CN218908964U - Sheet clamping and separating assembly - Google Patents

Abstract

The utility model discloses a sheet clamping and separating assembly, which comprises: the feeding mechanism is used for driving the sheet material to be separated to feed; the pressing mechanism is used for pressing and fixing the sheet materials to be separated; the clamping and separating mechanism is used for separating the sheet materials to be separated from the pressing mechanism; and the receiving mechanism is used for receiving the separated sheet materials separated by the clamping and separating mechanism. According to the sheet clamping and separating assembly, the feeding mechanism is used for driving the sheet to be separated to feed, the pressing mechanism is used for pressing and fixing the sheet to be separated, the clamping and separating mechanism is used for separating the sheet to be separated to obtain the separated sheet, and finally the separated sheet is transferred to the receiving mechanism, so that the technical purpose of automatically separating the sheet can be achieved by using the clamping and separating assembly, and the efficiency can be effectively improved and the cost can be reduced.

Description

Sheet clamping and separating assembly

Technical Field

The utility model belongs to the technical field of machining equipment, and particularly relates to a sheet clamping and separating assembly.

Background

With the development of socioeconomic performance, the requirements on food safety standards are increasing. The traditional food preservation is mostly carried out in a mode of placing a deoxidizer or a drying agent in a packaging bag or a packaging box, and the mode has a certain safety risk that when the packaging bag of the deoxidizer or the drying agent is broken, food pollution is easily caused and the food cannot be eaten. Therefore, the food fresh-keeping card which is safer and more reliable is rapidly popularized and applied, and the risk of food pollution caused by powder leakage is completely eradicated by adopting paper sheets as carriers.

The fresh-keeping card is made by using paper sheets as carriers, soaking and adsorbing edible alcohol and the like; through slow release of the fresh-keeping gas, a gas phase protective layer with a certain concentration can be formed around the food to be kept fresh when the food is used, so that the food is not influenced by the PH value of the food to be kept fresh. In the industrial production process of sheet materials such as fresh-keeping cards, the following procedures are needed:

step 1: producing large sheets with larger size, wherein films are compounded on the surfaces of two sides of the large sheets;

step 2: the method comprises the steps of (1) die-cutting a large sheet material in a die-cutting mode, die-cutting a cutting mark for separating the large sheet material into small sheet materials with set sizes on the large sheet material, and reserving edge protection areas 4 on the peripheral edges of the large sheet material; specifically, the cuts include a first cut 5 and a second cut 6, and an area enclosed between the first cut 5 and the second cut 6 that are staggered is a small sheet material, as shown in fig. 1; the small pieces and the edge protection areas 4 are adhered to each other, so that the peripheral edges of the small pieces are prevented from being polluted or deformed in the material transferring process;

and step 3: separating the large sheet material into small sheet materials by using manpower, and stacking and boxing according to the requirement; specifically, as shown in fig. 2, the separation process for separating the large sheet into the small sheet includes the steps of:

(1) Stripping the edge protection zone 4 to obtain an initial sheet 1;

(2) Separating the primary separated web 2 from the initial web 1 along the second cut 6;

(3) Separating a secondary separation sheet 3 from the primary separation sheet 2 along the first cut 5, wherein the secondary separation sheet 3 is a small sheet finally obtained by separation;

and 4, step 4: according to different functional requirements, the small pieces are subjected to post-treatment, such as saturated absorption of alcohol to obtain the fresh-keeping card.

According to the industrial production process of the fresh-keeping card, in the process 3, the initial sheet material 1 needs to be separated into the primary separation sheet material 2 and the secondary separation sheet material 3 by manpower in sequence, and the sheets are stacked and boxed according to requirements, so that the production efficiency is low, and the manpower is wasted.

Disclosure of Invention

Accordingly, the present utility model is directed to a sheet clamping and separating assembly capable of automatically separating sheets to improve the production efficiency and reduce the labor cost.

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

a sheet material holding and separating assembly comprising:

the feeding mechanism is used for driving the sheet material to be separated to feed;

the pressing mechanism is used for pressing and fixing the sheet materials to be separated;

the clamping and separating mechanism is used for separating the sheet materials to be separated from the pressing mechanism;

and the receiving mechanism is used for receiving the separated sheet materials separated by the clamping and separating mechanism.

