CN202049865U - A capacitor through casing forming machine - Google Patents

Abstract

The utility model relates to an electronic components processing equipment technical field especially relates to a sleeve make-up machine is worn to electric capacity. The utility model discloses a wear bushing device, pyrocondensation device and forming device, wear bushing device, pyrocondensation device and forming device set the conveyer belt that is used for transmitting the electric capacity braid jointly, wear bushing device including centre gripping positioning mechanism and with centre gripping positioning mechanism complex bushing mechanism, centre gripping positioning mechanism, pyrocondensation device and forming device arrange along conveyer belt's pay-off direction in proper order, bushing mechanism sets the conveying and cuts off sheathed tube send bushing device. In the working process of the utility model, the sleeve is sleeved on the capacitor body through the sleeve feeding device and the sleeve penetrating device in sequence; meanwhile, the capacitor braid is processed and molded by the heat shrinkage device and the molding device along with the conveying belt in sequence. The utility model has the advantages of high production efficiency, high production quality and low production cost.

Description

A capacitor through casing forming machine

technical field

The utility model relates to the technical field of processing equipment for electronic components, in particular to a capacitor casing forming machine.

Background technique

In the production and preparation process of electronic circuit boards or other electronic products, capacitors, as an important electronic component, are widely used in the above-mentioned electronic products. Before the production and preparation of the above-mentioned electronic products, the manufacturer first needs to process the capacitor through the casing, that is, through the casing threading process, the heat shrinking process, and the molding process, the capacitor is processed into a capacitor body with a sleeve and the capacitor pins are bent. A structural form folded into a certain shape.

The existing capacitor bushing forming process generally adopts manual methods, that is, tearing off the paper tape of the capacitor braid, cutting the capacitor braid, capacitor threading through the bushing, and bending and forming the capacitor pins are all processed by hand. The above-mentioned traditional manual method has the defects of low production efficiency, high production cost and unstable product quality.

Contents of the invention

The purpose of this utility model is to provide a capacitor threading tube forming machine for the deficiencies of the prior art. The capacitor threading tube forming machine can perform capacitor threading tube forming processing with high efficiency and high quality. Mechanical equipment replaces traditional manual methods, which greatly saves production costs.

In order to achieve the above object, the utility model is realized through the above technical solutions.

A capacitor threading tube forming machine, including a tube threading device, a heat shrinking device, and a forming device, and the casing threading device, the heat shrinking device, and the forming device are jointly equipped with a conveyor belt for transmitting capacitor braiding, and the threading tube The device includes a clamping and positioning mechanism and a casing threading mechanism that cooperates with the clamping and positioning mechanism. The clamping and positioning mechanism, heat shrinking device and forming device are arranged in sequence along the feeding direction of the conveyor belt. The casing threading mechanism is equipped with a transmission and Casing feeding device for cutting the casing.

Wherein, the casing feeding device includes a casing feeding mechanism and a casing cutting mechanism, and the casing feeding mechanism and the casing cutting mechanism are sequentially arranged along the feeding direction of the casing.

Wherein, the casing feeding mechanism includes a casing feeding eccentric wheel, a jacket pipe eccentric wheel, a casing feeding slider moving along the feeding direction of the casing, and a jacket pipe moving along the feeding direction of the vertical casing. The slider, the casing feeding eccentric wheel is drivingly connected with the casing feeding slider, the jacket pipe eccentric wheel is drivingly connected with the jacket pipe slider, and the casing feeding slider is provided with a casing at the end far away from the casing feeding eccentric wheel Clip, the sleeve pipe slide block is connected with the casing clamp drive.

Wherein, the casing cutting mechanism includes a cutter eccentric wheel and a cutter driving slider connected to the cutter eccentric wheel, and the cutter driving slider is equipped with a casing cutter at the end far away from the cutter eccentric wheel. , the cutter face of the casing cutter is set vertically to the feeding direction of the casing.

