CN111469394B

CN111469394B - Numerical control foam lines self-adhesion glass fiber mesh cloth parcel equipment

Info

Publication number: CN111469394B
Application number: CN202010287371.8A
Authority: CN
Inventors: 白建国
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-13
Filing date: 2020-04-13
Publication date: 2023-04-11
Anticipated expiration: 2040-04-13
Also published as: CN111469394A

Abstract

The embodiment of the application discloses numerical control foam lines self-adhesion glass fiber net check cloth parcel equipment includes: the main frame and the electrical system are used for controlling the foam lines and the self-adhesive glass fiber gridding cloth to synchronously move; the electric appliance system consists of an upper computer, a programmable controller, a first motor driving amplifier, a second motor driving amplifier, a first numerical control motor and a second numerical control motor; the main frame is internally provided with a foam line pushing device, a self-adhesive glass fiber gridding cloth unfolding device, a columnar roller, a sheet roller part, an arc-shaped wiping device and a vertical surface rolling device. Adopt this application numerical control foam lines self-adhesion glass fiber net check cloth parcel equipment can guarantee that self-adhesion glass fiber net check cloth expansion linear velocity and raw and other materials (foam lines) moving speed move with fast, very big improvement the parcel quality and the efficiency of the glass fiber net check cloth of foam lines self-adhesion.

Description

Numerical control foam line self-adhesion glass fiber net check cloth parcel equipment

Technical Field

The invention relates to the field of design and manufacture of numerical control mechanical equipment, in particular to numerical control foam line self-adhesion glass fiber mesh cloth wrapping equipment.

Background

Foam molding (EPS), also known as molding, is a material commonly used for building decoration. The material is mainly applied to villa interior and exterior decoration of high-rise buildings, and belongs to European components. In the production and processing process, a link is needed to wrap self-adhesive fiberglass gridding cloth on the surface of a basic material (EPS) foam line. At present, the wrapping process usually depends on manual wrapping operation, time and labor are wasted, efficiency is low, and mechanical wrapping equipment used in the prior art also has the defects of simple equipment, small wrapping size and low efficiency. With the improvement of user demands, the existing packaging mode can not meet the actual demands of the current production operation gradually. Therefore, it is necessary to design a novel numerical control foam line self-adhesive fiberglass gridding cloth wrapping device to overcome the above problems.

Disclosure of Invention

Therefore, the embodiment of the invention provides a numerical control foam line self-adhesion glass fiber gridding cloth wrapping device, and aims to solve the problems that in the prior art, a mechanical wrapping device is too simple, the efficiency is low, the wrapping size range capable of being achieved is small, and materials with complex shapes cannot be effectively wrapped.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

the embodiment of the application provides a numerical control foam lines self-adhesion glass fiber net check cloth parcel equipment, includes: the device comprises a main frame, an electrical system for controlling synchronous movement of foam lines and self-adhesive fiberglass gridding cloth, a foam line pushing device, a self-adhesive fiberglass gridding cloth unfolding device, a sheet roller part, an arc-shaped wiping and pressing device and a vertical surface rolling device; the electric appliance system comprises an upper computer, a programmable controller, a first motor drive amplifier, a second motor drive amplifier, a first numerical control motor and a second numerical control motor; the foam line pushing device, the self-adhesive glass fiber mesh fabric unfolding device, the sheet roller part, the arc wiping device and the vertical plane rolling device are arranged inside the main frame in a preset mode respectively.

Further, the self-adhesive glass fiber gridding cloth unfolding device is formed by connecting a steel plate support combination, a second numerical control motor, a fifth chain wheel, a second chain, a silica gel roller chain wheel combination, a tensioning wheel, an F206 bearing combination, a linear sliding block combination, a linear sliding rail combination with an aluminum support, a self-adhesive glass fiber gridding cloth fixing shaft, an adjustable width fixing sleeve, a jackscrew and a roller combination in a preset mode; the steel plate bracket combination comprises a first steel plate bracket and a second steel plate bracket; the silica gel roller chain wheel combination comprises a first silica gel roller chain wheel and a second coating Teflon roller chain wheel; the F206 bearing combination comprises a first F206 bearing, a second F206 bearing and a third F206 bearing; the linear sliding block combination comprises a first linear sliding block and a second linear sliding block; the linear aluminum support sliding rail combination comprises a first linear aluminum support sliding rail and a second linear aluminum support sliding rail.

