CN212402467U - Feeding structure of vibration disc of pad printing machine - Google Patents
Feeding structure of vibration disc of pad printing machine Download PDFInfo
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- CN212402467U CN212402467U CN201922313505.4U CN201922313505U CN212402467U CN 212402467 U CN212402467 U CN 212402467U CN 201922313505 U CN201922313505 U CN 201922313505U CN 212402467 U CN212402467 U CN 212402467U
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Abstract
The utility model relates to a pad printing machine vibration dish feeding structure, comprising a base plate, the bottom plate is fixedly installed on the frame, at least two first slide rails are installed on the bottom plate, a first slider which is connected with the first slide rails in a sliding way is installed on the first slide rails, the first slider is fixedly connected with a first movable plate, is positioned on the middle line of the two first slide rails, and is provided with a first lead screw fixing seat and a first lead screw supporting seat which are positioned on the two sides of the bottom plate, a first bearing is arranged inside the first lead screw fixing seat and the first lead screw supporting seat, a first nut fixing seat which is fixedly connected is arranged below the first movable plate, and the first nut fixing seat is positioned between the first lead screw fixing seat and the first lead screw supporting seat and is positioned on the same central line; the existing manual feeding is changed, so that the rapid feeding can be realized; the inside at least two silos that set up of feed trough plate that use to and the combination of step motor and inductor, response piece, the optic fibre inductor of combination, will possess automatic convenient regulation material loading.
Description
Technical Field
The utility model relates to the technical field of printing, especially bat printing machine vibration dish feeding structure.
Background
In the prior art, in the process of pad printing on the inductor, a product is manually placed on a special fixture, then a 45-degree jig is placed on a printing head, pad printing is started (a rubber head adopts an amplification edge covering mode, and a silver printing mode is used for printing silver at 45-degree diagonal angles), the jig is taken out after one time, a material is taken down, after silver burning is taken out, the product is manually placed on the special fixture again, a secondary pad printing is placed on the jig of the printing head, the secondary pad printing is taken down again, manual blanking is carried out, the product is placed in a baking tray, and the secondary silver burning is carried out.
The prior manual silver printing feeding mode has the defects that: the efficiency is too low, and the cost of labor is big, and the silver printing cycle is long, and the silver printing twice of upset, twice clamping, twice sintering, 45 diagonal angle silver printing can appear the diagonal angle edges and corners lack the seal and appear black spot, and the silver technology is flowed to the side, can't guarantee the accurate size of silver printing of side, and the yields is low. There is a great need for an automatic feeding part to solve the existing problems.
Disclosure of Invention
The utility model aims at solving the current market and needing artifical material loading, the shortcoming that causes the pad printing inefficiency, cycle length, unable assurance accuracy, yields are low and a neotype pad printing machine vibration dish feeding structure that proposes.
The feeding structure of the vibrating disk of the pad printing machine comprises a bottom plate, wherein the bottom plate is fixedly arranged on a rack, at least two first slide rails are arranged on the bottom plate, a first slide block which is connected with the first slide rails in a sliding way is arranged on the first slide rails, the first slide block is fixedly connected with a first movable plate, a first lead screw fixing seat and a first lead screw supporting seat which are arranged at two sides of the bottom plate are arranged on the middle line of the two first slide rails, a first bearing is arranged inside the first lead screw fixing seat and the first lead screw supporting seat, a first nut fixing seat which is fixedly connected is arranged below the first movable plate, the first nut fixing seat is positioned between the first lead screw fixing seat and the first lead screw supporting seat and is positioned at the same central line,
the first screw rod and the first nut are in threaded engagement with the first screw rod, the first nut is fixedly arranged in a first nut fixing seat, a screw hole of the first nut, a shaft hole of a first bearing of a first screw rod fixing seat and a first bearing of a first screw rod supporting seat are positioned in the same shaft center, two ends of the first screw rod are arranged in the shaft holes of the first screw rod fixing seat and the first bearing of the first screw rod supporting seat and are fixedly connected with the first bearing, the middle part of the first screw rod is in meshed connection with the screw hole of the first nut, one end of the first screw rod, which is close to the first screw rod fixing seat, is provided with a first stepping motor, and the first stepping motor is fixedly connected with the first screw rod through a first coupler;
