33 is close to, the lining core is sandwiched in the passage of these two grooves formation, be provided with slide block II34 between described motion block I 13 and the frame 20, specifically be two motion block I 13 public slide block II 34 that are located at lining core anchor clamps on one side, and with the fixed distance between two motion block I 13 on one side, be provided with guide rail between slide block II 34 and the frame 20, slide block II 34 horizontally slips along this guide rail, described slide block II 34 is provided with can slide up and down slide bar II 30 and the vertical resetting means of motion block I, described slide block II34 is provided with slide opening longitudinally, the lower end of slide bar II 30 is slidingly fitted in this slide opening, vertical direction is slidably on slide block II 34 to that is to say slide bar II 30, and horizontal direction is spacing by slide block II 34, the top of described slide bar II 30 is connected with motion block I 13, be equipped with the boost motor 14 that is used to make motion block II 33 activities on the described anchor clamps cylinder 15, described connecting rod 41 is connected with slide block II 34, connecting rod 41 drives slide block II 34 and horizontally slips under the effect of cylinder I II25, described hold-down devices is positioned on the frame 20 of lining core anchor clamps top, and between with two feed block 11 in one side, specifically be that hold-down devices is on the centre position between two feed block 11 in same one side, then equal feed block 11 enterprising material through hole 42 axis and press down distance between push rod 26 axis in the hold-down devices with the distance between two motion block I 13 center lines on one side, can guarantee that like this lining core anchor clamps pressing in hold-down devices on one side serves as a contrast in core and the scolder together, the below that another lining core anchor clamps are positioned at feed block 11 is in feed state, and frame 20 is provided with the sensor that is used to respond to lining core chucking position, the side opening 43 that is equipped with charging through hole 42 on described as shown in Figure 4 each feed block 11 and is used to ventilate, the slightly larger in diameter of charging through hole 42 is in the diameter of lining core, binding face when the axis of described charging through hole 42 is close to motion block I 13 and motion block II 33 at grade, promptly when lining core anchor clamps are in feed state below feed block 11, when the axis of charging through hole 42 is close to motion block I 13 and motion block II 33 separately the axis of the passage that complements each other to form of end face upper groove on same straight line, so just can guarantee when the lining core that charging through hole 42 gets off all can enter into motion block I 13 and motion block II 33 and is close to the passage that end face upper groove separately complements each other to form and clamped, thereby guarantee the efficient that the lining core clamps, the axis of the axis of described side opening 43 and charging through hole 42 meets at right angles, one end opening of side opening 43 is on the hole wall of charging through hole 42, and the other end opening of side opening 43 is provided with pipe joint, and this pipe joint is connected with air pump by pipeline, side opening 43 mainly is to be used for when the lining core enters in the charging through hole 42, air pump contralateral exposure 43 ventilation will serve as a contrast core by air pressure and remain in the charging through hole 42, prevent to serve as a contrast core and directly pass charging through hole 42 and drop, do not have the effect of charging, when lining core clamp movement was prepared charging below feed block 11, cylinder stopped contralateral exposure 43 ventilations simultaneously, and the lining core in the charging through hole 42 drops in the lining core anchor clamps thereupon and clamped, also be provided with the sensor that is electrically connected with control device 1 on the feed block 11, this sensor will have the situation of linerless core to be sent in the control device 1 in the charging through hole 42, cylinder 9 carries out charging to that root flexible pipe 10 so that control device 1 control connects material, and the frame 20 under the described feed block 11 is provided with and prevents to serve as a contrast the block 23 that core drops, the height of block 23 end faces is lower than the height of lining core anchor clamps bottom surface, lining core anchor clamps are between feed block 11 and block 23 when being charging, and block 23 mainly is to be used for preventing the space between the motion block I 13 and motion block II 33 when the lining core that charging through hole 42 gets off directly passes lining core anchor clamps and opens and to drop, and assurance serves as a contrast the efficient that clamps of core anchor clamps.

Described each charging through hole 42 upper end open are connected with the other end of each flexible pipe 10 respectively.

Described hold-down devices comprise the following air cylinder 12 that is connected with frame 20 be connected with following air cylinder 12 press down push rod 26, described press down push rod 26 be positioned at chute feeder 39 front end extreme positions directly over, and the binding face the when axis that presses down push rod 26 also is close to motion block I13 and motion block II 33 at grade, when promptly serving as a contrast the core anchor clamps and being positioned at hold-down devices below and preparing pressing, pressing down push rod 26 just in time is positioned at by directly over the lining core clamp clamps lining core, so that pressing down push rod 26 will serve as a contrast and press down push rod 26 when core presses down with lining core anchor clamps and act on fully on the lining core, thereby guarantee the pressing quality of lining core and scolder, described motion block I 13 and motion block II 33 are all pressing down between push rod 26 lower surfaces and the chute feeder 39 front end extreme position upper surfaces, chute feeder 39 front end extreme positions press down push rod 26 under, chute feeder 39 front end extreme positions will guarantee that when lining core anchor clamps were directly over chute feeder 39 front ends, the axis of the lining core in the lining core anchor clamps and the axis of chute feeder 39 front end extreme position annular solder were on same straight line simultaneously.

