CN215773592U

CN215773592U - Non-contact infrared heating positioning carrier mechanism

Info

Publication number: CN215773592U
Application number: CN202121530807.8U
Authority: CN
Inventors: 刘象燕; 刘米财; 肖鹏
Original assignee: Kunshan Wenwen Automation Equipment Co ltd
Current assignee: Kunshan Wenwen Automation Equipment Co ltd
Priority date: 2021-07-07
Filing date: 2021-07-07
Publication date: 2022-02-08
Anticipated expiration: 2031-07-07

Abstract

The utility model discloses a non-contact infrared heating positioning carrier mechanism, which comprises a turntable, a plurality of groups of positioning carriers arranged on the upper part and the lower part of the turntable in the circumferential direction, a heating assembly arranged outside the turntable and positioned between the groups of positioning carriers, and rotating crimping assemblies respectively arranged above and below the heating assembly and positioned outside the corresponding positioning carriers; the carousel is equipped with the support that is used for installing the location carrier, the location carrier is including locating the planking in the outside of support, locating the inboard inner panel of support, connecting planking and inner panel and running through the guide pin bushing of support, the holding ring of connecting the inner panel, imbed the intra-annular location head of location and run through the rotatable intercommunication post that the inner panel is connected to the location head, be equipped with a plurality of springs between planking and the support. The utility model realizes the positioning carrier for automatically adjusting the heating space distance, and ensures that the product is accurately positioned and fully heated.

Description

Non-contact infrared heating positioning carrier mechanism

Technical Field

The utility model belongs to the technical field of automatic processing, and particularly relates to a non-contact infrared heating positioning carrier mechanism.

Background

Due to the particularity of a product to be processed, a heating procedure before assembly is required, a traditional heating device is set at a fixed position on a station, and the product to be processed needs to be set in advance to be spaced from the heating device, so that the product to be processed is not damaged by overheating while a certain heating effect is achieved, the manual debugging process is complex, the consumed time is long, and the automatic adjustable and controllable processing operation cannot be met; the positioning of the product to be processed is inaccurate, so that the heating is uneven, and the requirement of accurate assembly cannot be met.

SUMMERY OF THE UTILITY MODEL

The present invention aims to solve the above technical problems, and provides a non-contact infrared heating positioning carrier mechanism, so as to realize a positioning carrier for automatically adjusting the heating space distance, and ensure accurate positioning and sufficient heating of a product. In order to achieve the purpose, the technical scheme of the utility model is as follows:

the non-contact infrared heating positioning carrier mechanism comprises a turntable, a plurality of groups of positioning carriers arranged on the upper part and the lower part of the turntable in the circumferential direction, a heating assembly arranged outside the turntable and positioned between the positioning carriers, and rotating compression joint assemblies respectively arranged above and below the heating assembly and positioned outside the corresponding positioning carriers; the carousel is equipped with the support that is used for installing the location carrier, the location carrier is including locating the planking in the outside of support, locating the inboard inner panel of support, connecting planking and inner panel and running through the guide pin bushing of support, the holding ring of connecting the inner panel, imbedding the intra-annular location head of location and running through the rotatable intercommunication post that the inner panel is connected to the location head, be equipped with a plurality of springs between planking and the support, the surface of location head is equipped with the annular with the corresponding location complex of product, planking and support all are equipped with the coaxial through-hole of dodging the intercommunication post.

Specifically, the outer periphery of the outer plate is surrounded by a limiting guide rod which penetrates through the support to connect the inner plate and the positioning ring, and the limiting guide rod is provided with a limiting ring which is in limiting fit with the support.

Specifically, be equipped with the lantern ring between intercommunication post and the inner panel, the terminal surface butt holding ring of lantern ring, the side of inner panel can be dismantled and be connected with the solid fixed ring of butt support.

Specifically, the communication column is of a T-shaped structure, and the upper portion of the communication column is limited in the fixed ring.

Specifically, heating element includes scalable removal the connecting plate, locate the upper heating plate of connecting plate top, locate the lower hot plate of connecting plate below, the connecting plate is connected with the first cylinder of its removal of drive.

Specifically, the rotating crimping component comprises a group of compression bars capable of lifting and moving, a driving disc arranged on the side edge of each compression bar, a driving belt sleeved between the driving disc and each compression bar, and a rotating joint arranged at the end part of each compression bar; the pressure lever is connected with a second air cylinder for driving the pressure lever to move.

Specifically, the tip that the rotating connects is equipped with the cross recess, the rotating connects and the corresponding setting of through-hole, the surface of intercommunication post is equipped with the detachable installed part, the rotating connects the butt intercommunication post surface, the installed part matches with the butt joint of cross recess screens.

