CN217196309U - PE thermoplastic film mixer with dust removal structure - Google Patents

Abstract

The application provides a PE thermoplasticity membrane blendor with dust removal structure belongs to thermoplasticity membrane blendor technical field. This PE thermoplastic film blendor with dust removal structure, including organism, two dust screens and two grafting mechanisms, organism top intercommunication is provided with dust absorption mechanism, the air intake has all been seted up on the both ends lateral wall of organism, two equal fixed mounting has pushing mechanism, two in the air intake the top and the bottom of air intake all are seted up flutedly, two the dust screen is inserted respectively and is located two in the air intake. Through setting up inserted block and slider mechanism, promote two slider mechanisms simultaneous movement of one side, make two inserted blocks of one side move to the recess that corresponds in, can remove the fixed to the dust screen, then pushing mechanism then can promote the dust screen motion, realizes promoting the dust screen to the air intake outside, then can take off the dust screen and wash convenient to detach dust screen.

Description

PE thermoplastic film mixer with dust removal structure

Technical Field

The application relates to a heat and plastic film blendor field particularly, relates to a PE heat and plastic film blendor with dust removal structure.

Background

PE thermoplasticity membrane is a protection film for the winding goods can play waterproof effect, and PE thermoplasticity membrane production process needs mix the raw materials, and at the mixing process, the dust on the raw materials can float inside the blendor, needs detach the dust through dust collector.

In the correlation technique, seted up the opening on the blendor lateral wall, absorbed the inside dust of blendor through the mode of breathing in, installation dust screen in the opening simultaneously for filter external dust, but opening part air flow is fast, can make dust on the dust screen gather speed and become fast, and current blendor is not convenient for dismantle the dust screen, thereby can influence the change of dust screen and wash.

SUMMERY OF THE UTILITY MODEL

In order to compensate above not enough, the application provides a PE thermoplasticity membrane blendor with dust removal structure, aims at improving the problem that current blendor is not convenient for dismantle the dust screen.

The embodiment of the application provides a PE thermoplastic film blendor with dust removal structure, including organism, two dust screens and two grafting mechanisms.

The dust collection mechanism is arranged on the top of the machine body in a communicated mode, air inlets are formed in the side walls of the two ends of the machine body, a pushing mechanism is fixedly mounted in each air inlet, a groove is formed in each of the top and the bottom of each air inlet, two dust screens are inserted into the air inlets respectively, each inserting mechanism comprises two inserting blocks, two first springs and two sliding block mechanisms, each inserting block is connected with the corresponding groove bottom in a connected mode, the two inserting blocks are connected with one dust screen in an inserted mode, and the sliding block mechanisms are connected with the two inserting blocks in a connected mode.

In the above-mentioned realization process, through setting up inserted block and slider mechanism, promote two slider mechanisms simultaneous movement of one side, make two inserted blocks of one side move to the recess that corresponds in, can remove the fixed to the dust screen, then pushing mechanism then can promote the dust screen motion, realizes promoting the dust screen to the air intake outside, then can take off the dust screen and wash convenient to detach dust screen.

In a specific embodiment, the dust suction mechanism comprises a dust suction pipe and a suction fan, the dust suction pipe is communicated with the top of the machine body, and the suction fan is communicated with the dust suction pipe.

In a specific embodiment, the pushing mechanism comprises a partition board, the partition board is fixedly installed in one of the air inlets, and a plurality of vent holes are formed in the partition board.

In the implementation process, the partition plate is provided with the ventilation holes for preventing the raw materials from entering the air inlets.

In a specific embodiment, the inner side wall of the partition board and the side wall of the machine body are in the same plane, and the cross section of the ventilation hole on the outer side is in a right trapezoid shape.

In the implementation process, the cross section of the outer side vent hole is in a right trapezoid shape, and dead angles are prevented from occurring between the partition plate and the top of the machine body.

In a specific implementation scheme, the pushing mechanism further comprises a plurality of spring assemblies and a push plate, the push plate is fixedly connected with the partition plate through the plurality of spring assemblies, and the push plate is in contact with one of the dust screens.

In a specific embodiment, the spring assembly comprises a telescopic rod and a second spring, two ends of the telescopic rod are respectively fixedly connected with the partition plate and the push plate, the second spring is sleeved on the telescopic rod in a sliding manner, and two ends of the second spring are respectively fixedly connected with the partition plate and the push plate.