Furthermore, the foam line pushing device is formed by connecting a first numerical control motor, a chain wheel combination, a first chain, a chain wheel shaft, a sharp-tooth chain combination, a sharp-tooth chain and chain wheel combination, a main beam channel steel and a sharp-tooth chain track in a preset mode; the chain wheel combination comprises a first chain wheel, a third chain wheel and a fourth chain wheel; the tine chain assembly includes a first tine chain and a second tine chain; the tine chain sprocket includes a first tine chain sprocket and a second tine chain sprocket.

Further, numerical control foam lines self-adhesion glass fiber net check cloth parcel equipment still include: a cylindrical roller and a drum part; the cylindrical roller and drum part includes: the first rectangular pipe, the third roller coated with silica gel or Teflon, the first columnar roller, the angle steel and the columnar roller bracket; the first columnar roller is arranged at one end of the columnar roller bracket, and the other end of the columnar roller bracket is fixed to the middle part of the angle steel through a U-shaped clamp; the first rectangular pipe is connected to two ends of the angle steel through U-shaped clamps; and two ends of the third roller are connected with the first rectangular pipe.

Numerical control foam lines self-adhesion glass fiber net check cloth parcel equipment still include: a columnar roller portion; the columnar roller part comprises a plurality of silica gel column-shaped roller structures; the silica gel columnar roller structure is respectively composed of silica gel columnar rollers, a first double-row bearing, a first inner clamping spring, an outer clamping spring and a first rectangular pipe, and is connected through a screw group according to a preset mode; the first rectangular pipe is fixedly connected to the cross beam of the host frame through a U-shaped clamp.

Furthermore, the sheet roller part comprises a plurality of metal sheet roller structures; the metal sheet roller structure comprises a first metal sheet roller and a first rectangular pipe, a second double-row bearing is arranged between the first metal sheet roller and the first rectangular pipe, and a bearing shell is arranged outside the second double-row bearing; the first metal sheet roller, the second double-row bearing and the first rectangular pipe are fixedly connected through a screw group; the first rectangular pipe is fixedly connected to the cross beam of the host frame through a U-shaped clamp.

Further, the arc-shaped wiping device comprises a first arc-shaped wiping device and a second arc-shaped wiping device; the first arc-shaped wiping and pressing device comprises a first steel plate with a convex radian, and the first steel plate is fixed on the first rectangular pipe through a U-shaped clamp; the second arc-shaped wiping device comprises a second steel plate with a concave radian, the second steel plate is fixed on a first rectangular pipe through a U-shaped clamp, and the first rectangular pipe is fixedly connected on a beam of the host frame through the U-shaped clamp.

Further, the vertical surface rolling device comprises: the oil nylon screw rod is arranged between the second rectangular pipe and the third rectangular pipe, two ends of the oil nylon screw rod are respectively provided with a bearing, and the bearings are respectively fixed on the second rectangular pipe and the third rectangular pipe through screws; the second rectangular pipe and the third rectangular pipe are fixed on a cross beam of the host frame through U-shaped clamps.

Further, numerical control foam lines self-adhesion glass fiber mesh cloth parcel equipment still include: a guide pulley row; the guide pulley row consists of angle steel, a plurality of guide pulleys and a microswitch and is used for ensuring that the foam lines move parallel to the sharp-tooth chain.

Furthermore, the main frame is also provided with a distribution box for transmitting electric energy for various components in the numerical control foam line self-adhesive glass fiber mesh cloth wrapping equipment.

Adopt this application numerical control foam lines self-adhesion glass fiber net check cloth parcel equipment, can guarantee self-adhesion check cloth expansion linear velocity and raw and other materials moving speed synchronous operation, very big improvement the parcel quality and the efficiency of the glass fiber net check cloth of foam lines self-adhesion.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic structural view of a numerical control foam line self-adhesion fiberglass gridding cloth wrapping device provided in an embodiment of the present application;

fig. 2 is a schematic view of a first structure of a foam strand pushing device in a numerical control foam strand self-adhesive glass fiber mesh cloth wrapping apparatus according to an embodiment of the present application;

