CN109759556B - Pneumatic magnetic stripe pressing device - Google Patents

Abstract

The invention discloses a pneumatic magnetic stripe pressing device which is used for positioning and loading magnetic stripes on a pressing limiting rod and comprises an operation platform, a cylinder mechanism arranged on the operation platform, at least one group of magnetic stripe pressing mechanisms and a linkage structure, wherein the cylinder mechanism comprises a cylinder with a piston rod, the linkage structure is provided with a plurality of mounting holes, and the pressing limiting rod and the piston rod are arranged in the mounting holes; the magnetic stripe pressing mechanism is used for bearing the injection limiting rod and pressing the magnetic stripe into a groove of the injection limiting rod; the cylinder mechanism provides power for the magnetic stripe pressing mechanism and drives the injection limiting rod in the magnetic stripe pressing mechanism to move forwards or backwards through the linkage structure. The invention transmits power through the air cylinder, does not need manual pulling, and has stable transmission output and stable product quality; the fixing mode is reliable, the accurate position of the magnetic stripe is ensured, the device is durable, and the working efficiency is greatly improved.

Description

Pneumatic magnetic stripe pressing device

Technical Field

The invention relates to the technical field of die casting machines, in particular to a pneumatic magnetic stripe pressing device.

Background

The magnetic stripe of the injection limiting rod in the die casting machine industry is generally installed manually or is pressed by a simple device, and the following defects exist in the installation modes:

Firstly, the magnetic strips can only be flatly placed in the grooves by manual installation, and the magnetic strips are easy to fall off in later use due to the fact that the magnetic strips cannot be compressed, so that time is consumed, and cost is increased;

Secondly, the simple magnetic stripe pressing device is easy to swing, and is extremely easy to press and deviate in the pressing process, so that the quality is low; the product pressed by the person is obviously different and the quality is unstable.

Disclosure of Invention

The invention provides a pneumatic magnetic stripe pressing device to solve the technical problems.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

The pneumatic magnetic stripe pressing device is used for positioning and loading the magnetic stripe on the injection limiting rod and comprises an operation platform, a cylinder mechanism arranged on the operation platform, at least one group of magnetic stripe pressing mechanisms and a linkage structure, wherein the cylinder mechanism comprises a cylinder with a piston rod, the linkage structure is provided with a plurality of mounting holes, and the injection limiting rod and the piston rod are arranged in the mounting holes; the magnetic stripe pressing mechanism is used for bearing the injection limiting rod and pressing the magnetic stripe into a groove of the injection limiting rod; the cylinder mechanism provides power for the magnetic stripe pressing mechanism and drives the injection limiting rod in the magnetic stripe pressing mechanism to move forwards or backwards through the linkage structure.

Preferably, when the number of the groups of the magnetic stripe pressing mechanisms is even, the magnetic stripe pressing mechanisms of each group are evenly distributed on two sides of the air cylinder mechanism.

Preferably, the magnetic stripe pressing mechanism comprises a fixing seat, at least one fixed roller shaft, two sliding blocks and a pressing roller shaft, wherein the fixing seat is of a U-shaped structure formed by a base and side plates connected to two sides of the base, rectangular holes formed from openings to the top ends of the side plates are formed in the upper parts of the side plates, shaft holes are formed in the lower parts of the side plates, two ends of the fixed roller shaft are respectively fixed in the shaft holes of the two side plates, two ends of the fixed roller shaft are also respectively connected with fixed roller adjusting structures, two ends of the pressing roller shaft are respectively connected with the two sliding blocks, and the two sliding blocks are respectively fixed in the rectangular holes of the two side plates.

Preferably, the fixed roller adjusting structure comprises a first bearing and a gland, wherein two ends of the bearing are respectively connected with the end part of the fixed roller shaft and the gland, and stable rotation of the fixed roller shaft is realized through support of the first bearing and limit of the gland.

Preferably, one end of the sliding block is fixed at the end part of the pressing roller shaft, the other end of the sliding block is connected with an adjusting pressing plate through a second bearing, and the adjusting pressing plate is fixed on the left side and the right side of the pressing roller shaft through a pressing screw.

