CN212782906U - Vertical resistor automatic molding machine - Google Patents
Vertical resistor automatic molding machine Download PDFInfo
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- CN212782906U CN212782906U CN202021906738.1U CN202021906738U CN212782906U CN 212782906 U CN212782906 U CN 212782906U CN 202021906738 U CN202021906738 U CN 202021906738U CN 212782906 U CN212782906 U CN 212782906U
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- lifting sleeve
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Abstract
The utility model provides a vertical resistor automatic molding machine, which comprises a bottom plate, a lifting sleeve, an insert rod, an adjusting bolt, a support frame, a universal wheel, a workbench, a first bearing, a rear plate, a displacement type pin cutting frame structure, a pin fixing sliding frame structure, an antiskid type transmission belt resistance conveying wheel structure and a mounting block, wherein the lifting sleeve is provided with a plurality of lifting sleeves, and the lifting sleeve is respectively in screw connection with four corners of the upper surface of the bottom plate; the inserted bar is inserted into the inner side of the upper part of the lifting sleeve; the adjusting bolt is in threaded connection with the joint of the lifting sleeve and the inserted rod. The utility model discloses the electric jar that shifts, the mounting plate, the cutting motor, second bearing and cutting blade's setting can cut the pin of resistance, is favorable to improving the cutting effect of the device to the resistance pin.
Description
Technical Field
The utility model belongs to the technical field of resistance processing, especially, relate to an automatic make-up machine of vertical resistor.
Background
At present, resistors are widely used in the production of various electronic products as one of indispensable electronic components in the electronic industry. Before the resistor element is used and installed on a circuit board, a cutting and bending process is generally performed, and pins are cut first, and then two pins or one pin is bent at a certain angle, so that the resistor element becomes horizontal or vertical. In the whole production process, the formation of electronic components becomes an important factor for restricting the production cycle of electronic products. As an important element in the electronic industry and a resistor with huge consumption, whether the quality of a formed resistor component reaches the standard or not and whether the processing is stable and reliable or not play a key role in the production of electronic products.
But the current make-up machine still has inconvenient fixed resistance, does not possess to move the resistance after the fixing and the relatively poor problem of resistance pin cutting shaping effect.
Therefore, it is necessary to invent a vertical automatic resistor forming machine.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model provides an automatic make-up machine of vertical resistor to solve current make-up machine and still having inconvenient fixed resistance, do not possess and remove the relatively poor problem of resistance and resistance pin cutting shaping effect after the fixing.
A vertical resistor automatic forming machine comprises a bottom plate, a plurality of lifting sleeves, an insertion rod, an adjusting bolt, a support frame, universal wheels, a workbench, a first bearing, a rear plate, a displacement type pin cutting frame structure, a pin fixing sliding frame structure, an anti-skid type transmission belt resistance conveying wheel structure and a mounting block, wherein the lifting sleeves are respectively connected to four corners of the upper surface of the bottom plate through screws; the inserted bar is inserted into the inner side of the upper part of the lifting sleeve; the adjusting bolt is in threaded connection with the joint of the lifting sleeve and the inserted rod; the supporting frames are arranged in a plurality and are respectively in screw connection with four corners of the lower surface of the bottom plate; the universal wheel is connected to the lower part of the support frame; the workbench is connected to the upper end between the inserted rods through screws; the two first bearings are respectively embedded at the left side and the right side in the workbench; the rear plate is connected to the upper part of the rear surface of the workbench through a screw; the displacement type pin cutting frame structure is connected with the rear plate; the pin fixing sliding frame structure is connected with the rear plate; the antiskid resistance conveying wheel structure of the transmission belt is connected with the workbench; the mounting block is connected to the lower part of the front surface of the rear plate through a screw; the displacement type pin cutting frame structure comprises a displacement electric cylinder, a mounting plate, a cutting motor, a second bearing and a cutting blade, wherein the mounting plate is connected with an output rod screw on the left side of the displacement electric cylinder; the cutting motor is arranged in the middle of the upper surface of the mounting plate through a screw, and an output shaft at the lower part of the cutting motor penetrates through the inner ring of the second bearing; the second bearing is embedded in the middle position inside the placing plate; the cutting blade is connected with an output shaft key at the lower part of the cutting motor.
