CN210214276U - Carrier band buffer memory device - Google Patents

Abstract

The utility model relates to a carrier band buffer memory device, which is characterized in that the buffer memory device comprises a pinch roller conveying mechanism and a buffer memory runner mechanism at the right side of the pinch roller conveying mechanism, wherein the pinch roller conveying mechanism and the buffer memory runner mechanism are jointly arranged on a carrier band buffer memory device bracket; the pinch roller conveying mechanism is used for compressing the carrier band on the runner to prevent the carrier band from continuously advancing when changing the disk, is used for conveying the carrier band when normally rolling, and the buffer channel mechanism is used for buffering the carrier band on the runner when changing the disk and is used for guiding the carrier band when normally rolling. The utility model relates to a carrier band buffer memory device comes the buffer memory that the carrier band of material can be fine when trading the dish, is applicable to the condition of the host computer fast operation, realizes the carrier band buffering, has the improvement work efficiency, reduces workman intensity of labour, practices thrift the advantage of cost.

Description

Carrier band buffer memory device

Technical Field

The utility model relates to a carrier band buffer memory device.

Background

Traditional carrier band rolling machine's effect is with carrier band rolling and a no-load tep reel that is used for loading the area on, in order to improve rolling efficiency, carries out automatic improvement on this basis, when empty carrier band dish rolling was full, cuts off the carrier band, then full-load tep reel changes into no-load tep reel and carries out the rolling operation, and the dish that trades of this in-process is for changing the dish automatically. However, the current automatic disc changer has the following defects:

in the automatic disc changing process, the carrier band continues to be fed from the feeding position of the upper computer, the carrier band of the fed material needs to be cached, the carrier band caching processing of the current fed material is that the carrier band is arched upwards, however, the arching height is limited by the gravity and the softness of the carrier band, the carrier band is arched too high, so that the carrier band brings resistance to the upper computer to convey the carrier band due to the action of the gravity, the upper computer clamps the band, and if the carrier band is excessively high, the carrier band can be turned over laterally, and the material receiving clamp band is caused; when the arch height of the carrier band is lower, the speed of the carrier band of the upper computer for conveying cannot be too high, the speed of the upper computer is limited, and the production efficiency is reduced

Aiming at the defects, a carrier tape caching device is sought for well caching the incoming carrier tape during disk replacement, is suitable for the condition of rapid operation of an upper computer, and is particularly important for realizing carrier tape buffering.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the aforesaid not enough, provide when trading the dish, the buffer memory that the carrier band of supplied materials can be fine is applicable to the condition that the host computer moved fast, realizes a carrier band buffer memory device of carrier band buffering.

The purpose of the utility model is realized like this:

a carrier band buffer memory device is characterized by comprising a pinch roller conveying mechanism and a buffer flow channel mechanism arranged on the right of the pinch roller conveying mechanism, wherein the pinch roller conveying mechanism and the buffer flow channel mechanism are jointly arranged on a carrier band buffer memory device support; the pinch roller conveying mechanism is used for compressing the carrier band on the runner to prevent the carrier band from continuously advancing when changing the disk, is used for conveying the carrier band when normally rolling, and the buffer channel mechanism is used for buffering the carrier band on the runner when changing the disk and is used for guiding the carrier band when normally rolling.

As a preferred, pinch roller transport mechanism is including the pinch roller motor that sets up forward, the pinch roller motor sets up on a pinch roller motor mounting panel, a pinch roller motor connecting plate is connected to the upper end of pinch roller motor mounting panel, the output of pinch roller motor is connected with the pinch roller, the pinch roller is located the runner directly over, the vertical downward arrangement of a pinch roller cylinder, the pinch roller cylinder is fixed in the frame, the flexible end of pinch roller cylinder is provided with pinch roller cylinder connector, pinch roller cylinder connector is connected with pinch roller motor connecting plate, the right side of pinch roller motor connecting plate is connected with a lift seat, the lift seat is installed on a vertical arrangement's pinch roller linear slide, pinch roller linear slide is fixed.

