CN212314606U - Efficient feeding IC cabinet capable of realizing uninterrupted material changing - Google Patents

Abstract

The utility model discloses a high-efficient material loading IC cabinet of incessant reloading, including base, braced frame, charging device and feed supplement device. The utility model discloses a material feeding unit, including material feeding unit, charging tray frame, material supplementing device, material feeding unit, material supplementing device. The feeding plate is supplemented to the feeding disc in the supporting state, and then the supplemented feeding plate is conveyed to a feeding position, so that the IC cabinet in the feeding process does not need to stop running under the condition that individual parts are lost, and the uninterrupted feeding process of the feeding IC cabinet is realized. The surface mounting efficiency of the surface mounting machine is ensured, and the service life of the IC cabinet and the whole surface mounting machine is prolonged.

Description

Efficient feeding IC cabinet capable of realizing uninterrupted material changing

Technical Field

The utility model relates to a supply IC cabinet of chip mounter, especially a high-efficient material loading IC cabinet of incessant reloading.

Background

The chip mounter needs to use a feeder to supply materials when mounting, and a specific feeder is often adopted to supply materials when supplying materials for special mounted components. When the IC cabinet is used for feeding, because a plurality of different electronic elements are arranged on one circuit board, the sizes of the electronic elements are different, the number of the electronic elements placed in the tray cannot be equal to that of the electronic elements required to be mounted on the circuit board, and therefore, some electronic elements are used up first in the mounting process. When only a part of mounted components are used up, a lot of time is wasted when the chip mounter is stopped to replace the tray in the feeder, and the production efficiency is affected. And the chip mounter is started and stopped frequently, so that the parts of the equipment are influenced, the friction between the moving parts is increased, and the service life of the equipment is shortened.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a material loading IC cabinet in use is supplemented the incessant material change high-efficient material loading IC cabinet that has used up the paster individually through the material supplementing disc.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a high-efficient material loading IC cabinet of incessant reloading, includes base, braced frame, charging tray frame, material feeding unit and feed supplement device, material feeding unit is located the middle part in the support frame outside, braced frame sets up on the base, the charging tray frame reciprocates in braced frame, the charging tray frame is used for placing the charging tray of pasting dress usefulness, feed supplement device is arranged in supplementing the charging tray of disappearance in the charging tray frame, feed supplement device includes the flexible strutting arrangement that the Z axle elevating gear that feed supplement dish and charging tray frame jack-up and carry out the support to the feed supplement dish.

As an improvement of the technical scheme, the supporting frame comprises a vertical supporting frame positioned on the periphery of the cabinet body and a transverse supporting frame positioned at the top end of the vertical supporting frame, and the transverse supporting frame comprises a Y-axis supporting frame arranged in the Y-axis direction and an X-axis supporting frame arranged in the X-axis direction.

As a further improvement of the above technical solution, the number of the telescopic supporting devices is four, the four telescopic supporting devices are respectively arranged at four ends of the X-axis supporting frame, two telescopic supporting devices are arranged on each X-axis supporting frame, and the telescopic supporting devices on the two X-axis supporting frames are arranged oppositely.

As a further improvement of the technical scheme, the telescopic supporting device comprises a telescopic cylinder and a telescopic supporting block located at the position of a gas rod of the telescopic cylinder, and the telescopic supporting block is controlled to extend out and retract through the telescopic cylinder.

As a further improvement of the technical scheme, the edge of the feed supplementing tray is also provided with four buffer wheel shafts, and the four buffer wheel shafts are respectively arranged at the positions, corresponding to the telescopic supporting blocks, of the edge of the feed supplementing tray.

As a further improvement of the technical scheme, the top of the telescopic supporting block is a horizontal plane which is used for supporting the buffering wheel shaft, and the bottom of the telescopic supporting block is an inclined plane which is used for buffering between the buffering wheel shaft and the telescopic supporting block.

As a further improvement of the technical scheme, a material tray positioning block is further arranged on the X-axis support frame and is positioned between the two telescopic supporting devices on the X-axis support frame, a positioning column is arranged at the bottom of the positioning block, and a positioning hole matched with the positioning column is further arranged at the edge of the material supplementing tray.