Wherein, the casing threading mechanism includes a casing feeding disk that rotates intermittently, and the casing feeding disk is uniformly provided with casing fixing columns and casings along the circumferential direction on the end face facing the casing feeding device. The material-feeding push block, the casing fixing column and the casing material-feeding push block can be relatively slidably socketed, and the casing feeding disc is provided with a casing-pushing mechanism corresponding to the casing material-feeding push block on the end face away from the casing feeding device, The sleeve pipe pushing mechanism includes a rear push block and a push rod, one end of the push rod is connected with the rear push block, and the other end of the push rod penetrates through the sleeve feeding disc and is fixedly connected with the sleeve discharge push block.

Wherein, the casing threading mechanism corresponding to the casing blanking station of the casing feeding disc is provided with a casing blanking eccentric wheel and a casing blanking slider, and the casing blanking eccentric wheel and the casing blanking The slide block is driven and connected, and the sleeve blanking slide block is connected with the push block.

Wherein, the clamping and positioning mechanism includes an upper part and a lower part matched with the upper part, the conveying belt is located between the upper part and the lower part, and the upper part sequentially includes an upper cover plate, a fixed mold on the capacitor body, and a braid The fixed mold and the upper mold slide seat, the lower part includes the lower cover plate, the lower fixed mold of the capacitor body, the lower fixed mold of the braiding tape, and the lower mold slide seat from the outside to the inside. The upper fixed mold of the capacitor body cooperates with the lower fixed mold of the capacitor body. The upper fixed mold of the braid cooperates with the lower fixed mold of the braid. The upper fixed mold of the capacitor body and the upper fixed mold of the braid are movably installed on the upper mold sliding seat, and the lower fixed mold of the capacitor body and the lower fixed mold of the braid are movably installed. Set on the lower mold slide, wherein, the upper fixed mold of the capacitor body and the upper fixed mold of the braid are jointly equipped with an upper eccentric wheel, and the lower fixed mold of the capacitor body and the lower fixed mold of the braid are jointly equipped with a lower eccentric wheel.

Wherein, the heat shrinking device includes an upper heating block and a lower heating block, a heating channel is arranged between the upper heating block and the lower heating block, and the heating channel is located outside the conveying belt.

Wherein, the forming device includes a forming mechanism and a foot cutting mechanism. The forming mechanism includes an upper forming die and a lower forming die driven by cams respectively. The cutting mechanism includes an upper pin cutter and a lower pin cutter driven by cams respectively. Knife, the upper forming die cooperates with the lower forming die, and the upper pin cutter cooperates with the lower pin cutter.

Wherein, the conveying belt is equipped with an upper belt fixing strip and a belt lower fixing strip, a belt passage is formed between the belt upper fixing strip and the belt lower fixing strip, and the outer side of the belt passage is formed with a pin passage for capacitor pins to pass through. The feeding place of the belt is provided with a capacitor feeding track.

The beneficial effects of the utility model are as follows: a capacitor threading casing forming machine described in the utility model includes a casing threading device, a heat shrinking device and a forming device, and the casing threading device, the heat shrinking device and the forming device are jointly equipped. There is a conveyor belt for transmitting capacitor braid, the casing threading device includes a clamping positioning mechanism and a casing threading mechanism that cooperates with the clamping positioning mechanism, the clamping positioning mechanism, heat shrinking device and forming device feed along the conveyor belt The directions are arranged in sequence, and the casing threading mechanism is equipped with a casing feeding device that transmits and cuts off the casing. During the working process of the utility model, the casing is sequentially put on the capacitor body through the casing feeding device and the casing threading device; at the same time, the capacitor braid is processed and formed through the heat shrinking device and the forming device sequentially along with the conveying belt. Therefore, the utility model successfully realizes the automatic mechanical processing method to replace the traditional manual method, that is, the utility model has the advantages of high production efficiency, high production quality and low production cost.

Description of drawings

The utility model will be further described below using the accompanying drawings, but the embodiments in the accompanying drawings do not constitute any limitation to the present utility model.

Fig. 1 is the structural representation of the utility model.

Fig. 2 is a structural schematic diagram of the casing-piercing mechanism of the present invention.

Fig. 3 is a structural schematic diagram of another viewing angle of the casing-piercing mechanism of the present invention.

