CN102013360B - Riveting machine for short-circuit ring of relay - Google Patents

Abstract

The invention relates to a riveting machine for a short-circuit ring of a relay. The machine comprises a copper sheet feeding mechanism, an iron core feeding mechanism, a riveting mechanism, a discharging mechanism, a pressing mechanism, a laminating device, a positioning mechanism, a transverse copper sheet pushing mechanism, a transverse iron core pushing mechanism, a longitudinal iron core pushing mechanism, a longitudinal short-circuit ring pushing mechanism, a base component and a cover plate, wherein the base component comprises a supporting plate which is arranged above the base component; the supporting plate is provided with a transverse feeding slide rail, a transverse riveting slide rail, a longitudinal feeding slide rail and a longitudinal riveting slide rail which are mutually vertical and staggered; the width of a transverse iron core feeding sliding block of the transverse iron core pushing mechanism corresponds to that of an iron core; and the width of a longitudinal iron core feeding sliding block and the width of a longitudinal short-circuit ring feeding sliding block correspond to the length of the iron core. The riveting machine has the advantages of effectively improving production efficiency, reducing the labor intensity of workers and realizing automatic production.

Description

Relay short-circuited conducting sleeve riveting machine

Technical field

The present invention relates to the riveted joint field, be specifically related to a kind of riveting machine that is applicable to the relay short-circuited conducting sleeve.

Background technology

The riveting set that is used for the relay short-circuited conducting sleeve at present; Be through after being put into polylith iron core and copper sheet in the mould manually; Restart hold-down devices and accomplish riveted joint, the shortcoming of this riveting set is big, the great wasting manpower and material resources of labor strength, and productivity effect is low etc.

Summary of the invention

The objective of the invention is to overcome the defective of prior art, a kind of automation relay short-circuited conducting sleeve riveting machine that can effectively enhance productivity is provided.

For realizing above-mentioned purpose; The present invention adopts a kind of relay short-circuited conducting sleeve riveting machine; Comprise copper sheet feed mechanism, iron core feed mechanism, riveting mechanism, shedding mechanism, hold-down mechanism, lamination device, detent mechanism, horizontal copper sheet propulsive mechanism, horizontal iron core propulsive mechanism, vertical iron core propulsive mechanism, vertical short-circuited conducting sleeve propulsive mechanism and base member and cover plate; Wherein base assembly comprises setting supporting bracket above it; Have horizontal feeding slideway on this supporting bracket, laterally rivet slideway, vertical feeding slideway and vertically rivet slideway and vertical interlaced each other; The horizontal copper sheet feeding slide block that said horizontal copper sheet propulsive mechanism has is suitable and can in this slideway, slide with horizontal feeding slideway; Laterally the horizontal iron core feeding slide block that has of iron core propulsive mechanism is suitable and can in this slideway, slide with horizontal feeding slideway; Vertically vertical iron core feeding slide block of having of iron core propulsive mechanism is suitable and can in this slideway, slide with vertical feeding slideway; Vertically vertical short-circuited conducting sleeve feeding slide block of having of short-circuited conducting sleeve propulsive mechanism is suitable and can in this slideway, slide with vertical riveted joint slideway; Horizontal iron core feeding slide block width and iron core width that wherein horizontal iron core propulsive mechanism has adapt, and said vertical iron core feeding slide block adapts with the width and the core length of vertical short-circuited conducting sleeve feeding slide block, and said horizontal feeding slideway is shallow with vertical riveted joint slideway with respect to vertical feeding slideway with the horizontal degree of depth of slideway on supporting bracket of riveting; Vertically iron core feeding slide block with vertically have the groove of placing iron core and short-circuited conducting sleeve on the short-circuited conducting sleeve feeding slide block, this depth of groove and horizontal feeding slideway are consistent with the horizontal degree of depth of riveting slideway; Cover plate is installed in the supporting bracket top; The gathering sill that said iron core feed mechanism is had is connected with the guider groove that the lamination device has mutually; This lamination device setting on the cover board, the guider groove of said lamination device is vertical corresponding and suitable with the profile of product iron core with vertical feeding slideway on the supporting bracket; Said horizontal copper sheet propulsive mechanism has horizontal coupling block; This horizontal coupling block has a transverse slipway and suitable with said horizontal copper sheet feeding slide block; The side of this horizontal connecting block has the groove adaptive with the copper sheet size; This groove is corresponding with the gathering sill of copper sheet feed mechanism, and laterally the front end of copper sheet feeding slide block has a T type groove, and this T type groove is corresponding and big or small with described groove and copper sheet is suitable at the transverse slipway place of horizontal connecting block.

