CN108279322B - resistor fixing device for lead-free resistor overload detection - Google Patents

Abstract

The invention discloses a resistor fixing device for leadless resistor overload detection, which comprises a base, wherein a group of vertical plates are arranged on the base, an insulating material baffle plate and an insulating partition plate are arranged between two adjacent vertical plates, blanking holes are respectively arranged between two adjacent insulating partition plates, a first current conducting plate is arranged on one side of each insulating partition plate, a second current conducting plate is arranged on the other side of each insulating partition plate, the first current conducting plates are both connected with a positive power supply plate, and the second current conducting plates are both connected with a negative power supply plate. The invention has the advantages that: the device only needs to manually put in the resistor, can simply finish the large batch production, does not influence the effect of the voltage loaded by the leadless resistor, saves labor and time, improves the production efficiency and the processing quality, is convenient to use and operate, and is suitable for batch production.

Description

Resistor fixing device for lead-free resistor overload detection

Technical Field

The invention relates to the technical field of electronic component production equipment, in particular to a resistor fixing device for lead-free resistor overload detection.

Background

The resistor is mainly used for the total transient voltage protection of a circuit, voltage clamping is carried out when the circuit is in overvoltage, redundant current is absorbed to realize the protection of a sensitive device, the existing resistor has a lead resistor and a leadless resistor, the stability of the leadless resistor needs to be improved in the production process, an overload mode needs to be adopted, the overload process of the leadless resistor is complex, and a tool or a clamp which can effectively and quickly carry out overload processing does not exist at present, so that many manufacturers do not carry out overload inspection, a large number of unqualified products are caused, and instability in the using process is caused.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a resistor fixing device for leadless resistor overload detection.

In order to achieve the purpose, the invention adopts the following technical scheme:

A resistor fixing device for detecting lead-free resistor overload is characterized in that: comprises a base, the base comprises a bedplate, a group of vertical plates which are arranged in parallel are transversely and uniformly distributed on the bedplate, the length of each vertical plate is less than the width of the bedplate, each vertical plate is arranged in the middle of the corresponding cross section of the bedplate, two insulating material baffle plates are arranged on two sides between any two adjacent vertical plates, the outer side of each insulating material baffle plate extends out of the outer side of the vertical plate, a group of insulating partition plates are arranged between any two corresponding insulating material baffle plates, a blanking hole is arranged between any two adjacent insulating partition plates, another blanking hole is arranged between the corresponding insulating material baffle plate and the insulating partition plate, a first conductive plate is arranged on one side of each insulating partition plate, a second conductive plate is arranged on the other side of each insulating partition plate, the first conductive plate and the second conductive plate are arranged in parallel, one side of the first conductive plate extends out of one side of the vertical plate, the other side of the vertical plate extends, the second current-conducting plates are connected with a power supply negative plate, the bedplate at both sides of the vertical plate is connected with a guide rod, both sides of the first current-conducting plates and both sides of the second current-conducting plates are connected with the corresponding guide rods in a guiding way, one side of the vertical plate is provided with a clamping groove, the opening of the clamping groove is arranged towards the same side edge of the bedplate, an insulating push plate is connected and fixed in the clamping groove in a matching way, the insulating push plate is connected and fixed with the corresponding first current-conducting plates, a spring for pushing the corresponding insulating push plate is also arranged in the clamping groove, the lower side of each insulating push plate is provided with a linkage plate, a first linkage plate is connected between every two adjacent linkage plates, one side of the bedplate is connected with a first oil cylinder, the first oil cylinder is connected with the linkage plate at the outermost side in a driving way, two support plates are respectively arranged at both sides below the vertical plates, the two, an inserting plate is inserted into each through hole, a group of baffle plates are arranged on one side of each inserting plate, each baffle plate is correspondingly matched with the corresponding blanking port, the outer sides of all the inserting plates are connected together through a second connecting plate, a second oil cylinder is arranged on the outer side of the supporting plate, and the second oil cylinder is in driving connection with the second connecting plate;

The hydraulic control system also comprises a controller, and the controller is in control connection with the first oil cylinder and the second oil cylinder.

