CN219664250U - A injecting glue conveyor for machine oil filter production - Google Patents

Abstract

The utility model discloses a glue injection conveying device for producing an engine oil filter, which comprises a mounting frame, a conveying mechanism and a glue injection mechanism, wherein two ends of the top of the mounting frame are respectively a feeding end and a discharging end, a glue injection station is formed between the feeding end and the discharging end of the mounting frame, a fixing frame for installing the glue injection mechanism is arranged on the glue injection station, and the conveying mechanism is arranged at the top of the mounting frame and is used for conveying a workpiece from the feeding end to the discharging end; the glue injection mechanism comprises a blocking module, a rotary jacking module and a glue injection module, wherein the blocking module and the glue injection module are arranged on the fixing frame, and the blocking module is positioned below the glue injection module and used for blocking a workpiece at a glue injection station or releasing the workpiece from the glue injection station; the rotary jacking module is arranged on the glue injection station in a lifting manner, and is used for jacking and supporting the workpiece and driving the workpiece to rotate after the workpiece is blocked by the blocking module, and the glue injection module is used for injecting glue to the inner side surface of the workpiece along with the rotation of the workpiece. The utility model can automatically glue the workpiece.

Description

A injecting glue conveyor for machine oil filter production

Technical Field

The utility model relates to the technical field of machine oil filter production equipment, in particular to a glue injection conveying device for machine oil filter production.

Background

At present, the filter core of the engine oil filter comprises a core loading top cover, a core loading base, a filter core barrel and a filter cloth barrel, wherein the filter core barrel is sleeved with the filter cloth barrel, the core loading top cover is mounted on the top end of the filter core barrel, the core loading base is mounted on the bottom end of the filter core barrel, and two ends of the filter core barrel are respectively clamped with the core loading top cover and the core loading base, so that the filter core of the engine oil filter is assembled.

At present, in order to improve the filter element stability after the assembly, the inner side surfaces of the core loading top cover and the core loading base are coated with glue, so that when the two ends of the filter element cylinder are clamped with the core loading top cover and the core loading base respectively, the top and the bottom of the filter cloth cylinder are respectively adhered by the glue coating layers of the inner side surfaces of the core loading top cover and the core loading base, and the filter element stability after the assembly is improved. However, the existing glue coating on the inner side surfaces of the core-filling top cover and the core-filling base mainly adopts manual operation, and the efficiency is low.

Disclosure of Invention

The utility model aims to provide a glue injection conveying device for producing an engine oil filter, which can efficiently and automatically glue on the inner side surfaces of a core-filling top cover and a core-filling base.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a injecting glue conveyor for machine oil filter production, includes mounting bracket, conveying mechanism and injecting glue mechanism, the top both ends of mounting bracket are pan feeding end and discharge end respectively, and the mounting bracket is formed with a injecting glue station between pan feeding end and discharge end to set up on injecting glue station and supply injecting glue mechanism installs the mount, conveying mechanism sets up at the top of mounting bracket for carry the work piece from pan feeding end to discharge end; the glue injection mechanism comprises a blocking module, a rotary jacking module and a glue injection module, wherein the blocking module and the glue injection module are arranged on a fixing frame, and the blocking module is positioned below the glue injection module and used for blocking a workpiece at a glue injection station or releasing the workpiece from the glue injection station; the rotary jacking module is arranged on the glue injection station in a lifting manner, after the blocking module blocks the workpiece, the rotary jacking module jacks up the workpiece and drives the workpiece to rotate, and the glue injection module injects glue to the inner side surface of the workpiece along with the rotation of the workpiece.

As a further technical scheme of the utility model: the blocking module comprises a first rotating shaft rotatably arranged on the fixing frame, a blocking piece fixedly arranged on the rotating shaft and a blocking driving unit used for driving the first rotating shaft to rotate, wherein the blocking driving unit is used for driving the first rotating shaft to rotate in a reciprocating manner, and the blocking piece swings along with the reciprocating rotation of the first rotating shaft to block a workpiece at or release the workpiece from the glue injection station.