Fig. 4 is a schematic structural view of the molding device of the present invention.

Fig. 5 is an exploded schematic diagram of the clamping and positioning mechanism of the present invention.

In Figures 1 to 5 include:

1——heat shrinking device 11——upper heating block 12——lower heating block

13——Heating Channel 2——Forming Device 21——Forming Mechanism

22——Foot Cutting Mechanism 221——The Upper Pin Cutter 222——The Lower Pin Cutter

3——conveyor belt 31——belt upper fixing strip 32——belt lower fixing strip

4——Clamping and positioning mechanism 41——The upper part 411——The upper cover

412——The fixed mold on the capacitor body 413——The fixed mold on the braid

414——upper mold slide 42——lower part 421——lower cover plate

422——The fixed mold under the capacitor body 423——The fixed mold under the braid

424——Lower mold slide 43——Upper eccentric wheel 44——Lower eccentric wheel

5——Casing mechanism 51——Casing feeding disc 52——Casing fixing column

53——Casing blanking push block 54——Push casing mechanism 541——Back push block

542——push rod 55——casing blanking eccentric wheel 56——casing blanking slider

6——Sleeve feeding device 61——Sleeve feeding mechanism 611——Sleeve feeding eccentric wheel

612——Jacket tube eccentric wheel 613——Send casing slider 614——Jacket tube slider

615——casing clamp 62——casing cutting mechanism 621——cutter eccentric wheel

622——knife drive slider 623——casing cutter 7——capacitor feed track .

Detailed ways

The utility model will be further described below in conjunction with embodiment.

As shown in Figures 1 to 5, a capacitor threading tube forming machine includes a tube threading device, a heat shrinking device 1 and a forming device 2, and the casing threading device, heat shrinking device 1 and forming device 2 are jointly equipped There is a conveyor belt 3 for transmitting capacitance braid, and the casing threading device includes a clamping positioning mechanism 4 and a casing threading mechanism 5 cooperating with the clamping positioning mechanism 4, the clamping positioning mechanism 4, the heat shrinking device 1 and the forming device 2 are arranged sequentially along the feeding direction of the conveying belt 3, and the casing threading mechanism 5 is equipped with a casing feeding device 6 for transferring and cutting off the casing.

The utility model is sequentially divided into a casing threading device, a heat shrinking device 1 and a forming device 2 according to the technological process of capacitor threading casing forming, wherein the casing threading device is composed of a clamping positioning mechanism 4 and a casing threading mechanism 5 . As shown in Figure 4, the clamping and positioning mechanism 4 of the sleeve-threading device, the heat shrinking device 1 and the forming device 2 are installed horizontally and side by side in sequence on the frame, wherein the conveyor belt 3 passes through the clamping device in sequence according to the conveying direction of the capacitor braid. The positioning mechanism 4, the heat shrinking device 1 and the molding device 2 are held and passed through the middle of the above structure respectively. In addition, the outer belt surface of the transmission belt 3 used in the present invention is provided with a positioning protrusion corresponding to the positioning hole of the capacitor braid, that is, the transmission belt 3 mainly passes through the positioning hole and the positioning protrusion. Cooperate with each other to realize that the transmission belt 3 drives the capacitance braiding.

During the working process of the utility model, the casing feeding device 6 completes the feeding and cutting action, that is, the casing feeding device 6 transmits the casing to the casing threading mechanism 5 on the one hand, and cuts the continuous casing into lengths on the other hand. Certain small pieces of casing. The casing sending device 6 sends the cut short casing to the casing threading mechanism 5, and the casing threading mechanism 5 cooperates with the clamping and positioning mechanism 4 and puts the small casing on the capacitor body; after the casing is set, Conveyor belt 3 transmits the capacitors that have completed the process of threading the sleeves to heat shrinking device 1, and heat shrinking device 1 performs thermoplastic treatment on the sleeves set on the capacitor body; the capacitors after thermal plastic treatment continue to be conveyed by conveyor belt 3 To the forming device 2, wherein the capacitor pins processed and shaped by the forming device 2 are bent into a certain shape and the capacitor pins are cut off to separate from the paper tape of the capacitor braid. The utility model adopts mechanical automatic control in the whole process, that is, the traditional manual method is replaced by the mechanical automation mode; therefore, the utility model can carry out the forming process of the capacitor through the bushing with high efficiency, high quality and low cost.