Preferably, the roller shaft pressing device further comprises a pressing plate, wherein the pressing plate is fixed above the fixing seat and the sliding block, and the pressing plate is fixed up and down through a pressing screw to press the roller shaft.

Preferably, the cylinder mechanism further comprises an air inlet pipe, a switching power supply, a selector switch, an electromagnetic valve, a throttle valve and a filtering pressure reducing valve, wherein two output ends of the electromagnetic valve are connected to a front cavity and a rear cavity in the cylinder through the throttle valve respectively, an input end of the electromagnetic valve is connected with the air inlet pipe through the filtering pressure reducing valve, the selector switch is electrically connected with the switching power supply and the electromagnetic valve respectively, and the selector switch controls the advance or the retreat of a piston rod in the cylinder through the switch of the two output ends of the electromagnetic valve.

Preferably, a muffler is connected to the electromagnetic valve.

Preferably, when the magnetic stripe pressing mechanism is arranged on only one side of two sides of the air cylinder mechanism, a guide mechanism is arranged on the other side of the air cylinder mechanism, and the guide mechanism is used for maintaining stable operation.

Preferably, the guide mechanism comprises a cushion block, a limiting seat and a guide rod, wherein the limiting seat is fixed on the cushion block, the limiting seat is provided with a through hole, the guide rod penetrates through the through hole of the limiting seat and is fixed through a front limiting structure and a rear limiting structure, and the front end of the guide rod is fixed in a mounting hole of the linkage structure.

Preferably, the rear end of the guide rod is sleeved with a limiting shield, the limiting structure comprises a copper sleeve and a copper sleeve gland, the two copper sleeves are sleeved on the part of the guide rod, which penetrates into and penetrates out of the limiting seat, the two ends of the copper sleeve are respectively connected with the limiting seat and the copper sleeve gland, and the copper sleeve gland at the rear end of the guide rod is fixedly connected with the limiting shield.

Preferably, the device further comprises a protective cover with an opening at the lower end, the edge of the protective cover is fixed on the operation platform, and the cylinder mechanism and the guide mechanism are both arranged in the protective cover.

Compared with the prior art, the invention transmits power through the air cylinder, does not need manual pulling, and has stable transmission output and stable product quality; the fixing mode is reliable, the accurate position of the magnetic stripe is ensured, the device is durable, and the working efficiency is greatly improved.

Drawings

FIG. 1 is a schematic view of a pneumatic magnetic stripe device according to the present invention;

FIG. 2 is a schematic view of the pneumatic magnetic stripe device of the present invention with the protective cover removed;

FIG. 3 is a schematic diagram of an exploded view of a magnetic stripe mechanism in a pneumatic magnetic stripe pressing device of the present invention;

FIG. 4 is a schematic view of an air circuit of an air cylinder mechanism in the pneumatic magnetic stripe device of the present invention;

fig. 5 is a schematic structural view of a guide mechanism in the pneumatic magnetic stripe device of the present invention.

In the figure, the magnetic stripe mechanism is pressed to 1-, the cylinder mechanism is 2-, the linkage mechanism is 3-, 4-guiding mechanism, 5-operation platform, 6-is pressed and is penetrated the gag lever post, 7-magnetic stripe, 8-safety cover, 101-fixing base, 102-clamp plate, 103-is pressed the roller spindle, 104-is fixed the roller spindle, 105-first bearing, 106-gland, 107-adjusting clamp plate, 108-second bearing, 109-slider, 110-compression screw, 111-adjusting screw, 201-switching power supply, 202-solenoid valve, 203-muffler, 204-quick-operation joint, 205-intake pipe, 206-filtration relief valve, 207-trachea, 208-throttle valve, 209-selection switch, 210-cylinder, 211-piston rod, 212-air source, 301-cushion, 302-guiding rod, 303-copper sheathing gland, 304-spacing seat, 305-copper sheathing, 306-spacing guard shield.

Detailed Description

The present invention will be described in detail below with reference to specific embodiments shown in the drawings. These embodiments are not intended to limit the invention and structural, methodological, or functional modifications of these embodiments that may be made by one of ordinary skill in the art are included within the scope of the invention.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.