As a further technical scheme of the utility model: the rotary jacking module comprises a lifting seat frame which is arranged in the mounting frame in a lifting manner, a jacking rotating rod which is rotatably and vertically arranged on the lifting seat frame, a rotation driving unit which is arranged on the lifting seat frame and used for driving the jacking rotating rod to rotate, and a lifting driving unit which is arranged in the mounting frame and used for driving the lifting seat frame to lift.

As a further technical scheme of the utility model: the glue injection module comprises an assembly seat arranged on the fixing frame, a glue injection unit penetrating through one end of the assembly seat and a positioning rotating rod capable of penetrating through the other end of the assembly seat in an up-down movable mode, wherein the positioning rotating rod is correspondingly arranged in a straight line with the jacking rotating rod, when the jacking rotating rod lifts up a workpiece, the workpiece lifts up the positioning rotating rod, and the positioning rotating rod rotates along with the rotation of the workpiece.

As a further technical scheme of the utility model: a baffle disc is arranged at the top of the positioning rotating rod and used for preventing the positioning rotating rod from falling off the assembly seat; the assembly seat is correspondingly provided with an induction piece at the position of the baffle disc after the workpiece lifts the positioning rotating rod, the induction piece inducts the baffle disc after the workpiece lifts the positioning rotating rod, and the induction piece transmits a signal to the glue injection unit, so that the glue injection unit injects glue outwards.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides a glue injection conveying device for producing an engine oil filter, which realizes automatic glue coating on the inner sides of a core-filling top cover and a core-filling base of the engine oil filter through the cooperation among a mounting frame, a conveying mechanism and a glue injection mechanism, and effectively improves the production efficiency of the engine oil filter.

Drawings

Fig. 1 is a schematic view of a conveying mechanism of an injection conveying device.

Fig. 2 is a cross-sectional view A-A of fig. 1.

Fig. 3 is a gel injection state diagram of the gel injection module.

Fig. 4 is a schematic diagram of an injection module of the injection delivery device.

Detailed Description

The following describes specific embodiments of the present utility model in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the utility model, are not intended to limit the scope of the utility model.

Referring to fig. 1 and 2, a glue injection and conveying device for producing an engine oil filter comprises a mounting frame 10, a conveying mechanism 20 and a glue injection mechanism 30, wherein two ends of the top of the mounting frame 10 are respectively provided with a feeding end 101 and a discharging end 102, a glue injection station 103 is formed between the feeding end 101 and the discharging end 102 of the mounting frame 10, a fixing frame 104 for installing the glue injection mechanism 30 is arranged on the glue injection station 103, and the conveying mechanism 20 is arranged on the top of the mounting frame 10 and is used for conveying a workpiece from the feeding end 101 to the discharging end 102; referring to fig. 3 and 4 in combination, the glue injection mechanism 30 includes a blocking module 31, a rotary jacking module 32 and a glue injection module 33, wherein the blocking module 31 and the glue injection module 33 are both disposed on the fixing frame 104, and the blocking module 31 is located below the glue injection module 33 to block the workpiece at the glue injection station 103 or release the workpiece from the glue injection station 103; the rotary jacking module 32 is arranged on the glue injection station 103 in a lifting manner, after the blocking module 31 blocks the workpiece, the rotary jacking module 32 jacks up the workpiece and drives the workpiece to rotate, and the glue injection module 33 injects glue to the inner side surface of the workpiece along with the rotation of the workpiece.

Further, referring to fig. 2 and 4, the blocking module 31 includes a first rotating shaft 311 rotatably disposed on the fixing frame 104, a blocking member 312 fixedly disposed on the first rotating shaft 311, and a blocking driving unit for driving the first rotating shaft 311 to rotate, so that the blocking driving unit drives the first rotating shaft 311 to rotate reciprocally, and the blocking member 312 swings along with the reciprocal rotation of the first rotating shaft 311 to block the workpiece at the injection station 103 or release the workpiece from the injection station 103.