Further, the conveying belt 3 is equipped with an upper belt fixing strip 31 and a belt lower fixing strip 32, a belt channel is formed between the belt upper fixing strip 31 and the belt lower fixing strip 32, and a capacitor pin is formed on the outside of the belt channel Through the pin channel, the feeding place of the conveyor belt 3 is provided with a capacitor feeding track 7 . The belt upper fixing strip 31 and the belt lower fixing strip 32 are mainly used to clamp the transmission belt 3 and make the transmission belt 3 move along the belt passage; , the paper tape part of the capacitor braid is clamped in the belt channel, and the capacitor body is located outside the belt channel, wherein the capacitor pins fall into the pin channel and move along the pin channel. In addition, the capacitor feeding track 7 located at the feeding place of the conveyor belt 3 is formed with a guide groove, which can guide the capacitor braid and enable the capacitor braid to enter the conveyor belt 3 smoothly.

As a preferred embodiment, the casing feeding device 6 includes a casing feeding mechanism 61 and a casing cutting mechanism 62, and the casing feeding mechanism 61 and the casing cutting mechanism 62 are sequentially arranged along the casing feeding direction. According to the action purpose of the casing feeding device 6 described above, the utility model divides the casing feeding device 6 into two parts: the casing feeding mechanism 61 and the casing cutting mechanism 62, that is, the utility model completes casing cutting through the casing feeding mechanism 61 on the one hand. Feeding action, on the other hand by casing cutting mechanism 62, continuous casing is cut into fixed-length small section casing.

Further, the casing feeding mechanism 61 includes a casing feeding eccentric wheel 611, a jacket pipe eccentric wheel 612, a casing feeding slider 613 that moves along the feeding direction of the casing, and a casing feeding slider 613 that moves along the feeding direction of the vertical casing. The action of the jacket pipe slider 614, the casing pipe eccentric wheel 611 is driven and connected with the casing pipe slider 613, the jacket pipe eccentric wheel 612 is driven and connected with the jacket pipe slider 614, and the casing pipe slider 613 is in the distance from the casing pipe slider 613. A sleeve clamp 615 is provided at the end of the sleeve eccentric wheel 611 , and the clamp sleeve slider 614 is drivingly connected to the sleeve clamp 615 . During the assembling process of the utility model, the casing sending slider 613 is installed on the corresponding slider seat, and the casing sending slider 613 slides along the corresponding slider seat under the driving action of the casing sending eccentric wheel 611, wherein, The casing feeding eccentric wheel 611 can drive the casing feeding slider 613 to slide through the form that the cam surface directly abuts against the end face of the casing feeding slider 613. Of course, the casing feeding eccentric wheel 611 can also adopt the crank slider mechanism. form to drive the casing slide block 613 to slide; because the casing clamp 615 is installed on the end of the casing slide block 613, when the casing eccentric wheel 611 drives the casing slide block 613 to move, the casing clip 615 The sleeve pipe slide block 613 is moved along the feeding direction of the sleeve pipe, at this time, the sleeve pipe slide block 614 moves together with the sleeve pipe clamp 615 . As shown in Figures 1 and 2, the length of the cam surface of the jacket tube eccentric wheel 612 is relatively large, which can ensure that the jacket tube slider 614 moves with the jacket tube slider 613 during the process of moving together with the jacket tube slider 613. It is always in contact with the jacket pipe eccentric wheel 612, thereby ensuring the action effectiveness of the jacket pipe slider 614 and the jacket pipe clamp 615. When using the casing feeding mechanism 61 of the above-mentioned structural form to transport the casing, the jacket pipe eccentric wheel 612 first drives the jacket pipe slider 614 and drives the casing clamp 615 through the jacket pipe slider 614 to clamp the casing pipe; After the casing clamp 615 clamps the casing, the casing sending eccentric wheel 611 drives the casing sending slider 613 and drives the casing moving through the casing sending slider 613 .