Adopt said structure; Gathering sill from the copper sheet feed mechanism after copper sheet is selected materials through the mechanism that selects materials transmits; The groove of the transverse slipway side from the horizontal coupling block of horizontal copper sheet propulsive mechanism gets into, and creeps into the T type groove place of horizontal copper sheet feeding slip front, under the effect of power source; Horizontal copper sheet propulsive mechanism promotes horizontal copper sheet feeding slide block and travels forward, and moves to the vertical riveted joint slideway place on the supporting bracket via detent mechanism; Meanwhile; The product iron core by the iron core feed mechanism through the guider groove place on the stacking apparatus that gathering sill is transported to this gathering sill is connected mutually; And fall into the groove that this guider groove is stacked on vertical iron core feeding slide block; The mechanism that selects materials when surveying to certain altitude by infrared detecting device stops to select materials, and this moment, the lamination device was started working, and the iron core that will pile up compresses, flattens; Then placing vertical iron core propulsive mechanism of iron core starts working; Power source drives vertical iron core feeding slide block toward swivel motion; Take the iron core that is stacked in the groove to horizontal feeding slideway place; Have this moment with the horizontal iron core propulsive mechanism of the suitable horizontal iron core feeding slide block of this horizontal feeding slideway and start working, the iron core that this horizontal iron core feeding slide block promotes to pile up laterally moves forward, at the opening part of the end reeve copper sheet of the effect lower core of thrust; Laterally the copper sheet propulsive mechanism returns the original place with horizontal iron core propulsive mechanism subsequently, and copper sheet and iron core are shelved on the groove of vertical short-circuited conducting sleeve feeding slide block of vertical short-circuited conducting sleeve propulsive mechanism; At this moment, the vertical propulsive mechanism that has vertical short-circuited conducting sleeve feeding slide block of copper sheet and iron core is started working, and this vertical short-circuited conducting sleeve feeding slide block drives copper sheet and the past moved back of iron core, and behind the riveted joint position that arrival is scheduled to, this vertical propulsive mechanism quits work; Hold-down mechanism is started working subsequently, and this iron core is compressed, and copper sheet and iron core are riveted tightly in the riveting mechanism action then; Hold-down mechanism and riveting mechanism are return the original place afterwards, and shedding mechanism is started working, and product is ejected, and accomplish the riveted joint of product.Because the series of work stations of this riveting machine is all accomplished according to predetermined automatically, greatly reduces intensity of workers, has improved production efficiency and productivity effect.

Description of drawings

Fig. 1 is the general assembly drawing of the embodiment of the invention.

Fig. 2 is the general assembly exploded view of the embodiment of the invention.

Fig. 3 is the lamination apparatus structure sketch map of the embodiment of the invention.

Fig. 4 is the detent mechanism structural representation of the embodiment of the invention.

Fig. 5 is the horizontal copper sheet propulsive mechanism structural representation of the embodiment of the invention.

Fig. 6 is the structural representation that the horizontal iron core propulsive mechanism of the embodiment of the invention, vertical iron core propulsive mechanism, vertical short-circuited conducting sleeve propulsive mechanism and supporting bracket combine.

Fig. 7 is the structural representation of the hold-down mechanism of the embodiment of the invention.

Fig. 8 is the structural representation of the shedding mechanism of the embodiment of the invention.

Fig. 9 is the structural representation of the riveting mechanism of the embodiment of the invention.

Figure 10 is the three-dimensional installation diagram of iron core and copper sheet in the embodiment of the invention.

Figure 11 is the schematic perspective view of iron core in the embodiment of the invention.

Figure 12 is the schematic perspective view of copper sheet in the embodiment of the invention.

Figure 13 is the enlarged drawing at A place among Fig. 1.

