CN211812573U

CN211812573U - Splicing jig for foam material strips

Info

Publication number: CN211812573U
Application number: CN201922357495.4U
Authority: CN
Inventors: 翟兆凯
Original assignee: Lingshengcheng Technology Jiangsu Co Ltd
Current assignee: Lingshengcheng Technology Jiangsu Co Ltd
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-10-30
Anticipated expiration: 2029-12-25

Abstract

The utility model discloses a concatenation tool is taken to bubble cotton material. This bubble cotton material area concatenation tool includes the makeup material board, the makeup material board upper surface is the horizontal plane, be equipped with the pilot pin that the rectangle array was arranged on the makeup material board, the locating pin arrange with two locating holes of treating the makeup material area cooperate, the makeup material board both ends are equipped with the solid hole of inhaling that the rectangle array distributes, inhale solid hole UNICOM evacuation gas circuit, thereby inhale solid hole and bleed and establish the fixed makeup material area of treating of vacuum, thereby inhale solid hole and ventilate and destroy the vacuum release and treat the makeup material area, be equipped with two parallel arrangement's blank groove in the middle of the makeup material board, the length direction in blank groove perpendicular to treating the makeup material area, the length in blank groove is greater than the width in treating the makeup material area, be equipped with one row of pilot pin between two blank grooves. The utility model discloses material area straightness accuracy and overlap ratio height after having the concatenation, the fast effect of blank.

Description

Splicing jig for foam material strips

Technical Field

The utility model relates to a material area concatenation field in the 3C product, in particular to concatenation tool is taken to bubble cotton material.

Background

In the production of 3C parts, in order to improve production efficiency, the original single sheet production process is changed into a process of pasting a plurality of sheets in a strip of material, the strip of material can be placed in a roll form, and in the processing, the strip of material is placed in a discharging way to rotate uniformly, and is output linearly, so that a continuous production mode is formed. In the material area is carried, the condition that the area was traded in two roll material areas around or after the material area fracture often takes place, flows in order to form continuous production, practices thrift the cotton former material of bubble simultaneously, often adopts the material area concatenation process, and current mode is artifical direct alignment both ends and connects the material, and its defect lies in: firstly, no positioning reference is provided, the splicing effect depends on the proficiency of workers, and the straightness and the contact ratio of the spliced material belt are poor; secondly, it is slow, inefficient, unsuitable continuous production, thirdly, the material area is thin and light, shifts easily in the concatenation for the concatenation effect is poor, and the position degree is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve one or more of above-mentioned problem, the utility model provides a concatenation tool is taken to bubble cotton material.

According to one aspect of the utility model, the splicing jig for the foam material strip comprises a splicing plate, the upper surface of the splicing plate is a horizontal plane, the splicing plate is provided with positioning pins arranged in a rectangular array, the arrangement of the positioning pins is matched with the positioning holes of two splicing strips to be spliced, the two ends of the splicing plate are provided with suction holes distributed in a rectangular array, the suction holes are communicated with a vacuumizing gas circuit, the suction holes are used for exhausting gas to establish vacuum so as to fix the splicing strips to be spliced, the suction holes are used for ventilating and destroying the vacuum so as to release the splicing strips to be spliced,

two material cutting grooves which are arranged in parallel are arranged in the middle of the material splicing plate, the material cutting grooves are perpendicular to the length direction of the material belt to be spliced, the length of each material cutting groove is larger than the width of the material belt to be spliced, and a row of positioning needles are arranged between the two material cutting grooves.

In some embodiments, the width of the slitting trough and the thickness of the slitting blade are the same.

In some embodiments, the splice plate is provided with a vent slot at the lower end of the suction hole, a sealing plate is mounted at the lower end of the vent slot, and an air inlet is arranged in the center of the sealing plate.

In some embodiments, the vent hole is formed at a lower end thereof with a positioning groove in which the sealing plate is mounted.

In some embodiments, a sealing cushion is further disposed between the positioning grooves, the sealing cushion and the positioning grooves have the same contour, and the sealing plate is pressed against the sealing cushion.

In some embodiments, the air inlet is provided with a gas flow regulating valve, and the flow regulating valve is communicated with the vacuumizing loop.

In some embodiments, the lower end of the rear side surface of the material splicing plate is vertically connected with a side yoke plate, a plurality of longitudinal long round holes are formed in the side yoke plate, and the threaded piece is connected with the rack through the longitudinal long round holes.

In some embodiments, a plurality of reinforcing rib plates are further arranged between the mutually connected right angles of the side connecting plates and the material splicing plates.