Furthermore, the casing cutting mechanism 62 includes a cutter eccentric 621 and a cutter driving slider 622 drivingly connected to the cutter eccentric 621, and the cutter driving slider 622 is located at the end away from the cutter eccentric 621. A sleeve pipe cutter 623 is installed at the top, and the knife face of the sleeve pipe cutter 623 is vertically arranged with the feeding direction of the sleeve pipe. According to the above structure, in the process of cutting the casing by the casing cutting mechanism 62, the utility model mainly uses two pieces of casing cutters 623 that cooperate with each other to realize the cutting action. When the cutter eccentric wheel 621 drives the cutter to drive the slide When the block 622 was in action, the cutter driving slide block 622 drove the two sleeve pipe cutters 623 to close and finally cut off the sleeve pipe. As shown in Figures 1 and 2, the entire casing feeding device 6 is equipped with a corresponding movable adjustment device. The utility model can adjust the position where the casing cutter 623 cuts the casing through the movable adjustment device, that is, the movable adjustment device The length of the cut casing can be adjusted to meet different production needs.

As a preferred embodiment, the casing threading mechanism 5 includes a casing feeding disk 51 which rotates intermittently, and the casing feeding disk 51 is evenly arranged on the end face facing the casing feeding device 6 along the circumferential direction. There are casing fixing column 52 and casing feeding push block 53, casing fixing column 52 and casing feeding pushing block 53 can be relatively slidably socketed, and casing feeding disc 51 is located on the end face away from casing feeding device 6 Corresponding casing blanking push block 53 is provided with and pushes casing mechanism 54, and pushes casing mechanism 54 and comprises rear push block 541 and push rod 542, and one end of push rod 542 is connected with rear push block 541, and the other end of push rod 542 One end passes through the casing feeding disc 51 and is fixedly connected with the casing feeding push block 53 . As shown in Figures 1 to 3, the casing threading mechanism 5 is located between the casing feeding device 6 and the clamping and positioning mechanism 4, wherein the casing threading mechanism 5 pushes the casing delivered by the casing feeding device 6 to the On the main body of the capacitor to be put through the bushing. The utility model uses the casing feeding disc 51 which rotates intermittently to transmit the fixed-length small section of casing sent by the casing feeding device 6, wherein the casing feeding disk 51 can be controlled by a divider, that is, by dividing The step angle value set by the divider is mainly determined according to the number of casing fixing columns 52 on the casing feeding disk 51; in addition, the casing The tube feeding disc 51 is provided with a tube feeding station and a tube blanking station corresponding to the tube feeding device 6 and the clamping and positioning mechanism 4 . In the assembling process of the utility model, there is no special limitation on the quantity of the casing fixing columns 52 uniformly arranged along the circumference of the casing feeding disk 51, wherein the casing pushing mechanism 54 is connected with the casing fixing columns 52 and casing feeding Push block 53 is set correspondingly. During the working process of the utility model, when the casing fixing column 52 is located at the casing feeding station of the casing feeding disc 51, the casing sending device 6 centers the casing on the casing fixing column 52 and puts the casing The tube is set on the casing fixing column 52, and the small section of casing after being cut off by the casing cutting mechanism 62 of the casing sending device 6 moves together with the casing fixing column 52; When the casing feeding disc 51 is at the casing blanking station, the push block 541 moves to the side of the casing feeding disk 51 under the action of external force and pushes the push rod 542. At this time, the push rod 542 pushes the The casing blanking push block 53 on the other side of the feeding disc 51 makes it slide along the casing fixing column 52, and under the action of the casing blanking pushing block 53, the casing sleeved on the casing fixing column 52 is covered. Pipe blanking pushing block 53 resists and pushes out.