fig. 3 is a schematic view of a second structure of a foam strand pushing device in a numerical control foam strand self-adhesive glass fiber mesh cloth wrapping apparatus according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a self-adhesive fiberglass mesh cloth unfolding device in a numerical control foam line self-adhesive fiberglass mesh cloth wrapping apparatus according to an embodiment of the present application;

fig. 5 is a schematic structural view of a cylindrical roller and a silica gel and coated teflon roller of a numerically controlled foam line self-adhesive glass fiber mesh wrapping device provided in an embodiment of the present application;

fig. 6 is a schematic structural diagram of a structure of one of the silica gel cylindrical rollers in the numerically-controlled foam line self-adhesion fiberglass gridding cloth wrapping equipment provided in the embodiment of the present application;

fig. 7 is a schematic structural view of one sheet-shaped roller structure in the numerical control foam line self-adhesive fiberglass gridding cloth wrapping device provided in the embodiment of the present application;

fig. 8 is a schematic structural diagram of a first arc-shaped wiping device in a numerically-controlled foam line self-adhesive glass fiber mesh cloth wrapping device according to an embodiment of the present application;

fig. 9 is a schematic structural view of a second arc-shaped wiping and pressing device in a numerical control foam line self-adhesion glass fiber mesh cloth wrapping device provided in the embodiment of the present application;

fig. 10 is a schematic structural view of a china vertical plane rolling device of a numerical control foam line self-adhesive glass fiber mesh cloth wrapping device provided in the embodiment of the present application;

fig. 11 is a schematic structural view of a guide pulley row in a numerical control foam line self-adhesive glass fiber mesh wrapping device provided in an embodiment of the present application;

fig. 12 is a structural schematic diagram of a U-shaped clip in the numerical control foam line self-adhesion fiberglass gridding cloth wrapping equipment provided by the embodiment of the application.

Wherein, 01 is an electrical system, 02 is a main frame, 03 is a foam line pushing device, and 04 is a self-adhesive fiberglass gridding cloth unfolding device; 1 is an upper computer, 2 is a programmable controller, 3 is a first motor drive amplifier, 4 is a second motor drive amplifier, 5 is a first numerical control motor, 6 is a first tine chain, 7 is a foam line, 8 is a second numerical control motor, 9 is a first silica gel roller, 10 is a second coated Teflon roller, 11 is a rolling shaft, 12 is a first silica gel cylindrical roller, 13 is a third roller, 14 is a second silica gel cylindrical roller, 15 is a first metal sheet roller, 16 is a third silica gel cylindrical roller, 17 is a second metal sheet roller, 18 is a fourth silica gel cylindrical roller, 19 is a third metal sheet roller, 20 is an oily nylon screw, 21 is a first steel plate, 22 is a second steel plate, 23 is a fourth sheet roller, 22 is a second metal sheet roller, 23 is a fourth metal sheet roller, 24 is a fifth silica gel cylindrical roller, 25 is a sixth silica gel cylindrical roller, 25 is a second coated Teflon coating 26 is a seventh silica gel cylindrical roller, 27 is an eighth silica gel cylindrical roller, 28 is a U-shaped clip, 29 is an angle steel, 30 is a first rectangular pipe, 31 is a second rectangular pipe, 32 is a third rectangular pipe, 36 is a first double row bearing, 37 is a first inside clip spring, 38 is a first screw shaft, 39 is a first nut, 40 is a bearing housing, 41 is a second double row bearing, 42 is a fixing screw, 43 is a second inside clip spring, 44 is a second screw shaft, 45 is a second nut, 51 is a first sprocket, 52 is a first chain, 53 is a second sprocket, 54 is a sprocket shaft, 55 is a third sprocket, 56 is a fourth sprocket, 57 is a second tine chain, 58 is a first tine chain sprocket, 59 is a second tine chain sprocket, 60 is a main beam, 61 is a tine chain track, 75 is a bearing, 76 is a bearing housing, 77 is a screw, 78 is a pulley, 79 is a microswitch, 80 is a fifth chain wheel, 81 is a second chain, 82 is a first roller chain wheel, 83 is a second roller chain wheel, 84 is a tension wheel, 85 is a first F206 bearing, 86 is a second F206 bearing, 87 is a third F206 bearing, 88 is a first linear sliding block, 89 is a second linear sliding block, 90 is a third linear sliding block, 91 is a first linear aluminum support sliding rail, 92 is a second linear aluminum support sliding rail, 93 is a fixed sleeve, 94 is a top wire, 95 is a first steel plate bracket, 96 is a second steel plate bracket, and 101 is a columnar roller bracket.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The following describes an embodiment of the numerical control foam line self-adhesive glass fiber mesh cloth wrapping device based on the invention in detail. As shown in fig. 1, it is a schematic structural diagram of a first numerical control foam line self-adhesion glass fiber mesh cloth parcel equipment that this application embodiment provided. Specifically, this application the fine net check cloth of numerical control foam lines self-adhesion glass wrap up the concrete constitutional structure of equipment and include: the device comprises a main frame 02, an electrical system 01 for controlling synchronous movement of foam lines and self-adhesive glass fiber gridding cloth, a foam line pushing device 03, a self-adhesive glass fiber gridding cloth unfolding device 04, a columnar roller part, a sheet roller part, an arc-shaped wiping device, a vertical plane rolling device and a guide pulley row. The cylindrical roller in the cylindrical roller portion may be a silica gel cylindrical roller 14, and the sheet roller in the sheet roller portion may be a metal sheet roller made of a metal material, which is not limited herein. In addition, the roller can also comprise a cylindrical roller and a roller part, and the surfaces of the rollers in the cylindrical roller and the roller part can be provided with silica gel or coated with Teflon and other materials. Through the non-adhesive roller with the material coatings of silica gel or Teflon and the like, the non-adhesive sticker on the self-adhesive glass fiber mesh cloth can be prevented from being adhered to the roller, the resistance between the self-adhesive glass fiber mesh cloth and the roller when the self-adhesive glass fiber mesh cloth is unfolded is reduced, the self-adhesive glass fiber mesh cloth can be unfolded quickly, the tension between the self-adhesive glass fiber mesh cloth and raw materials (foam lines) can be greatly reduced, and therefore the high-speed self-adhesive glass fiber mesh cloth can be wrapped.