Preferably, the pin fixing sliding frame structure comprises a sliding rail, a sliding block, a connecting plate, a fastening bolt and a pressing plate, wherein the sliding block is clamped on the right side inside the sliding rail in a sliding manner; the connecting plate is placed at the upper part of the right side of the sliding block; the fastening bolt penetrates through the connecting plate and is in threaded connection with the upper part of the right side of the sliding block; the pressing plate is connected to the lower end of the connecting plate through screws.
Preferably, the anti-skid transmission belt resistance conveying wheel structure comprises a transmission motor, a transmission shaft, a transmission wheel, a conveying belt and anti-skid grains, wherein the transmission wheel is in key connection with the upper part of the transmission shaft; the conveying belt is sleeved outside the driving wheel; the anti-slip lines are provided with a plurality of anti-slip lines which are respectively arranged on the outer side of the conveying belt.
Preferably, the inner side of the upper part of the mounting block is provided with a rectangular blind groove.
Preferably, the displaceable electric cylinder bolt is mounted at the middle position of the upper surface of the rear plate.
The sliding rail is connected with the middle upper part of the front surface of the rear panel through a screw.
Preferably, the number of the transmission motors is two, and the transmission motors are respectively installed on the left side and the right side of the lower surface of the workbench through screws.
Preferably, the transmission shaft penetrates through the first bearing, and the lower part of the transmission shaft is connected with an output shaft at the upper part of the transmission motor through a coupling.
Preferably, the anti-skid lines are wavy anti-skid lines.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model discloses in, the electric jar that shifts, the mounting plate, the cutting motor, second bearing and cutting blade's setting can cut the pin of resistance, is favorable to improving the cutting effect of the device to the resistance pin.
2. The utility model discloses in, slide rail, slider, joint plate, the setting of fastening bolt and clamp plate can be fixed the pin of the required cutting in resistance upper portion, is favorable to avoiding the pin of resistance cutting down to drop everywhere and leads to environmental pollution.
3. The utility model discloses in, drive motor, transmission shaft, drive wheel, the setting of conveyer belt and anti-skidding line, can be to the work of removing resistance about, be favorable to the more convenient cutting to resistance of user.
4. The utility model discloses in, lifting sleeve, inserted bar and adjusting bolt's setting, can improve the height of this machine according to user's height, be favorable to improving the practicality of this machine.
5. The utility model discloses in, the setting of support frame and universal wheel, be favorable to the user to remove this machine to different operating position.
6. The utility model discloses in, anti-skidding line specifically adopt the setting of wavy anti-skidding line, be favorable to avoiding resistance and conveyer belt to skid.
7. The utility model discloses in, the inboard of settling piece upper portion set up the setting in rectangle blind groove, can fix the lower part of resistance, be favorable to improving the stability of this machine at the cutting during operation.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural diagram of the structure of the indexing-type pin cutting frame of the present invention.
Fig. 3 is a left side structural diagram of the sliding frame structure for fixing pins according to the present invention.
Fig. 4 is a schematic structural view of the anti-slip transmission belt resistance conveying wheel structure of the present invention.
In the figure:
1. a base plate; 2. a lifting sleeve; 3. inserting a rod; 4. adjusting the bolt; 5. a support frame; 6. a universal wheel; 7. a work table; 8. a first bearing; 9. a rear panel; 10. a displacement type pin cutting frame structure; 101. a deflection electric cylinder; 102. placing a plate; 103. cutting the motor; 104. a second bearing; 105. a cutting blade; 11. the pin fixes the sliding frame structure; 111. a slide rail; 112. a slider; 113. a connector tile; 114. fastening a bolt; 115. pressing a plate; 12. the antiskid transmission belt resistance conveying wheel structure; 121. a drive motor; 122. a drive shaft; 123. a driving wheel; 124. a conveyor belt; 125. anti-skid lines; 13. and (5) arranging the blocks.