Preferably, the insulating striker plate is an L-shaped plate, the height of the insulating striker plate is equal to the height of the insulating partition plate and lower than the height of the vertical plate, and the width of the insulating striker plate is equal to the width of the insulating partition plate.

Preferably, the first conductive plate and the second conductive plate have the same structure, and each of the first conductive plate and the second conductive plate includes a straight plate, two sides of the straight plate are provided with a guide hole, and one side of the straight plate is provided with a U-shaped groove.

Preferably, the clamping groove is a through groove which penetrates through the vertical plate up and down, an opening is formed in one side of the vertical plate, limiting grooves are formed in two sides of the through groove, limiting plates are arranged on two sides of the insulating push plate, and each limiting plate is correspondingly arranged in the corresponding limiting groove.

Preferably, the lower side surface of the feeding pipe contacts the upper side surface of the insulating partition plate or the insulating baffle plate.

preferably, a fixing plate is installed at one side of the bedplate, and the first oil cylinder and the controller are installed on the fixing plate.

Preferably, a hanger plate is installed at a lower side of the first cross member, and the second cylinder is installed on the hanger plate.

Preferably, a jack is arranged in a discharge pipe of the feeding funnel, and the jack is correspondingly inserted and matched with the upper side of the feeding pipe.

the invention has the advantages that: the device only needs to manually put in the resistor, can simply finish the large batch production, does not influence the effect of the voltage loaded by the leadless resistor, saves labor and time, improves the production efficiency and the processing quality, is convenient to use and operate, and is suitable for batch production.

Drawings

FIG. 1 is a schematic structural view of a fixing device provided in the present invention;

FIG. 2 is a schematic view of the use state of FIG. 1;

FIG. 3 is a schematic view of the structure of the base;

FIG. 4 is a schematic diagram of a first conductive plate;

FIG. 5 is a schematic view of the structure of the insulating push plate;

Fig. 6 is a schematic view of the mating of the insert plate and the shutter plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, 2, 3, 4, 5 and 6, the resistor fixing device for leadless resistor overload detection provided by the invention comprises a base 1, wherein the base 1 comprises a bedplate 2, a group of vertical plates 3 arranged in parallel are transversely and uniformly distributed on the bedplate 2, the length of each vertical plate 3 is smaller than the width of the bedplate 2, each vertical plate 3 is arranged in the middle of the corresponding cross section of the bedplate 2, two sides between any two adjacent vertical plates 3 are respectively provided with an insulating material baffle plate 7, the outer side of each insulating material baffle plate 7 extends out of the outer side of the vertical plate 3, a group of insulating partition plates 6 are arranged between two corresponding insulating material baffle plates 7, a blanking hole is arranged between any two adjacent insulating partition plates 6, another blanking hole is arranged between the corresponding insulating material baffle plate 7 and the insulating partition plate 6, the insulating material baffle plate 7 is an L-shaped plate, the height of the insulating material baffle plate 7 is equal to the height of the insulating partition plate 6, and is lower than the height of the vertical plate 3, and the width of the insulating material baffle 7 is equal to that of the insulating partition plate 6.

be equipped with first current conducting plate 15 in insulating barrier 6 one side, the opposite side is equipped with second current conducting plate 16, first current conducting plate 15 and second current conducting plate 16 parallel arrangement, one side that riser 3 was stretched out to one side of first current conducting plate 15, the opposite side that riser 3 was stretched out to one side of second current conducting plate 16, first current conducting plate 15's structure is the same with second current conducting plate 16's structure, they all include straight board 35, all be equipped with a guiding hole 36 in the both sides of straight board 35, still be equipped with U type groove 37 in one side of straight board 35. The bedplate 2 on one side of the vertical plate 3 is fixedly connected with a positive power plate 17, the other side of the vertical plate is connected with a negative power plate 5, all the first conductive plates 15 are connected with the positive power plate 17 in a clamped mode through corresponding U-shaped grooves 37, each first conductive plate 15 can move freely on the positive power plate 17, and all the second conductive plates 16 are connected with the negative power plate 5 in a clamped mode through corresponding U-shaped grooves 37.