Preferably, the buffer runner mechanism comprises a buffer runner cover plate, a buffer runner limiting edge and a buffer runner bottom plate which are arranged in parallel, the buffer runner cover plate, the buffer runner limiting edge and the buffer runner bottom plate are arranged up, down and adjacent and mutually connected, the front end of the buffer runner bottom plate is connected with a transversely-arranged moving plate, the front end and the rear end of the moving plate are respectively connected with guide rods backwards, two guide holes are formed in the rack below the runner positions corresponding to the two guide rods, the two guide rods are respectively inserted into the two guide holes, linear bearing fixing seats are arranged in the guide holes, and linear bearings are arranged on the linear bearing fixing seats.

Preferably, a frame below the runner is connected with a forward cache runner cylinder through a cache runner cylinder fixing seat, a runner cylinder connector is arranged at the telescopic end of the cache runner cylinder, and the runner cylinder connector is connected with the moving plate through a cache runner cylinder connecting plate.

Preferably, the carrier band buffer device support of the carrier band buffer device comprises a left protective cover and a right protective cover which are arranged on the rack, the left protective cover and the right protective cover are respectively positioned under the left end and the right end of the buffer runner mechanism, an upper hollow opening and a lower hollow opening are respectively formed in the opposite sides of the left protective cover and the right protective cover, and buffer monitoring sensors are arranged in the protective covers corresponding to the hollow openings through buffer monitoring sensor fixing seats.

Preferably, the carrier tape buffer device support further comprises a connecting main board in the linear direction of the flow channel.

Preferably, an inlet flow channel is arranged at the right end of the connecting main board, an inlet limiting strip is arranged on the lower surface of the inlet flow channel close to the front side, and an inlet cover plate is arranged at the top of the inlet flow channel.

Preferably, the rear end of the inlet cover plate is hinged to an inlet cover plate rotating seat, and the inlet cover plate rotating seat is fixed to the rear side of the right end of the connecting main plate.

Preferably, a runner sensor extends out of the rear side of the left end of the connecting main board to the left, and a runner side cover plate is arranged at the middle section of the top of the rear side of the connecting main board.

As a preferred, the left end of the connecting main board is provided with an outlet flow channel, the lower surface of the outlet flow channel is provided with an outlet limiting strip close to the front side, and the top of the outlet flow channel is provided with an outlet cover plate.

A carrier tape buffer device is characterized in that the working method is as follows:

the carrier band is coiled from right to left by the left carrier band disc through the flow channel, when the carrier band disc is fully filled, the carrier band on the flow channel is cut, then the tail end of the cut carrier band is pasted with a masking tape and then is continuously coiled, at the moment, the pinch roller cylinder is pressed downwards, the pinch roller motor stops rotating, the carrier band on the flow channel is pressed by the pinch roller and can not be conveyed, but the right upper computer continuously conveys the carrier band to the flow channel, at the same time, the buffer flow channel cylinder stretches out to drive the moving plate to move forwards, therefore, the whole buffer flow channel mechanism moves forwards, the carrier band positioned on the buffer flow channel mechanism before falls into the falling space between the inlet flow channel and the outlet flow channel, the carrier band is sensed by the buffer monitoring sensor after falling to a certain height, then the pinch roller cylinder retracts, the pinch roller motor starts to rotate, the left end of the previously compressed carrier band is continuously conveyed to left, and when the carrier band in the falling space between the inlet, and (4) retracting the buffer runner cylinder, and returning the buffer runner mechanism to carry out normal carrier tape conveying and carrier tape winding operation.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model relates to a carrier band buffer memory device comes the buffer memory that the carrier band of material can be fine when trading the dish, is applicable to the condition of the host computer fast operation, realizes the carrier band buffering, has the improvement work efficiency, reduces workman intensity of labour, practices thrift the advantage of cost.

Drawings

Fig. 1 is a schematic view of a carrier tape buffer device.

Fig. 2 is another state diagram of the tape buffer apparatus.

Fig. 3 is an exploded view of fig. 1.

Figure 4 is an exploded view of the puck transport mechanism of figure 3.

Fig. 5 is an exploded view of the buffer runner mechanism in fig. 3.

Fig. 6 is an exploded view of the carrier tape buffer device bracket shown in fig. 3.