Detailed Description
The present invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1 and fig. 2, an automatic vertical resistor forming machine includes a bottom plate 1, a plurality of lifting sleeves 2, an insert rod 3, an adjusting bolt 4, a support frame 5, a universal wheel 6, a workbench 7, a first bearing 8, a rear plate 9, a displacement pin cutting frame structure 10, a pin fixing sliding frame structure 11, an anti-skid transmission belt resistance conveying wheel structure 12 and a mounting block 13, wherein the lifting sleeves 2 are respectively screwed at four corners of the upper surface of the bottom plate 1; the inserted bar 3 is inserted in the inner side of the upper part of the lifting sleeve 2; the adjusting bolt 4 is in threaded connection with the joint of the lifting sleeve 2 and the inserted rod 3; a plurality of support frames 5 are arranged, and the support frames 5 are respectively in screw connection with four corners of the lower surface of the bottom plate 1; the universal wheel 6 is coupled to the lower part of the support frame 5; the workbench 7 is connected to the upper end between the inserted rods 3 through screws; the number of the first bearings 8 is two, and the first bearings 8 are respectively embedded in the left side and the right side of the inner part of the workbench 7; the rear plate 9 is connected to the upper part of the rear surface of the workbench 7 through screws; the displacement type pin cutting frame structure 10 is connected with the rear plate 9; the pin fixing sliding frame structure 11 is connected with the rear plate 9; the antiskid resistance conveying wheel structure 12 of the transmission belt is connected with the workbench 7; the mounting block 13 is connected with the lower part of the front surface of the rear plate 9 through screws; the displacement type pin cutting frame structure 10 comprises a displacement electric cylinder 101, a mounting plate 102, a cutting motor 103, a second bearing 104 and a cutting blade 105, wherein the mounting plate 102 is in screw connection with an output rod on the left side of the displacement electric cylinder 101; the cutting motor 103 is mounted in the middle of the upper surface of the mounting plate 102 through a screw, and an output shaft at the lower part of the cutting motor 103 penetrates through an inner ring of the second bearing 104; the second bearing 104 is embedded in the middle position inside the placing plate 102; the cutting blade 105 is in key connection with an output shaft at the lower part of the cutting motor 103; if a user needs to perform pin cutting and forming work on the fixed resistor, firstly, the user can enable the deflection electric cylinder 101 to work, the output rod of the deflection electric cylinder is enabled to move left and right to a proper cutting position, then the cutting motor 103 works, and the output shaft of the cutting motor drives the cutting blade 105 to rotate to cut the resistor.
In this embodiment, referring to fig. 3, the pin-fixing sliding frame structure 11 includes a sliding rail 111, a sliding block 112, a connecting plate 113, a fastening bolt 114 and a pressing plate 115, wherein the sliding block 112 is slidably engaged with the right side inside the sliding rail 111; the connecting plate 113 is placed at the upper part of the right side of the sliding block 112; the fastening bolt 114 penetrates through the connecting plate 113 and is connected to the upper part of the right side of the sliding block 112 in a threaded manner; the pressing plate 115 is screwed at the lower end of the connecting plate 113; if the user needs to fix the cut part of the upper part of the resistor, the user can firstly place the pin of the upper part of the resistor in the gap between the pressing plate 115 and the sliding block 112, and then tighten the fastening bolt 114 to clamp the pin of the upper part of the resistor by the pressing plate 115 and the sliding block 112.
