CN215702298U - Rubber coating machine mechanism for numerical control drilling plate - Google Patents

Abstract

The utility model discloses a rubber coating machine mechanism for a numerical control drilling plate, which comprises a vertical frame, a workbench, a press-cutting rubber component and a rubber conveying component, wherein the press-cutting rubber component is spaced from the workbench, the rubber conveying component is used for vertically conveying rubber cloth on a rubber belt between the press-cutting rubber component and the workbench, the workbench and the rubber conveying component are fixed on the vertical frame, the rubber conveying component is positioned below the workbench, the press-cutting rubber component comprises a first driving mechanism, a linking seat, a first cross rod, a second cross rod, a first rubber coating wheel, a second rubber coating wheel and a cutter for cutting off the vertical rubber coating, the first driving mechanism is transversely fixed on the vertical frame, the linking seat is arranged on the output end of the first driving mechanism, one end of the first cross rod is rotatably connected with the linking seat, the other end of the second cross rod is provided with the second rubber coating wheel, the second rubber coating wheel is positioned below the first rubber coating wheel, the cutter is fixed in on the second horizontal pole and is located second package rubber tyer and send gluey subassembly between, and this mechanism labour saving and time saving.

Description

Rubber coating machine mechanism for numerical control drilling plate

Technical Field

The utility model relates to the technical field of circuit board processing, in particular to a rubber coating machine mechanism for a numerical control drilling plate.

Background

The circuit board need drill at the in-process of preparation to on being fixed in the machine through the pin with the circuit board, in prior art, all stack a plurality of circuit boards together, place on the drilling platform of drilling machine, then bond a plurality of circuit boards together on the drilling platform with the sticky tape, fix it, avoid appearing the too big phenomenon of gap or skew between each circuit board, press from both sides tightly with anchor clamps at last and drill a plurality of circuit boards together.

However, the multiple circuit boards are manually bonded on the drilling platform by the adhesive tape, so that time and labor are wasted, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a rubber coating machine mechanism for a numerical control drilling plate, which aims to solve the technical problems that a plurality of circuit boards need to be manually bonded on a drilling platform by using adhesive tapes before being drilled together, time and labor are wasted, and the efficiency is low.

The utility model provides a rubber coating machine mechanism for a numerical control drilling plate, which is used for coating rubber on the periphery of an electric plate assembly formed by stacking a plurality of circuit boards, and comprises a vertical frame, a workbench used for moving the electric plate assembly, a press-cutting rubber assembly and a rubber feeding assembly, wherein the press-cutting rubber assembly is spaced from the workbench, the rubber feeding assembly is used for vertically feeding rubber cloth on a rubber belt to a position between the press-cutting rubber assembly and the workbench, the workbench and the rubber feeding assembly are fixed on the vertical frame, the rubber feeding assembly is positioned below the workbench, the press-cutting rubber assembly comprises a first driving mechanism, a connecting seat, a first cross rod, a second cross rod, a first rubber coating wheel used for connecting the rubber belt to the top of the electric plate assembly, a cutter used for vertically cutting the rubber belt and a second rubber coating wheel used for connecting the rubber belt to the bottom of the electric plate assembly, the first driving mechanism is transversely fixed on the vertical frame, join the base install in on first actuating mechanism's the output, the one end of first horizontal pole with join the base and rotate to be connected, the other end is installed first rubber coating wheel, the one end of second horizontal pole with join the base and rotate to be connected, the other end is installed second rubber coating wheel, just second rubber coating wheel is located the below of first rubber coating wheel, the cutter is fixed in on the second horizontal pole and be located second rubber coating wheel with send between the gluey subassembly.

Further, the pressure rubber cutting component further comprises a first pressure spring plate and a second pressure spring plate, wherein the first pressure spring plate and the second pressure spring plate are elastic plates, one end of the first pressure spring plate is fixed on the connecting seat, the other end of the first pressure spring plate is connected with the top of the first cross rod in a bent abutting mode, one end of the second pressure spring plate is fixed on the connecting seat, the other end of the second pressure spring plate is connected with the bottom of the second cross rod in a bent abutting mode, and the first rubber wrapping wheel is connected with the second rubber wrapping wheel in a abutting mode.

