CN110481049B

CN110481049B - Dividing plate hot-melt welding machine

Info

Publication number: CN110481049B
Application number: CN201910893937.9A
Authority: CN
Inventors: 张云来
Original assignee: Heyuan Jinpeng Technology Co ltd
Current assignee: Heyuan Jinpeng Technology Co ltd
Priority date: 2019-09-20
Filing date: 2019-09-20
Publication date: 2024-04-02
Anticipated expiration: 2039-09-20
Also published as: CN110481049A

Abstract

The invention provides an index plate hot-melt welding machine which comprises a stepping motor, a divider connected with the stepping motor, an index plate fixed on the divider, a plurality of positioning jigs fixed on the index plate, a first supporting device, a second supporting device, a first air cylinder fixing device, a second air cylinder fixing device, a first hot-melt joint connected with the first air cylinder fixing device, a second hot-melt joint connected with the second air cylinder fixing device, a first cooling air pipe communicated with the first hot-melt joint and a second cooling air pipe communicated with the second hot-melt joint; the first hot-melt joint and the second hot-melt joint are used for welding products to be welded, wherein the products to be welded are fixed in the positioning jig. According to the dividing plate hot welding machine, only manual material taking and discharging is needed, and a manual welding starting button is omitted; the first hot-melt joint and the second hot-melt joint work together, so that the working efficiency is improved; effectively improves the production benefit of the product.

Description

Dividing plate hot-melt welding machine

Technical Field

The invention belongs to the technical field of welding machines, and particularly relates to an indexing pan hot-melt welding machine

Background

In plastic thermal welding equipment, 2 types of temperature and ultrasonic welding are mostly used, and currently, a thermal welding jig is generally produced by using a fixed jig. The dividing plate hot welding machine has strict requirements on the installation precision and the operation precision of each jig on the dividing plate, and ensures that the welded products of each jig are consistent. The fusion splicer adopts a temperature fusion splicing scheme, adopts a 4-division divider to carry out automatic switching between discharging and hot fusion splicing stations, realizes automatic fusion splicing of products, and improves production efficiency.

The general hot melt equipment uses fixed tool, according to the flow: the production efficiency of the existing workflow is low due to the fact that the manual discharging, the manual welding starting and the manual material taking are performed.

Disclosure of Invention

The invention aims to provide an index plate hot-melt machine which can accelerate the working efficiency.

The invention provides an index plate hot-melt welding machine which comprises a stepping motor, a divider connected with the stepping motor, an index plate fixed on the divider, a plurality of positioning jigs fixed on the index plate, a first supporting device and a second supporting device which are oppositely arranged, a first cylinder fixing device obliquely fixed on the first supporting device, a second cylinder fixing device obliquely fixed on the second supporting device, a first hot-melt joint connected with the first cylinder fixing device, a second hot-melt joint connected with the second cylinder fixing device, a first cooling air pipe led into the first hot-melt joint and a second cooling air pipe led into the second hot-melt joint, wherein the first cylinder fixing device is obliquely fixed on the first supporting device; the first hot-melt joint and the second hot-melt joint are used for welding products to be welded, wherein the products to be welded are fixed in the positioning jig.

Preferably, a pulley means connecting the divider and the stepper motor is also included.

Preferably, the first cylinder fixing device and the second cylinder fixing device each include: the device comprises an air cylinder obliquely fixed on a first supporting device or a second supporting device, an air cylinder connecting shaft device which is telescopically fixed in a motor, a connecting plate fixedly connected with the air cylinder connecting shaft device, an adjusting plate connected with the connecting plate, a bottom plate connected to the lower end of the adjusting plate, a cold air pipe fixing device fixed on the upper end of the adjusting plate, a first joint fixing device which is close to the cold air pipe fixing device and is fixed with the adjusting plate, and a second joint fixing device which is fixedly connected with the first joint fixing device, wherein the first hot melting joint or the second hot melting joint is fixed between the first joint fixing device and the second joint fixing device.

Preferably, the first joint fixing device is L-shaped, a horizontal portion of the first joint fixing device is fixedly connected with the cold air pipe fixing device, and a vertical portion of the first joint fixing device is fixedly connected with the second joint fixing device.