In this embodiment, referring to fig. 4, the anti-slip resistance conveying belt wheel structure 12 includes a driving motor 121, a driving shaft 122, a driving wheel 123, a conveying belt 124 and anti-slip threads 125, wherein the driving wheel 123 is connected with an upper key of the driving shaft 122; the conveying belt 124 is sleeved outside the driving wheel 123; the number of the anti-skid threads 125 is multiple, and the anti-skid threads 125 are respectively arranged on the outer side of the conveying belt 124; firstly, a user places the resistor on the inner side of the upper part of the mounting block 13, then the transmission motor 121 works, the output shaft of the transmission motor drives the transmission shaft 122 to rotate, the transmission shaft 122 drives the transmission wheel 123 to rotate, then the transmission wheel 123 drives the conveying belt 124 to rotate, and finally the rear plate 9 is matched to clamp the resistor to move left and right.
In this embodiment, specifically, the inner side of the upper portion of the mounting block 13 is provided with a rectangular blind slot.
In this embodiment, the electric displacement cylinder 101 is specifically bolted to the middle of the upper surface of the rear plate 9.
The slide rail 111 is connected to the middle upper part of the front surface of the rear plate 9 through a screw.
In this embodiment, specifically, two transmission motors 121 are provided, and the transmission motors 121 are respectively installed on the left side and the right side of the lower surface of the workbench 7 by screws.
In this embodiment, specifically, the transmission shaft 122 penetrates through the first bearing 8, and the lower portion of the transmission shaft 122 is connected to an output shaft at the upper portion of the transmission motor 121 through a coupling.
In this embodiment, the anti-slip pattern 125 is a wavy anti-slip pattern.
In this embodiment, specifically, the transmission motor 121 and the cutting motor 103 both adopt JM-08 type worm gear reduction motors.
In this embodiment, the deflection electric cylinder 101 is specifically a BGC93-031 electric cylinder.
Principle of operation
In the utility model, if a user needs to perform pin cutting and forming work on the fixed resistor, firstly, the user can make the deflection electric cylinder 101 work to move the output rod to a proper cutting position, and then make the cutting motor 103 work to make the output shaft drive the cutting blade 105 to rotate to cut the resistor; if a user needs to fix the cutting part on the upper part of the resistor, the user can firstly place the pin on the upper part of the resistor in the gap between the pressing plate 115 and the sliding block 112, and then tighten the fastening bolt 114 to enable the pressing plate 115 and the sliding block 112 to clamp the pin on the upper part of the resistor; firstly, a user places the resistor on the inner side of the upper part of the mounting block 13, then the transmission motor 121 works, the output shaft of the transmission motor drives the transmission shaft 122 to rotate, the transmission shaft 122 drives the transmission wheel 123 to rotate, then the transmission wheel 123 drives the conveying belt 124 to rotate, and finally the rear plate 9 is matched to clamp the resistor to move left and right.
Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.
Claims (9)
1. The vertical automatic resistor forming machine is characterized by comprising a bottom plate (1), a lifting sleeve (2), an insert rod (3), an adjusting bolt (4), a support frame (5), universal wheels (6), a workbench (7), a first bearing (8), a rear plate (9), a displacement type pin cutting frame structure (10), a pin fixing sliding frame structure (11), an anti-skidding type transmission belt resistance conveying wheel structure (12) and a mounting block (13), wherein the lifting sleeve (2) is provided in plurality, and the lifting sleeve (2) is respectively in screw connection with four corners of the upper surface of the bottom plate (1); the inserted rod (3) is inserted into the inner side of the upper part of the lifting sleeve (2); the adjusting bolt (4) is in threaded connection with the joint of the lifting sleeve (2) and the inserted rod (3); a plurality of support frames (5) are arranged, and the support frames (5) are respectively in screw connection with four corners of the lower surface of the bottom plate (1); the universal wheel (6) is coupled to the lower part of the support frame (5) in a shaft way; the workbench (7) is connected to the upper end between the insert rods (3) through screws; the two first bearings (8) are arranged, and the first bearings (8) are respectively embedded at the left side and the right side inside the workbench (7); the rear plate (9) is connected to the upper part of the rear surface of the workbench (7) through screws; the displacement type pin cutting frame structure (10) is connected with the rear plate (9); the pin fixing sliding frame structure (11) is connected with the rear plate (9); the antiskid transmission belt resistance conveying wheel structure (12) is connected with the workbench (7); the mounting block (13) is connected to the lower part of the front surface of the rear plate (9) through screws; the displacement type pin cutting frame structure (10) comprises a displacement electric cylinder (101), a mounting plate (102), a cutting motor (103), a second bearing (104) and a cutting blade (105), wherein the mounting plate (102) is in screw connection with an output rod on the left side of the displacement electric cylinder (101); the cutting motor (103) is arranged in the middle of the upper surface of the mounting plate (102) through a screw, and an output shaft at the lower part of the cutting motor (103) penetrates through an inner ring of the second bearing (104); the second bearing (104) is embedded in the middle position inside the placing plate (102); the cutting blade (105) is in key connection with an output shaft at the lower part of the cutting motor (103).
