CN112207730A - Large-amplitude rotating jig with power supply function - Google Patents

Abstract

The invention relates to a large-amplitude rotating jig with a power supply function, which belongs to the field of jigs and comprises an upper tooling plate and a lower tooling plate, the lower tooling plate is provided with a rotating mechanism, the upper tooling plate is rotatably arranged on the lower tooling plate through the rotating mechanism, the bottom of the upper tooling plate is provided with a plurality of first moving mechanisms which are arranged in a circular ring shape by taking the rotating mechanism as the circle center, the surface of the lower tooling plate is provided with a plurality of positioning mechanisms corresponding to the first moving mechanism for positioning the first moving mechanism, the bottom surface of the lower tooling plate is also provided with a plurality of mounting grooves, conductive strips are arranged in the mounting grooves, the top surface of lower frock board correspond the mounting groove be provided with a plurality of with the guide hole of mounting groove intercommunication, be provided with in the guide hole and lead electrical pillar, lead electrical pillar with the conductive part intercommunication. The invention can test the products which need electricity.

Description

Large-amplitude rotating jig with power supply function

Technical Field

The invention relates to the field of jigs, in particular to a large-amplitude rotating jig with a power supply function.

Background

At present, the automatic power supply turntable jig in China is quite lack of machines for testing products. The products are tested by manually carrying the products to a power supply machine, and the working procedures are complicated, so that the efficiency is not high, and the consumed time is long. Is not beneficial to the sustainable development of enterprises and the reasonable utilization of cost. Most of the early rotary disc jigs have simpler structures and single functions, and cannot meet the requirements of related users; the device with a little more functions has complex structure and high price, and is difficult to be bought by common users; especially, some rotating disks needing to be provided with electric appliances are difficult to change the power supply conversion device and position, and are expensive.

Disclosure of Invention

In view of the above, there is a need for a large-amplitude rotary jig with power supply function, which comprises an upper tool plate and a lower tool plate, the lower tooling plate is provided with a rotating mechanism, the upper tooling plate is rotatably arranged on the lower tooling plate through the rotating mechanism, the bottom of the upper tooling plate is provided with a plurality of first moving mechanisms which are arranged in a circular ring shape by taking the rotating mechanism as the circle center, the surface of the lower tooling plate is provided with a plurality of positioning mechanisms corresponding to the first moving mechanism for positioning the first moving mechanism, the bottom surface of the lower tooling plate is also provided with a plurality of mounting grooves, conductive strips are arranged in the mounting grooves, the top surface of lower frock board correspond the mounting groove be provided with a plurality of with the guide hole of mounting groove intercommunication, be provided with in the guide hole and lead electrical pillar, lead electrical pillar with the conductive part intercommunication.

When the device is used, a product to be tested is placed on the upper tooling plate, then the product can rotate relative to the lower tooling plate by rotating the upper tooling plate, namely the product rotates relative to the bottom surface, and in the rotating process of the upper tooling plate, the moving mechanism can be positioned at the positioning mechanism, so that the positioning of the upper tooling plate relative to the lower tooling plate is realized, the relative position of the product and the lower tooling plate is fixed, and the product is conveniently tested; if the product that awaits measuring needs the switch on, can be through brush isotructure and the conductive pillar intercommunication in the conducting hole of setting on frock board down to with the conducting bar intercommunication, realize the intercommunication of the product that awaits measuring and power, wherein, the guide hole has all been seted up in the many places of the table of frock board down, in order to guarantee that the frock board no matter how many angles of rotation can make the product that awaits measuring on it can with the conductive pillar intercommunication in the guide hole, thereby communicate with the conducting bar.

Preferably, the first moving mechanism comprises a first supporting portion arranged at the bottom of the upper tooling plate, a first roller is arranged on the first supporting portion in a vertically movable manner, the bottom of the first roller is abutted to the surface of the lower tooling plate, the positioning mechanism comprises a positioning block arranged on the surface of the lower tooling plate, and a positioning groove for positioning the first roller is formed in the positioning block.