The electric appliance system 01 is composed of an upper computer 1, a programmable controller 2, a first motor drive amplifier 3, a second motor drive amplifier 4, a first numerical control motor 5 and a second numerical control motor 8. Wherein the one motor drive amplifier 3 or the second motor drive amplifier 4 may comprise drivers for a stepping motor and a servo motor; the first and second digitally controlled motors 5 and 8 may be motors used for a digital control machine, such as a stepping motor or a servo motor, and are not limited herein. The upper computer 1 is a computer capable of directly sending out control commands. The programmable controller 2 comprises a singlechip, a motion controller, a motion control card and other programmable microcomputers, adopts a programmable memory for writing in a preset programming program and executes and controls the operation of the numerical control foam line glass fiber gridding cloth wrapping equipment. The problem that the speed of the self-adhesive glass fiber net lattice cloth is always kept consistent when the self-adhesive glass fiber net lattice cloth and raw materials (foam lines) move simultaneously can be solved through programming a program by a programmable controller, and therefore the high-speed wrapping of the self-adhesive glass fiber net lattice cloth is achieved. The foam line pushing device 03, the self-adhesive glass fiber mesh cloth unfolding device 04, the cylindrical roller and roller portion, the cylindrical roller portion, the sheet roller portion, the arc-shaped wiping device, the vertical surface rolling device and the guide roller row are arranged inside the host frame 02 in a preset mode respectively.