As shown in fig. 1, a pneumatic magnetic stripe pressing device is used for positioning and loading a magnetic stripe on a pressing and ejecting limiting rod, and comprises an operation platform 5, a cylinder mechanism 2 arranged on the operation platform 5, at least one group of magnetic stripe pressing mechanisms 1 and a linkage structure 3, wherein the cylinder mechanism 2 comprises a cylinder 201 with a piston rod 202, the linkage structure 3 is provided with a plurality of mounting holes, and the pressing and ejecting limiting rod 6 and the piston rod 202 are arranged in the mounting holes; the magnetic stripe pressing mechanism 1 is used for bearing the injection limiting rod 6 and pressing the magnetic stripe 7 into a groove of the injection limiting rod 6; the cylinder mechanism 2 provides power for the magnetic stripe pressing mechanism 1, and drives the injection limiting rod 6 in the magnetic stripe pressing mechanism 1 to advance or retreat through the linkage structure 3.

When the number of the groups of the magnetic stripe pressing mechanisms 1 is even, each group of the magnetic stripe pressing mechanisms 1 can be evenly distributed on two sides of the air cylinder mechanism 2. Under the condition of ensuring the guiding balance, two or more injection limiting rods 6 can be used for simultaneously pressing the magnetic strips 7.

As shown in fig. 2, the cylinder mechanism 2 includes, in addition to a cylinder 210 and a piston rod 211, an intake pipe 205, a switching power supply 201, a selector switch 209, a solenoid valve 202, a throttle valve 208, and a filter pressure reducing valve 206, wherein two output ends of the solenoid valve 202 are respectively connected to a front cavity and a rear cavity in the cylinder 201 through the throttle valve 208, an input end of the solenoid valve 202 is connected to the intake pipe 205 through the filter pressure reducing valve 206 to be connected to an air source 212, the selector switch 209 is respectively electrically connected to the switching power supply 201 and the solenoid valve 202, and the selector switch 209 controls the advance or the retreat of the piston rod 211 in the cylinder 210 through the switching of the two output ends of the solenoid valve 202.

To reduce noise, a muffler 203 may be attached to the solenoid valve 202.

As shown in fig. 3, the magnetic stripe pressing mechanism 1 includes a fixing seat 101, at least one fixed roller shaft 104, two sliding blocks 109 and a pressing roller shaft 103, wherein the fixing seat 101 is a U-shaped structure formed by a base and side plates connected to two sides of the base, rectangular holes from an opening to the top ends of the side plates are formed in the upper portions of the side plates, shaft holes are formed in the lower portions of the side plates, two ends of the fixed roller shaft 104 are respectively fixed in the shaft holes of the two side plates, two ends of the fixed roller shaft 104 are also respectively connected with a fixed roller adjusting structure, two ends of the pressing roller shaft 103 are respectively connected with the two sliding blocks 109, and the two sliding blocks 109 are respectively fixed in the rectangular holes of the two side plates.

According to one implementation mode of the invention, the fixed roller adjusting structure comprises a first bearing 105 and a gland 106, two ends of the bearing 105 are respectively connected with the end part of the fixed roller shaft 104 and the gland 106, and stable rotation of the fixed roller shaft 104 is realized through support of the first bearing 105 and limit of the gland 106.

The number of the shaft holes of the fixed roller shaft 104 and the side plates can be one or more, and can be set according to actual needs. In fig. 1 there are 2 fixed roller shafts 104, each side plate having 2 shaft holes.

One end of the sliding block 109 is fixed at the end part of the pressing roller shaft 103, the other end of the sliding block 109 is connected with the adjusting pressing plate 107 through the second bearing 108, and if the pressing roller shaft 103 swings left and right due to assembly errors or use abrasion, the adjusting pressing plate 107 can be additionally arranged to fix the pressing roller shaft 103 left and right through the adjusting screw 110. In addition, the roller shaft 103 can also comprise a pressing plate 102, wherein the pressing plate 102 is fixed above the side plate of the fixed seat 101 and the sliding block 109, and the pressing plate 102 realizes the up-down fixation of the pressing roller shaft 103 through a pressing screw 111. The above components are all symmetrically arranged.