Embodiment

Shown in Fig. 1-9; Specific embodiment of the present invention is a kind of relay short-circuited conducting sleeve riveting machine; Comprise copper sheet feed mechanism, iron core feed mechanism, riveting mechanism, shedding mechanism, hold-down mechanism, lamination device, detent mechanism, horizontal copper sheet propulsive mechanism a, horizontal iron core propulsive mechanism b, vertical iron core propulsive mechanism c, vertical short-circuited conducting sleeve propulsive mechanism d and base member and cover plate 6; Wherein base assembly comprises setting supporting bracket 5 above it; Have horizontal feeding slideway 26 on this supporting bracket 5, laterally rivet slideway 26 ', vertical feeding slideway 21 and vertically rivet slideway 31 and vertical interlaced each other; Said horizontal copper sheet propulsive mechanism a is installed on the cylinder support plate 14 that riveting mechanism has; It is suitable and can in this slideway, slide that this horizontal copper sheet propulsive mechanism a has horizontal copper sheet feeding slide block 17 and horizontal feeding slideway 26; Laterally the horizontal iron core feeding slide block 27 that has of iron core propulsive mechanism b and horizontal feeding slideway 26 are suitable and can in this slideway, slide; Vertically vertical iron core feeding slide block 22 of having of iron core propulsive mechanism c and vertical feeding slideway 21 are suitable and can in this slideway, slide; Vertically vertical short-circuited conducting sleeve feeding slide block 32 of having of short-circuited conducting sleeve propulsive mechanism d and vertical riveted joint slideway 31 are suitable and can in this slideway, slide; Horizontal iron core feeding slide block 27 width and iron core f width that wherein horizontal iron core propulsive mechanism b has adapt; Said vertical iron core feeding slide block 22 is with vertically the width and the iron core f length of short-circuited conducting sleeve feeding slide block 32 adapt; Said horizontal feeding slideway 26 with the horizontal degree of depth of riveted joint slideway 26 ' on supporting bracket 5 with respect to vertical feeding slideway 21 with vertically riveted joint slideway 31 is shallow, vertically iron core feeding slide block 22 with vertically have the groove of placing iron core and short-circuited conducting sleeve on the short-circuited conducting sleeve feeding slide block 32, this depth of groove and horizontal feeding slideway are consistent with the horizontal degree of depth of riveting slideway; Cover plate 6 is installed in supporting bracket 5 tops; The gathering sill 45 that said iron core feed mechanism is had is connected with the guider groove 9 that the lamination device has mutually; This lamination device is arranged on the cover plate 6, and the guider groove 9 of said lamination device is vertical corresponding and suitable with the profile of iron core f with vertical feeding slideway 21 on the supporting bracket 5; Said horizontal copper sheet propulsive mechanism a has horizontal coupling block 161; This horizontal coupling block 161 has a transverse slipway 16 and suitable with said horizontal copper sheet feeding slide block 17; The side of this horizontal coupling block 161 has the groove 162 adaptive with copper sheet e size; This groove 162 is corresponding with the gathering sill 44 of copper sheet feed mechanism; Laterally the front end of copper sheet feeding slide block 17 has a T type groove, and this T type groove is corresponding and big or small and copper sheet e is suitable at transverse slipway 16 places of horizontal coupling block 161 and described groove 162.

Said cover plate 6 has first groove 611 and second groove 612; Said detent mechanism has cylinder support 10, cylinder 11 and locating piece 12; Cylinder support 10 is arranged on the cover plate 6; Cylinder 11 is fixed on the cylinder support 10; Locating piece 12 is connected with cylinder 11 and is in cylinder 11 belows, and the centre position, side of this locating piece 12 has the opening 121 suitable with the copper sheet width, and this opening 121 is corresponding and adaptive with the front end of horizontal copper sheet feeding slide block 17 through the transverse slipway 16 on the horizontal connecting block 161; Said shedding mechanism setting on the cover board and have cylinder 39 and jacking block 38, jacking block 38 has lozenges 381 and position limit arm 382 thereunder is set, this position limit arm 382 is suitable with second groove 612 on the cover plate 6; Described hold-down mechanism comprises cylinder 33, two supporting vertical plate 34, wale piece 35 and guide post 36 and T type briquettings 37; Wherein two supporting vertical plate 34 are installed on the cover board; Wale piece 35 is installed on two supporting vertical plate 34, and cylinder 33 is fixed on the wale piece 35, and two guide posts 36 are arranged on wale piece 35 belows; And T type briquetting 37 is connected with cylinder 33 through guide post 36, and second groove 612 of this T type briquetting lower end and said cover plate 6 is corresponding and size is adaptive; Said lamination device also comprises cylinder 7, cylinder support 8 and infrared detecting device 46, and cylinder support 8 is installed in cover plate 6 tops with infrared detecting device 46, and cylinder 7 is arranged on the cylinder support 8.