Further, the sleeve pipe feeding mechanism 5 corresponding to the sleeve feeding disc 51 is provided with a sleeve feeding eccentric wheel 55 and a sleeve feeding slider 56, and the sleeve feeding eccentric wheel 55 is drivingly connected with the casing blanking slider 56, and the casing blanking slider 56 is drivingly connected with the pusher block 541. In order to facilitate the back push block 541 to push the push rod 542, the utility model sets the casing blanking eccentric wheel 55 and the casing blanking slider 56 on the rear side of the back pushing block 541, wherein the casing blanking eccentric wheel 55 pushes The casing blanking slider 56 slides, and the casing blanking slider 56 pushes the rear pushing block 541 to slide.

As a preferred embodiment, the clamping and positioning mechanism 4 includes an upper part 41 and a lower part 42 cooperating with the upper part 41, the conveying belt 3 is located between the upper part 41 and the lower part 42, and the upper part 41 sequentially includes an upper part 41 from the outside to the inside. The cover plate 411, the fixed mold 412 on the capacitor body, the fixed mold 413 on the braid and the upper mold slide 414, the lower part 42 includes the lower cover plate 421, the lower fixed mold 422 on the capacitor body, and the lower fixed mold on the braid from the outside to the inside. 423 and the lower mold slide 424, the upper fixed mold 412 of the capacitor body cooperates with the lower fixed mold 422 of the capacitor body, the upper fixed mold 413 of the braid cooperates with the lower fixed mold 423 of the braid, the upper fixed mold 412 of the capacitor body and the upper fixed mold of the braid 413 is movably installed on the upper mold slide 414, the fixed mold 422 under the capacitor body and the fixed mold 423 under the braiding are movably installed on the lower mold slide 424, wherein the fixed mold 412 on the capacitor body and the braiding The fixed mold 413 is jointly equipped with an upper eccentric wheel 43 , and the lower fixed mold 422 of the capacitor body and the lower fixed mold 423 of the braiding tape are jointly equipped with a lower eccentric wheel 44 . The clamping and positioning mechanism 4 of the present utility model mainly completes the clamping and positioning work of the capacitor to be worn through the casing through the cooperation of the upper part 41 and the lower part 42, wherein the fixed mold 412 on the capacitor body cooperates with the lower fixed mold 422 on the capacitor body. Jointly complete the clamping and positioning work of the capacitor body, and the upper fixed mold 413 of the braid cooperates with the lower fixed mold 423 to jointly complete the clamping work of the paper tape part of the capacitor braid. In the working process of the present utility model, the working process of the clamping positioning mechanism 4 is as follows; the first step, pre-set: the upper eccentric wheel 43 and the lower eccentric wheel 44 respectively drive the corresponding upper part 41 and the lower part 42, at this time, the The fixed mold 413 on the belt and the fixed mold 423 under the braid are closed under the corresponding eccentric drive and the paper tape part of the capacitor braid is clamped. At the same time, the fixed mold 412 on the capacitor body and the fixed mold 422 under the capacitor body are Driven by the corresponding eccentric wheel, it is closed and the capacitor body is clamped and positioned. At this time, the capacitor body is centered with the casing tube at the casing feeding station 51, and the casing blanking Under the action of the push block 53, the bushing is set on the capacitor body. This process is the pre-fitting process of the capacitor body; the second step is complete assembly: the upper eccentric wheel 43 corresponding to the upper fixed mold 412 of the capacitor body and the lower fixed mold 422 of the capacitor body And the lower eccentric wheel 44 stops functioning. At this moment, the upper fixed mold 412 of the capacitor body and the lower fixed mold 422 of the capacitor body are opened, and the sleeve is completely set up by the capacitor body under the action of the casing blanking push block 53; After completion, the upper fixed mold 413 of the braid and the lower fixed mold 423 of the braid are opened, and the capacitance braid moves with the conveyor belt 3 and enters the next procedure.

As a preferred embodiment, the heat shrinking device 1 includes an upper heating block 11 and a lower heating block 12, a heating channel 13 is arranged between the upper heating block 11 and the lower heating block 12, and the heating channel 13 is located on the conveyor belt 3 outside. When the capacitor body is covered with thermoplastic rubber, the rubber on the capacitor body needs to be thermoplastically treated, that is, by heating the sleeve on the outer layer of the capacitor body, it will undergo thermoplastic deformation and cause the sleeve to shrink, and finally the sleeve will hold the capacitor tightly. ontology. After the capacitor has completed the process of threading the casing, the capacitor body enters the heating channel 13 along with the conveying belt 3 . At this time, the upper heating block 11 and the lower heating block 12 after heat treatment heat the casing.