Further, the distance between the first rubber wrapping wheel and the joining seat is larger than the distance between the second rubber wrapping wheel and the joining seat, the distance between the cutter and the adhesive fabric is smaller than the distance between the second rubber wrapping wheel and the adhesive fabric, and the distance between the cutter and the adhesive fabric is larger than the distance between the first rubber wrapping wheel and the adhesive fabric.

Further, send the gluey subassembly to include shell fragment seat, second actuating mechanism, driving medium, a plurality of rotation axis and a plurality of gluey tooth of sending, second actuating mechanism and shell fragment seat all are fixed in on the grudging post, the one end of rotation axis with the grudging post rotates to be connected, the other end is installed send gluey tooth, second actuating mechanism passes through the driving medium drive the rotation axis is relative the grudging post rotates, the shell fragment seat with send gluey tooth and all locate side by side the workstation below, send gluey tooth with shell fragment seat interval sets up.

Further, the shell fragment seat including spacing platform and horizontal slidable mounting in positioning seat on the grudging post, spacing platform includes vertical setting and is fixed in it is close to be close to the positioning seat send the baffle that the base plate, two vertical intervals set up and be located two between the baffle in order to be used for making the folded plate that the adhesive tape was buckled, folded plate and baffle are all followed the length direction of base plate is located on the base plate, send the adhesive tooth to include that two intervals set up and all be fixed in rotate epaxial teeth of a cogwheel, be equipped with a plurality of sharp teeth on the outward flange of teeth of a cogwheel, sharp tooth with between folded plate and the baffle the base plate corresponds the setting.

Furthermore, one end of the folded plate, which is far away from the workbench, is arranged in an inclined plane.

Furthermore, the workbench is a transverse plate, a notch is concavely formed in one side of the workbench, which faces the first driving mechanism, and a gap between the rubber feeding teeth and the elastic sheet seat is located below the notch.

Further, the rubber coating machine mechanism for the numerical control drilling plate further comprises a conveying wheel, a tensioning wheel and a rotating roller for fixing the rubber belt, wherein the conveying wheel, the tensioning wheel and the rotating roller are rotatably mounted on the vertical frame, and the tensioning wheel is located between the conveying wheel and the rubber conveying assembly.

Further, the rubber coating machine mechanism for the numerical control drilling plate further comprises a pressing assembly, the pressing assembly comprises a third driving mechanism and a pressing plate installed on the output end of the third driving mechanism, the third driving mechanism is vertically fixed on the vertical frame, and the pressing plate is located above the workbench.

Furthermore, the rubber coating machine mechanism for the numerical control drilling plate further comprises an induction switch and a controller, wherein the induction switch and the controller are installed on the vertical frame, and the induction switch, the pressure cutting rubber component and the rubber conveying component are electrically connected with the controller.

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

according to the utility model, when the adhesive tape is vertically pushed to a position between the pressing and cutting adhesive component and the workbench by the adhesive tape feeding component, the electric board assembly can be manually pushed to one side of the adhesive tape feeding component on the workbench until the adhesive tape is close to the adhesive tape, then the first driving mechanism drives the first adhesive tape wrapping wheel, the second adhesive tape wrapping wheel and the cutter to move forwards together, the first adhesive tape wrapping wheel tightly presses one end of the adhesive tape to the top of the electric board assembly, the cutter cuts off the vertical adhesive tape, and then the second adhesive tape wrapping wheel tightly presses the other end of the adhesive tape to the bottom of the electric board assembly, so that peripheral adhesive tape and rubber coating of the electric board assembly are completed, and time and labor are saved.

Drawings

FIG. 1 is a schematic structural diagram of a rubber coating machine mechanism for a numerical control drilling plate according to an embodiment of the present invention;

FIG. 2 is a front view of a rubber coating machine mechanism for a numerical control drilling plate provided by an embodiment of the utility model;

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

FIG. 4 is a schematic structural diagram of an electrical board assembly disposed behind a rubber coating mechanism for a numerical control drilling board according to an embodiment of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at B;

FIG. 6 is a schematic structural diagram of a cut-and-press assembly according to an embodiment of the present invention;

FIG. 7 is a schematic structural view of a glue feeding tooth according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a clip seat according to an embodiment of the present invention.