Further, the pressing mechanism comprises a pressing bearing plate parallel to the surface of the sheet material to be separated and a pressing assembly for pressing and fixing the sheet material to be separated on the pressing bearing plate, and the feeding mechanism is used for driving the sheet material to be separated to feed forwards along the direction parallel to the pressing bearing plate.

Further, the pressing assembly comprises a pressing plate parallel to the pressing bearing plate and a pressing driving mechanism for driving the pressing plate to move relative to the pressing bearing plate.

Further, when the pressing mechanism and the receiving mechanism are internally provided with a bearing plate which is parallel to the surface of the sheet material and positioned in the vertical direction, the bearing plate is provided with an anti-clamping structure.

Further, the anti-clamping structure adopts anti-clamping protrusions integrally formed with the bearing plate; or, the anti-clamping structure adopts an anti-clamping plate arranged on the bearing plate.

Further, when the receiving mechanisms are at least two, the clamping and separating assembly further comprises a discharging moving mechanism, and the discharging moving mechanism is used for driving the clamping and separating mechanism to move so as to place separated sheet materials into the corresponding receiving mechanisms; or the discharging moving mechanism is used for driving the receiving mechanism to move so as to receive separated sheet materials obtained by separation from the clamping and separating mechanism.

Further, the clamping and separating mechanism comprises a clamping mechanism for clamping the sheet material and a rotation driving mechanism for driving the clamping mechanism to rotate so as to separate the sheet material.

Further, the clamping mechanism comprises a clamping driving mechanism, a first clamping surface and a second clamping surface which are oppositely arranged; the first clamping surface and the second clamping surface are parallel to each other, the clamping driving mechanism drives the first clamping surface and the second clamping surface to move oppositely so as to clamp the sheet materials to be separated, or the clamping driving mechanism drives the first clamping surface and the second clamping surface to move oppositely so as to loosen the separated sheet materials.

Further, the clamping mechanism comprises a first separation clamping plate, the first clamping surface is arranged on the first separation clamping plate, and the second clamping surface is fixedly arranged relative to the separation rotating shaft.

Further, the second clamping surface is arranged on the separation rotating shaft; or, the device further comprises a second separation clamping plate fixedly arranged relative to the separation rotating shaft, and the second clamping surface is arranged on the second separation clamping plate.

Further, the clamping mechanism comprises a third separation clamping plate and a fourth separation clamping plate, the first clamping surface is arranged on the third separation clamping plate, and the second clamping surface is arranged on the fourth separation clamping plate; the third separation clamping plate and the fourth separation clamping plate can move relative to the separation rotating shaft, two clamping fingers capable of moving oppositely or reversely are arranged on the clamping driving mechanism, and the third separation clamping plate and the fourth separation clamping plate are respectively arranged on the two clamping fingers.

Further, the rotation driving mechanism comprises a separation rotating shaft and a rotation power assembly for driving the separation rotating shaft to rotate, the separation rotating shaft is parallel to the first clamping surface, and the clamping mechanism and the separation rotating shaft synchronously rotate.

The utility model has the beneficial effects that:

according to the sheet clamping and separating assembly, the feeding mechanism is used for driving the sheet to be separated to feed, the pressing mechanism is used for pressing and fixing the sheet to be separated, the clamping and separating mechanism is used for separating the sheet to be separated to obtain the separated sheet, and finally the separated sheet is transferred to the receiving mechanism, so that the technical purpose of automatically separating the sheet can be achieved by using the clamping and separating assembly, and the efficiency can be effectively improved and the cost can be reduced.

The clamping and separating mechanism is arranged in the clamping and separating assembly, the clamping mechanism is used for clamping the sheet materials to be separated, and then the rotation driving mechanism is used for driving the clamping mechanism to rotate, so that the clamping part of the sheet materials are separated from the sheet materials to be separated along the corresponding cut marks, and the separated sheet materials are obtained; after the clamping mechanism rotates in place, the clamping mechanism loosens the separated sheet materials, so that the technical purpose of automatically separating the sheet materials can be achieved, the efficiency is improved, and the cost is reduced.