Preferably, the adjusting plate is provided with a through groove for accommodating and fixing the cold air pipe fixing device, a first through hole which is positioned on one side of the adjusting plate and communicated with the through groove, a first long hole which is positioned on the upper side of the through groove, a second through hole which is positioned beside the first long hole, a groove which is adjacent to the connecting plate, a third long hole and a fourth long hole which are positioned on two sides of the groove, and two concave holes which are positioned at the bottom.

Preferably, the first cylinder fixing device and the second cylinder fixing device further comprise two first pins fixedly connected with the connecting plate through the third long hole and the fourth long hole, a second pin fixedly connected with the bottom plate through one of concave holes, a third pin fixedly connected with the first joint fixing device through the second through hole, and a fourth pin fixedly connected with the cold air pipe fixing device through the first through hole.

Preferably, the first thermal welding joint and the second thermal welding joint comprise a first joint connector, a second joint connector and a welding joint which are oppositely arranged, wherein the welding joint is connected with the first joint connector and the second joint connector, and a gap is formed between the first joint connector and the second joint connector.

Preferably, the first joint connector has an elongated recess on a side remote from the second joint connector and the second joint connector has a short recess on a side remote from the first joint connector.

Preferably, the positioning jig comprises a jig main body fixed on the index plate, a first protrusion, a second protrusion and an accommodating space, wherein the first protrusion and the second protrusion are arranged on the jig main body in a protruding mode and are arranged oppositely, the accommodating space is located between the first protrusion and the second protrusion, the accommodating space is in a shape of being wide at the bottom and narrow at the top, and a product to be welded is fixed in the accommodating space.

Preferably, the device further comprises a base, and the divider, the first supporting device and the second supporting device are all fixed on the base.

According to the dividing plate hot welding machine, only manual material taking and discharging is needed, and a manual welding starting button is omitted; the first hot melt joint and the second hot melt joint work sequentially, so that the working efficiency is improved; effectively improves the production benefit of the product.

Drawings

FIG. 1 is a schematic diagram of a indexing plate hot-melt welder according to the present invention;

FIG. 2 is a schematic view of the indexing plate hot-melt welder shown in FIG. 1 at another angle;

FIG. 3 is a separate schematic view of the cylinder fixture and thermal splice of the index plate thermal welder shown in FIG. 1;

FIG. 4 is a schematic view of the cylinder mount and hot melt joint of FIG. 3 at another angle;

FIG. 5 is an isolated schematic view of a cylinder connecting shaft assembly of the index plate hot melt welder shown in FIG. 1;

FIG. 6 is an isolated schematic view of an adjustment plate of the index plate hot melt welder shown in FIG. 1;

FIG. 7 is an isolated schematic view of a hot melt joint of the index plate hot melt welder shown in FIG. 1;

fig. 8 is a separate schematic view of a positioning jig of the index plate hot-melt welder shown in fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The index plate hot-melt welding machine of the present invention, as shown in fig. 1 and 2, comprises a stepper motor 20, a divider 10 connected to the stepper motor 20, a pulley device 30 connecting the divider 10 and the stepper motor 20, an index plate 40 fixed on the divider 10, a plurality of positioning jigs 50 fixed on the index plate 40, a first supporting device 61 and a second supporting device 62 arranged opposite to each other, a first cylinder fixing device 71 fixed on the first supporting device 61 in an inclined manner, a second cylinder fixing device 72 fixed on the second supporting device 72 in an inclined manner, a first hot-melt joint 81 connected to the first cylinder fixing device 71, a second hot-melt joint 82 connected to the second cylinder fixing device 72, a first cooling air pipe 91 passing into the first hot-melt joint 81, a second cooling air pipe 92 passing into the second hot-melt joint 82, and a base 100, wherein the divider 10, the first supporting device 61, and the second supporting device 62 are fixed on the base 100.

Wherein, 4 positioning jigs 50 are fixed on the index plate 40 equidistantly.