In the figure:

10. an electric plate assembly; 20. erecting a frame; 21. a track groove; 30. a work table; 31. a notch; 40. pressing and cutting the glue component; 41. a first drive mechanism; 42. a linking seat; 43. a first cross bar; 44. a second cross bar; 45. a first rubber wrapping wheel; 46. a second rubber coating wheel; 47. a cutter; 48. a first compression spring plate; 49. a second compression spring plate; 50. a glue feeding assembly; 51. a spring plate seat; 511. a limiting table; 5111. a substrate; 5112. folding the plate; 5113. a baffle plate; 5114. a bevel; 512. positioning seats; 52. a second drive mechanism; 53. a transmission member; 531. a driving gear; 532. a transition gear; 533. a driven gear; 54. a rotating shaft; 55. feeding rubber teeth; 551. gear teeth; 552. pointed teeth; 60. an adhesive tape; 61. rubberized fabric; 70. a transfer wheel; 80. a tension wheel; 90. a rotating roller; 100. an adjusting plate; 200. a connecting rod; 300. a compression assembly; 310. a third drive mechanism; 320. pressing a plate; 400. an inductive switch; 500. and a bearing seat.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Referring to fig. 1 to 8, the present invention discloses a rubber coating mechanism for a numerical control drilling plate, which is used for coating rubber on the periphery of an electric plate assembly 10, wherein the electric plate assembly 10 is formed by stacking a plurality of circuit boards, and the glued electric plate assembly 10 can prevent the circuit boards from moving relative to each other, so as to facilitate the subsequent drilling operation.

Numerical control drilling plate is with rubber coating machine mechanism includes grudging post 20, workstation 30, the rubber coating subassembly 40 is cut in the pressure and the subassembly 50 is sent to the gluey subassembly 50 of sending, workstation 30 and send gluey subassembly 50 all to be fixed in on grudging post 20, send gluey subassembly 50 to be located the below of workstation 30, the rubber coating subassembly 40 is cut with workstation 30 looks interval setting in the pressure, basically, on the same height, electroplax assembly 10 is placed on workstation 30, under the promotion of staff, electroplax assembly 10 can be on workstation 30 the slip of horizontal direction, send gluey subassembly 50 to be used for with on the sticky tape 60 the sticky tape 61 vertical deliver to between the rubber coating subassembly 40 and the workstation 30 of cutting, this moment, the sticky tape 61 is vertical setting.

The press-cutting adhesive assembly 40 comprises a first driving mechanism 41, a connecting seat 42, a first cross bar 43, a second cross bar 44, a first adhesive-wrapping wheel 45, a second adhesive-wrapping wheel 46 and a cutter 47, wherein the first driving mechanism 41 is transversely fixed on the stand 20, the connecting seat 42 is installed at the output end of the first driving mechanism 41, one end of the first cross bar 43 is rotatably connected with the connecting seat 42, the other end of the first cross bar is provided with the first adhesive-wrapping wheel 45, one end of the second cross bar 44 is rotatably connected with the connecting seat 42, the other end of the second cross bar 44 is provided with the second adhesive-wrapping wheel 46, the second adhesive-wrapping wheel 46 is positioned below the first adhesive-wrapping wheel 45, the cutter 47 is fixed on the second cross bar 44 and positioned between the second adhesive-wrapping wheel 46 and the adhesive-feeding assembly 50, when the electric plate assembly 10 is positioned between the first adhesive-wrapping wheel 45 and the second adhesive-wrapping wheel 46, the first adhesive-wrapping wheel 45 can roll on the top of the electric plate assembly 10 and bond one end of the adhesive tape 61 on the top of the electric plate assembly 10, the cutter 47 then cuts the vertical adhesive tape 61, and the second adhesive tape wrapping wheel 46 can roll at the bottom of the electric board assembly 10 and bond the other end of the adhesive tape 61 to the bottom of the electric board assembly 10, so as to complete the pasting of the periphery of the electric board assembly 10.