This steep cotton material area concatenation tool adopts dedicated concatenation tool production, need not take off the material book, only need will treat that ingredient area both ends mouth overlaps alternately to place on the ingredient board, the pilot pin is fixed a position two respectively and is treated the ingredient area, inhale the ingredient area of treating at the fixed both ends in fixed hole, the blank sword slides along the blank groove, cut both ends mouth, and the centre is expected absolutely in addition and also is equipped with one row of pilot pin, the three-section material all is in fixed position, then paste two sticky tapes in two incisions department, its beneficial effect is: firstly, the material belt is positioned through the positioning needle, the material belt positioning precision is high, the interface position degree is high, and the straightness and the contact ratio of the spliced material belt are high; secondly, the two material belts to be spliced can be fixed by the suction holes, no position movement exists in the processing process, and the splicing precision is high; thirdly, the positioning needles between the material cutting grooves further fix the position degree of the spliced interrupted material belt; fourthly, the length of the material cutting groove is larger than the width of the material belt to be spliced, so that the position of a material cutting knife is convenient to find, the material cutting speed is high, and the precision is high; fifthly, the device greatly simplifies the original non-standard procedures, reduces the working experience of operators, has high speed and high efficiency, and is suitable for large-scale continuous production.

Drawings

Fig. 1 is a three-dimensional schematic view of a foam material strip splicing jig according to an embodiment of the present invention;

fig. 2 is a three-dimensional schematic view of the foam material tape splicing jig shown in fig. 1 for removing the spliced material tape;

fig. 3 is a schematic top view of the splicing jig for foam tapes shown in fig. 2;

fig. 4 is a schematic sectional view a-a of the splicing jig for the foam tapes shown in fig. 3;

when the material belt 01 is to be spliced, the positioning hole 011,

a material splicing plate 1, a material cutting groove 11, a suction fixing hole 12, a vent groove hole 13, a positioning groove 14,

the device comprises a positioning needle 2, a sealing plate 3, a sealing air cushion 4, a flow regulating valve 5, a side connecting plate 6, a longitudinal long round hole 61 and a reinforcing rib plate 7.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Fig. 1 to fig. 4 schematically show a splicing jig for foam material strips according to an embodiment of the present invention. As shown in the figure, the device comprises a splicing plate 1, the upper surface of the splicing plate 1 is a horizontal plane, positioning pins 2 which are arranged in a rectangular array are arranged on the splicing plate 1, the arrangement of the positioning pins 2 is matched with positioning holes 011 of two splicing belts 01 to be spliced, suction holes 12 which are distributed in a rectangular array are arranged at two ends of the splicing plate 1, the suction holes 12 are communicated with a vacuumizing air channel, the suction holes 12 are used for vacuumizing to establish vacuum so as to fix the splicing belts 01 to be spliced, the suction holes 12 are used for ventilating to destroy the vacuum so as to release the splicing belts 01 to be spliced,

two parallel arrangement's blank groove 11 is equipped with in the middle of the flitch 1 that splices, and the length direction of blank groove 11 perpendicular to waiting to splice area 01 is equipped with one row of pilot pin 2 between two blank grooves 11 more than the width of waiting to splice area 01.

This steep cotton material area concatenation tool adopts dedicated concatenation tool production, need not take off the material book, only need will treat that splicing tape 01 both ends mouth overlaps alternately to place on splicing board 1, the thimble 2 is fixed a position two respectively and is treated splicing tape 01, inhale treating splicing tape 01 of the fixed both ends in solid hole 12, the blank sword slides along blank groove 11, cut both ends mouth, and the centre is expected absolutely also to be equipped with one row of thimble 2, the three-section material all is in fixed position, then paste two sticky tapes in two incisions department, its beneficial effect is: firstly, the material belt is positioned through the positioning needle 2, the material belt positioning precision is high, the interface position degree is high, and the straightness and the contact ratio of the spliced material belt are high; secondly, the two material belts 01 to be spliced can be fixed by the suction fixing holes 12, no position movement exists in the processing process, and the splicing precision is high; thirdly, the positioning needles 2 between the material cutting grooves 11 further fix the position degree of the spliced interrupted material belt; fourthly, the length of the material cutting groove 11 is larger than the width of the material belt 01 to be spliced, so that a material cutting knife can be conveniently positioned, the material cutting speed is high, and the precision is high; fifthly, the device greatly simplifies the original non-standard procedures, reduces the working experience of operators, has high speed and high efficiency, and is suitable for large-scale continuous production.

Preferably, the material splicing plate 1 is provided with two rows and a plurality of columns of positioning pins 2, the positioning holes 011 are arranged in two rows and a plurality of columns, the line spacing of the positioning pins 2 is the same as that of the positioning holes 011, the column spacing of the positioning pins 2 is a plurality of times of that of the positioning holes 011, and the diameters of the positioning pins 2 are the same as that of the positioning holes 011. The beneficial effects are as follows: this setting has further optimized positioning accuracy, prevents that the material area from controlling the front and back aversion.

Preferably, the pitch of the columns of the positioning pins 2 is the same as the pitch of the columns of the positioning holes 011.

