CN112060309B

CN112060309B - Ceramic insulator forming system

Info

Publication number: CN112060309B
Application number: CN202010998227.5A
Authority: CN
Inventors: 易金锋
Original assignee: Zhuzhou Hongda Electronics Corp ltd
Current assignee: Zhuzhou Hongda Electronics Corp ltd
Priority date: 2020-09-22
Filing date: 2020-09-22
Publication date: 2021-09-03
Anticipated expiration: 2040-09-22
Also published as: CN112060309A

Abstract

The invention provides a ceramic insulator forming system which comprises a forming furnace, a material distribution frame and a shaping machine, wherein the forming furnace is positioned on the ground outside the output end of the material distribution frame, a material ejecting and pushing assembly is arranged below the output end of the material distribution frame, a circulating conveying assembly is arranged on the ground outside an outlet of the forming furnace, a cooling frame is arranged at the outlet of the forming furnace, a transfer assembly is arranged below the cooling frame, the output end of the circulating conveying assembly is positioned below an inlet of the shaping machine, and a turning assembly is arranged above the inlet of the shaping machine. Degree of automation after this scheme of adoption is high, low in labor strength, excellent in use effect.

Description

Ceramic insulator forming system

Technical Field

The invention relates to the technical field of insulators, in particular to a ceramic insulator forming system.

Background

Traditional insulator is when production, earlier with raw materials cloth in the material frame, put into the forming furnace through the manual work again one by one with the material frame and take shape, cools off together with the material frame after taking shape, on the transfer car is moved by the manual work to the cooling back, removes to trimmer department through the transfer car, snatchs the insulator through the manipulator and puts into the trimmer and carry out the plastic, the manual work that this kind of mode adopted is more, intensity of labour is big, adopts manipulator use cost height simultaneously, maintains the difficulty.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the ceramic insulator forming system which is high in automation degree, low in labor intensity and good in using effect.

In order to achieve the purpose, the technical scheme provided by the invention is as follows: the utility model provides a ceramic insulator forming system, it is including the forming furnace, the cloth frame, the trimmer, the forming furnace is located the subaerial cloth frame output outside, liftout propelling movement subassembly is installed to cloth frame output below, the subaerial circulation conveying subassembly of having placed in the forming furnace export outside, the forming furnace export is equipped with the cooling frame, the transfer subassembly is installed to the cooling frame below, circulation conveying subassembly output is located trimmer entry below, the upset subassembly is installed to trimmer entry top.

The ejection pushing assembly comprises an end plate fixed to the lower portion of the output end of the cloth rack, two lateral limiting rails are fixed to two sides of the end plate in the vertical direction, lifting grooves are formed in one opposite sides of the two lateral limiting rails in the vertical direction, a lifting seat is movably mounted between the two lifting grooves, a cross beam is horizontally fixed to the top and the bottom of the lifting seat, sliding grooves opposite to each other are formed in one opposite side of the two cross beams in the horizontal direction, a sliding seat is movably mounted between the two sliding grooves, a transmission plate is fixed to the rear side of the sliding seat and is oval in side view, a transmission groove is formed in the edge of the inner ring of the transmission plate on one side of the lifting seat, a rack is arranged on the transmission plate on the outer ring surface of the transmission groove, a transmission gear is arranged in the transmission groove, the transmission gear is meshed with the rack, a vertical downward guide groove, The guide groove is connected with the transmission gear, a bearing arm is horizontally fixed at the upper part of one end of the sliding seat, a bearing plate is installed on the bearing arm, a pushing arm is fixed on the sliding seat below the bearing arm, and a pushing plate is installed on the pushing arm; the pushing arm is L-shaped, a cross arm of the pushing arm is fixedly connected with the sliding seat, the pushing plate is installed on the upper portion of the vertical arm of the pushing arm, and the horizontal plane of the top of the installed pushing plate is higher than the horizontal plane of the top of the supporting plate.