As a preferred embodiment, the cut-and-press assembly 40 further includes a first compression spring plate 48 and a second compression spring plate 49, the first compression spring plate 48 and the second compression spring plate 49 are both elastic plates, one end of the first compression spring plate 48 is fixed on the connecting seat 42, and the other end of the first compression spring plate 48 abuts against the top of the first cross bar 43 after being bent, when the first cross bar 43 turns upwards under the extrusion of the electric plate assembly 10, the first compression spring plate 48 deforms under the stress, and the first compression spring plate 48 simultaneously provides a downward reaction force to the first cross bar 43, so that the first rubber coating wheel 45 is tightly pressed against the top of the electric plate assembly 10; one end of the second compression spring plate 49 is fixed on the connecting seat 42, the other end of the second compression spring plate is bent and abutted against the bottom of the second cross rod 44, when the second cross rod 44 turns downwards under the extrusion of the electric plate assembly 10, the second compression spring plate 49 deforms under stress, the second compression spring plate 49 simultaneously gives an upward bearing force to the second cross rod 44, so that the second rubber wrapping wheel 46 is tightly pressed against the bottom of the electric plate assembly 10, the first rubber wrapping wheel 45 is abutted against the second rubber wrapping wheel 46, and the second rubber wrapping wheel 46 also gives an upward bearing force to the first rubber wrapping wheel 45 to support the first rubber wrapping wheel 45.

In a preferred embodiment, the distance from the first rubber coating wheel 45 to the connecting seat 42 is greater than the distance from the second rubber coating wheel 46 to the connecting seat 42, and the first rubber coating wheel 45 first contacts the adhesive tape 61 to adhere one end of the adhesive tape 61 to the top of the electric plate assembly 10.

The distance between cutter 47 to the adhesive tape 61 is less than the distance between second package rubber wheel 46 to the adhesive tape 61, the distance between cutter 47 to the adhesive tape 61 is greater than the distance between first package rubber wheel 45 to the adhesive tape 61, first package rubber wheel 45 contacts the adhesive tape 61 of vertical setting earlier, first package rubber wheel 45 bonds adhesive tape 61 one end at the top of electroplax assembly 10, contact the adhesive tape 61 of vertical setting after the cutter 47, cut off adhesive tape 61, second package rubber wheel 46 contacts the adhesive tape 61 after cutting off again, second package rubber wheel 46 bonds the adhesive tape 61 other end in the bottom of electroplax assembly 10 at last.

In this embodiment, the glue feeding assembly 50 includes a spring plate seat 51, a second driving mechanism 52, a transmission member 53, a plurality of rotation shafts 54 and a plurality of glue feeding teeth 55, the second driving mechanism 52 and the spring plate seat 51 are both fixed on the stand 20, one end of each rotation shaft 54 is rotatably connected to the stand 20, the other end of each rotation shaft is provided with the glue feeding teeth 55, the second driving mechanism 52 drives the rotation shafts 54 to rotate relative to the stand 20 through the transmission member 53, the spring plate seat 51 and the glue feeding teeth 55 are both arranged below the workbench 30 side by side, the glue feeding teeth 55 and the spring plate seat 51 are arranged at intervals, because the adhesive tape 61 is thin, the glue feeding teeth 55 can also default to abut against the spring plate seat 51, the adhesive tape 61 is clamped between the glue feeding teeth 55 and the spring plate seat 51, one side of the adhesive tape 61 having viscosity faces the glue feeding teeth 55, and the adhesive tape 61 is conveyed vertically upwards by means of the rotation of the glue feeding teeth 55.

The elastic sheet seat 51 comprises a limiting table 511 and a positioning seat 512, the positioning seat 512 is horizontally and transversely installed on the vertical frame 20 in a sliding manner, the limiting table 511 comprises a base plate 5111, a folding plate 5112 and two baffle plates 5113, the base plate 5111 is vertically arranged and fixed on one side of the positioning seat 512 close to the adhesive tape feeding tooth 55, the two baffle plates 5113 are vertically arranged and fixed on one side of the base plate 5111 far away from the positioning seat 512 at intervals, the folding plate 5112 is positioned between the two baffle plates 5113 for bending the adhesive tape 61, the folding plate 5112 and the baffle plates 5113 are both arranged on the base plate 5111 along the length direction of the base plate 5111, the adhesive tape feeding tooth 55 comprises two gear teeth 551 which are arranged at intervals and fixed on the rotating shaft 54, the outer edge of the gear teeth 551 is provided with a plurality of sharp teeth 552, the sharp teeth 552 are arranged corresponding to the base plate 5111 between the folding plate 5112 and the baffle plates 5113, when the adhesive tape 61 exists, the sharp teeth 552 abut against one side of the adhesive tape 61, the adhesive tape 61 is not adhered to the sharp teeth 552, under the cooperation of the folded plate 5112 and the two gear teeth 551, the adhesive plaster 61 can be bent at the middle part along the vertical direction to increase the strength of the adhesive plaster 61, so that the adhesive plaster 61 can be vertically arranged without bending.