Described motion block II resetting means comprises through hole that is located on the motion block I 13 and the slide bar I 27 that is slidingly fitted in the through hole, the length of described slide bar I 27 is greater than the length of through hole, and the two ends of slide bar I 27 are positioned at the outside of through hole, the end of slide bar I 27 is fixedlyed connected with motion block II 33, slide bar I 27 other ends are provided with limited block 28, be provided with spring I 29 between described limited block 28 and the motion block I 13, the summation of the length the when length of described through hole adds upper spring I 29 and is free state is greater than the length of slide bar I 27, guarantees that motion block I 13 and motion block II 33 are in usually to be close to state; The vertical resetting means of described motion block I comprises resetting block 35, described resetting block 35 slides up and down with slide block II 34 and is connected, the lower surface of the upper surface of resetting block 35 and motion block I 13 is close to, and is provided with between the lower surface of resetting block 35 and the slide block II 34 to be used to spring II 36 that resetting block 35 is resetted.

It also comprises the screening plant that is located on 4 times methods, racks 20 of press-loading apparatus, described screening plant comprises feeder 40 and the screening washer 24 that is connected with frame 20, described feeder 40 is positioned at the below of lining core anchor clamps, the two ends of feeder 40 are not on same horizontal plane, the low end of feeder 40 is above screening washer 24, feeder 40 is used for collecting the lining core of the scolder of pressing that falls or independent lining core from lining core anchor clamps, described screening washer 24 is a strip, screening washer 24 1 ends of described strip stretch out outside the frame 20, and the end of the screening washer 24 of strip in frame 20 is higher than the end of screening washer 24 outside frame 20 of strip, there is a slit screening washer 20 centre along its length of described strip, described gap width is greater than the diameter of lining core and less than the external diameter of scolder, the width in a bit of foremost slit of screening washer 20 length directions is greater than the external diameter of scolder, the lining core of the scolder of being convenient to like this from feeder 40, get off of pressing or independent lining core in the screening washer 20 after, drop in the slit that independent lining core just at first passes on the screening washer 20, the lining core of pressing scolder slides into screening washer 20 and just drops foremost, and this has just played separately the effect of the lining core and the independent lining core of pressing scolder.

Above-mentioned each cylinder of mentioning all is connected with separately air pump, and each air pump all is connected on the frame 20.