Further, referring to fig. 2, the rotary lifting module 32 includes a lifting seat frame 321 that is disposed in the mounting frame 10 in a liftable manner, a lifting rotating rod 322 that is rotatably disposed on the lifting seat frame 321 in a standing manner, a rotation driving unit 323 that is disposed on the lifting seat frame 321 and is used for driving the lifting rotating rod 322 to rotate, and a lifting driving unit 324 that is disposed in the mounting frame 10 and is used for driving the lifting seat frame 321 to lift, wherein the top end of the lifting rotating rod 322 penetrates out to the glue injection station 103, and when the lifting driving unit 324 drives the lifting seat frame 321 to lift, the lifting rotating rod 322 lifts up at the glue injection station 103 along with the lifting seat frame 321, so as to lift up the workpiece blocked by the blocking module 31, and the workpiece rotates along with the rotation of the lifting rotating rod 322 under the driving of the rotation driving unit 323.

Further, referring to fig. 3 and 4, the glue injection module 33 includes an assembling seat 331 disposed on the fixing frame 104, a glue injection unit 332 penetrating one end of the assembling seat 331 for injecting glue to the outside, and a positioning rotating rod 333 capable of penetrating the other end of the assembling seat 331 vertically, wherein the positioning rotating rod 333 is correspondingly disposed in a straight line with the lifting rotating rod 322, so that when the lifting rotating rod 322 lifts up the workpiece, the workpiece lifts up the positioning rotating rod 333, and the positioning rotating rod 333 rotates along with the rotation of the workpiece; a baffle disc 3331 is arranged at the top of the positioning rotating rod 333 to prevent the positioning rotating rod 333 from falling out of the assembling seat 331; the assembly seat 331 is correspondingly provided with a sensing piece 334 at the position of the baffle disc 3331 where the workpiece lifts the positioning rotating rod 333, so that after the workpiece lifts the positioning rotating rod 333, the sensing piece 334 senses the baffle disc 3331, and the sensing piece 334 transmits a signal to the glue injection unit 332, so that the glue injection unit 332 injects glue outwards.

Further, the glue injection mechanism 30 includes a glue reservoir that may be disposed on the fixing frame 104 or the mounting frame 10 for storing glue and delivering glue to the glue injection unit 332.

Further, referring to fig. 1 and 2, the conveying mechanism 20 is formed with a plurality of conveying channels 11 on the mounting frame 10, and two guide rails 12 are oppositely arranged on two sides of each conveying channel 11 of the mounting frame 10; the conveying mechanism 20 comprises a material preparation conveying structure 21, a material discharge conveying structure 22 and a material distribution structure 23 which are sequentially arranged at two ends of the top of the mounting frame 10, wherein the material preparation conveying structure 21 and the material discharge conveying structure 22 are arranged between the material preparation conveying structure 21 and the material discharge conveying structure 22, the material preparation conveying structure 21 and the material discharge conveying structure 22 are the same in structure, each material preparation conveying structure comprises two conveying shafts 201 which are oppositely arranged, and a conveying driving unit 202 which is used for driving the conveying shafts 201 to rotate, two driving wheels 2011 are oppositely and fixedly arranged on two sides of each conveying shaft 201, which correspond to each conveying channel 11, and conveying belts 2012 are sleeved on the driving wheels 2011, which correspond to each front and rear of the two conveying shafts 201, so that each conveying channel 11 can convey workpieces in a supporting manner through the two conveying belts 2012, and the lifting rods 322 can conveniently lift spaces reserved between the two conveying belts 2012; the material distributing structure 23 is disposed in front of the glue injecting mechanism 30, and includes two frame plates 231 disposed on two sides of the mounting frame 10, a second rotating shaft 232 rotatably disposed between the two frame plates 231, and a material distributing driving unit for driving the second rotating shaft 232 to rotate, where a material distributing blocking member 2321 is disposed on the second rotating shaft 232 corresponding to each conveying channel 11, and the material distributing driving unit drives the second rotating shaft 232 to rotate reciprocally, and the material distributing blocking member 2321 swings along with the reciprocal rotation of the second rotating shaft 232 to block the workpiece between the material preparing conveying structure 21 and the material discharging conveying structure 22 or release the workpiece from between the material preparing conveying structure 21 and the material discharging conveying structure 22.