As a further improvement of the technical scheme, the feed tray frame is arranged in the middle of the vertical supporting frame, the feed supplement tray is positioned above the feed tray frame and is overlapped with the feed tray frame, and a plurality of feed trays are overlapped in the feed tray frame.

As a further improvement of the technical scheme, the Z-axis lifting device is positioned between the material tray frame and the base, the Z-axis lifting device comprises a Z-axis cylinder, a Z-axis sliding block and a Z-axis sliding rail matched with the Z-axis sliding block to be arranged, the Z-axis cylinder is fixed on the base, an air rod of the Z-axis cylinder is fixed at the bottom of the material tray frame, and the material tray frame and a material supplement tray positioned on the material tray frame are driven by the Z-axis cylinder to slide in the vertical supporting frame.

The utility model has the advantages that: a material supplementing disc is arranged on a material disc frame of the feeding IC cabinet, and a group of telescopic support frames are arranged to support the material supplementing disc. The feeding plate is supplemented to the feeding disc in the supporting state, and then the supplemented feeding plate is conveyed to a feeding position, so that the IC cabinet in the feeding process does not need to stop running under the condition that individual parts are lost, and the uninterrupted feeding process of the feeding IC cabinet is realized. The surface mounting efficiency of the surface mounting machine is ensured, and the service life of the IC cabinet and the whole surface mounting machine is prolonged.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic view of the assembly of the present invention;

FIG. 2 is a schematic diagram of the feeding state structure of the present invention;

FIG. 3 is a schematic view of the feeding state structure of the tray of the present invention;

FIG. 4 is a partially enlarged view of the feed supplement of the present invention.

1. A telescopic support device; 11. a telescopic cylinder; 12. a telescopic supporting block; 13. a material tray positioning block; 2. a material supplementing disc; 21. a buffer wheel shaft; 3. a base; 4. a vertical support frame; 41. a Y-axis support; 42. an X-axis support frame; 5. a charging tray frame; 6. a feeding device; 7. z axle elevating gear.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The utility model discloses each technical feature in the creation can the interactive combination under the prerequisite that does not contradict conflict each other.

Referring to fig. 1, fig. 2, a high-efficient material loading IC cabinet of incessant reloading, including base 3, braced frame, charging tray frame 5, material feeding unit 6 and feed supplement device, material feeding unit 6 is located the middle part in the support frame outside, braced frame sets up on base 3, charging tray frame 5 reciprocates in braced frame, charging tray frame 5 is used for placing the charging tray of pasting dress usefulness, feed supplement device is arranged in replenishing the charging tray of disappearance in the charging tray frame 5, feed supplement device includes feed supplement dish 2 and is used for the Z axle elevating gear 7 with feed supplement dish 2 and charging tray frame 5 jack-up and carries out the flexible strutting arrangement 1 that supports to feed supplement dish 2. The charging tray frame 5 and the feeding tray 2 which are arranged in the supporting frame realize up-and-down movement under the driving of the Z-axis lifting device 7, so that different charging trays can be lifted to the feeding device 6 for feeding. And the material supplementing disc 2 lifted by the Z-axis lifting device 7 can be lifted to the end part of the supporting frame, and the material can be manually exchanged after the end part of the supporting frame is lifted by the telescopic supporting device 1. The IC cabinet in the feeding process does not need to stop running under the condition that individual parts are lost, and the uninterrupted feeding process of the feeding IC cabinet is realized. The surface mounting efficiency of the surface mounting machine is ensured, and the service life of the IC cabinet and the whole surface mounting machine is prolonged.