the first guide rail is fixedly connected with the first movable plate, at least two second guide rails are arranged above the first movable plate and are arranged in a crossed direction with the first guide rails, a second sliding block which is connected with the second guide rails in a sliding mode is installed on the second guide rails, the second sliding block is fixedly connected with the second movable plate, a second lead screw fixing seat and a second lead screw supporting seat which are located on two sides of the bottom plate respectively are arranged between the two second guide rails, second bearings are arranged inside the second lead screw fixing seat and the second lead screw supporting seat, a second nut fixing seat which is fixedly connected is arranged below the second movable plate, the second nut fixing seat is located between the second lead screw fixing seat and the second lead screw supporting seat and located on the same center line, a second lead screw and a second nut which is in threaded engagement with the second lead screw are further included, the second nut is fixedly installed in the second nut fixing seat, and a screw hole of the second nut, and a shaft hole of the second bearing of the second lead screw fixing The two ends of the two-way pipe are arranged in the same axis,
two ends of the second screw rod are arranged in second bearing shaft holes of the second screw rod fixing seat and the second screw rod supporting seat and are fixedly connected with a second bearing, the middle part of the second screw rod is meshed and connected with a screw hole of a second nut,
a second stepping motor is arranged at one end of the second screw rod close to the second screw rod fixing seat, the second stepping motor is fixedly connected with the second screw rod through a second coupler,
a vibration bottom plate is fixedly connected above the second moving plate, and a vibration part is fixedly connected above the vibration bottom plate;
an optical fiber bracket is arranged on one side of the second moving plate, and an optical fiber sensor is arranged on the optical fiber bracket;
the material groove plate is arranged on the rack and comprises at least two material grooves, and hollow grooves are formed in the end portions of the material grooves.
As a preferred embodiment of the feeding structure of the vibrating tray of the pad printing machine of the utility model, the first stepping motor also comprises a first stepping motor seat which is arranged on the side surface of the bottom plate, the first stepping motor is arranged on the first stepping motor seat,
the second stepping motor also comprises a second stepping motor seat which is arranged on the side surface of the first moving plate, the second stepping motor is arranged on the second stepping motor seat,
as a preferred embodiment of the feeding structure of the vibrating tray of the pad printing machine, the bottom plate is further provided with at least three first sensors which are fixedly connected, the three first sensors are arranged in a way that the moving direction of the first moving plate is matched, the first moving plate is provided with first sensing pieces which are fixedly connected at positions corresponding to the upper parts of the three first sensors, the first sensing pieces are close to the first sensors,
the bottom plate is also provided with at least two second inductors which are fixedly connected, the two second inductors are arranged in a way of being matched with the moving direction of the second moving plate, second induction sheets which are fixedly connected are arranged at the positions corresponding to the upper parts of the second moving plate and the two second inductors, the second induction sheets are close to the second inductors,
as a preferred embodiment of the feeding structure of the pad printer vibration disc, the vibration part comprises a vibration disc main body and a discharge guide rail fixedly connected with the vibration disc, a flat vibrator fixedly connected is arranged below the discharge guide rail,
as a preferred embodiment of the feeding structure of the vibrating disk of the pad printing machine of the utility model, the discharging position of the discharging guide rail corresponds to the trough, the optical fiber sensor of the optical fiber bracket is at a vertical angle with the hollow-out groove,
advantageous effects
The utility model discloses the technique has following innovation advantage:
1. the existing manual feeding is changed, so that the rapid feeding can be realized;
2. the inside at least two silos that set up of feed trough plate that use to and the combination of step motor and inductor, response piece, the optic fibre inductor of combination, will possess automatic convenient regulation material loading.
Drawings
FIG. 1 is an overall effect diagram of a pad printing machine;
FIG. 2 is an enlarged view of a portion "A" in FIG. 1;
fig. 3 is a partially enlarged view of a portion "B" in fig. 2;
FIG. 4 is an overall perspective view of the main components of the feeding structure of the vibration plate of the pad printing machine;
FIG. 5 is a partial exploded view of FIG. 4;
FIG. 6 is a partial enlarged view of the portion "C" in FIG. 5;
FIG. 7 is an enlarged partial view of portion "D" of FIG. 6;
FIG. 8 is an enlarged partial view of portion "E" of FIG. 6;
fig. 9 is a partially enlarged view of a portion "F" in fig. 6;
in the figure: 1. the device comprises a rack, 2, a bottom plate, 3, a vibrating bottom plate, 4, a vibrating part, 5, an optical fiber support, 6, an optical fiber sensor, 7, a material groove plate, 8, a material groove, 9, a hollow groove, 10, a vibrating disc, 11, a discharging guide rail and 12, a vibration damper; 101. the first screw rod type stepping motor comprises a first slide rail, 102, a first slide block, 103, a first moving plate, 104, a first screw rod fixing seat, 105, a first screw rod supporting seat, 106, a first bearing, 107, a first nut fixing seat, 108, a first screw rod, 109, a first nut, 110, a first stepping motor, 111, a first coupler, 112, a first motor seat, 113, a first inductor, 114, a first sensing piece, 201, a second slide rail, 202, a second slide block, 203, a second moving plate, 204, a second screw rod fixing seat, 205, a second screw rod supporting seat, 206, a second bearing, 207, a second nut fixing seat, 208, a second screw rod, 209, a second nut, 210, a second stepping motor, 211, a second coupler, 212, a second motor seat, 213, a second inductor, 214 and a second sensing piece.
