CN216836453U - Stepping film collecting frame - Google Patents

Abstract

The utility model discloses a stepping sheet collecting frame which comprises a main seat frame, a feeding transmission belt and a sheet collecting box, wherein a power transmission cavity is correspondingly formed below a high-level line of a platform and in a frame body corresponding to the main seat frame, a guide buffer sealing plate is arranged on a sealing cover hinged seat in a rotary hinged mode through a hinged shaft, a cylinder tail end hinged seat is fixedly arranged at the top of the right side wall surface of the power transmission cavity, a strip-shaped limit through hole correspondingly penetrates through a limit clamping column in a guide limit mode, the limit clamping column is integrally fixed in a swing arm sleeve, a cylinder cavity of the swing arm sleeve is arranged in a hollow mode, and an included angle formed between a plate body and a vertical surface where a sealing opening is located in the state that the guide buffer sealing plate is unfolded is 45 degrees. The utility model successfully solves a series of problems caused by the larger blanking height difference between the platform high-position line and the platform low-position line in the prior art, and removes the limitation of equipment.

Description

Stepping film collecting frame

Technical Field

The utility model relates to the technical field related to paste mixing machines, in particular to a stepping film collecting frame.

Background

Referring to fig. 1, fig. 1 is a schematic structural diagram of a step film receiving rack in the prior art.

The specific structure of the prior art comprises a main seat frame 1, a feeding transmission belt 2 and a material receiving box 3, wherein the highest point of the position of the feeding transmission belt 2 corresponding to the main seat frame 1 is a platform high-level line 101, the lowest point of the position of the material receiving box 3 corresponding to the main seat frame 1 is a platform low-level line 102, and a blanking height difference is formed between the platform high-level line 101 and the platform low-level line 102.

Although the work of conveying and collecting the material sheets can be realized by using the sheet collecting rack in the prior art, a serious defect exists in that the blanking height difference formed between the platform high level line 101 and the platform low level line 102 is large, no buffer measure is designed in the height difference process, so that the material sheets are easy to damage due to no buffer, and individual material sheets are easy to drop outside a box cavity due to no inclined plate without guidance, so that 'empty connection' is caused.

Therefore, the utility model provides a sheet collecting rack with angular guidance and force buffering, which aims to solve the problems in the prior art and describes an improved detailed structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a stepping film collecting frame to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

a stepping sheet collecting frame comprises a main seat frame, a feeding driving belt and a collecting box, wherein a power transmission cavity is correspondingly formed below a platform high-level line and in a frame body corresponding to the main seat frame, a sealing plate hinged support is fixed at the upper left corner position of the power transmission cavity, a guide buffer sealing plate is installed on the sealing plate hinged support in a rotary hinged mode through a hinge shaft, a synchronous moving edge protection block is integrally fixed on the back plate surface of the guide buffer sealing plate, an air cylinder tail end hinged support is fixedly installed at the top position of the right side wall surface of the power transmission cavity, an air cylinder tail end hinged support is installed on the air cylinder tail end hinged support in a rotary hinged mode to the tail end of a telescopic air cylinder, the end head of the telescopic air cylinder is rotatably hinged to the lower half position of the back plate surface of the guide buffer sealing plate through the air cylinder head end hinged support, and a swing arm tail end hinged support is fixedly installed at the bottom position of the right side wall surface of the power transmission cavity, install the tail end to supplementary interlock swing arm with rotating articulated form on the swing arm tail end free bearing, correspond on the end part arm body of supplementary interlock swing arm and seted up the spacing through-hole of bar, the spacing through-hole of bar corresponds with the spacing form of direction and wears to locate on spacing calorie of post, spacing calorie of post an organic whole is fixed in the swing arm sleeve and the telescopic barrel chamber of swing arm sets up to the cavity form, on the telescopic barrel of swing arm corresponds the backplate face middle part position that is fixed in the direction buffering shrouding with the support form, the contained angle that forms between the plate body under the direction buffering shrouding expandes the state and the vertical face that the shutoff mouth is located is 45 degrees.