As shown in fig. 4, the self-adhesive fiberglass gridding cloth unfolding apparatus 04 is formed by connecting a steel plate support assembly, a second numerical control motor 8, a fifth chain wheel 80, a second chain 81, a silica gel roller chain wheel assembly, a tension wheel 84, an F206 bearing assembly, a linear slider assembly, a linear aluminum support sliding rail assembly, a self-adhesive fiberglass gridding cloth fixing shaft, an adjustable width fixing sleeve 93, a jackscrew and a roller assembly in a preset manner; wherein the steel plate bracket combination comprises a first steel plate 19 bracket and a second steel plate 20 bracket; the silica gel roller chain wheel combination comprises a first silica gel roller chain wheel and a second coating Teflon roller chain wheel; the F206 bearing combination comprises a first F206 bearing 85, a second F206 bearing 86 and a third F206 bearing 87; the linear slide block combination comprises a first linear slide block 88 and a second linear slide block 89; the linear aluminum support slide rail assembly comprises a first linear aluminum support slide rail 91 and a second linear aluminum support slide rail 92. In the specific implementation process, the rotation of the fifth chain wheel 80 on the second numerical control motor 8 is transmitted to the first silica gel roller chain wheel and the second coating teflon roller chain wheel through the second chain 81, and then the tension wheel 84 is used for pulling the self-adhesive glass fiber gridding cloth fixed on the shaft to rapidly expand and send out the self-adhesive glass fiber gridding cloth by the relative rotation of the first silica gel roller 9 and the second coating teflon roller 10. It should be noted that the self-adhesive glass fiber mesh cloth unfolding device can move left and right through the slide rail slide block so as to be quickly adjusted to a proper position.

As shown in fig. 2 and 3, the foam line pushing device 03 is formed by connecting a first numerical control motor 5, a chain wheel assembly, a first chain, a chain wheel shaft, a tine chain assembly, a tine chain and chain wheel assembly, a main beam channel steel 60 and a tine chain track 61 according to a preset mode; wherein the sprocket assembly comprises a first sprocket, a third sprocket and a fourth sprocket; the tine chain combination comprises a first tine chain 6 and a second tine chain 57; accordingly, the tine chain sprockets include a first tine chain 6 sprocket and a second tine chain 57 sprocket. In the specific implementation process, the first sprocket of the first numerical control motor 5 can drive the second sprocket to transmit the power to the third sprocket and the fourth sprocket through the sprocket shaft to drive the second tine chain 57 and the first tine chain 6 to rotate. The foam strips 7 (namely, raw materials) are placed on the sharp-tooth chain, and the sharp teeth of the chain are pricked into the lower part of the foam strips 7 by a certain depth, so that the foam strips 7 and the sharp-tooth chain are ensured to keep a synchronous state without sliding. It should be noted that the tine chain is provided with the tine chain rail 61 below to ensure that the tine chain keeps moving linearly up, down, left and right during the rotation process to provide precision, and meanwhile, the chain with the tine mainly improves the friction coefficient between the raw material (foam lines) and the chain, so that the wrapping operation of the large-size and high-speed self-adhesive fiberglass mesh cloth can be realized.

As shown in fig. 5, the column roller and drum part includes: a first rectangular pipe 30, a third roller 13, a first columnar roller 12, angle steel 29 and a columnar roller bracket 101; one end of the columnar roller bracket 101 is provided with the first columnar roller 12, and the other end of the first columnar roller 12 bracket is fixed to the middle part of the angle steel 29 through a U-shaped clip 28; the first rectangular pipe 30 is connected to both ends of the angle steel 29 through U-shaped clips 28; both ends of the third drum 13 are connected to the first rectangular pipe 30 through shafts. The flexibility is provided by the optional change in the angle and height of the rectangular tube due to the use of a movable U-shaped steel clip for attachment. The first rectangular tube 30 is fixed on the beam of the host frame 02 by a U-shaped clip 28, and the angle and the height can be adjusted.

As shown in fig. 6, the cylindrical roller portion includes a plurality of silica gel cylindrical roller 14 structures; the structure of the silica gel columnar roller 14 is composed of a silica gel columnar roller 14, a first double-row bearing 36, a first inner clamping spring 37, an outer clamping spring and a first rectangular pipe 30 respectively, and the silica gel columnar roller 14, the first inner clamping spring, the outer clamping spring and the first rectangular pipe 30 are connected through a screw group according to a preset mode; the first rectangular pipe 30 is fixedly connected to the cross beam of the host frame 02 through a U-shaped clip 28, and the angle and the height of the first rectangular pipe are adjustable. The columnar roller in the columnar roller part is a columnar roller wrapped by non-adhesive coating materials or silica gel and used for solving the wrapping problem of self-adhesive glass fiber gridding cloth of the small plane and the small vertical plane.