Preferably, the end of the flap 5112 remote from the table 30 is provided with a bevel 5114 to facilitate the smooth transition of the adhesive 61 to the flap 5112.

In this embodiment, the number of the glue feeding teeth 55 and the rotating shafts 54 is two, the two glue feeding teeth 55 are vertically spaced and respectively mounted on the two rotating shafts 54, the transmission member 53 includes a driving gear 531, a transition gear 532 and two driven gears 533, the driving gear 531 is connected to the output end of the second driving mechanism 52, the transition gear 532 is located between the driving gear 531 and the driven gear 533, the driving gear 531 and the driven gear 533 are both externally engaged with the transition gear 532, the transition gear 532 is rotatably connected to the vertical frame 20, the two driven gears 533 are respectively mounted on the two rotating shafts 54, and therefore the two glue feeding teeth 55 are all rotated at the same speed.

The workstation 30 is the diaphragm, the concave breach 31 that is equipped with in one side of the first actuating mechanism 41 of orientation of workstation 30, send the clearance between glue tooth 55 and the shell fragment seat 51 to be located the below of breach 31, adhesive tape 61 can follow the vertical extension of breach 31, the setting of this breach 31 can reduce workstation 30 and press and cut the axial length between the gluey subassembly 40 for whole numerical control is rubber coating machine mechanism for the drilling board more compact, simultaneously, when adhesive tape 61 bonds, can increase the contact surface between electroplax assembly 10 and the workstation 30.

The numerical control drilling plate is with rubber coating machine mechanism still includes transfer gear 70, take-up pulley 80 and is used for the rotatory roller 90 of fixed sticky tape 60, and transfer gear 70, take-up pulley 80 and rotatory roller 90 all rotate to be installed on grudging post 20, and take-up pulley 80 is located between transfer gear 70 and the subassembly 50 of sending glue, and take-up pulley 80 is used for adjusting the rate of tension of adhesive tape 61.

The rubber coating machine mechanism for the numerical control drilling plate further comprises an adjusting plate 100 which is rotatably installed on the vertical frame 20, an arc-shaped track groove 21 is formed in the vertical frame 20 in a penetrating mode, the adjusting plate 100 and the tensioning wheel 80 are arranged on two side faces of the vertical frame 20 in a back-to-back mode respectively, the tensioning wheel 80 and the adjusting plate 100 are connected through a connecting rod 200, one end of the connecting rod 200 is rotatably connected with the tensioning wheel 80, the other end of the connecting rod penetrates through the track groove 21 and then is fixedly connected with the adjusting plate 100, and the tensioning wheel 80 can move to different positions of the track groove 21 by moving the fixing position of the adjusting plate 100.

In a preferred embodiment, the encapsulation mechanism for the numerical control drilling plate further comprises a pressing assembly 300, the pressing assembly 300 comprises a third driving mechanism 310 and a pressing plate 320 installed on an output end of the third driving mechanism 310, the third driving mechanism 310 is vertically fixed on the stand 20, the pressing plate 320 is located above the worktable 30, and when the electric plate assembly 10 is placed on the worktable 30 and the adhesive tape 61 needs to be adhered, the third driving mechanism 310 can be used for driving the pressing plate 320 to descend so as to vertically fix the electric plate assembly 10 and prevent the circuit boards from moving in the adhesive tape adhering process.

The rubber coating machine mechanism for the numerical control drilling plate further comprises an inductive switch 400 and a controller, wherein the inductive switch 400 and the controller are both installed on the vertical frame 20, the inductive switch 400, the press-cutting rubber component 40 and the rubber conveying component 50 are electrically connected with the controller, and when the electric plate assembly 10 touches the inductive switch 400, the press-cutting rubber component 40 and the rubber conveying component 50 start to work, so that automatic operation is realized.

The stand 20 is further provided with a bearing housing 500 to facilitate fixing the stand 20 to an external machine.