Preferably, the width of the blanking slot 11 is the same as the thickness of the blanking blade. The beneficial effects are as follows: this setting can further improve the cutting route of blank sword, and the cutting does not have the side to side beat, and the precision is high, can obtain higher concatenation precision.

Preferably, the splicing plate 1 is provided with a vent slot hole 13 at the lower end of the suction hole 12, a sealing plate 3 is installed at the lower end of the vent slot hole 13, and an air inlet is arranged at the center of the sealing plate 3 and communicated with a vacuumizing air path. The beneficial effects are as follows: this solid structure of inhaling that sets up, everywhere inhale solid hole 12 evacuation even, can make the equal adsorption affinity in each position, avoided adsorbing the skew.

Preferably, the lower end of the vent hole 13 is formed with a positioning groove 14, and the sealing plate 3 is mounted in the positioning groove 14. The beneficial effects are as follows: this structure can improve the mounting accuracy of the sealing plate 3.

Preferably, a sealing air cushion 4 is further arranged between the positioning grooves 14, the sealing air cushion 4 and the positioning grooves 14 have the same contour, and the sealing plate 3 is pressed against the sealing air cushion 4. The beneficial effects are as follows: the device can further improve the leakproofness for it is good and lasting to inhale solid performance.

Preferably, the air inlet hole is provided with an air flow regulating valve 5, and the flow regulating valve 5 is communicated with the vacuumizing loop. The beneficial effects are as follows: the setting makes the degree of the suction force adjustable.

Preferably, the lower end of the rear side surface of the material splicing plate 1 is vertically connected with a side yoke plate 6, a plurality of longitudinal long round holes 61 are formed in the side yoke plate 6, and the threaded part is connected with the rack through the longitudinal long round holes 61. The beneficial effects are as follows: this setting can improve the position height of flitch 1 to obtain the concatenation position of preferred.

Preferably, a plurality of reinforcing rib plates 7 are arranged between the mutually connected right angles of the side connecting plates 6 and the material splicing plates 1. The beneficial effects are as follows: the strength of the bracket is improved. The long-term use does not deform, and the long-term stability of splicing is good.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims

1. The splicing jig for the foam material strips is characterized by comprising a splicing plate (1), wherein the upper surface of the splicing plate (1) is a horizontal plane, positioning pins (2) arranged in a rectangular array are arranged on the splicing plate (1), the arrangement of the positioning pins (2) is matched with positioning holes (011) of two material strips to be spliced (01), suction holes (12) distributed in a rectangular array are formed in two ends of the splicing plate (1), the suction holes (12) are communicated with a vacuumizing air path, the suction holes (12) are vacuumized to establish vacuum so as to fix the material strips to be spliced (01), the suction holes (12) are ventilated to break the vacuum so as to release the material strips to be spliced (01),

the material splicing plate is characterized in that two material cutting grooves (11) which are arranged in parallel are arranged in the middle of the material splicing plate (1), the material cutting grooves (11) are perpendicular to the length direction of the material splicing belt (01), the length of the material cutting grooves (11) is larger than the width of the material splicing belt (01), and one row of positioning needles (2) are arranged between the material cutting grooves (11).

2. The splicing jig for the foam tapes is characterized in that the width of the material cutting groove (11) is the same as the thickness of the material cutting blade.

3. The splicing jig for the foam material strips according to claim 1, wherein a vent slot hole (13) is formed in the splicing plate (1) at the lower end of the absorption hole (12), a sealing plate (3) is installed at the lower end of the vent slot hole (13), and an air inlet hole is formed in the center of the sealing plate (3).

4. The splicing jig for the foam tapes is characterized in that a positioning groove (14) is formed at the lower end of the vent slot hole (13), and the sealing plate (3) is installed in the positioning groove (14).

5. The splicing jig for the foam material strips according to claim 4, characterized in that a sealing air cushion (4) is further arranged between the positioning grooves (14), the sealing air cushion (4) and the positioning grooves (14) have the same contour, and the sealing plate (3) is pressed against the sealing air cushion (4).

6. The splicing jig for the foam tapes as claimed in claim 3, wherein a gas flow regulating valve (5) is installed on the gas inlet, and the flow regulating valve (5) is communicated with a vacuum-pumping loop.

7. The splicing jig for the foam material belts according to claim 1, characterized in that the lower end of the rear side surface of the material splicing plate (1) is vertically connected with a side yoke plate (6), the side yoke plate (6) is provided with a plurality of longitudinal oblong holes (61), and a threaded member is connected with the frame through the longitudinal oblong holes (61).

8. The jig for splicing the foam material strips according to claim 7, wherein a plurality of reinforcing rib plates (7) are further arranged between the mutually connected right angles of the side connecting plates (6) and the material splicing plates (1) to be mutually connected.