Go up the frock board when rotating, first gyro wheel can roll on the frock board down, when first gyro wheel rolls locating piece department, first gyro wheel can collapse in the constant head tank this moment, thereby realize the location of frock board for the frock board down, with the relative position relation of fixed frock board and lower frock board, wherein the width of constant head tank is less than the radius of first gyro wheel, in order to guarantee first gyro wheel collapse back in the constant head tank, first gyro wheel can block at the opening part of constant head tank, and can't roll in the constant head tank, in order to guarantee location structure's stability.

Further, the first moving mechanisms are uniformly arranged around the rotating mechanism.

First moving mechanism encircles rotary mechanism and evenly sets up, then the locating piece that corresponds first moving mechanism and set up also encircles rotary mechanism and evenly sets up, then can be so that go up the frock board and every rotate certain angle and all can carry out once fixing a position to realize the multiposition location of this application, and the fixed position at every turn, every first moving mechanism on going up the frock board all is fixed a position by the position piece, thereby can increase location structure's stability.

Furthermore, two supporting plates are arranged at the bottom of the first supporting part, a containing groove penetrating through the supporting plates is formed in each supporting plate, the containing groove is vertically arranged, a rotating shaft is further arranged at the bottom of each supporting plate, two ends of the rotating shaft are respectively arranged in the containing grooves, the rotating shaft is connected with the tops of the containing grooves through an elastic mechanism, a first roller wheel is arranged in the middle of the rotating shaft, and the first roller wheel is rotatably connected with the rotating shaft; the positioning groove on the positioning block corresponds to the first roller, and one end of the positioning groove faces the rotating mechanism.

Because the one end of constant head tank sets up towards rotary mechanism, and all first gyro wheel place planes all perpendicular to uses rotary mechanism to be the diameter of circular shape same circle, again because the pivot passes through elastic mechanism and is connected with the top of holding tank, consequently when first gyro wheel process constant head tank, first gyro wheel place plane is perpendicular with the length direction of constant head tank, the side of first gyro wheel can block at the opening part of constant head tank, and because the pivot passes through elastic mechanism and is connected with the top of holding tank, consequently first round is rolled and can be promoted certain distance downwards by elastic mechanism this moment, in order to guarantee that the side of first gyro wheel can be inconsistent with the notch of mounting groove, thereby realize the function of location.

Preferably, the bottom of the upper tooling plate is further provided with a plurality of second moving mechanisms, and the second moving mechanisms are annularly distributed by taking the rotating mechanism as a circle center.

The second moving mechanism is used for supporting the upper tooling plate so as to prevent the upper tooling plate from shaking and keeping the stability of the upper tooling plate relative to the lower tooling plate.

Furthermore, the second moving mechanism comprises a second supporting part arranged at the bottom of the upper tooling plate and a second roller which is rotatably arranged on the second supporting part, and the bottom of the second roller is abutted against the surface of the lower tooling plate.

Further, the second moving mechanism is located outside the first moving mechanism.

The second moving mechanism is located the outside of first moving mechanism, then the second moving mechanism can play the supporting role with rotary mechanism jointly to the last frock board part that is provided with first moving mechanism, avoids first gyro wheel too big and receive the damage to the pressure of mounting groove, and the outside that the second moving mechanism is located first moving mechanism can also increase the support area of second moving mechanism to last frock board simultaneously to it is more stable to make to go up the frock board.

Preferably, the surface of the lower tooling plate is further provided with a socket, and the socket is electrically connected with the conductive bar arranged on the bottom surface of the lower tooling plate.

The socket is used for connecting an external power supply, so that the bus bar is communicated with the external power supply.

Preferably, the upper surface of the upper tooling plate is further provided with a fixing part.

The fixing part is used for fixing a product to be tested so as to fix the product to be tested on the upper tooling plate, and therefore the product to be tested is prevented from moving in position in the testing process.