Wherein:

carrier tape 100

Pinch roller motor 201, pinch roller motor mounting plate 202, pinch roller 203, pinch roller motor connecting plate 204, pinch roller cylinder 205, pinch roller cylinder connector 206, lifting seat 207, pinch roller linear slide 208, buffer runner cover plate 209, buffer runner limiting edge 210, buffer runner base plate 211, moving plate 212, guide rod 213, guide hole 214, buffer runner cylinder fixing seat 215, buffer runner cylinder 216, runner cylinder connector 217, buffer runner cylinder connecting plate 218, buffer monitoring sensor fixing seat 219, buffer monitoring sensor 220, connecting main plate 221, inlet runner 222, protective cover 223, inlet limiting strip 224, inlet cover plate 225, inlet cover plate rotating seat 226, linear bearing fixing seat 227, linear bearing 228, auxiliary conveying wheel 229, runner sensor 230, runner side cover plate 231, outlet runner 232, outlet limiting strip 233 and outlet cover plate 234.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the utility model relates to an automatic change dish machine material collecting system, it includes runner from right side to left, is provided with a carrier band buffer memory device on the right section of runner, is provided with reason belting above the left end of runner, and the left side of runner is provided with seeks mouthful and inserts the belting coiling mechanism; the flow channel is used for conveying the carrier tape 100, the carrier tape caching device is used for caching the carrier tape in the flow channel during disk changing, the tape arranging device is used for arranging the tail end of the beautiful thread tape after the beautiful thread tape is adhered, and the opening searching and tape inserting and winding device is used for inserting the front end (left end) of a new carrier tape into a new carrier tape disk and winding the new carrier tape disk; the runner, the carrier band caching device, the band sorting device and the mouth searching and inserting band winding device are all arranged on the rack;

the carrier band cache device comprises a pinch roller conveying mechanism and a cache runner mechanism on the right of the pinch roller conveying mechanism, and the pinch roller conveying mechanism and the cache runner mechanism are jointly installed on a carrier band cache device support; the pinch roller conveying mechanism is used for compressing the carrier band on the runner to prevent the carrier band from continuously advancing when the disc is changed, and is used for conveying the carrier band when the disc is normally rolled, and the buffer runner mechanism is used for buffering the carrier band on the runner when the disc is changed and is used for guiding the carrier band when the disc is normally rolled;

the pinch roller conveying mechanism comprises a pinch roller motor 201 arranged forwards, the pinch roller motor 201 is arranged on a pinch roller motor mounting plate 202, the upper end of the pinch roller motor mounting plate 202 is connected with a pinch roller motor connecting plate 204, the output end of the pinch roller motor 201 is connected with a pinch roller 203, the pinch roller 203 is positioned right above the runner 500, a pinch roller cylinder 205 is arranged vertically downwards, the pinch roller cylinder 205 is fixed on a rack, a pinch roller cylinder connector 206 is arranged at the telescopic end of the pinch roller cylinder 205, the pinch roller cylinder connector 206 is connected with the pinch roller motor connecting plate 204, the right side of the pinch roller motor connecting plate 204 is connected with a lifting seat 207, the lifting seat 207 is arranged on a pinch roller linear slide rail 208 which is arranged vertically, and the;

the cache runner mechanism comprises a cache runner cover plate 209, a cache runner limiting edge 210, a cache runner base plate 211, a cache runner cover plate 209, the buffer runner limiting edge 210 and the buffer runner bottom plate 211 are arranged up and down and are connected with each other, the front end of the buffer runner bottom plate 211 is connected with a moving plate 212 which is arranged transversely, the front end and the rear end of the moving plate 212 are respectively connected with guide rods 213 backwards, two guide holes 214 are formed in a rack below a runner 500 corresponding to the two guide rods 213, the two guide rods 213 are respectively inserted into the two guide holes 214, the rack below the runner 500 is connected with a forward buffer runner cylinder 216 through a buffer runner cylinder fixing seat 215, the telescopic end of the buffer runner cylinder 216 is provided with a runner cylinder connector 217, and the runner cylinder connector 217 is connected with the moving plate 212 through a buffer runner cylinder connector 218.