The circulating conveying assembly comprises a base arranged below an inlet of the shaping machine, wherein 7-shaped wheel arms are fixed at the top of the base, cross arms of the two wheel arms are opposite, synchronizing wheels are arranged at the bottom of the cross arms, the two synchronizing wheels are connected through a synchronizing belt, a transmission motor is arranged in one base, a transmission shaft of the transmission motor is upwards connected with one synchronizing wheel, an inner guide rail and an outer guide rail which are parallel to each other are horizontally arranged at the other side of the rack, an inner synchronizing seat is fixed on a synchronizing belt surface adjacent to the inner guide rail, an outer synchronizing seat is fixed on the other belt surface of the synchronizing belt, and a group of bearing assemblies are respectively arranged between the inner guide rail and the inner synchronizing seat and between the outer guide rail and the outer synchronizing seat; the bearing subassembly is including the guide rail slider, the guide shaft, the lift cylinder, the layer board, wherein, the lift cylinder is vertical to be installed on corresponding synchronization seat, the guide rail slider is installed on corresponding guide rail, the piston rod of lift cylinder is vertical upwards to be connected with layer board bottom one end, the vertical guide shaft that is fixed with of layer board bottom other end, the downward activity suit in guide shaft bottom is in the guide rail slider, layer board surface middle part is equipped with recessed stripper groove, stripper groove below is equipped with the adjustment tank, the adjustment tank overlooks with stripper groove and is "ten" font, install screw motor in the adjustment tank, install double threaded screw on screw motor's the transmission shaft, double threaded screw top horizontal plane after the installation is less than the tank bottom horizontal plane in stripper groove, each movable mounting has a limiting plate in the every screw thread section of double threaded screw, form spacing district between two limiting plates.

The upset subassembly including fixing the returning face plate in trimmer entry top, install the upset slider through the lift unit on the returning face plate, upset slider middle part is fixed with the power extension board, it has the trip shaft to be horizontal installation on the power extension board, the trip shaft passes through the bearing ring and installs on the power extension board, the unsettled upset end that forms of trip shaft one end, the sucking disc is installed to the upset end, the trip shaft other end is fixed with the upset extension board, upset extension board edge is equipped with the spacing groove of recessed formation, the quantity of spacing groove is greater than 3, the quantity of spacer pin is at least three, centre-to-centre spacing between the adjacent spacer pin equals the centre-to-centre spacing between the adjacent spacing groove, be fixed with the spacer pin that quantity is greater than 2 from top to bottom on the returning face plate lateral wall of upset slider one side.

The lifting unit is a cylinder, a hydraulic cylinder or a screw motor; the turnover plate is fixed with a lifting guide rail along the vertical direction, the rear side of the turnover slide block is provided with a guide groove, the guide groove is movably embedded with the lifting guide rail, the power support plate is positioned at the middle part of the front side of the turnover slide block, the turnover shaft groove is arranged on the turnover plate on one side of the lifting guide rail along the vertical direction, and the end part of the turnover shaft penetrates through the turnover support plate and then is embedded into the turnover shaft groove.

After the scheme is adopted, the material frames subjected to material distribution are placed on the material distribution frames which are sequentially arranged, when feeding is needed in the forming furnace, the material frames subjected to material distribution are supported and sent into the forming furnace through the material ejecting and pushing assembly, the material frames formed in the forming furnace are sent to the cooling frame for cooling, the material frames are sent to the circulating conveying assembly through the transferring assembly after being cooled, the material frames are driven to be sent to the lower portion of the inlet of the shaping machine through the circulating conveying assembly, the material frames are sucked and grabbed by the overturning assembly to form the insulators which are formed in the material frames, and the insulators are sent to the shaping machine for shaping after being overturned.

Drawings

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

Fig. 2 is a schematic view of the material ejecting and pushing assembly according to the present invention.

Fig. 3 is a schematic diagram of a pushing operation according to the present invention.

FIG. 4 is a schematic view of the endless conveyor assembly of the present invention.