Preferably, the following components: the highest point of the position of the feeding transmission belt corresponding to the main seat frame is a platform high-level line, the lowest point of the position of the material receiving box corresponding to the main seat frame is a platform low-level line, and a blanking height difference is formed between the platform high-level line and the platform low-level line.

Preferably: the guide buffer sealing plate is matched with a corresponding plugging port formed in the left side wall of the power transmission cavity.

Preferably: the length of the strip-shaped limiting through hole occupies one third of the total length of the auxiliary linkage swing arm.

Has the advantages that:

compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, through structural improvement on the prior art (figure 1), a guide buffer closing plate can be used for buffer measure in the sheet material blanking process, so that the condition that the sheet material is easily damaged due to no buffer, and individual sheet material is easily accepted due to no inclined plate and has no guide property to fall into the outside of a box cavity to cause 'empty connection' is avoided, the improved sheet collecting frame has both angle guide property and force buffer property, a series of problems caused by the large blanking height difference between a platform high position line and a platform low position line in the prior art are smoothly solved, the equipment limitation is removed, the sheet collecting effect is effectively improved, the practicability of the sheet collecting frame is improved, the structural design is reasonable, safe and reliable, and the sheet collecting frame is suitable for being configured and used in the technical fields of vacuum and paste machines.

Drawings

Fig. 1 shows a schematic structure of a stepping cassette in the prior art.

Fig. 2 is a schematic structural diagram of a closed state of a guide buffer closing plate in an improved stepping sheet collecting rack.

Fig. 3 is a schematic view of the developed structure of the guide buffer closing plate in the improved step-by-step plate collecting rack.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a step film receiving rack in the prior art.

The specific structure of the prior art comprises a main seat frame 1, a feeding transmission belt 2 and a material receiving box 3, wherein the highest point of the position of the feeding transmission belt 2 corresponding to the main seat frame 1 is a platform high-level line 101, the lowest point of the position of the material receiving box 3 corresponding to the main seat frame 1 is a platform low-level line 102, a blanking height difference is formed between the platform high-level line 101 and the platform low-level line 102, and when the material receiving box is actually used, the material is fed to the position of the most end part from the feeding transmission belt 2 and falls into the material receiving box 3 under the gravity of the material receiving box to be collected.

Although the work of conveying and collecting the material sheets can be realized by using the sheet collecting rack in the prior art, a serious defect exists in that the blanking height difference formed between the platform high level line 101 and the platform low level line 102 is large, no buffer measure is designed in the height difference process, so that the material sheets are easy to damage due to no buffer, and individual material sheets are easy to drop outside a box cavity due to no inclined plate without guidance, so that 'empty connection' is caused.

Therefore, the utility model provides a sheet collecting rack with angular guidance and force buffering, which aims to solve the problems in the prior art and describes an improved detailed structure.

Referring to fig. 2-3, fig. 2 is a schematic structural view of an improved step film receiving frame.

In the embodiment of the utility model, the stepping sheet receiving rack comprises a main seat rack 1, a feeding transmission belt 2 and a material receiving box 3, wherein the highest point of the feeding transmission belt 2 corresponding to the main seat rack 1 is a platform high-level line 101, the lowest point of the material receiving box 3 corresponding to the main seat rack 1 is a platform low-level line 102, and a blanking height difference is formed between the platform high-level line 101 and the platform low-level line 102.

The difference is that:

a power transmission cavity 103 is correspondingly arranged below the platform elevation line 101 and in a frame body corresponding to the main seat frame 1, a sealing plate hinged support 12 is fixed at the corner position of the upper left corner of the power transmission cavity 103, a guide buffer sealing plate 4 is arranged on the sealing plate hinged support 12 in a rotary hinged mode through a hinged shaft, the guide buffer sealing plate 4 is matched with a sealing opening 104 correspondingly arranged on the left side wall of the power transmission cavity 103, a synchronous edge protection block 11 is integrally fixed on the back plate surface of the guide buffer sealing plate 4, a cylinder tail end hinged support 10 is fixedly arranged at the top position of the right side wall surface of the power transmission cavity 103, the cylinder tail end hinged support 11 is arranged at the tail end of a telescopic cylinder 9 in a rotary hinged mode, the end part of the telescopic cylinder 9 is rotatably hinged to the lower half position of the back plate surface of the guide buffer sealing plate 4 through a cylinder head end hinged support 13, a swing arm tail end hinged support 8 is fixedly arranged at the bottom position of the right side wall surface of the power transmission cavity 103, the swing arm tail end hinged support 8 is mounted to the tail end of the auxiliary linkage swing arm 7 in a rotary hinged mode, a bar-shaped limiting through hole 701 is correspondingly formed in an end portion arm body of the auxiliary linkage swing arm 7, the bar-shaped limiting through hole 701 correspondingly penetrates through the limiting clamping column 6 in a guiding limiting mode, the supporting clamping column 6 is integrally fixed in the swing arm sleeve 5, a cylinder cavity of the swing arm sleeve 5 is arranged to be hollow, a cylinder body of the swing arm sleeve 5 is correspondingly fixed in the middle position of a back plate face of the guiding buffering sealing plate 4 in a supporting mode, the length of the bar-shaped limiting through hole 701 occupies one third of the total length of the auxiliary linkage swing arm 7, and an included angle formed between a plate body of the guiding buffering sealing plate 4 in an unfolded state and a vertical face where the plugging port 104 is located is 45 degrees.

Through carrying out the structural improvement to the prior art (figure 1), add on the foundation structure of the prior art and be equipped with power transmission chamber 103, shrouding free bearing 12, direction buffering shrouding 4, cylinder tail end free bearing 10, telescopic cylinder 9, cylinder head end free bearing 13, swing arm sleeve 5, spacing calorie of post 6, bar spacing through-hole 701, supplementary interlock swing arm 7 and swing arm tail end free bearing 8, in the real work, with the same operation of traditional mode, after the material is sent to tip position from pay-off drive belt 2, it is different, the heavy object falls under self gravity, still fall into and receive workbin 3 at last and carry out tablet collection, but in this whereabouts, through starting telescopic cylinder 9, telescopic cylinder 9 becomes the extension state from the contraction state lengthening to the longest state, because a cylinder tail end free bearing 10 is fixedly installed at the right side wall top position department of power transmission chamber 103, The tail end hinged support 10 of the cylinder is mounted on the tail end of the telescopic cylinder 9 in a rotary hinged mode, the end head of the telescopic cylinder 9 is rotatably hinged to the lower half part of the back plate surface of the guide buffer sealing plate 4 through the head end hinged support 13 of the cylinder, the angle of the telescopic cylinder 9 is changed in the extending process, as the sealing plate hinged support 12 is fixed on the corner position of the upper left corner of the power transmission cavity 103, the guide buffer sealing plate 4 is mounted on the sealing plate hinged support 12 in a rotary hinged mode through a hinged shaft, after the telescopic cylinder 9 extends, the guide buffer sealing plate 4 is pushed by applying force, the guide buffer sealing plate 4 is opened, and in the process of opening the guide buffer sealing plate 4, a swing arm tail end hinged support 8 is fixedly mounted at the bottom position of the right side wall surface of the power transmission cavity 103, and the swing arm tail end hinged support 8 is mounted on the swing arm tail end hinged support 8 in a rotary hinged mode to the tail end of the auxiliary linkage swing arm 7, The end part of the auxiliary linkage swing arm 7 is correspondingly provided with a strip-shaped limiting through hole 701, the strip-shaped limiting through hole 701 correspondingly penetrates through the limiting clamping column 6 in a guiding limiting manner, the limiting clamping column 6 is integrally fixed in the swing arm sleeve 5, the cylinder cavity of the swing arm sleeve 5 is arranged in a hollow manner, the cylinder body of the swing arm sleeve 5 is correspondingly fixed on the middle position of the back plate surface of the guiding buffering sealing plate 4 in a supporting manner, when the guiding buffering sealing plate 4 is opened, the auxiliary linkage swing arm 7 synchronously generates angle change, the limiting clamping column 6 moves and changes position in the strip-shaped limiting through hole 701 in a guiding limiting manner, the length part of the auxiliary linkage swing arm 7 in the cylinder cavity of the swing arm sleeve 5 is shortened from length, the synchronous matching of the auxiliary linkage swing arm 7 and the swing arm sleeve 5 plays an auxiliary supporting role for the guiding buffering sealing plate 4, and the smooth unfolding of the guiding buffering sealing plate 4 is ensured, until the sheet is in a state of 45 degrees with the largest angle, a guide buffer closing plate 4 can be used for buffer measure in the sheet material blanking process, the condition that the sheets are easily damaged due to no buffer, and individual sheets are easily accepted due to no inclined plate and have no guidance to fall into the outside of a box cavity to cause 'empty connection' can not occur, so that the improved sheet collecting frame has both angle guidance and force buffer, a series of problems caused by the large blanking height difference formed between a platform high level line 101 and a platform low level line 102 in the prior art can be smoothly solved, the limitation of equipment is removed, the sheet collecting effect is effectively improved, the practicability of the sheet collecting frame is improved, the structural design is reasonable and ingenious, safety and reliability are realized, and the sheet collecting frame is suitable for being configured and used in the technical field of vacuum and paste machines.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof.