The working principle of the rubber coating machine mechanism for the numerical control drilling plate is as follows:

firstly, the adhesive tape 60 is sleeved on a rotating roller 90, the adhesive tape 61 is pulled out, the adhesive tape 61 is sequentially wound on a transmission wheel 70 and a tension wheel 80, then the adhesive tape 61 passes through a gap between a tape feeding tooth 55 and an elastic sheet seat 51, at the moment, the adhesive tape 61 can vertically extend to a gap 31 and is higher than a first adhesive wrapping wheel 45 after being bent by a folded plate 5112 on the elastic seat, a first driving mechanism 41, a second driving mechanism 52 and a third driving mechanism 310 are started, the electric plate assembly 10 is placed on a workbench 30, after the electric plate assembly 10 touches an inductive switch 400, the third driving mechanism 310 drives a pressing plate 320 to descend so as to press the electric plate assembly 10 on the workbench 30, the first driving mechanism 41 drives the first adhesive wrapping wheel 45, the second adhesive wrapping wheel 46 and a cutter 47 to transversely move, the first adhesive wrapping wheel 45 rolls on the top of the electric plate assembly 10 and presses one end of the vertically arranged adhesive tape 61 to the top of the electric plate assembly 10, after that, the cutting knife 47 cuts the vertical adhesive tape 61, and the second adhesive tape wrapping wheel 46 rolls on the bottom of the electric board assembly 10 and presses the other end of the vertically arranged adhesive tape 61 onto the bottom of the electric board assembly 10, so as to complete the adhesive tape pasting on the electric board assembly 10.

Then the first driving mechanism 41 drives the first rubber coating wheel 45, the second rubber coating wheel 46 and the cutter 47 to transversely return to the original point, the second driving mechanism 52 drives the rubber conveying teeth 55 to rotate, the vertically arranged rubber cloth 61 rises, the third driving mechanism 310 drives the press plate 320 to loosen the electric plate assembly 10, the position of the electric plate assembly 10 to be glued is replaced by a human hand, the electric plate assembly 10 touches the inductive switch 400 again, the third driving mechanism 310 drives the press plate 320 to move downwards to press the electric plate assembly 10, and the steps are repeated.

In summary, in the utility model, when the adhesive tape 61 is vertically pushed to the space between the pressing and cutting adhesive component 40 and the workbench 30 by the adhesive feeding component 50, the electric board assembly 10 can be manually pushed to one side of the adhesive feeding component 50 on the workbench 30 until the adhesive tape 61 is close to the adhesive tape 61, then the first driving mechanism 41 drives the first adhesive coating wheel 45, the second adhesive coating wheel 46 and the cutter 47 to move forward together, the first adhesive coating wheel 45 presses one end of the adhesive tape 61 to the top of the electric board assembly 10, the cutter 47 cuts off the vertical adhesive tape 61, and then the second adhesive coating wheel 46 presses the other end of the adhesive tape 61 to the bottom of the electric board assembly 10, so that the peripheral adhesive coating and encapsulation of the electric board assembly 10 are completed, and time and labor are saved.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. The utility model provides a numerical control is rubber coating machine mechanism for drilling board for the peripheral rubberizing that carries out of electric plate assembly that stacks by a plurality of circuit boards, its characterized in that: the rubber coating machine mechanism for the numerical control drilling plate comprises a vertical frame, a workbench, a rubber coating machine and a rubber coating machine, wherein the workbench is used for moving a plate assembly, the rubber coating machine comprises a vertical frame, a pressing and cutting assembly and a rubber coating machine, the pressing and cutting assembly is arranged at intervals of the workbench, the rubber coating machine is used for vertically conveying rubber coated cloth to the pressing and cutting assembly, the rubber coating machine is used for conveying the rubber coated cloth to the rubber coating machine, the workbench is fixed on the vertical frame, the pressing and cutting assembly comprises a first driving mechanism, a connecting seat, a first cross rod, a second cross rod, a first rubber coating wheel, a cutter and a second rubber coating wheel, the first rubber coating wheel is used for cutting the vertical rubber coated cloth, the second rubber coating wheel is used for bonding the rubber coated cloth to the bottom of the plate assembly, the first driving mechanism is transversely fixed on the vertical frame, the connecting seat is installed on the output end of the first driving mechanism, and one end of the first cross rod is rotatably connected with the connecting seat, The other end is installed first rubber coating wheel, the one end of second horizontal pole with link up the seat and rotate and be connected, the other end is installed second rubber coating wheel, just second rubber coating wheel is located the below of first rubber coating wheel, the cutter is fixed in on the second horizontal pole and be located second rubber coating wheel with send between the gluey subassembly.