In the implementation process, the second spring is in a compression state, and after the dust screen is released from being fixed, the second spring pushes the push plate to move, and the push plate pushes the dust screen to move, so that the dust screen is conveniently taken out.

In a specific embodiment, a through opening is formed in a side wall of the groove, and the slider mechanism penetrates through the through opening to be fixedly connected with the insert block.

In a specific embodiment, the sliding block mechanism comprises a pushing block and a connecting rod, the pushing block is fixedly connected with one of the inserting blocks through the connecting rod, the pushing block is in sliding contact with the outer wall of the machine body, and the connecting rod penetrates through the through hole.

In the implementation process, the push block drives the two insertion blocks to move through the two connecting rods, so that the fixation of the dustproof net is released.

In a specific embodiment, two groups of flow restriction plates are fixedly mounted on the top of the machine body, and two flow restriction plates are arranged in each group.

In the implementation process, the flow limiting plate can limit air flow on two sides, so that air flow at the front part and the rear part of the dust collection pipe can be enabled, and the dust collection effect is improved.

In a specific embodiment, the air inlet, the dust screen and the partition board are all arranged in a semicircular shape, and the push plate is arranged in an arc shape.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic front view of a PE thermoplastic film mixer with a dust removing structure according to an embodiment of the present disclosure;

FIG. 2 is a schematic front cross-sectional structural view of a PE thermoplastic film mixer with a dust removing structure according to an embodiment of the present disclosure;

FIG. 3 is a schematic side view of a PE thermoplastic film mixer with a dust removing structure according to an embodiment of the present application;

FIG. 4 is a schematic top view of a flow restriction plate in a PE thermoplastic film mixer with a dust removing structure according to an embodiment of the present disclosure;

FIG. 5 is an enlarged view of a portion of FIG. 2 at A;

FIG. 6 is a partial enlarged view of FIG. 5 at B;

fig. 7 is a partial enlarged view at C in bitmap 5.

In the figure: 10-body; 110-a dust suction mechanism; 1110-a suction pipe; 1120-a suction fan; 120-air inlet; 130-a pushing mechanism; 1310-a separator; 1320-a vent; 1330-a spring assembly; 1331-a telescopic rod; 1332-a second spring; 1340-push plate; 140-a groove; 20-dust screen; 30-a plug-in mechanism; 310-an insert block; 320-a first spring; 330-a slider mechanism; 3310-push block; 3320-connecting rod; 40-a through hole; 50-a restrictor plate.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Referring to fig. 1-7, the present application provides a PE thermoplastic film mixer with a dust removing structure, which comprises a mixer body 10, two dust screens 20 and two plugging mechanisms 30.

The top of the machine body 10 is communicated with a dust suction mechanism 110, the side walls of the two ends of the machine body 10 are both provided with air inlets 120, pushing mechanisms 130 are fixedly mounted in the two air inlets 120, the tops and the bottoms of the two air inlets 120 are both provided with grooves 140, and the two dust screens 20 are respectively inserted into the two air inlets 120.

The inserting mechanism 30 comprises two inserting blocks 310, two first springs 320 and two sliding block mechanisms 330, the two inserting blocks 310 are fixedly connected with the bottoms of the upper and lower grooves 140 through the two first springs 320 respectively, the two inserting blocks 310 are inserted into one dustproof net 20, and the two sliding block mechanisms 330 are fixedly connected with the two inserting blocks 310 respectively.

When specifically setting up, the slot has all been seted up on the top and the bottom of dust screen 20, inserted block 310 is inserted and is located corresponding slot, through setting up inserted block 310 and slider mechanism 330, promote two slider mechanism 330 simultaneous movement in one side, make two inserted block 310 movements in one side to the recess 140 that corresponds, can remove the fixed to dust screen 20, then pushing mechanism 130 then can promote the motion of dust screen 20, the realization promotes dust screen 20 to the air intake 120 outside, then can take off dust screen 20 and wash, convenient to detach dust screen 20.

