CN203854203U - Infrared plastic ball welder - Google Patents

Abstract

The utility model relates to an infrared plastic ball welder. The infrared plastic ball welder is characterized by comprising a machine table, a feeding device, a first movable sliding rail, fixing modules, a second movable sliding rail and an infrared welding device, wherein the feeding device is arranged on one side of the machine table; the first movable sliding rail is transversely arranged on the machine table; the fixing modules are arranged on the first movable sliding rail in a manner of moving left and right; two fixing modules are arranged in a bilateral symmetry manner; the second movable sliding rails are vertically arranged on the machine table and located between the two fixing modules; the infrared welding device is arranged on the second movable sliding rail in a manner of moving forward and backward. The infrared plastic ball welder is simple to operate; the labor can be effectively saved, and the production efficiency and production quality are improved; the infrared plastic ball welder is suitable for mass production.

Description

A kind of infrared ray plastics ball bonding machine

Technical field

The utility model relates to a kind of welding equipment, relates in particular to a kind of infrared ray plastics ball bonding machine, belongs to welding technology field.

Background technology

Plastics ball is mainly used in ball bottle.Ball bottle is called again ballpoint bottle, is a kind of common Packaging Bottle, by people, is widely used, and is conventionally used as in the packing of cosmetics eye cream, lipstick, articles for children.The common capacity of ball bottle is little, at bottle head, ball is installed, and people can evenly be smeared, and prevents liquid omission, and has massage effect.Because the inside of plastics ball is hollow, the production of plastics ball is two plastics ball hemisphere of first injection moulding often, and then two plastics ball hemisphere are welded.At present, owing to there is no special-purpose welding equipment, above-mentioned welding process is all to utilize the additional manual operations of common welding equipment, artificially participates in many factors, not only comparatively waste time and energy, and the quality of production is poor, can not realize mass production.

Utility model content

The utility model object is in order to overcome the deficiencies in the prior art, to provide a kind of quality of production good and be applicable to the infrared ray plastics ball bonding machine of mass production.

For achieving the above object, the technical solution adopted in the utility model is: a kind of infrared ray plastics ball bonding machine, comprises board, pay-off, the first shifting sledge, stuck-module, the second shifting sledge and infrared ray welding device; Described pay-off is arranged on a side of board; Described the first shifting sledge is laterally located on board; What described stuck-module can move left and right is arranged on the first shifting sledge; Described stuck-module is symmetrically set with two; Described the second shifting sledge is vertically arranged on board; Described the second shifting sledge is between two stuck-modules; What described infrared ray welding device can move forward and backward is arranged on the second shifting sledge.

Preferably, described pay-off comprises feeding board, feeding device and conveying device; The table top of described feeding board is mutually concordant with the table top of board; Described feeding device and conveying device are arranged on feeding board.

Preferably, described feeding device is conveyer belt; Described conveyer belt is symmetrical is provided with two; Described conveyer belt is gone into battle and is shown a plurality of the first hemispherical projections.

Preferably, described conveying device comprises the 3rd shifting sledge, feeding stuck-module, motor, the 4th shifting sledge and material transfer stuck-module; Described the 3rd shifting sledge is laterally located on feeding board; What described feeding stuck-module can move left and right is arranged on the 3rd shifting sledge; Described feeding stuck-module is symmetrically set with two; Described feeding stuck-module is provided with motor; Described driven by motor feeding stuck-module do near and away from the rotation of feeding board; Described the 4th shifting sledge is vertically arranged on feeding board; Described the 4th shifting sledge is between two feeding stuck-modules; What described material transfer stuck-module can move forward and backward is arranged on the 4th shifting sledge.

Preferably, on the madial wall of described stuck-module and feeding stuck-module, all array has a plurality of Acetabula devices; Described Acetabula device and the corresponding setting of the first hemispherical projections.

Preferably, go into battle and show a plurality of the second hemispherical projections in the two side of described material transfer stuck-module; Described the second hemispherical projections and the corresponding setting of the first hemispherical projections.

Described stuck-module is provided with the first drive motors that drives stuck-module to move on the first shifting sledge; Described feeding stuck-module is provided with the second drive motors that drives feeding stuck-module to move on the 3rd shifting sledge; Described infrared ray welding device is provided with the 3rd drive motors that drives outside line welder to move on the second shifting sledge; Described material transfer stuck-module is provided with the 4th drive motors that drives material transfer stuck-module to move on the 4th shifting sledge.

Preferably, described the second shifting sledge and the 4th shifting sledge join.