The carrier tape buffer memory device support of the carrier tape buffer memory device comprises a left protective cover 223 and a right protective cover 223 which are arranged on a rack, the left protective cover 223 and the right protective cover 223 are respectively positioned under the left end and the right end of a buffer memory runner mechanism, one opposite side of the left protective cover 223 and the right protective cover 223 are respectively provided with an upper hollow-out opening and a lower hollow-out opening, the corresponding hollow-out openings in the protective covers 223 are provided with buffer memory monitoring sensors 220 through buffer memory monitoring sensor fixing seats 219, the carrier tape buffer memory device support further comprises a connecting main board 221 in the linear direction of a runner 500, the right end of the connecting main board 221 is provided with an inlet runner 222, the lower surface of the inlet runner 222 is provided with an inlet limiting strip 224 close to the front side, the top of the inlet runner 222 is provided with an inlet cover plate 225, the rear end of the inlet cover plate 225, a linear bearing 228 is arranged on the linear bearing fixing seat 227, an auxiliary transmission wheel 229 is arranged at the left end of the connecting main board 221, the auxiliary transmission wheel 229 is positioned under the pressing wheel 203, a flow channel sensor 230 extends out to the left from the rear side of the left end of the connecting main board 221, a flow channel side cover plate 231 is arranged at the middle section of the top of the rear side of the connecting main board 221, an outlet flow channel 232 is arranged at the left end of the connecting main board 221, an outlet limit strip 233 is arranged on the lower surface of the outlet flow channel 232 close to the front side, an outlet cover plate 234 is arranged at the top of the outlet flow channel 232, and a cache flow channel mechanism is arranged.

The working method of the carrier tape caching device comprises the following steps:

the carrier band is wound by the left carrier band disc from right to left through the flow channel, when the carrier band disc is fully charged, the carrier band on the flow channel is cut, then the tail end of the cut carrier band is pasted with a masking tape and then is continuously wound, at the moment, the pinch roller cylinder is pressed downwards, the pinch roller motor stops rotating, the carrier band on the flow channel is pressed by the pinch roller and cannot be conveyed, but the right upper computer continuously conveys the carrier band to the flow channel, meanwhile, the buffer flow channel cylinder 216 stretches out to drive the moving plate to move forwards, therefore, the whole buffer flow channel mechanism moves forwards, the carrier band which is positioned on the buffer flow channel mechanism before falls into a falling space between the inlet flow channel and the outlet flow channel, the carrier band is sensed by the buffer monitoring sensor 220 after falling to a certain height, then the pinch roller cylinder retracts, the pinch roller motor starts to rotate, and the left end of the previously pressed carrier band, when the carrier tape in the falling space between the inlet runner and the outlet runner is completely transferred, the buffer runner cylinder 216 retracts, and the buffer runner mechanism returns to perform normal carrier tape transfer and carrier tape winding operations.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (10)

1. A carrier band buffer memory device is characterized by comprising a pinch roller conveying mechanism and a buffer flow channel mechanism arranged on the right of the pinch roller conveying mechanism, wherein the pinch roller conveying mechanism and the buffer flow channel mechanism are jointly arranged on a carrier band buffer memory device support; the pinch roller conveying mechanism is used for compressing the carrier band on the runner to prevent the carrier band from continuously advancing when changing the disk, is used for conveying the carrier band when normally rolling, and the buffer channel mechanism is used for buffering the carrier band on the runner when changing the disk and is used for guiding the carrier band when normally rolling.

2. The carrier tape buffer memory device according to claim 1, wherein the pinch roller conveying mechanism comprises a pinch roller motor (201) arranged forward, the pinch roller motor (201) is arranged on a pinch roller motor mounting plate (202), the upper end of the pinch roller motor mounting plate (202) is connected with a pinch roller motor connecting plate (204), the output end of the pinch roller motor (201) is connected with a pinch roller (203), the pinch roller (203) is positioned right above the runner (500), a pinch roller cylinder (205) is arranged vertically downwards, the pinch roller cylinder (205) is fixed on the frame, the telescopic end of the pinch roller cylinder (205) is provided with a pinch roller cylinder connector (206), the pinch roller cylinder connector (206) is connected with the pinch roller motor connecting plate (204), the right side of the pinch roller motor connecting plate (204) is connected with a lifting seat (207), the lifting seat (207) is arranged on a pinch roller linear slide rail (208) which is arranged, the pinch roller linear slide rail (208) is fixed on the frame.