Referring to fig. 2, the dust suction mechanism 110 includes a dust suction pipe 1110 and a suction fan 1120, the dust suction pipe 1110 is disposed to communicate with the top of the machine body 10, and the suction fan 1120 is disposed to communicate with the dust suction pipe 1110.

When specifically setting up, the air outlet of suction fan 1120 and current dust device intercommunication, when organism 10 is inside to be raised the dust, inhale dust absorption pipe 1110 with the dust through suction fan 1120 in, in rethread suction fan 1120 gets into current dust device, realize the dust removal purpose.

Referring to fig. 5 and 7, the pushing mechanism 130 includes a partition 1310, the partition 1310 is fixedly installed in one of the air inlets 120, a plurality of ventilation holes 1320 are formed in the partition 1310, an inner sidewall of the partition 1310 is located at the same plane as a sidewall of the machine body 10, a cross section of the outer ventilation hole 1320 is disposed in a right trapezoid shape, the pushing mechanism 130 further includes a plurality of spring assemblies 1330 and a pushing plate 1340, and the pushing plate 1340 is fixedly connected to the partition 1310 through the plurality of spring assemblies 1330.

The push plate 1340 is disposed in contact with one of the dust screens 20, the spring assembly 1330 includes an expansion rod 1331 and a second spring 1332, two ends of the expansion rod 1331 are respectively and fixedly connected with the partition 1310 and the push plate 1340, the second spring 1332 is slidably sleeved on the expansion rod 1331, and two ends of the second spring 1332 are respectively and fixedly connected with the partition 1310 and the push plate 1340.

In specific setting, when the dust screen 20 is installed in the air inlet 120, the second spring 1332 is in a compressed state, and when the dust screen 20 is fixed by contact, the second spring 1332 pushes the push plate 1340 to move, so as to push the dust screen 20 to move, and meanwhile, the inner side wall of the partition 1310 is in the same plane as the side wall of the machine body 10, thereby preventing a dead angle from occurring between the partition 1310 and the top of the machine body 10.

Further, the side wall of one end of the insertion block 310 is chamfered, so that when the dust screen 20 is installed, the dust screen 20 is inserted into the air inlet 120, and the installation purpose can be achieved, and the cross section of the outer side vent 1320 is in a right trapezoid shape.

Referring to fig. 6, a through hole 40 is formed on a side wall of the groove 140, the slider mechanism 330 passes through the through hole 40 and is fixedly connected with the insert 310, the slider mechanism 330 includes a push block 3310 and a connecting rod 3320, the push block 3310 is fixedly connected with one of the insert 310 through the connecting rod 3320, the push block 3310 is in sliding contact with an outer wall of the machine body 10, the connecting rod 3320 passes through the through hole 40, two sets of flow restricting plates 50 are fixedly installed on the top of the machine body 10, two flow restricting plates 50 are installed on each set, the air inlet 120, the dust screen 20 and the partition 1310 are all arranged in a semicircular shape, and the push plate 1340 is arranged in an arc shape.

When the dust collection device is specifically arranged, one end of each of the two pushing blocks 3310 is pushed, the two pushing blocks 3310 drive the two inserting blocks 310 through the two connecting rods 3320, so that the dust screen 20 is removed from being fixed, two groups of flow limiting plates 50 are mounted at the top of the machine body 10, the two groups of flow limiting plates 50 are positioned on two sides of the top of the machine body 10, air can flow from two sides of the two flow limiting plates 50, and dust at the front and rear positions of the air inlet of the dust collection pipe 1110 is driven to flow.

This PE thermoplastics membrane blendor's theory of operation with dust removal structure: meanwhile, the two pushing blocks 3310 are pushed to move, so that the two inserting blocks 310 are driven by the two connecting rods 3320 to move into the corresponding grooves 140, the fixation of the dust screen 20 is released, at this time, the second springs 1332 push the pushing plate 1340 to move, the pushing plate 1340 pushes the dust screen 20 to move, the dust screen 20 is pushed to the outer side of the air inlet 120, and the dust screen 20 can be taken out.