Due to the utilization of technique scheme, the utility model compared with prior art has following advantages:

Infrared ray plastics ball bonding machine of the present utility model, pay-off is delivered to the plastics ball hemisphere of a plurality of injection formed on two stuck-modules, then the welding position that is fixed on two plastics ball hemisphere on stuck-module is undertaken after hot melt by infrared ray welding device, two stuck-modules move, and the welding position of relative two plastics ball hemisphere is pressed on and completes together welding.Infrared ray plastics ball bonding machine of the present utility model, simple to operate, manpower be can not only effectively save, and production efficiency and the quality of production improved, be suitable for mass production.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, technical solutions of the utility model are described further:

Accompanying drawing 1 is the structural representation of infrared ray plastics ball bonding machine of the present utility model;

Accompanying drawing 2 is the partial enlarged drawing of accompanying drawing 1;

Accompanying drawing 3 is another visual angle structural representation of infrared ray plastics ball bonding machine of the present utility model;

Wherein: 1, board; 2, the first shifting sledge; 3, stuck-module; 4, the second shifting sledge; 5, infrared ray welding device; 6, feeding board; 7, conveyer belt; 8, the first hemispherical projections; 9, the 3rd shifting sledge; 10, feeding stuck-module; 11, motor; 12, the 4th shifting sledge; 13, material transfer stuck-module; 14, Acetabula device; 15, the second hemispherical projections.

The specific embodiment

Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail.

Described in the utility model a kind of infrared ray plastics ball bonding machine as shown in accompanying drawing 1-3, comprises board 1, pay-off, the first shifting sledge 2, stuck-module 3, the second shifting sledge 4 and infrared ray welding device 5; Described pay-off is arranged on a side of board 1; Described the first shifting sledge 2 is laterally located on board 1; What described stuck-module 3 can move left and right is arranged on the first shifting sledge 2; Described stuck-module 3 is symmetrically set with two; Described the second shifting sledge 4 is vertically arranged on board 1; Described the second shifting sledge 4 is between two stuck-modules 3; What described infrared ray welding device 5 can move forward and backward is arranged on the second shifting sledge 4; Described pay-off comprises feeding board 6, feeding device and conveying device; The table top of described feeding board 6 is mutually concordant with the table top of board 1; Described feeding device and conveying device are arranged on feeding board 1; Described feeding device is conveyer belt 7; Described conveyer belt 7 is symmetrical is provided with two; Described conveyer belt 7 is gone into battle and is shown a plurality of the first hemispherical projections 8; Described conveying device comprises the 3rd shifting sledge 9, feeding stuck-module 10, motor 11, the 4th shifting sledge 12 and material transfer stuck-module 13; Described the 3rd shifting sledge 9 is laterally located on feeding board 6; What described feeding stuck-module 10 can move left and right is arranged on the 3rd shifting sledge 9; Described feeding stuck-module 10 is symmetrically set with two; Described feeding stuck-module 10 is provided with motor 11; Described motor 11 drive feeding stuck-modules 10 do near and away from the rotation of feeding board 6; Described the 4th shifting sledge 12 is vertically arranged on feeding board 6; Described the 4th shifting sledge 12 is between two feeding stuck-modules 10; What described material transfer stuck-module 13 can move forward and backward is arranged on the 4th shifting sledge 12; On the madial wall of described stuck-module 3 and feeding stuck-module 10, all array has a plurality of Acetabula devices 14; Described Acetabula device 14 and the corresponding setting of the first hemispherical projections 8; Go into battle and show a plurality of the second hemispherical projections 15 in the two side of described material transfer stuck-module 13; Described the second hemispherical projections 15 and the corresponding setting of the first hemispherical projections 8; On described stuck-module 3, feeding stuck-module 10, infrared ray welding device 5, material transfer stuck-module 13, be respectively equipped with and drive its mobile drive motors (not shown) on slide rail separately.

Infrared ray plastics ball bonding machine of the present utility model, during use, is placed on a plurality of plastics ball hemisphere in the first hemispherical projections 8 on conveyer belt 7 successively, and conveyer belt 7 transmits; While being sent to assigned address, the drive motors of feeding stuck-module 10 drives feeding stuck-module 10 to move on the first shifting sledge 2; While moving to assigned address, motor 11 drives feeding stuck-module 10 to the direction rotation near feeding board 6, the Acetabula device 14 of feeding stuck-module 10 inner sides contacts with plastics ball hemisphere, and the plastics ball hemisphere in the first hemispherical projections 8 being placed on conveyer belt 7 is sucked up; Motor 11 drives feeding stuck-module 10 to the direction rotation away from feeding board 6; The drive motors of material transfer stuck-module 13 drives material transfer stuck-module 13 on the 4th shifting sledge 12, to move between two feeding stuck-modules 10; The drive motors of feeding stuck-module 10 drives feeding stuck-module 10 on the 3rd shifting sledge 9, to do the movement near material transfer stuck-module 13, plastics ball hemisphere on Acetabula device 14 contacts with the second hemispherical projections 15, and plastics ball hemisphere is placed in the second hemispherical projections 15 of material transfer stuck-module 13 both sides; The drive motors of feeding stuck-module 10 drives feeding stuck-module 10 on the 3rd shifting sledge 9, to do the movement away from material transfer stuck-module 13; The drive motors of material transfer stuck-module 13 drives material transfer stuck-module 13 on the 4th shifting sledge 12, to move between two stuck-modules 3; The drive motors of stuck-module 3 drives stuck-module 3 on the first shifting sledge 2, to do the movement near material transfer stuck-module 13, the Acetabula device 14 of stuck-module 3 inner sides contacts with plastics ball hemisphere, and the plastics ball hemisphere in the second hemispherical projections 15 being placed in the second hemispherical projections 15 is sucked up; The drive motors of stuck-module 3 drives stuck-module 3 on the first shifting sledge 2, to do the movement away from material transfer stuck-module 13, and the drive motors of material transfer stuck-module 13 drives material transfer stuck-module 13 on the 4th shifting sledge 12, to remove between two stuck-modules 3; The drive motors of infrared ray welding device 5 drives infrared ray welding device 5 on the second shifting sledge 4, to move between two stuck-modules 3; The drive motors of stuck-module 3 drives stuck-module 3 on the first shifting sledge 2, to do the movement near infrared ray welding device 5, and infrared ray welding device 5 carries out the welding position of the plastics ball hemisphere on stuck-module 3 after hot melt; The drive motors of infrared ray welding device 5 drives infrared ray welding device 5 on the second shifting sledge 4, to remove between two stuck-modules 3, the drive motors of stuck-module 3 drives two stuck-modules 3 to move in opposite directions on the first shifting sledge 2, and the welding position of relative two plastics ball hemisphere is pressed on and completes together welding; It is oppositely mobile that the drive motors of stuck-module 3 drives two stuck-modules 3 to do on the first shifting sledge 2, completes the welding process of whole plastics ball.