Fig. 5 is a schematic view of the flip assembly of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings, in which preferred embodiments of the invention are: referring to fig. 1 to 5, the ceramic insulator molding system according to this embodiment includes a molding furnace 101, a material distribution frame 102, and a shaping machine 103, where the molding furnace 101 is located on the ground outside the output end of the material distribution frame 102, a material pushing component is installed below the output end of the material distribution frame 102, a circulating conveying component is placed on the ground outside the outlet of the molding furnace 101, a cooling frame is disposed at the outlet of the molding furnace 101, a transfer component is installed below the cooling frame, the output end of the circulating conveying component is located below the inlet of the shaping machine 103, and a turning component is installed above the inlet of the shaping machine 103.

The material ejecting and pushing assembly comprises an end plate 1 fixed on the lower part of the output end of the material distributing frame 102, two lateral limiting rails 2 are fixed on two sides of the end plate 1 along the vertical direction, lifting grooves 3 are arranged on one opposite sides of the two lateral limiting rails 2 along the vertical direction, a lifting seat 4 is movably installed between the two lifting grooves 3, the top and the bottom of the lifting seat 4 are horizontally fixed with a cross beam 5, sliding grooves 6 with opposite groove bodies are arranged on one opposite sides of the two cross beams 5 along the horizontal direction, a sliding seat 7 is movably installed between the two sliding grooves 6, a transmission plate 8 is fixed on the rear side of the sliding seat 7, the transmission plate 8 is oval in side view, a transmission groove 9 is arranged at the inner ring edge of the transmission plate 8 on one side of the lifting seat 4, a rack is arranged on the transmission plate 8 on the outer ring surface of the transmission groove 9, a transmission gear 10 is arranged in the transmission groove 9, the transmission gear 10 is meshed with the rack, a vertically downward guide groove 11 is arranged in the middle part of the lifting seat 4, a rotating motor is installed on the end plate 1, a transmission shaft of the rotating motor sequentially penetrates through the end plate 1 and the guide groove 11 to be connected with a transmission gear 10, a bearing arm 12 is horizontally fixed on the upper portion of one end of the sliding seat 7, a bearing plate 13 is installed on the bearing arm 12, a pushing arm 14 is fixed on the sliding seat 7 below the bearing arm 12, and a pushing plate 15 is installed on the pushing arm 14; the pushing arm 14 is L-shaped, a cross arm of the pushing arm 14 is fixedly connected with the sliding seat 7, the pushing plate 15 is installed on the upper portion of a vertical arm of the pushing arm 14, and the horizontal plane of the top of the installed pushing plate 15 is higher than that of the top of the supporting plate 13.

The circulating conveying assembly comprises a base 201 installed below an inlet of the shaping machine 103, 7-shaped wheel arms 202 are fixed at the top of the base 201, cross arms of the two wheel arms 202 are opposite, synchronizing wheels 203 are installed at the bottoms of the cross arms, the two synchronizing wheels 203 are connected through a synchronizing belt 204, a transmission motor is installed in one base 201, a transmission shaft of the transmission motor is upwards connected with one synchronizing wheel 203, an inner guide rail 205 and an outer guide rail 206 which are parallel to each other are horizontally installed at the other side of the rack, an inner synchronizing seat 207 is fixed on a belt surface of the synchronizing belt 204 adjacent to the inner guide rail 205, an outer synchronizing seat 208 is fixed on the other belt surface of the synchronizing belt 204, and a group of bearing assemblies are respectively installed between the inner guide rail 205 and the inner synchronizing seat 207 and between the outer guide rail 206 and the outer synchronizing seat 208; the supporting component comprises a guide rail slide block 2010, a guide shaft 2011, a lifting cylinder 2012 and a supporting plate 2013, the lifting cylinder 2012 is vertically installed on a corresponding synchronous seat, the guide rail slider 2010 is installed on a corresponding guide rail, a piston rod of the lifting cylinder 2012 is vertically upwards connected with one end of the bottom of the supporting plate 2013, a guide shaft 2011 is vertically fixed at the other end of the bottom of the supporting plate 2013, the bottom of the guide shaft 2011 is movably sleeved in the guide rail slider 2010 downwards, a concave plate-removing groove 2018 is formed in the middle of the surface of the supporting plate 2013, an adjusting groove 2014 is formed below the plate-removing groove 2018, the adjusting groove 2014 and the plate-removing groove 2018 are overlooked to be in a cross shape, a screw motor 2015 is installed in the adjusting groove 2014, a double-head screw 2016 is installed on a transmission shaft of the screw motor 2015, the top horizontal plane of the installed double-head screw 2016 is lower than the bottom horizontal plane of the plate-removing groove 2018, a limiting plate 2017 is movably installed on each thread section of the double-head screw 2016, and a limiting region is formed between the two limiting plates 2017.