2. The lagging machine mechanism for a digitally controlled drilling plate of claim 1, wherein: the pressure cut rubber component further comprises a first pressure spring plate and a second pressure spring plate, wherein the first pressure spring plate and the second pressure spring plate are elastic plates, one end of the first pressure spring plate is fixed on the connecting seat, the other end of the first pressure spring plate is connected with the top of the first cross rod in a bent abutting mode, one end of the second pressure spring plate is fixed on the connecting seat, the other end of the second pressure spring plate is connected with the bottom of the second cross rod in a bent abutting mode, and the first rubber wrapping wheel is connected with the second rubber wrapping wheel in a abutting mode.

3. The lagging machine mechanism for a digitally controlled drilling plate of claim 1, wherein: the distance between the first rubber wrapping wheel and the joining seat is larger than the distance between the second rubber wrapping wheel and the joining seat, the distance between the cutter and the adhesive fabric is smaller than the distance between the second rubber wrapping wheel and the adhesive fabric, and the distance between the cutter and the adhesive fabric is larger than the distance between the first rubber wrapping wheel and the adhesive fabric.

4. The lagging machine mechanism for a digitally controlled drilling plate of claim 1, wherein: send the gluey subassembly to include shell fragment seat, second actuating mechanism, driving medium, a plurality of rotation axis and a plurality of gluey tooth of sending, second actuating mechanism and shell fragment seat all are fixed in on the grudging post, the one end of rotation axis with the grudging post rotates to be connected, the other end is installed send gluey tooth, second actuating mechanism passes through the driving medium drive the rotation axis is relative the grudging post rotates, the shell fragment seat with send gluey tooth and all locate side by side the workstation below, send gluey tooth with shell fragment seat interval sets up.

5. The lagging machine mechanism for a digitally controlled drilling plate of claim 4, wherein: the shell fragment seat include spacing platform and horizontal sliding install in positioning seat on the grudging post, spacing platform includes vertical setting and is fixed in it is close to the positioning seat send the baffle that the base plate, two vertical intervals set up of rubber tooth one side and be located two between the baffle in order to be used for making the folded plate that the adhesive tape was buckled, folded plate and baffle are all followed the length direction of base plate is located on the base plate, send the rubber tooth to include that two intervals set up and all be fixed in rotate epaxial teeth of a cogwheel, be equipped with a plurality of sharp teeth on the outward flange of teeth of a cogwheel, sharp tooth with between folded plate and the baffle the base plate corresponds the setting.

6. The lagging machine mechanism for a digitally controlled drilling plate of claim 5, wherein: one end of the folded plate, which is far away from the workbench, is arranged in an inclined plane.

7. The lagging machine mechanism for a digitally controlled drilling plate of claim 4, wherein: the workbench is a transverse plate, a notch is concavely formed in one side of the workbench, which faces the first driving mechanism, and a gap between the rubber feeding teeth and the elastic sheet seat is located below the notch.

8. The lagging machine mechanism for a digitally controlled drilling plate of claim 1, wherein: the rubber coating machine mechanism for the numerical control drilling plate further comprises a conveying wheel, a tensioning wheel and a rotating roller used for fixing a rubber belt, wherein the conveying wheel, the tensioning wheel and the rotating roller are rotatably installed on the vertical frame, and the tensioning wheel is located between the conveying wheel and the rubber conveying assembly.

9. The lagging machine mechanism for a digitally controlled drilling plate of claim 1, wherein: the rubber coating machine mechanism for the numerical control drilling plate further comprises a pressing assembly, the pressing assembly comprises a third driving mechanism and a pressing plate installed on the output end of the third driving mechanism, the third driving mechanism is vertically fixed on the vertical frame, and the pressing plate is located above the workbench.

10. The lagging machine mechanism for a digitally controlled drilling plate of claim 1, wherein: the rubber coating machine mechanism for the numerical control drilling plate further comprises an induction switch and a controller, wherein the induction switch and the controller are installed on the vertical frame, and the induction switch, the pressure cutting rubber component and the rubber conveying component are electrically connected with the controller.

Images