Claims (4)

1. The utility model provides a step-by-step piece frame of receiving, includes main tributary frame (1), pay-off drive belt (2) and receipts workbin (3), its characterized in that, platform high-bit line (101) the below, correspond in the support body of main tributary frame (1) and seted up a power transmission chamber (103), be fixed with one shrouding free bearing (12) on the upper left corner position of power transmission chamber (103), install direction buffering shrouding (4) with the rotation articulated form through the hinge on shrouding free bearing (12), integrative fixed one moves limit piece (11) with moving on the backplate face of direction buffering shrouding (4), and right side wall top position department fixed mounting in power transmission chamber (103) has a cylinder tail end free bearing (10), installs the tail end to telescopic cylinder (9) with the rotation articulated form on cylinder tail end free bearing (10), the end portion of telescopic cylinder (9) rotates through cylinder head end free bearing (13) and articulates to the backplate face of direction buffering shrouding (4) and is half a lower half A swing arm tail end hinged support (8) is fixedly arranged at the bottom of the right side wall surface of the power transmission cavity (103), the swing arm tail end hinged support (8) is arranged at the tail end of the auxiliary linkage swing arm (7) in a rotary hinged mode, the end part arm body of the auxiliary linkage swing arm (7) is correspondingly provided with a strip-shaped limiting through hole (701), the strip-shaped limiting through hole (701) is correspondingly arranged on the limiting clamping column (6) in a guiding and limiting way, the limiting clamp column (6) is integrally fixed in the swing arm sleeve (5), the barrel cavity of the swing arm sleeve (5) is hollow, the barrel of swing arm sleeve (5) is fixed in the backplate face middle part position of direction buffering shrouding (4) with the support form correspondence, and the plate body under direction buffering shrouding (4) the state after expanding is 45 degrees with the contained angle that forms between the vertical face that shutoff mouth (104) are located.

2. The stepping film collecting rack according to claim 1, wherein the highest point of the feeding belt (2) corresponding to the main seat frame (1) is a platform high-level line (101), the lowest point of the receiving box (3) corresponding to the main seat frame (1) is a platform low-level line (102), and a blanking height difference is formed between the platform high-level line (101) and the platform low-level line (102).

3. The stepping film collecting frame as claimed in claim 1, wherein the guiding buffer sealing plate (4) is matched with a corresponding sealing opening (104) formed on the left side wall of the power transmission cavity (103).

4. The stepping film collecting rack as claimed in claim 1, wherein the length of the strip-shaped limiting through hole (701) occupies one third of the total length of the auxiliary linkage swing arm (7).

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