The turnover component comprises a turnover plate 301 fixed above an inlet of the shaping machine 103, a turnover sliding block 302 is installed on the turnover plate 301 through a lifting unit 306, a power support plate 303 is fixed in the middle of the turnover sliding block 302, a turnover shaft 304 is horizontally installed on the power support plate 303, the turnover shaft 304 is installed on the power support plate 303 through a bearing ring, a turnover end is formed by suspending one end of the turnover shaft 304, a sucker is installed at the turnover end, a turnover support plate 307 is fixed at the other end of the turnover shaft 304, a downward concave limiting groove 308 is formed in the edge of the turnover support plate 307, the number of the limiting grooves 308 is larger than 3, the number of the limiting pins 305 is at least three, the center distance between every two adjacent limiting pins 305 is equal to the center distance between every two adjacent limiting grooves 308, and limiting pins 305 with the number larger than 2 are fixed on the side wall of the turnover plate 301 on one side of the turnover sliding block 302 from top to bottom. The lifting unit 306 is a cylinder, a hydraulic cylinder or a screw motor; a lifting guide rail 309 is fixed on the turnover plate 301 along the vertical direction, a guide groove is arranged on the rear side of the turnover slide block 302 and movably embedded with the lifting guide rail 309, the power support plate 303 is positioned in the middle of the front side of the turnover slide block 302, a turnover shaft groove 310 is arranged on the turnover plate 301 on one side of the lifting guide rail 309 along the vertical direction, and the end part of the turnover shaft 304 penetrates through the turnover support plate 307 and then is embedded into the turnover shaft groove 310.

The material frame after material distribution is placed on the material distributing frames which are arranged in sequence, when feeding is needed in the forming furnace, a rotating motor rotates to drive a transmission gear to rotate through a transmission shaft, the transmission gear drives a transmission plate to operate through a rack, when the transmission gear is meshed with the rack at the top of a transmission groove, a supporting plate is positioned below the material distributing frames, when the transmission gear rotates to be positioned at the elliptic end part of the transmission groove at an output end, the transmission gear continues to downwards mesh with the rack at the bottom of the transmission groove under the limiting action of the elliptic transmission groove, at the moment, the transmission plate drives a sliding seat to synchronously ascend, the supporting plate supports the material frame on the material distributing frame, the transmission gear continues to rotate to drive the rack at the bottom of the transmission groove to walk, so that the sliding seat horizontally walks (forwards) towards the direction of the output end (forming furnace), when the sliding seat moves to be positioned above an inlet track of the forming furnace, the transmission gear just is positioned at the elliptic end part of the transmission groove at the input end, and the transmission gear continues to rotate, the sliding seat moves downwards under the limiting action of the oval transmission groove, so that the material frame is separated from the supporting plate and is placed on the inlet track (the first material frame is placed), the transmission gear drives the rack at the top of the transmission groove to continue moving, the sliding seat moves towards the input end to reset, when the second material frame is placed, the sliding seat finishes rising and supports the material frame, the pushing plate moves synchronously, and the material frame on the inlet track is pushed into the forming furnace to be formed;

the material frame formed by the forming furnace is cooled through a cooling frame support, transfer is carried out through a transfer component after cooling, the transfer component and the material ejecting and pushing component are identical in structure (a pushing arm and a pushing plate are not installed), a support plate in the transfer component conveys the cooled material frame (together with an insulator) to a support plate, and the support is released from a plate releasing groove when returning;