Both sides of the vertical plate 3 are provided with a guide rod 8, each guide rod 8 is connected and fixed on the bedplate 2 through the connecting plates 9 at both sides, and both sides of the first conductive plate 15 and both sides of the second conductive plate 16 are connected on the corresponding guide rods 8 through the corresponding guide holes 36.

Be equipped with draw-in groove 3.1 in one side of riser 3, draw-in groove 3.1 is the logical groove that runs through from top to bottom on riser 3, and is equipped with uncovered in one side of riser 3, be equipped with the spacing groove in the both sides that lead to the groove, the uncovered setting to platen 2 of draw-in groove 3.1 side, connect insulating push pedal 11 in draw-in groove 3.1 fit-in, all be equipped with a limiting plate 11.1 in the both sides of insulating push pedal 11, every limiting plate 11.1 all corresponds the setting at corresponding spacing inslot. Insulating push pedal 11 is equipped with three mounting hole 3.2 in draw-in groove 3.1 through the corresponding first current conducting plate 15 of viscose bonding, all is equipped with a spring 10 in every mounting hole 3.2, and every spring 10 all promotes the insulating push pedal 11 that corresponds, all is equipped with interlock board 12 at the downside of every insulating push pedal 11, connects first link plate 13 between two adjacent interlock boards 12. A fixed plate 18 is connected to one side of the bedplate 2, a first oil cylinder 14 is installed on the lower side of the fixed plate 18, and the first oil cylinder 14 is connected with the outermost interlocking plate 12 in a driving mode.

The two sides below the vertical plates 3 are respectively provided with a supporting plate 4, the two supporting plates 4 are arranged in parallel, one supporting plate 4 is provided with a group of through holes 4.1, all the through holes 4.1 are arranged in a coplanar manner, each through hole 4.1 is correspondingly arranged between the two corresponding vertical plates 3, each through hole 4.1 is internally and respectively inserted with one insertion plate 21, one side of each insertion plate 21 is provided with a group of baffles 22, each baffle 22 is correspondingly matched with the corresponding blanking port, the outer sides of all the insertion plates 21 are connected together through a second connecting plate 20, the outer side of the supporting plate 4 is also provided with a second oil cylinder 23, and the second oil cylinder 23 is in driving connection with the second connecting plate 20.

A controller 19 is arranged on the fixing plate 18, the controller 19 is a conventional PLC controller, the controller 19 is connected with the first oil cylinder 14 and the second oil cylinder 23 in a control mode, and a control method of the controller 19 is the prior art.

When the device is used, the second oil cylinder 23 drives the inserting plate 21, so that the baffle plate 22 blocks a blanking hole, the first oil cylinder 14 drives the first conductive plate 15 to be pulled open through the insulating push plate 11, the resistor is placed between the first conductive plate 15 and the second conductive plate 16, after the resistor falls down, the first oil cylinder 14 drives the first conductive plate 15 to return to the tightening resistor for overload detection, and after the detection is finished, the second oil cylinder 23 drives the inserting plate 21, so that the baffle plate 22 leaves the blanking hole.