Said riveting mechanism comprises cylinder 40, guide rod 41, contiguous block 42 and riveted joint bar 43 and cylinder support plate 14; Wherein cylinder 40 is fixed on the cylinder support plate 14 with guide rod 41; Contiguous block 42 is connected through guide rod 41 and with cylinder 40, and riveted joint bar 43 is connected on the contiguous block 42; The cylinder 13 of said horizontal propulsive mechanism a is installed equally on cylinder support plate 14; For guaranteeing accuracy, the centre-to-centre spacing between the cylinder 13 of the horizontal feeding slideway 26 on the said supporting bracket 5 and horizontal riveted joint slideway 26 ' centre-to-centre spacing and horizontal copper sheet propulsive mechanism and the cylinder 40 of riveting mechanism is corresponding.

According to the description of the foregoing description, the concrete course of work of the present invention is following:

After starting the machine; Detent mechanism, vertical iron core propulsive mechanism c, vertical short-circuited conducting sleeve propulsive mechanism b start working; Cylinder 11 on the detent mechanism promotes locating piece 12 and moves downward, and vertically iron core feeding slide block 22, vertical short-circuited conducting sleeve feeding slide block 32 vertically travel forward; Simultaneously copper sheet mechanism and the iron core mechanism that selects materials that selects materials starts working that (shape by the copper sheet gathering sill 44 of the copper sheet feed mechanism shown in Fig. 1 can know that copper sheet is arranged in transmission in the gathering sill 44 for vertically erectting; Shape by the iron core gathering sill 45 of the iron core feed mechanism shown in Fig. 1 can know that iron core is arranged in for laterally lying low in the gathering sill 45 and transmits).