after the material frame is placed on the supporting plate, the screw motor drives the double-end screw to rotate, the double-end screw drives the two limiting plates to relatively approach to clamp the two sides of the material frame while rotating, the motor drives the synchronous belt to run, the synchronous belt drives the inner synchronous seat and the outer synchronous seat to synchronously run, the inner synchronous seat and the outer synchronous seat drive the guide rail slide block to synchronously run on the guide rail through the guide shaft, when in work, when one group of material frames is positioned below the turnover assembly, the other group of material frames is positioned at the material loading station and is loaded through the transfer assembly, when the synchronous belt runs, when the two material frames meet, the cylinder on the outer synchronous seat extends out to drive the supporting plate to ascend, so that the supporting plate on the outer synchronous seat is higher than the supporting plate on the inner synchronous seat, the supporting plate on the inner synchronous seat passes through the lower part of the supporting plate on the outer synchronous seat, therefore, collision is prevented, and the height of the material frame is adjusted through the lifting cylinder when the material frame is clamped;

the limiting pin at the lowest part of the initial state is embedded with one limiting groove, the sucker is vertically downward, when the material frame moves to the position below the sucker, the magnetic core is sucked through the sucker, the lifting unit acts to drive the overturning slide block to ascend, the power support plate is synchronously driven to ascend when the overturning slide block ascends, due to the fact that the limiting pin is embedded with one limiting groove, the rest limiting grooves are gradually embedded with the other limiting pins when the limiting pin ascends, the overturning support plate rotates with the overturning shaft as the center, the overturning support plate drives the overturning shaft to rotate while rotating, the magnetic core is overturned through the sucker and is sent to a shaping machine for shaping, and then the production process of the whole insulator is completed.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that the changes in the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a ceramic insulator molding system, it is including forming furnace (101), cloth frame (102), trimmer (103), its characterized in that: the shaping furnace (101) is positioned on the ground outside the output end of the material distribution frame (102), a material ejecting and pushing assembly is arranged below the output end of the material distribution frame (102), a circulating conveying assembly is placed on the ground outside the outlet of the shaping furnace (101), a cooling frame is arranged at the outlet of the shaping furnace (101), a transfer assembly is arranged below the cooling frame, the output end of the circulating conveying assembly is positioned below the inlet of the shaping machine (103), and a turning assembly is arranged above the inlet of the shaping machine (103); the material ejecting and pushing assembly comprises an end plate (1) fixed at the lower part of the output end of a material distributing frame (102), two lateral limiting rails (2) are fixed at two sides of the end plate (1) along the vertical direction, lifting grooves (3) are arranged at one opposite sides of the two lateral limiting rails (2) along the vertical direction, a lifting seat (4) is movably arranged between the two lifting grooves (3), a cross beam (5) is horizontally fixed at the top and the bottom of the lifting seat (4), sliding grooves (6) with opposite groove bodies are arranged at one opposite sides of the two cross beams (5) along the horizontal direction, a sliding seat (7) is movably arranged between the two sliding grooves (6), a transmission plate (8) is fixed at the rear side of the sliding seat (7), the transmission plate (8) is oval from side view, a transmission groove (9) is arranged at the edge of the inner ring of the transmission plate (8) at one side of the lifting seat (4), and a rack is arranged on the transmission plate (8) at the outer ring surface of the transmission groove (9), a transmission gear (10) is arranged in the transmission groove (9), the transmission gear (10) is meshed with the rack, a vertical downward guide groove (11) is formed in the middle of the lifting seat (4), a rotating motor is installed on the end plate (1), a transmission shaft of the rotating motor sequentially penetrates through the end plate (1) and the guide groove (11) to be connected with the transmission gear (10), a bearing arm (12) is horizontally fixed to the upper portion of one end of the sliding seat (7), a bearing plate (13) is installed on the bearing arm (12), a pushing arm (14) is fixed to the sliding seat (7) below the bearing arm (12), and a pushing plate (15) is installed on the pushing arm (14); the pushing arm (14) is L-shaped, a cross arm of the pushing arm (14) is fixedly connected with the sliding seat (7), the pushing plate (15) is installed on the upper portion of a vertical arm of the pushing arm (14), and the horizontal plane of the top of the installed pushing plate (15) is higher than the horizontal plane of the top of the supporting plate (13);