The connection between the above devices is very tight, the cooperation is also very stable, adjusting screw 110 can let compress tightly roller shaft 103 left and right location, guarantee to be able to compress magnetic stripe 7 in the middle, moreover if be part processing bad, perhaps the device has worn out too greatly for a long time and has led to the compression roller shaft 103 of above to swing left and right, can adjust again when compressing magnetic stripe effect bad, namely has worn out and can continue to use. The fixed adjustable design of the device can realize the extension of the service life of the device by adjusting and re-fixing when the device is worn or unreasonable to assemble. All parts of the device are detachably connected, and part parts can be replaced to realize the press mounting of the injection limiting rod 6 and the magnetic stripe 7 with different specifications.

When only one side of the two sides of the cylinder mechanism 2 is provided with the magnetic stripe pressing mechanism 1, the other side of the cylinder mechanism 2 can be provided with the guide mechanism 4, and the guide mechanism 4 is used for maintaining stable operation. Because only the single-side magnetic stripe pressing mechanism 1 is provided, if the guide mechanism 4 is not additionally arranged, the force balance is used for analysis, the magnetic stripe pressing process is easy to be blocked or biased, and the stable quality of the magnetic stripe pressing can be maintained after the balance design.

As shown in fig. 4, the guide mechanism 4 includes a spacer 301, a limiting seat 304, and a guide rod 302, where the spacer 301 is fixed on the operation platform 5, the limiting seat 304 is fixed on the spacer 301, a through hole is provided in the middle of the limiting seat 304, the guide rod 302 passes through the through hole of the limiting seat 304 and is fixed by a front limiting structure and a rear limiting structure, and the front end of the guide rod 302 is fixed in the mounting hole of the linkage structure 3.

The rear end of the guide rod 302 is sleeved with a limiting shield 306, the limiting structure comprises a copper sleeve 305 and a copper sleeve gland 303, the two copper sleeves 305 are sleeved on the part of the guide rod 302 penetrating into and out of the limiting seat 304, two ends of the copper sleeve 305 are connected with the limiting seat 304 and the copper sleeve gland 303 respectively, and the copper sleeve gland 303 at the rear end of the guide rod 302 is fixedly connected with the limiting shield 306.

In order to protect the cylinder mechanism 2 and the guide mechanism 4, the pneumatic magnetic stripe pressing device of the invention can also comprise a protective cover 8 with an opening at the lower end, the edge of the protective cover 8 is fixed on the operation platform 5, the cylinder mechanism 2 and the guide mechanism 4 are both arranged in the protective cover 8, and a control button of the selector switch 209 can extend out of the protective cover 8 to be exposed outside so as to be convenient for start and stop control.

When the magnetic strip pressing mechanism is used, the air inlet pipe 205 is connected with the air source 212, the pressing limiting rod 6 of the die casting machine is placed above the fixed roller shaft 104 in the U-shaped groove of the fixing seat 101 of the magnetic strip pressing mechanism 2, the magnetic strip 7 is placed above the pressing limiting rod 6 and aligned with the notch on the pressing limiting rod 6 for placing the magnetic strip 7, and the positions of the fixed roller shaft 104 and the pressing roller shaft 103 are adjusted; the screwing selector switch 209 controls the advance or the retreat of the piston rod 211 in the cylinder 210 to drive the advance or the retreat of the injection limit rod 6, and the operation of attaching the magnetic stripe 7 on the injection limit rod 6 is completed.

Compared with the manual installation effect, the invention has high quality, less time consumption and cost saving; compared with a simple magnetic stripe pressing device, the magnetic stripe pressing device is stable and reliable in design, good in universality, stable in output effect, and capable of meeting the product requirements of different specifications, and the balance guide device is additionally arranged; the influence of the operation of people on the magnetic stripe pressing effect is reduced, the magnetic stripe pressing effect is better than that of manual pulling, the pressed product is even and attractive, and the efficiency is high.