During use, at first pour the lining core among the vibrating disk I 5 above frame 20, below frame 20, pour scolder among the vibrating disk II 22 of both sides simultaneously; Turn on the power switch 18 subsequently; Then regulate the vibration parameters of vibrating disk I 5, two vibrating disk II 22 and two straight-line oscillation devices by vibrating disk controller 19, scolder is delivered to the front end of two vibrating disk II 22 outputs under the vibrating disk II 22 on frame 20 both sides and the comprehensive function of two straight-line oscillation devices; Follow control device 1 control action cylinder I 21, this just makes front apron 31 and backboard 32 interlock and promotes and decline, thereby make scolder one by one at interval certain hour drop in the chute 45, be directed in the chute feeder 39 by chute 45, at this moment cylinder I I 37 actions, cylinder I I 37 38 will slide into the extreme position that scolder in the chute feeder 39 is pushed into chute feeder 39 front ends by pushing pin, and the lining core then is transported in the blanking groove 7 by vibrating disk I 5; Follow the information that control device 1 is passed back according to each sensor, control the cylinder 9 that connects material and promote the lining core that slide block I 8 slide and connect to get off from blanking groove 7, make that serving as a contrast core enters in the corresponding flexible pipe 10; Enter into charging through hole 42 with the backsight core along flexible pipe 10, at this moment sensor is passed signal back to control device 1, and control device 1 is controlled 43 ventilations of air pump contralateral exposure at once, will serve as a contrast on the hole wall that core is pressed in charging through hole 42 by air pressure; Then control device 1 control cylinder III25 action, be cylinder I II25 by connecting rod 41 promote slide block II 34 will serve as a contrast the core anchor clamps take to corresponding charging through hole 42 under, this timed unit 1 control anchor clamps cylinder 15 promotes boost motor 14, boost motor 14 promotes limited block 28 makes motion block II 33 relative motion block I 13 move, promptly serving as a contrast the core anchor clamps opens, stop ventilation with timed unit 1 control air pump contralateral exposure 43, serving as a contrast core this moment no longer is subjected to the restriction of air pressure and drops in the clip slot of lining core anchor clamps, since under frame 20 be provided with block 23, so the lining core is unlikely to pass lining core anchor clamps and drops, anchor clamps cylinder 15 shrank when the lining core was fallen in the lining core anchor clamps, boost motor 14 returns initial position, motion block II 33 resets under the effect of spring I29, and the lining core is clamped; Then control device 1 control cylinder III25 moves once more, be cylinder I II25 by connecting rod 41 promote slide block II 34 will serve as a contrast the core anchor clamps take to corresponding press down push rod 26 under, following air cylinder 12 drives of this timed unit 1 control press down push rod 26 and move downward, pressing down push rod 26 runs into and drives lining core anchor clamps behind the lining core on the lining core anchor clamps and move downward together, the lower end of lining core and the scolder pressing of chute feeder 39 front end extreme positions in lining core anchor clamps, pressing down when push rod 26 presses down, another lining core anchor clamps on the same slide block II 34 be in another charging through hole 42 under serve as a contrast core and clamp; Descend subsequently air cylinder 12 to shrink, press down push rod 26 and return initial position, lining core anchor clamps also upwards reset under the effect of resetting block 35 and spring II 36, when lining core anchor clamps upwards reset, cylinder I II25 action promotes slide block II 34 by connecting rod 41 will serve as a contrast the below that the core anchor clamps bring back to corresponding charging through hole 42, and get back in the process of corresponding charging through hole 42 at lining core anchor clamps, anchor clamps cylinder 15 promotes limited block 28 by boost motor 14 slips once more makes motion block II 33 relative motion block I 13 move, serving as a contrast in the core anchor clamps the lining core of pressing scolder or independent lining core this moment drops, fall in the feeder 40 of below, anchor clamps cylinder 15 shrinks, and motion block II 33 resets.The lining core of the scolder of pressing that falls or independent lining core slide in the screening washer 24 along feeder 40, independent lining core drops with regard to the slit of passing on the screening washer 24 at the middle part of screening washer 24, the lining core of pressing scolder then slides into the part that screening washer 24 stretches out frame and just drops, thereby plays the effect of screening.

Above embodiment only is preferred embodiment of the present utility model, and the utility model is not limited only to above embodiment and also allows other structural change, can be identical six, eight or ten or the like as the quantity of: flexible pipe, feed block and lining core anchor clamps.

Claims (10)

1. one kind serves as a contrast core scolder fitting machine, it is characterized in that: it comprises frame (20) and is arranged on control device (1) on the frame (20), lining core conveying device (2), scolder conveying device (3) and press-loading apparatus (4), described control device (1) all is electrically connected with lining core conveying device (2), scolder conveying device (3) and press-loading apparatus (4), described lining core conveying device (2) is connected with press-loading apparatus (4), and described scolder conveying device (3) is positioned at the below of press-loading apparatus (4).

2. lining core scolder fitting machine according to claim 1, it is characterized in that: described control device (1) comprises housing (16) and is located at display (6), touch-screen (17), a plurality of vibrating disk controller (19) and switch (18) on the housing (16), described housing (16) is connected with frame (20), housing is provided with integrated circuit in (16), and described display (6), touch-screen (17) and switch (18) all are electrically connected with integrated circuit.

3. lining core scolder fitting machine according to claim 1, it is characterized in that: described lining core conveying device (2) involving vibrations dish I (5), substrate (44), at least one flexible pipe (10) and be fixed on the cylinder that connects material (9) on the substrate (44), described vibrating disk I (5) all is connected with frame (20) with substrate (44), described substrate (44) is provided with blanking groove (7) and slide block I (8), the upper end of described blanking groove (7) is connected with vibrating disk I (5) discharge end, described slide block I (8) is positioned at blanking groove (7) below and is slidingly connected with substrate (44), and slide block I (8) is connected with the cylinder that connects material (9), described slide block I (8) is provided with identical with flexible pipe (10) the quantity through hole that is used for the lining core that reception slides from blanking groove (7) of a row, and the lower end of described each through hole is connected with an end of each self-corresponding flexible pipe (10) respectively.

4. lining core scolder fitting machine according to claim 1, it is characterized in that: described scolder conveying device (3) comprises at least one vibrating disk II (22), described vibrating disk II (22) is connected with frame (20), the output of vibrating disk II (22) is provided with scolder conveying device one by one, the frame (20) of described vibrating disk II (22) output side is provided with chute feeder (39), the rear end of described chute feeder (39) is provided with pushes pin (38) and cylinder II (37), one end of described pushing pin (38) is slidingly fitted in the chute feeder (39), the other end of (38) of pushing pin is connected with cylinder I I (37), and described cylinder I I (37) is connected with frame (20).