Detailed Description
The present invention will be further explained with reference to the drawings and examples.
As shown in fig. 1 to 9, the utility model discloses bat printing machine vibration dish feed structure, including main part frame 1, the top fixedly connected with bottom plate 2 (connected mode is the bolt fastening) of frame 1, the parallel fixed mounting in bottom plate 2 surfaces has two first slide rails 101 at least, installs the first slider 102 with first slide rail 101 sliding connection above first slide rail 101, first slider 102 and first movable plate 103 fixed connection make first movable plate 103 can slide with the sliding connection of first slide rail 101 and first slider 102. A first lead screw fixing seat 104 and a first lead screw supporting seat 105 which are arranged at two sides of the bottom plate 2 are arranged on the middle line of the two first slide rails 101, a first bearing 106 is arranged inside the first lead screw fixing seat 104 and the first lead screw supporting seat 105, a first nut fixing seat which is fixedly connected is arranged below the first moving plate 103, and the first nut fixing seat is positioned between the first lead screw fixing seat and the first lead screw supporting seat and is positioned at the same central line; the screw driver further comprises a first screw rod 108 and a first nut 109 in threaded engagement with the first screw rod 108, and the mounting mode is as follows: the first nut 109 is fixedly arranged in the first nut fixing seat 107, so that a screw hole of the first nut 109 and shaft holes of bearings of the first lead screw fixing seat 104 and the first lead screw supporting seat 105 are positioned at the same axis for installing the first lead screw 108, and two ends of the first lead screw 108 are fixedly arranged in shaft holes of the first lead screw fixing seat 104 and the first bearing 106 of the first lead screw supporting seat 15, so that the first lead screw 108 can keep a rotatable effect in the first bearing 106, and meanwhile, the position of the first lead screw 108 cannot be changed; the first screw 108 penetrates through the first nut 109, and since the first nut 109 is fixedly connected with the first nut fixing seat 107 and the first nut fixing seat 107 is fixedly connected with the first moving plate 3, the first screw 108 is indirectly pushed by the mutual threads through the connection between the first nut 109 and the threads, so that the first moving plate 3 moves forward or backward.
The side surface of the bottom plate 2 is fixedly connected with a first stepping motor base 112, one end of the first screw rod 108 close to the first screw rod fixing base 104 is provided with a first stepping motor 110 which is fixedly connected, the first stepping motor 110 is fixedly installed through the first motor base 112 and is fixedly connected with the first coupling 111 and the first screw rod 108, so that the first screw rod 108 can be driven by the first stepping motor 110 to rotate integrally, and the first moving plate 103 moves forwards or backwards indirectly through the threaded engagement of the first screw rod 108 and the first nut 109.
The bottom plate is further provided with at least three first sensors 113 which are fixedly connected, the three first sensors 113 are arranged in a matched mode with the moving direction of the first moving plate, and are respectively used for sensing the position of a mechanical origin and the limit protection of the front end and the rear end of a stroke to realize left and right movement, first sensing pieces 114 which are fixedly connected are arranged at positions, corresponding to the upper portions of the first moving plate 103 and the three first sensors 113, of the first moving plate, and the first sensing pieces 114 are close to the first sensors 113 and used for preparing sensing positions.