Compared with the prior art, the non-contact infrared heating positioning carrier mechanism has the beneficial effects that:

the positioning carrier has an elastic telescopic function and a positioning head rotatable function, so that a product in the positioning head can be more accurately adjusted in positioning position, the heating position is accurate, and the heating is uniform and sufficient; a group of pressure bars of the rotary compression joint assembly are synchronously rotated, lifted and arranged, and can synchronously rotate corresponding to the positioning heads in the corresponding positioning carriers, so that efficient positioning machining operation is realized.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of a positioning carrier structure according to the present embodiment;

FIG. 3 is a second schematic view of the positioning carrier structure in the present embodiment;

FIG. 4 is a schematic cross-sectional view of the positioning carrier of the present embodiment;

FIG. 5 is a schematic structural diagram of a heating assembly according to the present embodiment;

FIG. 6 is a schematic view of a rotary press-fit assembly of the present embodiment;

fig. 7 is a schematic structural diagram of a rotary joint in the present embodiment;

the figures in the drawings represent:

the device comprises a turntable 1, a positioning carrier 11, a bracket 12, a heating assembly 2, a connecting plate 21, an upper heating plate 22, a lower heating plate 23, a first air cylinder 24, a rotary compression joint assembly 3, a pressure rod 31, a driving disc 32, a driving belt 33, a rotary joint 34, a second air cylinder 35, a cross groove 36, an outer plate 4, an inner plate 41, a guide sleeve 42, a positioning ring 43, a positioning head 44, a communication column 45, a spring 46, a product 47, an annular groove 48, a through hole 49, a limiting guide rod 5, a limiting ring 51, a lantern ring 52, a fixing ring 53, a ball 54 and a limiting screw 6.

Detailed Description

The technical solutions in the embodiments of the present invention are described clearly and completely below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments.

Example (b):

referring to fig. 1-7, the present embodiment is a non-contact infrared heating positioning carrier mechanism, which includes a turntable 1, a plurality of sets of positioning carriers 11 installed at the upper and lower portions of the turntable 1 in the circumferential direction, a heating assembly 2 installed outside the turntable 1 and located between the sets of positioning carriers 11, and a rotating crimping assembly 3 respectively installed above and below the heating assembly 2 and located outside the corresponding positioning carriers 11.

The upper part and the lower part of the rotary table 1 are respectively provided with a bracket 12 for installing a positioning carrier 11. The positioning carrier 11 includes an outer plate 4 disposed on the outer side of the bracket 12, an inner plate 41 disposed on the inner side of the bracket 12, a guide sleeve 42 connecting the outer plate 4 and the inner plate 41 and penetrating through the bracket 12, a positioning ring 43 connecting the inner plate 41, a positioning head 44 embedded in the positioning ring 43, and a rotatable communication post 45 penetrating through the inner plate 41 and connected to the positioning head 44. A plurality of springs 46 are arranged between the outer plate 4 and the bracket 12, and the surface of the positioning head 44 is provided with a ring groove 48 which is correspondingly positioned and matched with the product 47. The outer plate 4 and the bracket 12 are both provided with through holes 49 coaxially avoiding the communication columns 45.

The outer periphery of the outer plate 4 is surrounded by a limit guide rod 5 which penetrates through the bracket 12 and connects the inner plate 41 and the positioning ring 43, and the limit guide rod 5 is provided with a limit ring 51 which is in limit fit with the bracket 12 and is used for guiding the moving distance of the inner plate 41.

A collar 52 is arranged between the communication post 45 and the inner plate 41, and the end surface of the collar 52 abuts against the positioning ring 43. The side of the inner plate 41 is detachably connected with a fixing ring 53 abutting against the bracket 12. The communication column 45 is of a T-shaped structure, and the upper part of the communication column 45 is limited in the fixing ring 53. The outer wall of the communication post 45 is provided with a ball 54 which is in sliding fit with the fixed ring 53.

A group of limiting screws 6 are arranged between the outer plate 4 and the bracket 12 and used for limiting the rebound distance of the outer plate 4.

The heating assembly 2 comprises a connecting plate 21 capable of moving in a telescopic mode, an upper heating plate 22 arranged above the connecting plate 21 and a lower heating plate 23 arranged below the connecting plate 21, and the connecting plate 21 is connected with a first air cylinder 24 for driving the connecting plate to move. Both the upper heating plate 22 and the lower heating plate 23 are infrared heating plates in this embodiment. The upper heating plate 22 corresponds to the positioning carrier 11 located at the upper part of the turntable 1, and the lower heating plate 23 corresponds to the positioning carrier 11 located at the lower part of the turntable 1.