As shown in fig. 3 to 6, the first cylinder fixing device 71 and the second cylinder fixing device 72 are identical in structure, and each includes: the air cylinder 712 is obliquely fixed to the first support means 61 or the second support means 62, the air cylinder connecting shaft means 713 is telescopically fixed to the inside of the motor 712, the connecting plate 714 is fixedly connected to the air cylinder connecting shaft means 713, the adjusting plate 715 is connected to the connecting plate 714, two first pins 7161 connecting the connecting plate 714 and the adjusting plate 715, the bottom plate 716 is connected to the lower end of the adjusting plate 715, the second pin 7162 connecting the bottom plate 716 and the adjusting plate 715, the cold air pipe fixing means 717 is fixed to the upper end of the adjusting plate 715, the first joint fixing means 718 is fixed to the adjusting plate 715 by the third pin 7163, and the second joint fixing means 719 is fixedly connected to the first joint fixing means 718, wherein the first hot melt joint 81 or the second hot melt joint 82 is fixed between the first joint fixing means 718 and the second joint fixing means 719.

The first joint fixture 718 is L-shaped, the horizontal portion 7181 of the first joint fixture 718 is fixedly connected to the cold air pipe fixture 717, and the vertical portion 7182 of the first joint fixture 718 is fixedly connected to the second joint fixture 719.

The adjusting plate 715 is provided with a through groove 7151 for accommodating and fixing the cold air pipe fixing device 717, a first through hole 7152 which is positioned at one side of the adjusting plate 715 and is communicated with the through groove 7151, a first long hole 7153 which is positioned at the upper side of the through groove 7151, a second through hole 7154 which is positioned beside the first long hole 7153, a groove 7155 which is adjacent to the connecting plate 714, a third long hole 7156 and a fourth long hole 7157 which are positioned at both sides of the groove 7155, and two concave holes 7158 which are positioned at the bottom.

Wherein, the fourth pin 7164 is fixedly connected to the cold air pipe fixing device 717 through the first through hole 7152; the third pin 7163 is fixedly coupled to the first splice holding device 718 through the second throughbore 7154; the two first pins 7161 are fixedly connected to the connection plate 714 through the third long hole 7156 and the fourth long hole 7157, respectively; the second pin 7162 is fixedly coupled to the base 716 through one of the recessed holes 7158.

The first cooling air pipe 91 or the second cooling air pipe 92 is fixed on the cold air pipe fixing device 717, and the first cooling air pipe 91 and the second cooling air pipe 92 respectively extend into the side of the first hot melt joint 81 and the second hot melt joint 82, so that the processing position can be cooled quickly during processing.

The adjusting plate 715 achieves angle adjustment of the first thermal welding head 81 and the second thermal welding head 82, and facilitates thermal welding of the first thermal welding head 81 and the second thermal welding head 82 to workpieces fixed in the positioning jig 50.

As shown in fig. 7, the first thermal welding head 81 and the second thermal welding head 82 have the same structure, the first thermal welding head 81 and the second thermal welding head 82 are made of refined steel materials, the first thermal welding head 81 and the second thermal welding head 82 comprise a first joint connector 812, a second joint connector 813 and a welding head 814 which are oppositely arranged, the welding head 814 is connected with the first joint connector 812 and the second joint connector 813, a gap 815 is formed between the first joint connector 812 and the second joint connector 813, the gap 815 penetrates to part of the welding head 814, and the gap 815 facilitates heat dissipation of the first thermal welding head 81 and the second thermal welding head 82. The first joint connection body 812 has an elongated groove 8121 at a side far from the second joint connection body 8123, the second joint connection body 813 has a short groove 8131 at a side far from the first joint connection body 812, the short groove 8131 facilitates taking the first thermal welding head 81 and the second thermal welding head 82, and the elongated groove 8121 facilitates subtracting the weight of the first thermal welding head 81 and the second thermal welding head 82.

During operation, the first thermal welding joint 81 and the second thermal welding joint 82 are cut along the center line of a product to be welded, a current channel with the width of 2mm is reserved at the thermal welding position, mica sheets are used as electrical isolation at the cutting position, and low-voltage high-current passes through the channel, and the first thermal welding joint 81 or the second thermal welding joint 82 is instantaneously heated due to the fact that the current channel contains a certain resistance value, so that the purpose of thermal welding is achieved. Welding temperature the temperature of the welding joint is adjusted by adjusting the power-on time of the touch screen, so that the thermal welding of different materials is realized.