At least two second slide rails 201 which are fixedly connected and arranged in a cross direction with the first slide rails 101 are arranged above the first moving plate 103, a second slide block 202 which is slidably connected with the second slide rails 201 is arranged on the second slide rails 201, and the second slide block 202 is fixedly connected with a second moving plate 203; a second screw rod fixing seat 204 and a second screw rod supporting seat 205 which are respectively arranged at two sides of the bottom plate are arranged between the two second sliding rails 201, and a second bearing 206 is arranged inside the second screw rod fixing seat 204 and the second screw rod supporting seat 205; a second nut fixing seat 207 fixedly connected is arranged below the second moving plate 203, the position of the second nut fixing seat 207 is positioned between the second lead screw fixing seat 204 and the second lead screw supporting seat 205 and is positioned at the same central line, the screw plate further comprises a second lead screw 208 and a second nut 209 in threaded engagement with the second lead screw 208, the second nut 209 is fixedly arranged in the second nut fixing seat 207, and a screw hole of the second nut 209 and shaft holes of a second bearing 206 of the second lead screw fixing seat 204 and the second lead screw supporting seat 205 are positioned at the same shaft center; two ends of the second screw rod 208 are mounted in the second screw rod fixing seat 204 and the second bearing 206 shaft hole of the second screw rod supporting seat 205, and are fixedly connected with the second bearing 206, and the middle part of the second screw rod 208 is engaged with the screw hole of the second nut 209;
a second stepping motor base 212 is fixedly connected to the side surface of the first moving plate 103, a second stepping motor 210 is fixedly connected to one end, close to the second lead screw fixing base 204, of the second lead screw 208, the second stepping motor 210 is fixedly connected with the second lead screw 210 through a second coupling 211, so that the second lead screw 208 can be driven by the second stepping motor 210 to rotate integrally, and the second moving plate 203 can move leftwards or rightwards indirectly through threaded engagement between the second lead screw 208 and the second nut 209.
The first moving plate 103 is further provided with at least two second sensors 213 which are fixedly connected, the two second sensors 213 are arranged in a manner of being matched with the moving direction of the second moving plate 203,
a second sensing piece 214 fixedly connected is arranged at a position corresponding to the upper parts of the second moving plate 203 and the two second sensors 213, and the second sensing piece 214 and the second sensors 213 are located at adjacent positions and used for controlling the second moving plate 203 to move left and right.
A vibration bottom plate 3 fixedly connected is arranged above the second moving plate 203, and a vibration part 4 fixedly connected is arranged above the vibration bottom plate 3; the vibration part 4 comprises a vibration disc 10 main body and a discharge guide rail 11 fixedly connected with the vibration disc 10, and a fixedly connected vibration damper 12 is arranged below the discharge guide rail;
an optical fiber bracket 5 is arranged on one side of the second moving plate 203, and an optical fiber sensor 6 is arranged on the optical fiber bracket 5;
the optical fiber support is characterized by further comprising a material groove plate 7 arranged on the rack, wherein the material groove plate 7 comprises at least two material grooves 8, hollow grooves 9 are formed in the end portions of the material grooves 8, the optical fiber sensor 6 of the optical fiber support 5 is located at a vertical angle with the hollow grooves 9 in the longitudinal direction, and the discharging position of the discharging guide rail 11 corresponds to the material grooves 8;
the working principle is as follows: vibration dish 10 will expect vibrations through ejection of compact guide rail 11 and go into the silo 8 of material pan feeding frid 7, fill in the silo 8 and detect through the fiber optic sensor 6 of fiber support 5 top after, then through first step motor 110 and second step motor 210 around realizing with remove about, make ejection of compact guide rail 11 export another silo 8, until having uploaded whole silo 8.
The embodiments of the present invention have been described with reference to the accompanying drawings, but these descriptions should not be construed as limiting the scope of the present invention, which is defined by the appended claims, and any modification based on the claims is the scope of the present invention.