As shown in fig. 7, the sheet roller part includes a plurality of metal sheet roller structures; the metal sheet roller structure comprises a first metal sheet roller 15 and a first rectangular pipe 30, a second double-row bearing 41 is arranged between the first metal sheet roller 15 and the first rectangular pipe 30, and a bearing shell is arranged outside the second double-row bearing 41; the first metal sheet roller 15, the second double-row bearing 41 and the first rectangular pipe 30 are fixedly connected through a screw group; the first rectangular tube 30 is fixedly connected to the cross beam of the main frame 02 through a U-shaped clip 28. In the specific implementation process, the sheet pulley is made of No. 45 steel with the diameter of 150-300 mm and the thickness of 1.5-10 mm, wherein the No. 1.5-3 mm steel is quenched and prepared, is required to be thin and has hardness, and the thickness of the sheet pulley is 3-10 mm and is made of silicon gel or metal with a Teflon coating. The first rectangular tube 30 is fixed to the cross member of the main frame 02 by a U-shaped clip 28, and is adjustable in angle and height. The metal sheet roller structure is provided with non-stick coating materials and is used for solving the problems of the wrapping of self-adhesive glass fiber gridding cloth of raw materials, wherein the sizes of the self-adhesive glass fiber gridding cloth are less than 15 mm between an external corner and an external corner, between the external corner and an internal corner, and between the internal corner and the internal corner.

As shown in fig. 8 and 9, the arc-shaped wiping device comprises a first arc-shaped wiping device and a second arc-shaped wiping device; the first arc-shaped wiping and pressing device comprises a first steel plate 19 with a convex radian, and the first steel plate 19 is fixed on a first rectangular pipe 30 through a U-shaped clamp 28; the second arc-shaped wiping and pressing device comprises a second steel plate 20 with a concave radian, the second steel plate 20 is fixed on a first rectangular pipe 30 through a U-shaped clamp 28, the first rectangular pipe is fixed on a cross beam of the host frame 02, and the angle height of the first rectangular pipe is adjustable. It should be noted that the first steel plate 19 and the second steel plate 20 have non-stick coating materials, and can be used to solve the problem that raw materials have concave or convex circular arc-shaped wrapped mesh cloth, the steel plates can be specifically designed according to the size of an arc, a single steel plate can solve the problem of wrapping the circular arc chord length by 2 mm to 50 mm, and the wrapping problem of the infinite circular arc chord length self-adhesive fiberglass mesh cloth can be realized through N-plate combination. Further, the edge of the concave-convex arc-shaped steel plate contacting with the gridding cloth is a gradual process when the raw materials move for covering the net, namely, a certain angle is formed.

As shown in fig. 10, the vertical plane rolling device includes: the oil nylon screw rod can adopt a screw pitch screw rod with a multi-head screw angle of 45-90, two ends of the screw pitch screw rod are respectively provided with a bearing, and the bearings are respectively fixed on the second rectangular pipe 31 and the third rectangular pipe 32 through screws; the second rectangular tube 31 and the third rectangular tube 32 are fixed on the cross beam of the host frame 02 through a U-shaped clip 28, and the angle and the height are adjustable. Specifically, the spiral angle of the oily nylon screw is a forward spiral when the oily nylon screw is used on the left side of the raw material, and a reverse spiral when the oily nylon screw is used on the right side. It should be noted that what this rolling press device solved is the parcel problem of raw materials side perpendicular face height dimension more than 400 millimeters self-adhesion glass fiber net check cloth.

As shown in fig. 11, the guide pulley row is composed of angle steel, a plurality of guide pulleys and a micro switch 79, and the guide pulley row for ensuring that the foam strand 7 moves parallel to the pool chain is fixed on the main frame 02 at both sides of the foam strand 7 by U-shaped clips 28. Specifically, the microswitch 79 is arranged on the guide pulley row, when the raw material foam line 7 enters, the contact is closed and connected with the programmable controller 2, so that the microswitch 79 stops the operation when the equipment operates without raw materials and the contact is disconnected. The switch not only plays the role of automatic control, but also reduces the waste of the self-adhesive glass fiber mesh cloth.

Further, the main frame 02 is also provided with a distribution box for transmitting electric energy to various components in the numerical control foam line self-adhesive glass fiber mesh cloth wrapping equipment.