When copper sheet transmits from copper sheet gathering sill 44 after mechanism selects materials through selecting materials; Get into from the groove 162 of coupling block 161 upper sides of horizontal copper sheet propulsive mechanism a; And creep into the T type groove place of horizontal copper sheet feeding slide block 17 front ends, laterally copper sheet propulsive mechanism a starts working, and promotes horizontal copper sheet feeding slide block 17 and laterally travels forward; Copper sheet is along with horizontal copper sheet feeding slide block 17 gets into locating piece 12 (because there is locating piece 12 at the copper sheet two ends, so phenomenons such as displacement can not appear in copper sheet); Meanwhile iron core transmits from iron core gathering sill 45 after selecting materials through the mechanism that selects materials, and falls into guider groove 9 the insides and piles up, and when the height that piles up surpassed the detected height of infra-red ray detection device 46 abilities, the mechanism that selects materials stopped to select materials.The lamination device is started working, and the fast downward back and forth movement of the core bar in its cylinder 7 compresses the iron plate that piles up, flatten.Vertically iron core propulsive mechanism c starts working; Drive vertical iron core feeding slide block 22 toward moved back; Take the iron core that is stacked on the groove the inside to horizontal feeding slideway 26 places; Laterally iron core propulsive mechanism 26 is started working, and laterally iron core feeding slide block 27 iron core that promotes to pile up laterally moves forward, and injects the opening part of copper sheet at an end of the effect lower core of thrust.Laterally copper sheet propulsive mechanism a, horizontal iron core propulsive mechanism b, detent mechanism return the original place subsequently.(then next copper sheet gets into horizontal copper sheet feeding slide block 17 front end T type groove places from the groove 162 of horizontal coupling block 161 upper sides again, so continuously circulation; Meanwhile after horizontal iron core propulsive mechanism b returned, vertically iron core propulsive mechanism c started working again, promotes vertical iron core feeding slide block 22 and vertically travels forward; Iron core drops to vertical iron core feeding slide block 22 grooves from guider groove 9; Because iron core height step-down, infrared detecting device 46 detects less than, the iron core mechanism that selects materials and starts working again; Iron core transmits so continuous circulation after continuously selecting materials through the mechanism that selects materials again from iron core gathering sill 45).Meanwhile, vertically short-circuited conducting sleeve propulsive mechanism d starts working, and vertically short-circuited conducting sleeve feeding slide block 32 drives copper sheet and the past moved back of iron core, and behind the predetermined riveted joint of the arrival position, vertically the short-circuited conducting sleeve propulsive mechanism quits work; Hold-down mechanism is started working subsequently, promotes briquetting 37 and moves downward and compress iron core, and riveting mechanism is started working then; Promoting riveted joint bar 43 laterally travels forward; (other end at iron core is a jacking block 38, and the effect of the position limit arm 382 that this jacking block 38 has is after copper sheet and iron core riveted joint well, ejects product come from the groove the inside thereby rivet tightly copper sheet and iron core; It also has spacing effect simultaneously; Riveting mechanism is in riveted joint, and position limit arm 382 withstands the other end of iron core, makes product phenomenons such as displacement can not occur).Afterwards, hold-down mechanism and riveting mechanism are return the original place, and shedding mechanism is started working; Promote jacking block 38 and laterally travel forward, thereby eject product, accomplish the riveted joint of product; Owing to be provided with a lozenges 381 at jacking block 38 with respect to the briquetting 37 of hold-down mechanism, its effect is to break down when not returning when hold-down mechanism, and shedding mechanism passes through contacting of this lozenges 381 and briquetting 37 when ejecting product; Force to promote this hold-down mechanism action, remove impaction state.After shedding mechanism is return the original place; Vertically short-circuited conducting sleeve propulsive mechanism d starts working; Promote vertical short-circuited conducting sleeve feeding slide block 32 and vertically travel forward, laterally copper sheet propulsive mechanism a laterally travels forward then, and next copper sheet is along with horizontal copper sheet feeding slide block 17 gets into locating piece 12 intermediate groove places; Laterally iron core propulsive mechanism b laterally travels forward; Promoting to inject the opening part of copper sheet to the iron core that piles up, vertically short-circuited conducting sleeve propulsive mechanism d is driving copper sheet and iron core toward moved back, so continuously circulates next time.

Certainly, the present invention not only is confined to the protection scheme of embodiment, and all conspicuous changes of being amplified out based on spirit of the present invention all drop within protection scope of the present invention; Such as only adopting hydraulic cylinders to replace cylinders the various power sources of riveting machine; Make the method for shipment of parts different etc. such as the gathering sill that only changes feed mechanism again; All these improvement all are to predict based on technical scheme of the present invention, do not have novelty and creativeness.

Claims (5)

1. relay short-circuited conducting sleeve riveting machine; It is characterized in that: comprise copper sheet feed mechanism, iron core feed mechanism, riveting mechanism, shedding mechanism, hold-down mechanism, lamination device, detent mechanism, horizontal copper sheet propulsive mechanism, horizontal iron core propulsive mechanism, vertical iron core propulsive mechanism, vertical short-circuited conducting sleeve propulsive mechanism and base assembly and cover plate; Wherein base assembly comprises setting supporting bracket above it; Have horizontal feeding slideway on this supporting bracket, laterally rivet slideway, vertical feeding slideway and vertically rivet slideway and vertical interlaced each other; The horizontal copper sheet feeding slide block that said horizontal copper sheet propulsive mechanism has is suitable and can in this slideway, slide with horizontal feeding slideway; Laterally the horizontal iron core feeding slide block that has of iron core propulsive mechanism is suitable and can in this slideway, slide with horizontal feeding slideway; Vertically vertical iron core feeding slide block of having of iron core propulsive mechanism is suitable and can in this slideway, slide with vertical feeding slideway; Vertically vertical short-circuited conducting sleeve feeding slide block of having of short-circuited conducting sleeve propulsive mechanism is suitable and can in this slideway, slide with vertical riveted joint slideway; Horizontal iron core feeding slide block width and iron core width that wherein horizontal iron core propulsive mechanism has adapt; Said vertical iron core feeding slide block is with vertically the width and the core length of short-circuited conducting sleeve feeding slide block adapt; Said horizontal feeding slideway with the horizontal degree of depth of riveted joint slideway on supporting bracket with respect to vertical feeding slideway with vertically the riveted joint slideway is shallow, vertically iron core feeding slide block with vertically have the groove of placing iron core and short-circuited conducting sleeve on the short-circuited conducting sleeve feeding slide block, this depth of groove and horizontal feeding slideway are consistent with the horizontal degree of depth of riveting slideway; Cover plate is installed in the supporting bracket top; The gathering sill that said iron core feed mechanism is had is connected with the guider groove that the lamination device has mutually; This lamination device setting on the cover board, the guider groove of said lamination device is vertical corresponding and suitable with the profile of product iron core with vertical feeding slideway on the supporting bracket; Said horizontal copper sheet propulsive mechanism has horizontal coupling block; This horizontal coupling block has a transverse slipway and suitable with said horizontal copper sheet feeding slide block; The side of this horizontal coupling block has the groove adaptive with the copper sheet size; This groove is corresponding with the gathering sill of copper sheet feed mechanism, and laterally the front end of copper sheet feeding slide block has a T type groove, and this T type groove is corresponding and big or small with described groove and copper sheet is suitable at the transverse slipway place of horizontal coupling block.