Claims (5)
1. The feeding structure of the vibration disc of the pad printing machine is characterized by comprising a bottom plate, wherein the bottom plate is fixedly arranged on a rack, at least two first slide rails are arranged on the bottom plate, first slide blocks which are connected with the first slide rails in a sliding manner are arranged on the first slide rails, the first slide blocks are fixedly connected with a first movable plate, a first lead screw fixing seat and a first lead screw supporting seat which are arranged at two sides of the bottom plate are arranged on the middle line of the two first slide rails, first bearings are arranged in the first lead screw fixing seat and the first lead screw supporting seat, a first nut fixing seat which is fixedly connected is arranged below the first movable plate, the first nut fixing seat is positioned between the first lead screw fixing seat and the first lead screw supporting seat and is positioned at the same central line,
the first screw rod and the first nut are engaged with the first screw rod through threads, the first nut is fixedly arranged in the first nut fixing seat, a screw hole of the first nut, a shaft hole of a first bearing of the first screw rod fixing seat and the first screw rod supporting seat are positioned in the same shaft center, two ends of the first screw rod are arranged in the first bearing shaft holes of the first screw rod fixing seat and the first screw rod supporting seat and are fixedly connected with the first bearing, the middle part of the first screw rod is engaged with the screw hole of the first nut,
a first stepping motor is arranged at one end of the first screw rod, which is close to the first screw rod fixing seat, and the first stepping motor is fixedly connected with the first screw rod through a first coupler;
at least two second slide rails which are fixedly connected and are arranged in a crossed direction with the first slide rails are arranged above the first movable plate, a second slide block which is connected with the second slide rails in a sliding manner is arranged on the second slide rails, the second slide block is fixedly connected with the second movable plate, a second lead screw fixing seat and a second lead screw supporting seat which are respectively positioned at two sides of the bottom plate are arranged between the two second slide rails, second bearings are arranged in the second lead screw fixing seat and the second lead screw supporting seat, a second nut fixing seat which is fixedly connected is arranged below the second movable plate, the second nut fixing seat is positioned between the second lead screw fixing seat and the second lead screw supporting seat and is positioned at the same central line,
the screw hole of the second nut, the second screw rod fixing seat and the shaft hole of the second bearing of the second screw rod supporting seat are positioned at the same shaft center,
two ends of the second screw rod are arranged in second bearing shaft holes of the second screw rod fixing seat and the second screw rod supporting seat and are fixedly connected with a second bearing, the middle part of the second screw rod is meshed and connected with a screw hole of a second nut,
a second stepping motor is arranged at one end of the second screw rod close to the second screw rod fixing seat, the second stepping motor is fixedly connected with the second screw rod through a second coupler,
a vibration bottom plate is fixedly connected above the second moving plate, and a vibration part is fixedly connected above the vibration bottom plate;
an optical fiber bracket is arranged on one side of the second moving plate, and an optical fiber sensor is arranged on the optical fiber bracket;
the material groove plate is arranged on the rack and comprises at least two material grooves, and hollow grooves are formed in the end portions of the material grooves.
2. The pad printer vibration tray feeding structure according to claim 1, wherein the first stepping motor further comprises a first stepping motor mount installed on a side surface of the bottom plate, the first stepping motor being installed on the first stepping motor mount,
the second stepping motor further comprises a second stepping motor base, the second stepping motor base is installed on the side face of the first moving plate, and the second stepping motor is installed on the second stepping motor base.
3. The feeding structure of the pad printer vibration disk according to claim 1 or 2, characterized in that at least three first sensors are fixedly connected on the bottom plate, the three first sensors are arranged in a manner of being matched with the moving direction of the first moving plate, first sensing pieces are fixedly connected at positions corresponding to the upper parts of the three first sensors on the first moving plate, the first sensing pieces are close to the first sensors,
the bottom plate is also provided with at least two second inductors which are fixedly connected, the two second inductors are arranged in a matching way with the moving direction of the second moving plate, second induction sheets which are fixedly connected are arranged at the positions, corresponding to the upper parts of the two second inductors, of the second moving plate, and the second induction sheets are close to the second inductors.
4. The pad printer vibration tray feeding structure according to claim 3, wherein the vibration part comprises a vibration tray main body and a discharging guide rail fixedly connected with the vibration tray, and a flat vibrator fixedly connected below the discharging guide rail.
5. The feeding structure of a vibrating disk of a pad printer according to claim 4, wherein the discharging position of the discharging guide rail corresponds to the trough, and the optical fiber sensor of the optical fiber support is at a vertical angle with the longitudinal direction of the hollow-out groove.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201922313505.4U CN212402467U (en) | 2019-12-20 | 2019-12-20 | Feeding structure of vibration disc of pad printing machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201922313505.4U CN212402467U (en) | 2019-12-20 | 2019-12-20 | Feeding structure of vibration disc of pad printing machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN212402467U true CN212402467U (en) | 2021-01-26 |
Family
ID=74401922
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201922313505.4U Active CN212402467U (en) | 2019-12-20 | 2019-12-20 | Feeding structure of vibration disc of pad printing machine |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN212402467U (en) |
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2019
- 2019-12-20 CN CN201922313505.4U patent/CN212402467U/en active Active
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