The specific working principle is that the raw material (foam lines 7) is moved by driving the chain with sharp teeth to move through the upper computer 1, the programmable controller 2, the first motor drive amplifier 3 and the first numerical control motor 5; meanwhile, a second motor drive amplifier 4 and a second numerical control motor 8 drive a first silica gel roller 9 and a second coating Teflon roller 10 to rotate, self-adhesive glass fiber mesh cloth 11 on a roller is pulled to move, the plane on the upper part of the foam line 7 is rolled through a first silica gel cylindrical roller 12, a third roller 13 and a second silica gel cylindrical roller 14 in sequence, the first external corner on the right side of the foam line 7 is rolled through a first metal sheet roller 15, the first vertical surface on the right side of the raw material 7 is rolled through a third silica gel cylindrical roller 16, the first internal corner on the right side is rolled through a second metal sheet roller 17, the first plane on the right side is rolled through a fourth silica gel cylindrical roller 18, and the first external corner on the left side of the raw material 7 is rolled through a third metal sheet roller 19; further rolling the whole left vertical plane through a multi-head 90-degree screw rod 20; then the right side is pressed out of a convex arc shape through a first steel plate 21 with the same convex radian as the raw material (the foam lines 7) and the same elasticity, then the concave radian is pressed out through a second steel plate 22 with the same concave radian as the raw material and the certain elasticity, and then the final external corner and the vertical surface of the right side are rolled by a fourth metal sheet roller 23, so that the operation of wrapping the self-adhesive glass fiber mesh cloth of the foam lines 7 in the whole shape is completed.

It should be noted that, in the process of wrapping the foam lines 7 with the self-adhesive glass fiber mesh cloth, the fifth cylindrical roller 24 for assisting is arranged, and the right side of the raw material of the foam lines 7 is pressed below the self-adhesive glass fiber mesh cloth through the fifth cylindrical roller 24, so that the sharp teeth of the chain can be pricked into the foam lines 7 to be balanced with the left side. The sixth cylindrical roller 25, the seventh cylindrical roller 26 and the eighth cylindrical roller 27 are fixed to the lower right side of the raw material of the foam strand 7 for the purpose of keeping the raw material in a left-right balance. The foam strips 7 are provided with U-shaped catches 28 on either side for securing the guide pulley rows to ensure that the stock material always moves linearly parallel to the sides of the tine chain.

By adopting the numerical control foam line self-adhesive glass fiber mesh cloth wrapping equipment, the problem that the self-adhesive glass fiber mesh cloth unfolding linear speed is different from the moving speed of a raw material (foam line) can be solved; the wrapping problem of the self-adhesive glass fiber mesh cloth of the external corner and the internal corner, and the internal corner with the size smaller than 15 millimeters can be realized through the arranged metal sheet-shaped idler wheels. The parcel problem that can solve the big and 400 millimeters self-adhesion glass fiber net check cloth of vertical height through setting up bull auger screw can solve the complicated ornamental material parcel self-adhesion glass fiber net check cloth of shape through setting up the arc steel sheet and wiping the pressure equipment to improved efficiency, guaranteed that self-adhesion glass fiber net check cloth expandes the linear velocity and moves with the raw and other materials moving speed with fast, and labour saving and time saving, greatly improve the self-adhesion glass fiber net check cloth parcel efficiency of foam lines, thereby greatly promoted user's use and experienced.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, it is intended that all such modifications and alterations be included within the scope of this invention as defined in the appended claims.

Claims

1. The utility model provides a numerical control foam lines self-adhesion glass fiber net check cloth parcel equipment which characterized in that includes: the device comprises a main frame, an electrical system for controlling synchronous movement of foam lines and self-adhesive glass fiber gridding cloth, a foam line pushing device, a self-adhesive glass fiber gridding cloth unfolding device, a sheet roller part, an arc-shaped wiping device and a vertical surface rolling device; the electric appliance system consists of an upper computer, a programmable controller, a first motor drive amplifier, a second motor drive amplifier, a first numerical control motor and a second numerical control motor; the foam line pushing device, the sheet roller part of the self-adhesive glass fiber mesh cloth unfolding device, the arc-shaped wiping device and the vertical plane rolling device are respectively arranged in the main frame in a preset mode;