After the index plate 40 is rotated, the first heat welding joint 81 and the second heat welding joint 82 weld the product to be welded fixed in the positioning jig 50 together, so that the working efficiency is improved.

As shown in fig. 8, the positioning jig 50 includes a jig main body 51 fixed on the index plate 40, a first protrusion 52 and a second protrusion 53 protruding from the jig main body 51 and disposed opposite to each other, and a receiving space 54 located between the first protrusion 52 and the second protrusion 53, where the receiving space 54 is in a shape of being wider at the bottom and narrower at the top, so as to facilitate fixing a product to be welded, and the product to be welded is fixed in the receiving space 54.

The index plate hot-melt welding machine adopts two modes for debugging: the electrical control settings are manually and automatically controlled, with all control mode buttons and numerical settings being operational settings on a touch screen (not shown). In order to facilitate understanding of the operation condition of the dial hot-melting machine, various states of the dial hot-melting machine are displayed at corresponding positions of the touch screen.

In order to ensure the operation precision of the index plate hot-melt welder and the operation safety of the index plate hot-melt welder, all the motion positions must be returned to the original positions before each power-on start, for example, the first cylinder fixing device 71 and the second cylinder fixing device 72 must be respectively at the top dead center positions of the cylinders 712, and the index plate 40 must be at the 0 DEG position, so that the index plate hot-melt welder can be operated manually or automatically when the conditions of the original positions meet the requirements.

When special conditions occur, such as power failure or pressing the emergency stop switch index 40 without stopping at the 0-degree point, a 'position correction' button key for manually clicking the index 40 to return to the original point is designed, the index runs for 45 degrees once every click, and when the index returns to the 0-degree position, the equipment can enter a production state.

For safety reasons, a pair of safety light curtains (not shown) are installed on the left and right sides of the index plate hot-melt welder on the front of the operator of the index plate hot-melt welder, and when the operator's hand enters the hot-melt position during the operation of the index plate hot-melt welder, the cylinder 712 does not act even if the controller has issued a welding command, thereby ensuring the safety of the operator.

In order to eliminate the accumulated error of the operation of the index plate 40 and ensure the operation precision of the index plate 40, an automatic error correction function is added in the programming. When the production quantity reaches a set value and a position deviation sensor (not shown) mounted on an input shaft (not shown) of the index plate 40 detects a position deviation signal, the deviation program is automatically corrected, the index plate 40 is operated in an idling operation by 0 DEG back action, and when the program detects a falling edge of the sensor, the stepping motor 20 is immediately stopped and simultaneously automatically shifted to a production state. The control circuit adds an error recognition sensor and design error control software combined technology to eliminate accumulated errors.

The index plate hot-melt welder is provided with the equipment pause button, so that an operator can leave a working position temporarily, the equipment can be used under the condition that the equipment needs to be paused, the pause button arranged on the right hand side of the operator is pressed, when the index plate 40 operates at the 0-degree position, the operation of the index plate hot-melt welder is stopped, and if production is to be continued, the pause button is pressed again, so that the equipment is continuously and automatically produced.

The index plate hot-melt welding machine provided by the invention has the advantages that the starting function of a hot-melt manual button is eliminated, and the production time is saved. When the index plate 40 runs at an angle of 90 degrees, the control unit gives a heat welding signal, automatically starts the air cylinder 712, performs hot press welding and compressed air solidification cooling, and after the air cylinder connecting shaft device 713 returns to the original position after cooling is completed, automatically starts the index plate 40 to run at an angle of 90 degrees, and the control unit gives a heat welding signal again, so that the process is repeated.

The invention adopts the high-precision divider 10, the dividing plate 40 is fixed on the divider 10, 4 positioning jigs 50 are equidistantly fixed on the dividing plate 40, and each positioning jig 50 can fix a product to be welded. In operation, the position of the first hot melt joint 81 or the second hot melt joint 82 is determined to be the 0 ° position, and is used as the electrical and mechanical origin position. The indexing disk 40 runs 45 ° for each revolution of the input shaft of the divider 10.