Further, the inner side surface of the guide rail 12 is provided with a pallet 24 on a section thereof between the stock conveying structure 21 and the discharge conveying structure 22, so that the workpiece is conveyed from the stock conveying structure 21 to the pallet 24 and then from the pallet 24 to the discharge conveying structure 22, and when the workpiece is conveyed from the stock conveying structure 21 to the pallet 24, the workpiece is stopped on the pallet 24, and at the same time, the distributing blocking member 2321 swings down along with the rotation of the second rotating shaft 232 to block the workpiece; subsequently, the distributing blocking member 2321 swings upward along with the rotation of the second rotating shaft 232, the workpiece is pushed onto the discharging conveying structure 22 by the workpiece after being conveyed from the material preparing conveying structure 21 to the supporting plate 24, the workpiece after being stopped on the supporting plate 24, the above-mentioned process is repeated, the distributing of the workpiece is realized, the material preparing conveying structure 21 can convey multiple workpieces simultaneously, and the workpieces are conveyed from the material preparing conveying structure 21 to the discharging conveying structure 22 one by one under the cooperation of the supporting plate 24 and the distributing structure 23.

Further, referring to fig. 4, the number of the lifting rods 322 and the glue injection modules 33 of the rotating lifting module 32 is the same as that of the conveying channels 11, and each lifting rod 322 and one glue injection module 33 of the rotating lifting module 32 are arranged corresponding to one conveying channel 11, so that a plurality of workpieces can be synchronously conveyed by a plurality of conveying channels 11, and the workpieces are synchronously injected with glue, thereby effectively improving the production efficiency of the engine oil filter.

Further, referring to fig. 2, in this embodiment, the blocking driving unit and the material separating driving unit are of the same structure, and include a first transmission gear 41 disposed on the first rotating shaft 311, a second transmission gear 42 disposed on the second rotating shaft 232, a driving motor 43 disposed on the mounting frame 10, a third transmission gear 44 disposed on a driving shaft of the driving motor 43, and a transmission chain 45 sleeved on the first transmission gear 41, the second transmission gear 42 and the third transmission gear 44, so that the driving shaft of the driving motor 43 reciprocally rotates, and the first transmission gear 41, the second transmission gear 42, the third transmission gear 44 and the transmission chain 45 cooperate to drive the first rotating shaft 311 and the second rotating shaft 232 reciprocally rotate.

It can be appreciated that the use method of the glue injection and delivery device for producing the engine oil filter is as follows: the workers input the workpieces to a plurality of conveying channels 11 respectively, the workpieces on each conveying channel 11 are conveyed from the material preparation conveying structure 21 to the material discharge conveying structure 22, and when the workpieces are conveyed between the material preparation conveying structure 21 and the material discharge conveying structure 22, the workpieces are matched with the supporting plates 24 through the material distribution structure 23, so that the workpieces are conveyed from the material preparation conveying structure 21 to the material discharge conveying structure 22 one by one; the workpiece is conveyed to the glue injection station 103 by the discharging conveying structure 22, the workpiece is blocked at the glue injection station 103 by the blocking module 31, and is lifted and supported by the rotary lifting module 32 and driven to rotate by the rotary lifting module 32 so as to be injected into the inner side surface of the workpiece by the glue injection module 33; after the glue injection is completed, the rotary jacking module 32 drives the workpiece to return, the blocking module 31 releases the workpiece from the glue injection station 103, and the discharging conveying structure 22 outputs the workpiece. Thus, automatic gluing of the inner side surfaces of the core-filling top cover and the core-filling base of the engine oil filter is completed.

In summary, according to the glue injection and conveying device for producing the engine oil filter, through the cooperation among the mounting frame 10, the conveying mechanism 20 and the glue injection mechanism 30, automatic glue coating on the inner side surfaces of the core-filling top cover and the core-filling base of the engine oil filter is realized, and the production efficiency of the engine oil filter is effectively improved.

Any combination of the various embodiments of the utility model should be considered as being within the scope of the present disclosure, as long as the inventive concept is not violated; within the scope of the technical idea of the utility model, any combination of various simple modifications and different embodiments of the technical proposal without departing from the inventive idea of the utility model should be within the scope of the utility model.