3. The carrier tape caching device of claim 1, wherein the cache runner mechanism comprises a cache runner cover plate (209), a cache runner limiting edge (210) and a cache runner base plate (211) which are arranged in parallel, the cache runner cover plate (209), buffer memory runner spacing limit (210) and buffer memory runner bottom plate (211) are arranged about and adjacent interconnect between the two, the front end of buffer memory runner bottom plate (211) is connected with horizontal arrangement's movable plate (212), the front and back both ends of movable plate (212) are connected with guide bar (213) to the rear respectively, be provided with two guiding holes (214) in the frame of the below of runner (500) department that two guide bar (213) correspond, two guide bar (213) insert respectively in two guiding holes (214), be provided with linear bearing fixing base (227) in guide hole (214), be provided with linear bearing (228) on linear bearing fixing base (227).

4. A carrier tape buffer device according to claim 3, wherein a forward buffer runner cylinder (216) is connected to the rack below the runner (500) through a buffer runner cylinder fixing seat (215), a runner cylinder connector (217) is provided at the telescopic end of the buffer runner cylinder (216), and the runner cylinder connector (217) is connected to the moving plate (212) through a buffer runner cylinder connecting plate (218).

5. The carrier tape buffer device according to claim 1, wherein the carrier tape buffer device support of the carrier tape buffer device (200) comprises a left protective cover and a right protective cover (223) arranged on the rack, the left protective cover and the right protective cover (223) are respectively positioned under the left end and the right end of the buffer runner mechanism, an upper hollow opening and a lower hollow opening are respectively formed on the opposite sides of the left protective cover and the right protective cover (223), and the buffer monitoring sensor (220) is arranged in the protective cover (223) through the buffer monitoring sensor fixing seat (219) at the corresponding hollow opening.

6. A carrier tape buffer according to claim 1, wherein the carrier tape buffer holder further comprises a connection main board (221) in a straight direction of the runner (500).

7. A carrier tape buffer memory device as claimed in claim 6, wherein the right end of the connection main board (221) is provided with an inlet channel (222), the lower surface of the inlet channel (222) is provided with an inlet limit strip (224) near the front side, the top of the inlet channel (222) is provided with an inlet cover plate (225), the left end of the connection main board (221) is provided with an outlet channel (232), the lower surface of the outlet channel (232) is provided with an outlet limit strip (233) near the front side, and the top of the outlet channel (232) is provided with an outlet cover plate (234).

8. A carrier tape buffering apparatus as claimed in claim 7, wherein the rear end of the inlet cover (225) is hinged to an inlet cover rotary base (226), and the inlet cover rotary base (226) is fixed to the rear side of the right end of the connection main board (221).

9. The carrier tape buffering device according to claim 6, wherein a runner sensor (230) protrudes to the left from the rear side of the left end of the connection main board (221), and a runner side cover plate (231) is disposed at the top middle section of the rear side of the connection main board (221).

10. A carrier tape buffer as claimed in claim 1, wherein the method of operation is as follows:

the carrier band is coiled from right to left by the left carrier band disc through the flow channel, when the carrier band disc is fully filled, the carrier band on the flow channel is cut, then the tail end of the cut carrier band is pasted with a masking tape and then is continuously coiled, at the moment, the pinch roller cylinder is pressed downwards, the pinch roller motor stops rotating, the carrier band on the flow channel is pressed by the pinch roller and can not be conveyed, but the right upper computer continuously conveys the carrier band to the flow channel, at the same time, the buffer flow channel cylinder stretches out to drive the moving plate to move forwards, therefore, the whole buffer flow channel mechanism moves forwards, the carrier band positioned on the buffer flow channel mechanism before falls into the falling space between the inlet flow channel and the outlet flow channel, the carrier band is sensed by the buffer monitoring sensor after falling to a certain height, then the pinch roller cylinder retracts, the pinch roller motor starts to rotate, the left end of the previously compressed carrier band is continuously conveyed to left, and when the carrier band in the falling space between the inlet, and (4) retracting the buffer runner cylinder, and returning the buffer runner mechanism to carry out normal carrier tape conveying and carrier tape winding operation.

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