The principle and effect of the present invention will be further explained by combining the above technical solutions:

when the device is used, a product to be tested is placed on the upper tooling plate, then the product can rotate relative to the lower tooling plate by rotating the upper tooling plate, namely the product rotates relative to the bottom surface, and in the rotating process of the upper tooling plate, the moving mechanism can be positioned at the positioning mechanism, so that the positioning of the upper tooling plate relative to the lower tooling plate is realized, the relative position of the product and the lower tooling plate is fixed, and the product is conveniently tested; if the product that awaits measuring needs the switch on, can be through brush isotructure and the conductive pillar intercommunication in the conducting hole of setting on frock board down, thereby with the conducting bar intercommunication, realize the intercommunication of product and power that awaits measuring, wherein, the conducting hole has all been seted up in many places of the table of frock board down, in order to guarantee that the frock board no matter how many angles of rotation can make the product that awaits measuring on it can with the conductive pillar intercommunication in the conducting hole, thereby with the conducting bar intercommunication, thereby can carry out the fixed test to the power consumption product that needs, and its power supply mechanism is simple, the winding condition of electric wire can not appear, and convenient use.

Drawings

Fig. 1 is a first schematic structural diagram of a large-amplitude rotating jig with a power supply function according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a large-amplitude rotating jig with a power supply function according to an embodiment of the invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic structural diagram of an upper tooling plate according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a lower tooling plate according to an embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5;

fig. 7 is a schematic structural diagram of the first moving mechanism according to the embodiment of the present invention.

Description of reference numerals:

1-upper tooling plate, 11-first moving mechanism, 111-first supporting part, 112-supporting plate, 1121-accommodating groove, 113-rotating shaft, 114-first roller, 12-second moving mechanism, 13-fixing part, 2-lower tooling plate, 21-rotating mechanism, 22-positioning block, 221-positioning groove, 23-installing groove, 231-conducting strip, 24-guiding hole and 25-socket.

Detailed Description

For the convenience of understanding of those skilled in the art, the present invention will be described in further detail below with reference to the accompanying drawings and examples:

referring to fig. 1-7, a large-amplitude rotating jig with a power supply function includes an upper tooling plate 1 and a lower tooling plate 2, the lower tooling plate 2 is provided with a rotating mechanism 21, the upper tooling plate 1 is rotatably disposed on the lower tooling plate 2 through the rotating mechanism 21, the bottom of the upper tooling plate 1 is provided with a plurality of first moving mechanisms 11, the first moving mechanisms 11 are annularly disposed with the rotating mechanism 21 as a center, the surface of the lower tooling plate 2 is provided with a plurality of positioning mechanisms for positioning the first moving mechanisms 11 corresponding to the first moving mechanisms 11, the bottom of the lower tooling plate 2 is further provided with a plurality of mounting grooves 23, conductive bars 231 are disposed in the mounting grooves 23, the top surface of the lower tooling plate 2 is provided with a plurality of guide holes 24 communicated with the mounting grooves 23 corresponding to the mounting grooves 23, conductive posts are disposed in the guide holes 24, the conductive post is in communication with the conductive portion.

Wherein the rotating mechanism 21 is a thrust ball rotating shaft 113, and the upper tooling plate 1 is rotatably arranged on the lower tooling plate 2 through a thrust ball bearing.

When the device is used, a product to be tested is placed on the upper tooling plate 1, then the product can rotate relative to the lower tooling plate 2 by rotating the upper tooling plate 1, namely the product rotates relative to the bottom surface, and in the rotating process of the upper tooling plate 1, the moving mechanism can be positioned at the positioning mechanism, so that the positioning of the upper tooling plate 1 relative to the lower tooling plate 2 is realized, the relative position of the product and the lower tooling plate 2 is fixed, and the product can be conveniently tested; if the product that awaits measuring needs the switch on, can be through brush isotructure and the conductive pillar intercommunication that sets up in guide hole 24 on frock board 2 down to with the conductive bar 231 intercommunication, realize the intercommunication of the product that awaits measuring and power, wherein, guide hole 24 has all been seted up in the many places of the table of frock board 2 down, in order to guarantee that frock board 1 no matter how many angles of rotation can make the product that awaits measuring on it can with the conductive pillar intercommunication in guide hole 24, thereby communicate with conductive bar 231.