Claims (5)

1. A injecting glue conveyor for production of engine oil filter, its characterized in that: the device comprises a mounting frame (10), a conveying mechanism (20) and a glue injection mechanism (30), wherein two ends of the top of the mounting frame (10) are respectively provided with a feeding end (101) and a discharging end (102), a glue injection station (103) is formed between the feeding end (101) and the discharging end (102), a fixing frame (104) for installing the glue injection mechanism (30) is arranged on the glue injection station (103), and the conveying mechanism (20) is arranged at the top of the mounting frame (10) and is used for conveying workpieces from the feeding end (101) to the discharging end (102); the glue injection mechanism (30) comprises a blocking module (31), a rotary jacking module (32) and a glue injection module (33), wherein the blocking module (31) and the glue injection module (33) are arranged on a fixing frame (104), and the blocking module (31) is positioned below the glue injection module (33) and used for blocking a workpiece at a glue injection station (103) or releasing the workpiece from the glue injection station (103); the rotary jacking module (32) is arranged on the glue injection station (103) in a lifting manner, after the blocking module (31) blocks the workpiece, the rotary jacking module (32) jacks up the workpiece and drives the workpiece to rotate, and the glue injection module (33) injects glue to the inner side surface of the workpiece along with the rotation of the workpiece.

2. The glue injection delivery device for oil filter production of claim 1, wherein: the blocking module (31) comprises a first rotating shaft (311) rotatably arranged on the fixing frame (104), a blocking piece (312) fixedly arranged on the first rotating shaft (311) and a blocking driving unit for driving the first rotating shaft (311) to rotate, wherein the blocking driving unit is used for driving the first rotating shaft (311) to rotate in a reciprocating manner, and the blocking piece (312) swings along with the reciprocating rotation of the first rotating shaft (311) to block a workpiece at the glue injection station (103) or release the workpiece from the glue injection station (103).

3. The glue injection delivery device for oil filter production of claim 1, wherein: the rotary jacking module (32) comprises a lifting seat frame (321) which is arranged in the mounting frame (10) in a lifting manner, a jacking rotating rod (322) which is arranged on the lifting seat frame (321) in a rotatable manner, a rotation driving unit (323) which is arranged on the lifting seat frame (321) and used for driving the jacking rotating rod (322) to rotate, and a lifting driving unit (324) which is arranged in the mounting frame (10) and used for driving the lifting seat frame (321) to lift, wherein the top end of the jacking rotating rod (322) penetrates out to the glue injection station (103), and when the lifting driving unit (324) drives the lifting seat frame (321) to lift, the jacking rotating rod (322) lifts up at the glue injection station (103) along with the lifting seat frame (321), and a workpiece blocked by the blocking module (31) is supported under the driving of the rotation driving unit (323) and rotates along with the rotation of the jacking rotating rod (322).

4. A glue injection delivery device for use in the production of an oil filter as defined in claim 3, wherein: the glue injection module (33) comprises an assembly seat (331) arranged on the fixing frame (104), a glue injection unit (332) penetrating through one end of the assembly seat (331) and a positioning rotating rod (333) penetrating through the other end of the assembly seat (331) in an up-down movable mode, wherein the positioning rotating rod (333) is correspondingly arranged in a straight line with the jacking rotating rod (322), when the jacking rotating rod (322) lifts up a workpiece, the workpiece lifts up the positioning rotating rod (333), and the positioning rotating rod (333) rotates along with the rotation of the workpiece.

5. The glue injection delivery device for oil filter production of claim 4, wherein: a baffle disc (3331) is arranged at the top of the positioning rotating rod (333) and used for preventing the positioning rotating rod (333) from falling off from the assembly seat (331); the assembly seat (331) is equipped with inductor (334) correspondingly in the fender dish (3331) place after work piece will fix a position bull stick (333) jack-up, supplies the work piece to fix a position bull stick (333) jack-up after, inductor (334) induct fender dish (3331), inductor (334) transmission signal to injecting glue unit (332), makes injecting glue unit (332) external injecting glue.