As a preferred embodiment, the molding device 2 includes a molding mechanism 21 and a foot cutting mechanism 22. The molding mechanism 21 includes an upper forming die and a lower forming die driven by cams respectively. The upper pin cutter 221 and the lower pin cutter 222, the upper forming die cooperates with the lower forming die, and the upper pin cutter 221 cooperates with the lower pin cutter 222. The forming device 2 is mainly used to complete two aspects of work. On the one hand, the forming device 2 needs to bend the two pins of the capacitor; on the other hand, the forming device 2 needs to cut off the bent capacitor pins and make the capacitor body and the capacitor The tape of the braid is detached. According to the action purpose of the forming device 2, the utility model divides the forming device 2 into a forming mechanism 21 and a leg cutting mechanism 22, wherein the forming mechanism 21 is used for bending the pin of the capacitor, and the leg cutting mechanism 22 is used for cutting off the bent capacitor Pin and disengage the capacitor body from the paper tape portion of the capacitor braid. In the working process of the utility model, the upper molding die and the lower molding die are closed under the driving action of the cam and the capacitor pins are bent into the corresponding bending shape with the molding parts through the molding parts of each molding die. In addition, the upper pin cutting knife 221 and the lower pin cutter 222 are closed under the action of the cam and cut off the capacitor pin.

The above content is only a preferred embodiment of the present utility model. For those of ordinary skill in the art, according to the idea of the present utility model, there will be changes in the specific implementation and scope of application. The content of this specification should not be understood as Limitations on the Invention. the

Claims (10)

1. an electric capacity wears pipe forming machine, it is characterized in that: include and wear pipe unit, pyrocondensation device (1) and shaped device (2), wear pipe unit, pyrocondensation device (1) and shaped device (2) are equipped with the feed belt (3) that is used to transmit the electric capacity braid jointly, wear pipe unit include clamping detent mechanism (4) and cooperate with clamping detent mechanism (4) wear the pipe mechanism (5), clamping detent mechanism (4), pyrocondensation device (1) and shaped device (2) are arranged successively along the feed direction of feed belt (3), wear pipe mechanism (5) be equipped with transmit and cut off sleeve pipe send casing bit (6).

2. a kind of electric capacity according to claim 1 wears pipe forming machine, it is characterized in that: describedly send casing bit (6) to include to send sleeve pipe mechanism (61) and sleeve pipe shut-off mechanism (62), send sleeve pipe mechanism (61) and sleeve pipe shut-off mechanism (62) to arrange successively along the feedstock direction of sleeve pipe.

3. a kind of electric capacity according to claim 2 wears pipe forming machine, it is characterized in that: describedly send sleeve pipe mechanism (61) to include to send sleeve pipe eccentric wheel (611), jacket pipe eccentric wheel (612), along the action of the feedstock direction of sleeve pipe send sleeve pipe slide block (613) and along the jacket pipe slide block (614) of the feedstock direction action of vertical pipes, send sleeve pipe eccentric wheel (611) to be connected with sending sleeve pipe slide block (613) driving, jacket pipe eccentric wheel (612) drives with jacket pipe slide block (614) and is connected, send sleeve pipe slide block (613) in being provided with clamp sleeve (615) away from the end of sending sleeve pipe eccentric wheel (611), jacket pipe slide block (614) drives with clamp sleeve (615) and is connected.

4. a kind of electric capacity according to claim 2 wears pipe forming machine, it is characterized in that: described sleeve pipe shut-off mechanism (62) includes cutting knife eccentric wheel (621) and drives the cutter driving slide block (622) that is connected with cutting knife eccentric wheel (621), cutter driving slide block (622) is equiped with sleeve pipe cutting knife (623) in the end away from cutting knife eccentric wheel (621), the vertical setting of feedstock direction of the knife face of sleeve pipe cutting knife (623) and sleeve pipe.