Infrared ray plastics ball bonding machine of the present utility model, pay-off is delivered to the plastics ball hemisphere of a plurality of injection formed on two stuck-modules, then the welding position that is fixed on two plastics ball hemisphere on stuck-module is undertaken after hot melt by infrared ray welding device, two stuck-modules move, and the welding position of relative two plastics ball hemisphere is pressed on and completes together welding.Infrared ray plastics ball bonding machine of the present utility model, simple to operate, manpower be can not only effectively save, and production efficiency and the quality of production improved, be suitable for mass production.

Above-mentioned infrared ray plastics ball bonding machine, when described the second shifting sledge and the 4th shifting sledge join, equipment running is more steadily smooth, and the quality of the plastics ball of welding is also better.

Below be only concrete exemplary applications of the present utility model, protection domain of the present utility model is not constituted any limitation.All employing equivalents or equivalence are replaced and the technical scheme of formation, within all dropping on the utility model rights protection scope.

Claims (8)

1. an infrared ray plastics ball bonding machine, is characterized in that: comprise board, pay-off, the first shifting sledge, stuck-module, the second shifting sledge and infrared ray welding device; Described pay-off is arranged on a side of board; Described the first shifting sledge is laterally located on board; What described stuck-module can move left and right is arranged on the first shifting sledge; Described stuck-module is symmetrically set with two; Described the second shifting sledge is vertically arranged on board; Described the second shifting sledge is between two stuck-modules; What described infrared ray welding device can move forward and backward is arranged on the second shifting sledge.

2. infrared ray plastics ball bonding machine according to claim 1, is characterized in that: described pay-off comprises feeding board, feeding device and conveying device; The table top of described feeding board is mutually concordant with the table top of board; Described feeding device and conveying device are arranged on feeding board.

3. infrared ray plastics ball bonding machine according to claim 2, is characterized in that: described feeding device is conveyer belt; Described conveyer belt is symmetrical is provided with two; Described conveyer belt is gone into battle and is shown a plurality of the first hemispherical projections.

4. according to the infrared ray plastics ball bonding machine one of claim 1～3 Suo Shu, it is characterized in that: described conveying device comprises the 3rd shifting sledge, feeding stuck-module, motor, the 4th shifting sledge and material transfer stuck-module; Described the 3rd shifting sledge is laterally located on feeding board; What described feeding stuck-module can move left and right is arranged on the 3rd shifting sledge; Described feeding stuck-module is symmetrically set with two; Described feeding stuck-module is provided with motor; Described driven by motor feeding stuck-module do near and away from the rotation of feeding board; Described the 4th shifting sledge is vertically arranged on feeding board; Described the 4th shifting sledge is between two feeding stuck-modules; What described material transfer stuck-module can move forward and backward is arranged on the 4th shifting sledge.

5. infrared ray plastics ball bonding machine according to claim 4, is characterized in that: on the madial wall of described stuck-module and feeding stuck-module, all array has a plurality of Acetabula devices; Described Acetabula device and the corresponding setting of the first hemispherical projections.

6. infrared ray plastics ball bonding machine according to claim 5, is characterized in that: go into battle and show a plurality of the second hemispherical projections in the two side of described material transfer stuck-module; Described the second hemispherical projections and the corresponding setting of the first hemispherical projections.

7. infrared ray plastics ball bonding machine according to claim 6, is characterized in that: described stuck-module is provided with the first drive motors that drives stuck-module to move on the first shifting sledge; Described feeding stuck-module is provided with the second drive motors that drives feeding stuck-module to move on the 3rd shifting sledge; Described infrared ray welding device is provided with the 3rd drive motors that drives outside line welder to move on the second shifting sledge; Described material transfer stuck-module is provided with the 4th drive motors that drives material transfer stuck-module to move on the 4th shifting sledge.

8. infrared ray plastics ball bonding machine according to claim 4, is characterized in that: described the second shifting sledge and the 4th shifting sledge join.