2. The vertical automatic resistor forming machine according to claim 1, characterized in that the pin-fixing carriage structure (11) comprises a slide rail (111), a slide block (112), a connecting plate (113), a fastening bolt (114) and a pressing plate (115), wherein the slide block (112) is slidably clamped at the right side inside the slide rail (111); the connecting plate (113) is placed at the upper part of the right side of the sliding block (112); the fastening bolt (114) penetrates through the connecting plate (113) and is connected to the upper part of the right side of the sliding block (112) in a threaded mode; the pressing plate (115) is connected to the lower end of the connecting plate (113) through screws.
3. The vertical automatic resistor forming machine according to claim 1, characterized in that the anti-slip belt resistance conveying wheel structure (12) comprises a driving motor (121), a driving shaft (122), a driving wheel (123), a conveying belt (124) and anti-slip threads (125), wherein the driving wheel (123) is in key connection with the upper part of the driving shaft (122); the conveying belt (124) is sleeved outside the driving wheel (123); the anti-skid lines (125) are arranged in a plurality, and the anti-skid lines (125) are respectively arranged on the outer side of the conveying belt (124).
4. The vertical automatic resistor forming machine according to claim 1, characterized in that the inner side of the upper part of the mounting block (13) is provided with a rectangular blind groove.
5. The vertical automatic resistor forming machine according to claim 1, characterized in that the deflection electric cylinder (101) is bolted to the middle of the upper surface of the rear plate (9).
6. The vertical automatic resistor forming machine according to claim 2, characterized in that the slide rail (111) is screwed to the middle-upper portion of the front surface of the rear plate (9).
7. The vertical automatic resistor forming machine according to claim 3, characterized in that two transmission motors (121) are provided, and the transmission motors (121) are respectively installed on the left side and the right side of the lower surface of the workbench (7) by screws.
8. The vertical automatic resistor forming machine according to claim 3, characterized in that the transmission shaft (122) penetrates through the first bearing (8), and the lower part of the transmission shaft (122) is connected with the output shaft at the upper part of the transmission motor (121) through a coupling.
9. The vertical automatic resistor forming machine according to claim 3, characterized in that the anti-slip pattern (125) is a wavy anti-slip pattern.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021906738.1U CN212782906U (en) | 2020-09-04 | 2020-09-04 | Vertical resistor automatic molding machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021906738.1U CN212782906U (en) | 2020-09-04 | 2020-09-04 | Vertical resistor automatic molding machine |
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Publication Number | Publication Date |
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CN212782906U true CN212782906U (en) | 2021-03-23 |
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CN202021906738.1U Active CN212782906U (en) | 2020-09-04 | 2020-09-04 | Vertical resistor automatic molding machine |
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CN (1) | CN212782906U (en) |
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2020
- 2020-09-04 CN CN202021906738.1U patent/CN212782906U/en active Active
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