5. lining core scolder fitting machine according to claim 4, it is characterized in that: described scolder conveying device one by one comprises the cylinder I (21) that is connected with frame (20), the backboard (32) that is connected with cylinder I (21), front apron (31) that is connected with cylinder I (21) and chute (45), described chute (45) is connected with the output of vibrating disk II (22), one end of described chute (45) is positioned at the below of front apron (31), the other end of chute (45) is communicated with chute feeder (39), and the end that chute (45) is positioned at front apron (31) below is higher than the end that chute (45) is connected with chute feeder (39).

6. lining core scolder fitting machine according to claim 1, it is characterized in that: described press-loading apparatus (4) comprises at least one the lining core anchor clamps that is slidingly fitted on the frame (20), at least one the anchor clamps cylinder (15) that is connected with frame (20), the cylinder I II (25) that is connected with frame (20), the connecting rod (41) that is connected with cylinder I II (25), the hold-down devices that is connected with frame (20) and at least one feed block (11) that is connected with frame (20), described each lining core anchor clamps comprise motion block I (13), motion block II (33) and motion block II resetting means, be equipped with the groove that is used to clamp the lining core at motion block I (13) and motion block II (33) when being close on described motion block I (13) and the motion block II (33), be provided with slide block II (34) between described motion block I (13) and the frame (20), described slide block II (34) is provided with can slide up and down slide bar II (30) and the vertical resetting means of motion block I, the top of described slide bar II (30) is connected with motion block I (13), be equipped with the boost motor (14) that is used to make motion block II (33) activity on the described anchor clamps cylinder (15), described connecting rod (41) is connected with slide block II (34), described hold-down devices is positioned on the frame (20) of lining core anchor clamps top, the side opening (43) that is equipped with charging through hole (42) on described each feed block (11) and is used to ventilate, the axis of described charging through hole (42) and motion block I (13) and the binding face of motion block II (33) when being close to are at grade, the axis of the axis of described side opening (43) and charging through hole (42) meets at right angles, one end opening of side opening (43) is on the hole wall of charging through hole (42), the other end opening of side opening (43) is provided with pipe joint, and the frame (20) under the described feed block (11) is provided with and prevents to serve as a contrast the block (23) that core drops.

7. lining core scolder fitting machine according to claim 6 is characterized in that: described each charging through hole (42) upper end open is connected with the other end of each flexible pipe (10) respectively.

8. lining core scolder fitting machine according to claim 6, it is characterized in that: described hold-down devices comprise the following air cylinder (12) that is connected with frame (20) be connected with following air cylinder (12) press down push rod (26), described press down push rod (26) be positioned at chute feeder (39) front end extreme position directly over, and the axis that presses down push rod (26) also with motion block I (13) and motion block II (33) binding face when being close at grade, described motion block I (13) and motion block II (33) all are positioned on the plane that presses down between push rod (26) lower surface and chute feeder (39) the front end extreme position upper surface.

9. lining core scolder fitting machine according to claim 6, it is characterized in that: described motion block II resetting means comprises through hole that is located on the motion block I (13) and the slide bar I (27) that is slidingly fitted in the through hole, the length of described slide bar I (27) is greater than the length of through hole, and the two ends of slide bar I (27) are positioned at the outside of through hole, the end of slide bar I (27) is fixedlyed connected with motion block II (33), slide bar I (27) other end is provided with limited block (28), be provided with spring I (29) between described limited block (28) and the motion block I (13), the length of described through hole adds the length of the summation of the length of upper spring I (29) when being free state greater than slide bar I (27); The vertical resetting means of described motion block I comprises resetting block (35), described resetting block (35) slides up and down with slide block II (34) and is connected, the lower surface of the upper surface of resetting block (35) and motion block I (13) is close to, and is provided with between the lower surface of resetting block (35) and the slide block II (34) to be used to spring II (36) that resetting block (35) is resetted.

10. according to claim 1 or 6 described lining core scolder fitting machines, it is characterized in that: it also comprises and is located at the screening plant on the methods, rack (20) under the press-loading apparatus (4), described screening plant comprises feeder (40) and the screening washer (24) that is connected with frame (20), described feeder (40) is positioned at the below of lining core anchor clamps, the two ends of feeder (40) are not on same horizontal plane, the low end of feeder (40) is in the top of screening washer (24), described screening washer (24) is a strip, screening washer (24) one ends of described strip stretch out outside the frame (20), and the end of the screening washer of strip (24) in frame (20) is higher than the end of screening washer (24) outside frame (20) of strip, there is a slit screening washer of described strip (20) centre along its length, and described gap width is greater than the diameter of lining core and less than the external diameter of scolder.

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