In one embodiment, the first moving mechanism 11 includes a first supporting portion 111 disposed at the bottom of the upper tooling plate 1, a first roller 114 is disposed on the first supporting portion 111 in a vertically movable manner, the bottom of the first roller 114 abuts against the surface of the lower tooling plate 2, the positioning mechanism includes a positioning block 22 disposed on the surface of the lower tooling plate 2, and a positioning groove 221 for positioning the first roller 114 is disposed on the positioning block 22.

When the upper tooling plate 1 rotates, the first roller 114 can roll on the lower tooling plate 2, when the first roller 114 rolls to the positioning block 22, the first roller 114 can collapse into the positioning groove 221 at the moment, so that the upper tooling plate 1 can be positioned relative to the lower tooling plate 2, the relative position relation between the upper tooling plate 1 and the lower tooling plate 2 is fixed, wherein the width of the positioning groove 221 is smaller than the radius of the first roller 114, after the first roller 114 is ensured to collapse into the positioning groove 221, the first roller 114 can be clamped at the opening of the positioning groove 221, and can not roll in the positioning groove 221, and the stability of the positioning structure is ensured.

In one embodiment, the first moving mechanism 11 is uniformly arranged around the rotating mechanism 21.

First moving mechanism 11 encircles rotary mechanism 21 and evenly sets up, then the locating piece 22 that corresponds first moving mechanism 11 and set up also encircles rotary mechanism 21 and evenly sets up, then can make and go up frock board 1 and rotate certain angle and all can carry out once fixing a position to realize the multiposition location of this application, and the position is put at every turn, and every first moving mechanism 11 on going up frock board 1 all is fixed a position by location piece 22, thereby can increase location structure's stability.

In one embodiment, two supporting plates 112 are disposed at the bottom of the first supporting portion 111, an accommodating groove 1121 penetrating through the supporting plates 112 is disposed on the supporting plates 112, the accommodating groove 1121 is vertically disposed, a rotating shaft 113 is further disposed at the bottom of the supporting plates 112, two ends of the rotating shaft 113 are respectively disposed in the accommodating groove 1121, the rotating shaft 113 is connected to the top of the accommodating groove 1121 through an elastic mechanism, a first roller 114 is disposed in the middle of the rotating shaft 113, and the first roller 114 is rotatably connected to the rotating shaft 113; the positioning groove 221 on the positioning block 22 is disposed corresponding to the first roller 114, and one end of the positioning groove 221 is disposed toward the rotating mechanism 21; wherein, the elastic mechanism can be a spring; the first roller 114 is a deep groove ball bearing, and is rotatably mounted on the rotating shaft 113.

Because the one end of the positioning slot 221 is disposed toward the rotating mechanism 21, and the plane of all the first rollers 114 is perpendicular to the diameter of the same circle that is circular with the rotating mechanism 21, and because the rotating shaft 113 is connected to the top of the accommodating slot 1121 through the elastic mechanism, when the first rollers 114 pass through the positioning slot 221, the plane of the first rollers 114 is perpendicular to the length direction of the positioning slot 221, the side surface of the first rollers 114 can be clamped at the opening of the positioning slot 221, and because the rotating shaft 113 is connected to the top of the accommodating slot 1121 through the elastic mechanism, the first rollers can be pushed downward by the elastic mechanism for a certain distance at this time, so as to ensure that the side surface of the first rollers 114 can be abutted against the notch of the mounting slot 23, thereby achieving the positioning function.

In one embodiment, the bottom of the upper tooling plate 1 is further provided with a plurality of second moving mechanisms 12, and the second moving mechanisms 12 are annularly distributed with the rotating mechanism 21 as a circle center.

The second moving mechanism 12 is used to support the upper tooling plate 1, so as to prevent the upper tooling plate 1 from shaking and keeping the upper tooling plate 1 stable relative to the lower tooling plate 2.

In one embodiment, the second moving mechanism 12 includes a second supporting portion disposed at the bottom of the upper tooling plate 1 and a second roller rotatably disposed on the second supporting portion, and the bottom of the second roller abuts against the surface of the lower tooling plate 2.

In one embodiment, the second moving mechanism 12 is located outside the first moving mechanism 11.