The rotating crimping component comprises a group of pressure rods 31 which can move up and down, a driving disc 32 arranged on the side edge of the pressure rod 31, a driving belt 33 sleeved between the driving disc 32 and each pressure rod 31, and a rotating joint 34 arranged at the end part of the pressure rod 31. The pressure lever 31 is connected with a second air cylinder 35 for driving the pressure lever to move. The driving disk 32 is connected with a motor for driving the driving disk to rotate, and the driving disk 32 drives the driving belt 33 to synchronously rotate the pressing rod 31.

The end of the rotary joint 34 is provided with a cross-shaped groove 36, the rotary joint 34 is arranged corresponding to the through hole 49, the surface of the communicating column 45 is provided with a detachable mounting piece (not shown in the figure), the rotary joint 34 is abutted against the surface of the communicating column 45, and the mounting piece is in butt joint with the cross-shaped groove 36 in a clamping mode. When the pressing rod 31 penetrates through the through hole 49 and abuts against the communication column 45, the pressing rod 31 can drive the communication column 45 to lift and rotate, the positioning head 44 carries the product 47 to rotate, the positioning head 44 is close to the heating assembly 2 to heat, and the product 47 is heated more uniformly and fully through the rotation action.

When the embodiment is applied, the product 47 is positioned in the positioning carrier 11, the turntable 1 rotates to position the positioning carrier 11 to the position of the heating element 2, and the pressing and connecting element 3 rotates and presses the positioning head 44 in the positioning carrier 11, so that the product 47 is closer to the heating element 2 for heating operation.

In the embodiment, the positioning carrier 11 has the elastic telescopic function and the positioning head rotatable function, so that the product 47 in the positioning head 44 can be more accurately adjusted in positioning position, the heating position is accurate, and the heating is uniform and sufficient; a group of pressure rods 31 of the rotary compression joint component 3 are synchronously rotated and lifted, and can synchronously rotate corresponding to the positioning heads 44 in the corresponding positioning carriers 11, so that the high-efficiency positioning processing operation is realized.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the utility model.

Claims

1. Non-contact infrared heating location carrier mechanism, its characterized in that: the device comprises a turntable, a plurality of groups of positioning carriers arranged on the upper part and the lower part of the turntable in the circumferential direction, a heating assembly arranged outside the turntable and positioned between the positioning carriers, and rotating crimping assemblies respectively arranged above and below the heating assembly and positioned outside the corresponding positioning carriers; the carousel is equipped with the support that is used for installing the location carrier, the location carrier is including locating the planking in the outside of support, locating the inboard inner panel of support, connecting planking and inner panel and running through the guide pin bushing of support, the holding ring of connecting the inner panel, imbedding the intra-annular location head of location and running through the rotatable intercommunication post that the inner panel is connected to the location head, be equipped with a plurality of springs between planking and the support, the surface of location head is equipped with the annular with the corresponding location complex of product, planking and support all are equipped with the coaxial through-hole of dodging the intercommunication post.

2. The non-contact infrared heating positioning carrier mechanism of claim 1, wherein: the outer periphery of the outer plate is surrounded with a limit guide rod which penetrates through the support to connect the inner plate and the positioning ring, and the limit guide rod is provided with a limit ring which is in limit fit with the support.

3. The non-contact infrared heating positioning carrier mechanism of claim 1, wherein: the connecting column is characterized in that a sleeve ring is arranged between the connecting column and the inner plate, the end face of the sleeve ring is abutted to the positioning ring, and the side face of the inner plate is detachably connected with a fixing ring of the abutting support.

4. The non-contact infrared heating positioning carrier mechanism of claim 3, wherein: the communication column is of a T-shaped structure, and the upper part of the communication column is limited in the fixed ring.

5. The non-contact infrared heating positioning carrier mechanism of claim 1, wherein: the heating assembly comprises a connecting plate capable of moving in a telescopic mode, an upper heating plate arranged above the connecting plate, and a lower heating plate arranged below the connecting plate, and the connecting plate is connected with a first air cylinder driving the connecting plate to move.

6. The non-contact infrared heating positioning carrier mechanism of claim 1, wherein: the rotary crimping component comprises a group of pressure rods capable of lifting and moving, a driving disc arranged on the side edge of each pressure rod, a driving belt sleeved between the driving disc and each pressure rod, and a rotary joint arranged at the end part of each pressure rod; the pressure lever is connected with a second air cylinder for driving the pressure lever to move.

7. The non-contact infrared heating positioning carrier mechanism of claim 6, wherein: the end part of the rotating joint is provided with a cross groove, the rotating joint is arranged corresponding to the through hole, the surface of the communicating column is provided with a detachable mounting piece, the rotating joint is abutted against the surface of the communicating column, and the mounting piece is in butt joint with the clamping position of the cross groove.