5. a kind of electric capacity according to claim 1 wears pipe forming machine, it is characterized in that: the described pipe mechanism (5) that wears includes the sleeve pipe feeding disk (51) that intermittence is rotated, sleeve pipe feeding disk (51) is in circumferentially being provided with sleeve pipe fixed leg (52) and sleeve pipe blanking pushing block (53) equably over against the described end face edge of casing bit (6) of sending, sleeve pipe fixed leg (52) and sleeve pipe blanking pushing block (53) but slide relative ground socket, sleeve pipe feeding disk (51) is provided with pushing sleeve pipe mechanism (54) in deviating from the corresponding sleeve pipe blanking pushing block of end face (53) that send casing bit (6), pushing sleeve pipe mechanism (54) includes back pushing block (541) and push rod (542), one end of push rod (542) is connected with back pushing block (541), and the other end of push rod (542) is run through sleeve pipe feeding disk (51) and fixedlyed connected with sleeve pipe blanking pushing block (53).

6. a kind of electric capacity according to claim 5 wears pipe forming machine, it is characterized in that: the described sleeve pipe blanking station that wears pipe mechanism's (5) corresponding described sleeve pipe feeding disks (51) is provided with sleeve pipe blanking eccentric wheel (55) and sleeve pipe blanking slide block (56), sleeve pipe blanking eccentric wheel (55) drives with sleeve pipe blanking slide block (56) and is connected, and sleeve pipe blanking slide block (56) drives with described back pushing block (541) and is connected.

7. a kind of electric capacity according to claim 1 wears pipe forming machine, it is characterized in that: the bottom (42) that described clamping detent mechanism (4) includes top (41) and cooperates with top (41), described feed belt (3) is positioned between top (41) and bottom (42), top (41) includes upper cover plate (411) successively to the inboard from the outside, fixed mould on the electric capacity body (412), fixed mould in the braid (413) and mold slide (414), bottom (42) includes lower cover (421) successively to the inboard from the outside, fixed mould under the electric capacity body (422), fixed mould under the braid (423) and bed die slide (424), fixed mould on the electric capacity body (412) cooperates with fixed mould (422) under the electric capacity body, fixed mould in the braid (413) cooperates with fixed mould (423) under the braid, fixed mould (413) is installed in mold slide (414) movably in fixed mould on the electric capacity body (412) and the braid, fixed mould (423) is installed in bed die slide (424) movably under fixed mould under the electric capacity body (422) and the braid, wherein, fixed mould (413) is equipped with eccentric wheel (43) jointly in fixed mould on the electric capacity body (412) and the braid, and fixed mould (423) is equipped with down eccentric wheel (44) jointly under fixed mould under the electric capacity body (422) and the braid.

8. a kind of electric capacity according to claim 1 wears pipe forming machine, it is characterized in that: described pyrocondensation device (1) includes heat block (11) and following heat block (12), be provided with heat tunnel (13) between last heat block (11) and the following heat block (12), heat tunnel (13) is positioned at the outside of described feed belt (3).

9. a kind of electric capacity according to claim 1 wears pipe forming machine, it is characterized in that: described shaped device (2) includes shaping mechanism (21) and cutter structure (22), shaping mechanism (21) includes respectively by cam-actuated shaping mould and the compacted under mould gone up, cutter structure (22) includes respectively by cam-actuated pin cutting knife (221) and the following pin cutting knife (222) gone up, last shaping mould cooperates with the compacted under mould, and last pin cutting knife (221) cooperates with following pin cutting knife (222).

10. a kind of electric capacity according to claim 1 wears pipe forming machine, it is characterized in that: described feed belt (3) is equipped with fixed strip (32) under fixed strip on the belt (31) and the belt, form the belt passage between the fixed strip (32) under fixed strip on the belt (31) and the belt, the outside of belt passage forms power supply and holds the pin passage that pin passes through, and the material loading place of feed belt (3) is provided with electric capacity charging track (7).

Images