Referring to fig. 2, 3 and 4, the support frame includes a vertical support frame 4 at the periphery of the cabinet and a transverse support frame at the top end of the vertical support frame 4, and the transverse support frame includes a Y-axis support frame 41 arranged in the Y-axis direction and an X-axis support frame 42 arranged in the X-axis direction. The material tray frame 5 is arranged in the middle of the vertical support frame 4, the material supplementing tray 2 is positioned above the material tray frame 5 and is overlapped with the material tray frame 5, and a plurality of material trays are overlapped and placed in the material tray frame 5. The vertical supporting frame 4 is enclosed into a quadrangular hollow frame above the base 3, and the size of the frame is matched with the size of the material tray frame 5 and the material supplementing disc 2, so that the material tray frame 5 and the material supplementing disc 2 can stably move up and down in the frame under the driving of the Z-axis driving device. The horizontal support frame that is located 4 tops of vertical support frame not only can fix vertical support frame 4, can also be used for installing flexible strutting arrangement 1, makes equipment overall structure simple firm more.

The number of the telescopic supporting devices 1 is four, the four telescopic supporting devices 1 are respectively arranged at four ends of the X-axis supporting frame 42, two telescopic supporting devices 1 are arranged on each X-axis supporting frame 42, and the telescopic supporting devices 1 on the two X-axis supporting frames 42 are oppositely arranged. The telescopic supporting devices 1 arranged at the four ends of the X-axis supporting frame 42 support the feeding disc 2 from four corners, so that the support is facilitated, and the balance and stability of the support are increased.

The telescopic supporting device 1 comprises a telescopic cylinder 11 and a telescopic supporting block 12 located at the position of an air rod of the telescopic cylinder 11, and the telescopic supporting block 12 is controlled to extend out and retract through the telescopic cylinder 11. The edge of the material supplementing disc 2 is further provided with four buffer wheel shafts 21, and the four buffer wheel shafts 21 are respectively arranged at the positions, corresponding to the telescopic supporting blocks 12, of the edge of the material supplementing disc 2. The top of the telescopic supporting block 12 is a horizontal plane, the horizontal plane is used for supporting the buffer wheel shaft 21, and the bottom of the telescopic supporting block 12 is an inclined plane and used for buffering between the buffer wheel shaft 21 and the telescopic supporting block 12.

A material tray positioning block 13 is further arranged on the X-axis support frame 42, the material tray positioning block 13 is located between the two telescopic supporting devices 1 on the X-axis support frame 42, a positioning column is arranged at the bottom of the positioning block, and a positioning hole matched with the positioning column is further arranged at the edge of the material supplement tray 2.

When the Z-axis driving device jacks the feed tray frame 5 and the feed supplement tray 2 to the top of the vertical supporting frame 4 together, the buffer wheel shaft 21 positioned on the side edge of the feed supplement tray 2 is in contact with the bottom of the telescopic block. At this moment, the telescopic cylinder 11 is started, the telescopic block located at the air rod position of the telescopic cylinder 11 is driven to retract by the telescopic cylinder 11, and the bottom of the telescopic block is set to be an inclined plane, so that friction between the telescopic block and the buffer wheel shaft 21 is avoided in the retracting process, and the stability of the telescopic block and the buffer wheel shaft 21 is ensured. When the telescopic block is recovered into the telescopic cylinder 11, the material supplementing disc 2 is continuously jacked until the material disc positioning block 13 on the X-axis support frame 42 is contacted with the material supplementing disc 2, and the positioning column on the material disc positioning block 13 is contacted with the positioning hole arranged on the material supplementing disc 2, so that the positioning of the material supplementing disc 2 is realized. After the location is accomplished, start telescopic cylinder 11 once more, the flexible piece that is located 11 gas poles of telescopic cylinder department stretches out once more, and buffering shaft 21 contacts with flexible piece top, and the feed supplement board is supported at the top of support frame, and the manual work can directly carry out the charging tray replacement on the feed supplement dish 2 after opening the top cap. The supplement and replacement of the missing material tray are realized under the condition that the feeding of the feeding device 6 is not influenced, and the mounting efficiency of the chip mounter is ensured.