The second moving mechanism 12 is located outside the first moving mechanism 11, and then the second moving mechanism 12 and the rotating mechanism 21 can jointly support the part of the upper tooling plate 1 provided with the first moving mechanism 11, so as to avoid the first roller 114 from being damaged due to too large pressure on the installation groove 23, and meanwhile, the second moving mechanism 12 is located outside the first moving mechanism 11, so that the supporting area of the second moving mechanism 12 on the upper tooling plate 1 can be increased, and the upper tooling plate 1 is more stable.

In one embodiment, the surface of the lower tooling plate 2 is further provided with a socket 25, and the socket 25 is electrically connected to the conductive bar 231 disposed on the bottom surface of the lower tooling plate 2.

The socket 25 is used to connect an external power source so that the bus bar 231 communicates with the external power source.

In one embodiment, the upper surface of the upper tooling plate 1 is further provided with a fixing portion 13.

The fixing portion 13 is used for fixing a product to be tested to fix the product to be tested on the upper tooling plate 1, thereby preventing the product to be tested from moving in position during a testing process.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. A large-amplitude rotating jig with a power supply function is characterized by comprising an upper tooling plate and a lower tooling plate, the lower tooling plate is provided with a rotating mechanism, the upper tooling plate is rotatably arranged on the lower tooling plate through the rotating mechanism, the bottom of the upper tooling plate is provided with a plurality of first moving mechanisms which are arranged in a circular ring shape by taking the rotating mechanism as the circle center, the surface of the lower tooling plate is provided with a plurality of positioning mechanisms corresponding to the first moving mechanism for positioning the first moving mechanism, the bottom surface of the lower tooling plate is also provided with a plurality of mounting grooves, conductive strips are arranged in the mounting grooves, the top surface of lower frock board correspond the mounting groove be provided with a plurality of with the guide hole of mounting groove intercommunication, be provided with in the guide hole and lead electrical pillar, lead electrical pillar with the conductive part intercommunication.

2. The jig with the power supply function and the large amplitude rotation function according to claim 1, wherein the first moving mechanism comprises a first supporting portion disposed at the bottom of the upper tooling plate, a first roller is disposed on the first supporting portion in a vertically movable manner, the bottom of the first roller abuts against the surface of the lower tooling plate, the positioning mechanism comprises a positioning block disposed on the surface of the lower tooling plate, and a positioning groove for positioning the first roller is disposed on the positioning block.

3. The jig for large amplitude rotation with power supply function according to claim 1 or 2, wherein the first moving mechanism is uniformly arranged around the rotating mechanism.

4. The jig with the power supply function and the large amplitude rotation function according to claim 3, wherein two support plates are arranged at the bottom of the first support part, a containing groove penetrating through the support plates is formed in each support plate, the containing groove is vertically arranged, a rotating shaft is further arranged at the bottom of each support plate, two ends of each rotating shaft are respectively arranged in the containing grooves, each rotating shaft is connected with the top of the corresponding containing groove through an elastic mechanism, a first roller is arranged in the middle of each rotating shaft, and the first rollers are rotatably connected with the rotating shafts; the positioning groove on the positioning block corresponds to the first roller, and one end of the positioning groove faces the rotating mechanism.

5. The jig with the power supply function and the large amplitude rotation function according to claim 1, wherein a plurality of second moving mechanisms are further disposed at the bottom of the upper tooling plate, and the second moving mechanisms are annularly distributed around the rotating mechanism.

6. The jig for large amplitude rotation with power supply function according to claim 5, wherein the second moving mechanism comprises a second supporting portion disposed at the bottom of the upper tooling plate and a second roller rotatably disposed on the second supporting portion, and the bottom of the second roller abuts against the surface of the lower tooling plate.

7. The jig for large amplitude rotation with power supply function according to claim 5, wherein the second moving mechanism is located outside the first moving mechanism.

8. The jig for large amplitude rotation with power supply function according to claim 1, wherein a socket is further disposed on the surface of the lower tooling plate, and the socket is electrically connected to the conductive bar disposed on the bottom surface of the lower tooling plate.

9. The jig for large amplitude rotation with power supply function according to claim 1, wherein a fixing portion is further provided on an upper surface of the upper tooling plate.

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