2. relay short-circuited conducting sleeve riveting machine according to claim 1; It is characterized in that: said cover plate has first groove and second groove; Said detent mechanism has cylinder support, cylinder and locating piece; The setting of cylinder support on the cover board, cylinder is fixed on the cylinder support, locating piece is connected with cylinder and is in cylinder below; The centre position, side of this locating piece has and the suitable opening of copper sheet width, and this opening is corresponding and adaptive with the front end of horizontal copper sheet feeding slide block through transverse slipway on the horizontal connecting block; Said shedding mechanism setting on the cover board and have cylinder and a jacking block, jacking block has lozenges and position limit arm thereunder is set, second groove on this position limit arm and the cover plate is suitable; Described hold-down mechanism comprises cylinder, two supporting vertical plate, wale piece and guide posts and T type briquetting; Wherein two supporting vertical plate are installed on the cover board; Wale piece is installed on two supporting vertical plate, and the cylinder of hold-down mechanism is fixed on the wale piece, and at least two guide posts are arranged on the wale piece below; And T type briquetting is connected with cylinder through guide post, and second groove of this T type briquetting lower end and said cover plate is corresponding and size is adaptive; Said lamination device also comprises cylinder, cylinder support and infrared detecting device, and the cylinder support of lamination device and infrared detecting device are installed in the cover plate top, and the cylinder of lamination device is arranged on the cylinder support of lamination device.

3. relay short-circuited conducting sleeve riveting machine according to claim 1 and 2; It is characterized in that: said riveting mechanism comprises cylinder, guide rod, contiguous block and riveted joint bar and cylinder support plate; Wherein the cylinder of riveting mechanism and guide rod are fixed on the cylinder support plate; Contiguous block is connected through guide rod and with the cylinder of riveting mechanism, and the riveted joint bar is connected on the contiguous block.

4. relay short-circuited conducting sleeve riveting machine according to claim 1 and 2 is characterized in that: the power source of said horizontal copper sheet propulsive mechanism, horizontal iron core propulsive mechanism, vertical iron core propulsive mechanism and vertical short-circuited conducting sleeve propulsive mechanism adopts cylinder; The cylinder of said horizontal copper sheet propulsive mechanism is installed on the cylinder support plate, the horizontal feeding slideway on the said supporting bracket and laterally rivet the centre-to-centre spacing of slideway and laterally the centre-to-centre spacing between the cylinder of cylinder and the riveting mechanism of copper sheet propulsive mechanism is corresponding.

5. relay short-circuited conducting sleeve riveting machine according to claim 3 is characterized in that: the power source of said horizontal copper sheet propulsive mechanism, horizontal iron core propulsive mechanism, vertical iron core propulsive mechanism and vertical short-circuited conducting sleeve propulsive mechanism adopts cylinder; Laterally the cylinder of copper sheet propulsive mechanism is installed on the cylinder support plate, and the centre-to-centre spacing between the cylinder of the horizontal feeding slideway on the said supporting bracket and the centre-to-centre spacing of laterally riveting slideway and horizontal copper sheet propulsive mechanism and the cylinder of riveting mechanism is corresponding.

Images