The present invention is not limited to the above-mentioned embodiments, but is intended to be limited to the following embodiments, and any modifications, equivalent changes and variations in the above-mentioned embodiments can be made by those skilled in the art without departing from the scope of the present invention.

Claims

1. The dividing plate hot-melt welding machine is characterized by comprising a stepping motor, a divider connected with the stepping motor, a dividing plate fixed on the divider, a plurality of positioning jigs fixed on the dividing plate, a first supporting device and a second supporting device which are oppositely arranged, a first cylinder fixing device obliquely fixed on the first supporting device, a second cylinder fixing device obliquely fixed on the second supporting device, a first hot-melt joint connected with the first cylinder fixing device, a second hot-melt joint connected with the second cylinder fixing device, a first cooling air pipe communicated with the first hot-melt joint and a second cooling air pipe communicated with the second hot-melt joint; the first hot-melt joint and the second hot-melt joint are used for sequentially welding products to be welded, which are fixed in the positioning jig;

the belt pulley device is connected with the divider and the stepping motor;

the first cylinder fixing device and the second cylinder fixing device each include: the device comprises an air cylinder obliquely fixed on a first supporting device or a second supporting device, an air cylinder connecting shaft device which is telescopically fixed in a motor, a connecting plate fixedly connected with the air cylinder connecting shaft device, an adjusting plate connected with the connecting plate, a bottom plate connected to the lower end of the adjusting plate, a cold air pipe fixing device fixed on the upper end of the adjusting plate, a first joint fixing device which is close to the cold air pipe fixing device and is fixed with the adjusting plate, and a second joint fixing device which is fixedly connected with the first joint fixing device, wherein the first hot melting joint or the second hot melting joint is fixed between the first joint fixing device and the second joint fixing device.

2. The indexing disk hot melt welder of claim 1, wherein: the first joint fixing device is L-shaped, the horizontal part of the first joint fixing device is fixedly connected with the cold air pipe fixing device, and the vertical part of the first joint fixing device is fixedly connected with the second joint fixing device.

3. The indexing disk hot melt welder of claim 1, wherein: the regulating plate is provided with a through groove for accommodating and fixing the cold air pipe fixing device, a first through hole which is positioned on one side of the regulating plate and communicated with the through groove, a first long hole which is positioned on the upper side of the through groove, a second through hole which is positioned beside the first long hole, a groove which is adjacent to the connecting plate, a third long hole and a fourth long hole which are positioned on two sides of the groove, and two concave holes which are positioned at the bottom.

4. A indexing plate hot melt welder as claimed in claim 3, wherein: the first cylinder fixing device and the second cylinder fixing device also comprise two first pins fixedly connected with the connecting plate through the third long hole and the fourth long hole, a second pin fixedly connected with the bottom plate through one concave hole, a third pin fixedly connected with the first joint fixing device through the second through hole and a fourth pin fixedly connected with the cold air pipe fixing device through the first through hole.

5. The indexing disk hot melt welder of claim 1, wherein: the first hot-melt joint and the second hot-melt joint all comprise a first joint connector, a second joint connector and a melt joint which are oppositely arranged, wherein the melt joint is connected with the first joint connector and the second joint connector, and a gap is reserved between the first joint connector and the second joint connector.

6. The indexing disk hot melt welder of claim 5, wherein: the first connector body has an elongated recess on a side facing away from the second connector body and the second connector body has a short recess on a side facing away from the first connector body.

7. The indexing disk hot melt welder of claim 1, wherein: the positioning jig comprises a jig main body fixed on the index plate, a first protrusion, a second protrusion and an accommodating space, wherein the first protrusion and the second protrusion are arranged on the jig main body in a protruding mode and are arranged oppositely, the accommodating space is located between the first protrusion and the second protrusion, the accommodating space is in a shape of being wide at the bottom and narrow at the top, and a product to be welded is fixed in the accommodating space.

8. The indexing disk hot melt welder of claim 1, wherein: the device further comprises a base, and the divider, the first supporting device and the second supporting device are all fixed on the base.