Z axle elevating gear 7 is located between material tray frame 5 and base 3, Z axle elevating gear 7 include Z axle cylinder, Z axle slider and with the Z axle slide rail of Z axle slider cooperation setting, the Z axle cylinder is fixed on base 3, the gas pole of Z axle cylinder is fixed in material tray frame 5 bottom, material tray frame 5 and the benefit charging tray 2 that is located on material tray frame 5 slide in vertical support frame 4 through the drive of Z axle cylinder.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (9)

1. The utility model provides a high-efficient material loading IC cabinet of incessant reloading which characterized in that: including base, braced frame, charging tray frame, material feeding unit and feed supplement device, material feeding unit is located the middle part in the support frame outside, braced frame sets up on the base, the charging tray frame reciprocates in braced frame, the charging tray frame is used for placing the charging tray of subsides dress usefulness, feed supplement device is arranged in supplementing the charging tray of disappearance in the charging tray frame, feed supplement device includes the feed supplement dish and is used for the flexible strutting arrangement who supports the Z axle elevating gear of feed supplement dish and charging tray frame jack-up and carry out the support to the feed supplement dish.

2. The efficient loading IC cabinet capable of realizing uninterrupted material change according to claim 1, wherein the efficient loading IC cabinet is characterized in that: the supporting frame comprises vertical supporting frames arranged on the periphery of the cabinet body and transverse supporting frames arranged at the top ends of the vertical supporting frames, and the transverse supporting frames comprise Y-axis supporting frames arranged in the Y-axis direction and X-axis supporting frames arranged in the X-axis direction.

3. The efficient loading IC cabinet capable of realizing uninterrupted material change according to claim 2, wherein the efficient loading IC cabinet is characterized in that: the number of the telescopic supporting devices is four, the four telescopic supporting devices are respectively arranged at four end parts of the X-axis supporting frames, two telescopic supporting devices are arranged on each X-axis supporting frame, and the telescopic supporting devices on the two X-axis supporting frames are oppositely arranged.

4. The high-efficiency feeding IC cabinet capable of realizing uninterrupted feeding according to claim 3, characterized in that: the telescopic supporting device comprises a telescopic cylinder and a telescopic supporting block located at the position of a gas rod of the telescopic cylinder, and the telescopic supporting block is controlled to extend out and retract through the telescopic cylinder.

5. The efficient loading IC cabinet capable of realizing uninterrupted material change according to claim 4, wherein the efficient loading IC cabinet is characterized in that: the edge of the feed supplementing disc is further provided with four buffering wheel shafts, and the four buffering wheel shafts are respectively arranged at the positions, corresponding to the telescopic supporting blocks, of the edge of the feed supplementing disc.

6. The efficient loading IC cabinet capable of realizing uninterrupted material change according to claim 5, wherein the efficient loading IC cabinet is characterized in that: the top of the telescopic supporting block is a horizontal plane which is used for supporting the buffering wheel shaft, and the bottom of the telescopic supporting block is an inclined plane which is used for buffering between the buffering wheel shaft and the telescopic supporting block.

7. The efficient loading IC cabinet capable of realizing uninterrupted material change according to claim 2, wherein the efficient loading IC cabinet is characterized in that: and a material tray positioning block is further arranged on the X-axis support frame and positioned between the two telescopic supporting devices on the X-axis support frame, a positioning column is arranged at the bottom of the positioning block, and a positioning hole matched with the positioning column is further arranged at the edge of the material supplementing tray.

8. The efficient loading IC cabinet capable of realizing uninterrupted material change according to claim 1, wherein the efficient loading IC cabinet is characterized in that: the feed tray frame sets up the middle part at vertical support frame, the feed supplement dish is located feed tray frame top and feed tray frame stack setting, a plurality of charging trays are placed in the stack in the feed tray frame.

9. The efficient loading IC cabinet capable of realizing uninterrupted material change according to claim 1, wherein the efficient loading IC cabinet is characterized in that: z axle elevating gear is located between charging tray frame and the base, Z axle elevating gear include Z axle cylinder, Z axle slider and with the Z axle slide rail of Z axle slider cooperation setting, the Z axle cylinder is fixed on the base, and the gas pole of Z axle cylinder is fixed in charging tray frame bottom, charging tray frame and the benefit charging tray that is located on the charging tray frame slide in vertical support frame through Z axle cylinder drive.

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