the self-adhesive glass fiber gridding cloth unfolding device is formed by connecting a steel plate support combination, a second numerical control motor, a fifth chain wheel, a second chain, a silica gel roller chain wheel combination, a tensioning wheel, an F206 bearing combination, a linear sliding block combination, a linear sliding rail combination with an aluminum support, a self-adhesive glass fiber gridding cloth fixing shaft, a width-adjustable fixing sleeve, a jackscrew and a roller combination in a preset mode; the steel plate bracket combination comprises a first steel plate bracket and a second steel plate bracket; the silica gel roller chain wheel combination comprises a first silica gel roller chain wheel and a second coating Teflon roller chain wheel; the F206 bearing combination comprises a first F206 bearing, a second F206 bearing and a third F206 bearing; the linear sliding block combination comprises a first linear sliding block and a second linear sliding block; the linear aluminum support sliding rail combination comprises a first linear aluminum support sliding rail and a second linear aluminum support sliding rail;

the foam line pushing device is formed by connecting a first numerical control motor, a chain wheel combination, a first chain, a chain wheel shaft, a sharp-tooth chain combination, a sharp-tooth chain and chain wheel combination, a main beam channel steel and a sharp-tooth chain track according to a preset mode; wherein the sprocket assembly comprises a first sprocket, a third sprocket and a fourth sprocket; the tine chain assembly includes a first tine chain and a second tine chain; the tine chain sprocket comprises a first tine chain sprocket and a second tine chain sprocket;

the sheet roller part comprises a plurality of metal sheet roller structures; the metal sheet roller structure comprises a first metal sheet roller and a first rectangular pipe, a second double-row bearing is arranged between the first metal sheet roller and the first rectangular pipe, and a bearing shell is arranged outside the second double-row bearing; the first metal sheet roller, the second double-row bearing and the first rectangular pipe are fixedly connected through a screw group; the first rectangular pipe is fixedly connected to a cross beam of the host frame through a U-shaped clamp;

the arc-shaped wiping device comprises a first arc-shaped wiping device and a second arc-shaped wiping device; the first arc-shaped wiping and pressing device comprises a first steel plate with a convex radian, and the first steel plate is fixed on the first rectangular pipe through a U-shaped clamp; the second arc-shaped wiping and pressing device comprises a second steel plate with a concave radian, the second steel plate is fixed on a first rectangular pipe through a U-shaped clamp, and the first rectangular pipe is fixedly connected to a cross beam of the host frame through the U-shaped clamp;

the vertical plane rolling device comprises: the oil nylon screw rod is arranged between the second rectangular pipe and the third rectangular pipe, two ends of the oil nylon screw rod are respectively provided with a bearing, and the bearings are respectively fixed on the second rectangular pipe and the third rectangular pipe through screws; the second rectangular pipe and the third rectangular pipe are fixed on a cross beam of the host frame through U-shaped clamps.

2. The digitally controlled foam strand self adhesive glass web scrim wrapping apparatus of claim 1, further comprising: a cylindrical roller and a drum part; the cylindrical roller and drum part includes: the first rectangular pipe, the third roller coated with silica gel or Teflon, the first columnar roller, the angle steel and the columnar roller bracket; the first columnar roller is arranged at one end of the columnar roller bracket, and the other end of the columnar roller bracket is fixed to the middle part of the angle steel through a U-shaped clamp; the first rectangular pipe is connected to two ends of the angle steel through U-shaped clamps; and two ends of the third roller are connected with the first rectangular pipe.

3. The digitally controlled foam strand self adhesive glass web scrim wrapping apparatus of claim 1, further comprising: a columnar roller portion; the columnar roller part comprises a plurality of silica gel column-shaped roller structures; the silica gel columnar roller structure is respectively composed of silica gel columnar rollers, a first double-row bearing, a first inner clamping spring, an outer clamping spring and a first rectangular pipe, and is connected through a screw group according to a preset mode; the first rectangular pipe is fixedly connected to the cross beam of the host frame through a U-shaped clamp.

4. The digitally controlled foam strand self adhesive glass web scrim wrapping apparatus of claim 1, further comprising: a guide pulley row; the guide pulley row consists of angle steel, a plurality of guide pulleys and a microswitch and is used for ensuring that the foam lines move parallel to the sharp-tooth chain.

5. The numerical control foam line self-adhesive glass fiber mesh wrapping equipment according to claim 1, wherein the main frame is further provided with a distribution box for transmitting electric energy to various components in the numerical control foam line self-adhesive glass fiber mesh wrapping equipment.