Further, after the dust screen 20 is cleaned, the dust screen 20 is inserted into the air inlet 120, because one ends of the two insertion blocks 310 are arranged in a chamfering mode, the outer wall of the dust screen 20 can extrude the chamfering inclined planes of the insertion blocks 310, so that the two insertion blocks 310 move into the corresponding grooves 140, when the grooves on the dust screen 20 move to correspond to the grooves 140, the insertion blocks 310 are pushed to be inserted into the corresponding grooves through the first springs 320 in a compression state, the automatic fixing of the dust screen 20 is realized, the installation is convenient, and meanwhile, the second springs 1332 are compressed.

It should be noted that the specific model specification of the suction fan 1120 needs to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art in the field, so detailed description is omitted.

The power supply of the suction fan 1120 and the principle thereof will be apparent to those skilled in the art and will not be described in detail herein.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A PE thermoplastic film mixer with a dust removal structure is characterized by comprising

The dust collector comprises a machine body (10), wherein the top of the machine body (10) is provided with a dust collection mechanism (110) in a communication mode, the side walls of two ends of the machine body (10) are respectively provided with an air inlet (120), pushing mechanisms (130) are fixedly arranged in the two air inlets (120), and the tops and the bottoms of the two air inlets (120) are respectively provided with a groove (140);

the two dustproof nets (20) are respectively inserted into the two air inlets (120);

two grafting mechanisms (30), grafting mechanism (30) include two inserted blocks (310), two first spring (320) and two slider mechanisms (330), two inserted blocks (310) are through two first spring (320) respectively with from top to bottom recess (140) bottom fixed connection, two inserted blocks (310) all with one of them dust screen (20) are pegged graft and are set up, two slider mechanisms (330) respectively with two inserted blocks (310) fixed connection.

2. The PE thermoplastic film mixer with a dust removing structure as claimed in claim 1, wherein said dust suction mechanism (110) comprises a dust suction pipe (1110) and a suction fan (1120), said dust suction pipe (1110) is disposed in communication with the top of said machine body (10), and said suction fan (1120) is disposed in communication with said dust suction pipe (1110).

3. The PE thermoplastic film mixer with dust collecting structure of claim 1, wherein the pushing mechanism (130) comprises a partition plate (1310), the partition plate (1310) is fixedly installed in one of the air inlets (120), and a plurality of vent holes (1320) are opened in the partition plate (1310).

4. The PE thermoplastic film mixer with dust removing structure as claimed in claim 3, wherein the inner side wall of said partition (1310) is in the same plane as the side wall of the machine body (10), and the cross-section of said vent holes (1320) is formed in a right trapezoid shape.

5. A PE thermoplastic film mixer with dust removing structure as claimed in claim 3, characterized in that said pushing mechanism (130) further comprises a plurality of spring assemblies (1330) and a pushing plate (1340), said pushing plate (1340) is fixedly connected to said partition plate (1310) by a plurality of said spring assemblies (1330), said pushing plate (1340) is disposed in contact with one of said dust screens (20).

6. The PE thermoplastic film mixer with dust removing structure as claimed in claim 5, wherein said spring assembly (1330) comprises a telescopic rod (1331) and a second spring (1332), both ends of said telescopic rod (1331) are respectively and fixedly connected with said partition plate (1310) and said push plate (1340), said second spring (1332) is slidably sleeved on said telescopic rod (1331), both ends of said second spring (1332) are respectively and fixedly connected with said partition plate (1310) and said push plate (1340).

7. The PE thermoplastic film mixer with dust removing structure as claimed in claim 1, wherein a through hole (40) is opened on a side wall of said groove (140), and said slider mechanism (330) is fixedly connected with said insert block (310) through said through hole (40).

8. The PE thermoplastic film mixer with dust removing structure of claim 7, wherein said slide block mechanism (330) comprises a push block (3310) and a connecting rod (3320), said push block (3310) is fixedly connected to one of said insert blocks (310) by said connecting rod (3320), said push block (3310) is in sliding contact with an outer wall of said body (10), and said connecting rod (3320) passes through said through opening (40).

9. The PE thermoplastic film mixer with a dust removing structure as claimed in claim 1, wherein two sets of the restrictor plates (50) are fixedly installed on the top of the machine body (10), and two restrictor plates (50) are provided for each set.

10. The PE thermoplastic film mixer with dust removing structure as claimed in claim 5, wherein said air inlet (120), said dust screen (20) and said partition (1310) are formed in a semicircular shape, and said pushing plate (1340) is formed in an arc shape.

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