Other embodiments of the application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the application following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the application pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It is to be understood that the invention is not limited to the precise arrangements and instrumentalities shown in the drawings, which have been described above, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (9)

1. The pneumatic magnetic stripe pressing device is used for positioning and loading a magnetic stripe on a pressing and ejecting limiting rod and is characterized by comprising an operation platform, a cylinder mechanism arranged on the operation platform, at least one group of magnetic stripe pressing mechanisms and a linkage structure, wherein the cylinder mechanism comprises a cylinder with a piston rod, the linkage structure is provided with a plurality of mounting holes, and the pressing and ejecting limiting rod and the piston rod are arranged in the mounting holes;

the magnetic stripe pressing mechanism is used for bearing the injection limiting rod and pressing the magnetic stripe into a groove of the injection limiting rod;

the cylinder mechanism provides power for the magnetic stripe pressing mechanism and drives the injection limiting rod in the magnetic stripe pressing mechanism to move forwards or backwards through the linkage structure;

The magnetic stripe pressing mechanism comprises a fixing seat, at least one fixed roller shaft, two sliding blocks and a pressing roller shaft, wherein the fixing seat is of a U-shaped structure formed by a base and side plates connected to two sides of the base, rectangular holes which are opened to the top ends of the side plates are formed in the upper parts of the side plates, shaft holes are formed in the lower parts of the side plates, two ends of the fixed roller shaft are respectively fixed in the shaft holes of the two side plates, two ends of the fixed roller shaft are also respectively connected with a fixed roller adjusting structure, two ends of the pressing roller shaft are respectively connected with the two sliding blocks, and the two sliding blocks are respectively fixed in the rectangular holes of the two side plates;

the fixed roller adjusting structure comprises a first bearing and a gland, wherein two ends of the bearing are respectively connected with the end part of the fixed roller shaft and the gland, and the fixed roller shaft is stably rotated through the support of the first bearing and the limit of the gland;

One end of the sliding block is fixed at the end part of the compression roller shaft, the other end of the sliding block is connected with an adjusting pressing plate through a second bearing, and the adjusting pressing plate is fixed on the left side and the right side of the compression roller shaft through a compression screw.

2. The pneumatic magnetic stripe pressing device according to claim 1, wherein when the number of the groups of the magnetic stripe pressing mechanisms is even, each group of the magnetic stripe pressing mechanisms is evenly distributed on two sides of the cylinder mechanism.

3. The pneumatic magnetic stripe device according to claim 1, further comprising a pressing plate, wherein the pressing plate is fixed above the fixing base and the sliding block, and the pressing plate is fixed up and down by pressing a pressing screw to press a roller shaft.

4. The pneumatic magnetic stripe device according to claim 1, wherein the cylinder mechanism further comprises an air inlet pipe, a switching power supply, a selector switch, an electromagnetic valve, a throttle valve and a filtering pressure reducing valve, two output ends of the electromagnetic valve are respectively connected to a front cavity and a rear cavity in the cylinder through the throttle valve, an input end of the electromagnetic valve is connected with the air inlet pipe through the filtering pressure reducing valve, the selector switch is respectively electrically connected with the switching power supply and the electromagnetic valve, and the selector switch controls the forward or backward of a piston rod in the cylinder through the switch of the two output ends of the electromagnetic valve.

5. The pneumatic magnetic stripe device according to claim 4, wherein a muffler is connected to the solenoid valve.

6. The pneumatic magnetic stripe device according to claim 1, wherein when only one side of the cylinder mechanism is provided with the magnetic stripe mechanism, the other side of the cylinder mechanism is provided with a guiding mechanism for maintaining stable operation.

7. The pneumatic magnetic stripe device according to claim 6, wherein the guiding mechanism comprises a cushion block, a limiting seat and a guiding rod, the limiting seat is fixed on the cushion block, the limiting seat is provided with a through hole, the guiding rod passes through the through hole of the limiting seat and is fixed through a front limiting structure and a rear limiting structure, and the front end of the guiding rod is fixed in a mounting hole of the linkage structure.

8. The pneumatic magnetic stripe device according to claim 7, wherein the rear end of the guide rod is sleeved with a limiting shield, the limiting structure comprises a copper sleeve and a copper sleeve gland, the two copper sleeves are sleeved on the part of the guide rod, which penetrates into and penetrates out of the limiting seat, two ends of the copper sleeve are connected with the limiting seat and the copper sleeve gland respectively, and the copper sleeve gland at the rear end of the guide rod is fixedly connected with the limiting shield.

9. The pneumatic magnetic stripe device according to claim 6, further comprising a protective cover with an opening at a lower end, wherein an edge of the protective cover is fixed on the operation platform, and wherein the cylinder mechanism and the guide mechanism are both disposed in the protective cover.