the circulating conveying assembly comprises a base (201) arranged below an inlet of the shaping machine (103), 7-shaped wheel arms (202) are fixed at the top of the base (201), cross arms of the two wheel arms (202) are opposite, synchronizing wheels (203) are arranged at the bottoms of the cross arms, the two synchronizing wheels (203) are connected through a synchronous belt (204), a transmission motor is arranged in one base (201), a transmission shaft of the transmission motor is upwards connected with one synchronizing wheel (203), an inner guide rail (205) and an outer guide rail (206) which are parallel to each other are horizontally arranged on the other side of the frame, an inner synchronous seat (207) is fixed on the belt surface of the synchronous belt (204) adjacent to the inner guide rail (205), an outer synchronous seat (208) is fixed on the other belt surface of the synchronous belt (204), and a group of bearing components are respectively arranged between the inner guide rail (205) and the inner synchronous seat (207) and between the outer guide rail (206) and the outer synchronous seat (208); the bearing component comprises a guide rail sliding block (2010), a guide shaft (2011), a lifting cylinder (2012) and a supporting plate (2013), wherein the lifting cylinder (2012) is vertically installed on a corresponding synchronous seat, the guide rail sliding block (2010) is installed on a corresponding guide rail, a piston rod of the lifting cylinder (2012) is vertically upwards connected with one end of the bottom of the supporting plate (2013), the other end of the bottom of the supporting plate (2013) is vertically fixed with the guide shaft (2011), the bottom of the guide shaft (2011) is movably sleeved in the guide rail sliding block (2010) downwards, a concave plate-removing groove (2018) is arranged in the middle of the surface of the supporting plate (2013), an adjusting groove (2014) is arranged below the plate-removing groove (2018), the adjusting groove (2014) and the plate-removing groove (2018) are in a cross shape when being overlooked, a screw motor (2015) is installed in the adjusting groove (2014), a double-head screw (2016) is installed on a transmission shaft of the screw motor (2015), the top horizontal plane of the installed double-head screw (2016) is lower than the horizontal plane of the plate-removing groove (2018), each thread section of the double-thread screw (2016) is movably provided with a limiting plate (2017), and a limiting area is formed between the two limiting plates (2017);

the overturning assembly comprises an overturning plate (301) fixed above an inlet of the shaping machine (103), an overturning slide block (302) is installed on the overturning plate (301) through a lifting unit (306), a power support plate (303) is fixed in the middle of the overturning slide block (302), an overturning shaft (304) is horizontally installed on the power support plate (303), the overturning shaft (304) is installed on the power support plate (303) through a bearing ring, one end of the overturning shaft (304) is suspended to form an overturning end, a sucking disc is installed at the overturning end, an overturning support plate (307) is fixed at the other end of the overturning shaft (304), a concave limiting groove (308) is formed at the edge of the overturning support plate (307), the number of the limiting grooves (308) is larger than 3, the number of the limiting pins (305) is at least three, the center distance between every two adjacent limiting pins (305) is equal to the center distance between every two adjacent limiting grooves (308), and the limiting pins (305) which are larger than 2 are fixed on the side wall of the overturning plate (301) on one side of the overturning slide block (302) from top to bottom;

the lifting unit (306) is an air cylinder, a hydraulic cylinder or a screw motor; a lifting guide rail (309) is fixed on the turnover plate (301) along the vertical direction, a guide groove is formed in the rear side of the turnover slider (302), the guide groove is movably embedded with the lifting guide rail (309), the power support plate (303) is located in the middle of the front side of the turnover slider (302), a turnover shaft groove (310) is formed in the turnover plate (301) on one side of the lifting guide rail (309) along the vertical direction, and the end of the turnover shaft (304) penetrates through the turnover support plate (307) and then is embedded into the turnover shaft groove (310).