Claims (5)

1. A resistor fixing device for detecting lead-free resistor overload is characterized in that: comprises a base (1), the base (1) comprises a bedplate (2), a group of vertical plates (3) which are arranged in parallel are transversely and uniformly distributed on the bedplate (2), the length of each vertical plate (3) is less than the width of the bedplate (2), each vertical plate (3) is arranged in the middle of the corresponding cross section of the bedplate (2), two sides between any two adjacent vertical plates (3) are respectively provided with an insulating baffle plate (7), the outer side of each insulating baffle plate (7) extends out of the outer side of the corresponding vertical plate (3), a group of insulating baffle plates (6) are arranged between the two corresponding insulating baffle plates (7), a blanking hole is arranged between any two adjacent insulating baffle plates (6), other blanking holes are arranged between the corresponding insulating baffle plates (7) and the insulating baffle plates (6), one side of each insulating baffle plate (6) is provided with a first conductive plate (15), the other side of each insulating baffle plate is provided with a second conductive plate (16), the first current-conducting plate (15) and the second current-conducting plate (16) are arranged in parallel, one side of the first current-conducting plate (15) extends out of one side of the vertical plate (3), one side of the second current-conducting plate (16) extends out of the other side of the vertical plate (3), the first current-conducting plate (15) is connected with the positive power plate (17), the second current-conducting plate (16) is connected with the negative power plate (5), a guide rod (8) is connected on the bedplate (2) on the two sides of the vertical plate (3), the two sides of the first current-conducting plate (15) and the two sides of the second current-conducting plate (16) are connected on the corresponding guide rod (8) in a guiding way, a clamping groove (3.1) is arranged on one side of the vertical plate (3), the opening of the clamping groove (3.1) is arranged towards the same side edge of the bedplate (2), the insulating push plate (11) is connected in a matching way in the clamping groove (3.1), the insulating push plate (11) is connected and fixed with the corresponding, the lower side of each insulating push plate (11) is provided with a linkage plate (12), a first linkage plate (13) is connected between two adjacent linkage plates (12), one side of the bedplate (2) is connected with a first oil cylinder (14), the first oil cylinder (14) is in driving connection with the linkage plate (12) at the outermost side, two sides below the vertical plates (3) are respectively provided with a support plate (4), the two support plates (4) are arranged in parallel, one support plate (4) is provided with a group of through holes (4.1), all the through holes (4.1) are arranged in a coplanar manner, each through hole (4.1) is correspondingly arranged between two corresponding vertical plates (3), an insert plate (21) is inserted into each through hole (4.1), one side of each insert plate (21) is provided with a group of baffle plates (22), each baffle plate (22) is correspondingly matched with a corresponding blanking port, the outer sides of all insert plates (21) are connected together through a second linkage plate (20), a second oil cylinder (23) is also arranged on the outer side of the supporting plate (4), and the second oil cylinder (23) is in driving connection with a second connecting plate (20);

The hydraulic control system also comprises a controller (19), wherein the controller (19) is connected with the first oil cylinder (14) and the second oil cylinder (23) in a control mode.

2. a leadless resistance overload detecting resistor fixture as claimed in claim 1, wherein: the insulation baffle plate (7) is an L-shaped plate, the height of the insulation baffle plate (7) is equal to that of the insulation partition plate (6) and is lower than that of the vertical plate (3), and the width of the insulation baffle plate (7) is equal to that of the insulation partition plate (6).

3. A leadless resistance overload detecting resistor fixture as claimed in claim 1, wherein: the structure of the first conductive plate (15) is the same as that of the second conductive plate (16), the first conductive plate and the second conductive plate both comprise a straight plate (35), two sides of the straight plate (35) are provided with a guide hole (36), and one side of the straight plate (35) is also provided with a U-shaped groove (37).

4. A leadless resistance overload detecting resistor fixture as claimed in claim 1, wherein: draw-in groove (3.1) are for become the logical groove that runs through from top to bottom on riser (3), and be equipped with uncovered in one side of riser (3), be equipped with the spacing groove in the both sides that lead to the groove the both sides of insulating push pedal (11) all are equipped with one limiting plate (11.1), and every limiting plate (11.1) all corresponds the setting at corresponding spacing inslot.

5. A leadless resistance overload detecting resistor fixture as claimed in claim 1, wherein: and a fixing plate (18) is arranged on one side of the bedplate (2), and the first oil cylinder (14) and the controller (19) are arranged on the fixing plate (18).