Specifically, the process of separating the sheet material by the clamping and separating mechanism is as follows:

when the clamping mechanism is driven to rotate to a clamping position by the rotation driving mechanism, the first clamping surface and the second clamping surface are driven to move in opposite directions by the clamping driving mechanism, so that the part to be separated of the sheet material to be separated is clamped;

the clamping mechanism is driven to rotate by the rotation driving mechanism, and the part to be separated of the sheet material is separated along the corresponding cutting marks under the clamping action of the first clamping surface and the second clamping surface, so that the technical aim of separating the sheet material is fulfilled;

and the clamping mechanism is driven to rotate by the rotary driving mechanism continuously, and when the clamping mechanism rotates to the blanking position, the first clamping surface and the second clamping surface are driven to move oppositely by the clamping driving mechanism, so that the separated sheet materials are loosened.

Drawings

In order to make the objects, technical solutions and advantageous effects of the present utility model more clear, the present utility model provides the following drawings for description:

FIG. 1 is a schematic view of the structure of an initial sheet;

FIG. 2 is a process diagram of the separation of large flakes into small flakes;

FIG. 3 is a schematic view of an embodiment of a sheet material holding and separating assembly according to the present utility model;

FIG. 4 is a schematic view of a first feed mechanism;

FIG. 5 is a schematic structural view of a first stage clamping separation assembly and a second stage clamping separation assembly;

FIG. 6 is a detail A of FIG. 5;

FIG. 7 is a rear isometric view of FIG. 5;

FIG. 8 is a front isometric view of the first clamp release mechanism;

FIG. 9 is a rear isometric view of the first clamp release mechanism; the method comprises the steps of carrying out a first treatment on the surface of the

FIG. 10 is a second schematic view of the first clamping and separating mechanism;

FIG. 11 is a first schematic view of a first receiving mechanism;

FIG. 12 is an isometric view of FIG. 11;

FIG. 13 is a second schematic view of the first receiving mechanism;

FIG. 14 is a schematic view of a second stage clamp release assembly;

FIG. 15 is a detail B of FIG. 14;

fig. 16 is a schematic structural view of a second pressing mechanism;

FIG. 17 is a first schematic view of a second clamping and separating mechanism;

fig. 18 is a second structural schematic diagram of the second clamping separating mechanism.

Reference numerals illustrate:

1-initial sheet stock; 2-separating the sheet material for the first time; 3-secondary separation of the flakes; 4-edge protection zone; 5-a first cut; 6-a second cut;

101-a material feeding bottom plate; 102-arranging a baffle plate; 103-a monolith push plate; 104-a monolith drive mechanism; 111-a cutting push rod; 112-a cutting push plate; 113-servo electric cylinders; 114-electric cylinder rod; 115-pushing connection plates; 116-linear slide rails; 117-pushing slide plate; 118-stroke ball screw; 119-ball screw motor; 120-a second mounting plate; 121-a linear guide rod; 122-a primary pressing power device; 123-an incoming material pressing plate; 124-feeding pressure head; 125-heightening blocks; 126-servo electric cylinder;

130-a primary receiving mechanism; 131-a primary material receiving bottom plate; 132-a material receiving side baffle; 133-anti-pinch protrusions; 134-anti-pinch plate; 135-fixed side guards; 136-perforating; 137-pushing block; 138-a first pushing drive mechanism; 139-lifting drive mechanism;

151-a first clamping face i; 152-a first clamping surface II; 153-primary separation of the shaft; 154-primary mounting base; 155-one-time rotation power device; 156-a first separation splint; 157-primary clamping power device; 158-a second separation splint; 159-a third separation splint; 160-fourth separation splint; 161-discharging slide rails; 162-a discharging slide block; 163-a discharging power device; 164-clamping fingers; 165-pneumatic gripping fingers;

170-a secondary discharging mechanism; 171-discharge side baffles; 172-a secondary material pressing power device; 173-a secondary material receiving bottom plate; 174-feed channel; 175-a discharge channel; 176-a communication zone; 177-a discharge baffle; 178-feeding pushing plate;

180-mounting plates; 181-adjusting plates; 182-guide bar; 183-regulating the power plant; 184-a discharging and pushing mechanism; 185-servo cylinder; 186-secondary discharging pushing connecting piece; 187-a secondary discharge push plate;

201-a second clamping surface I; 202-a second clamping surface II; 203-secondarily separating the rotating shaft; 204-secondary mounting base; 205-a secondary rotation power device; 206-a fifth separation splint; 207-secondary clamping power device; 208-sixth separation splint; 209-seventh separation splint; 210-eighth separation splint; 211-clamping fingers; 212-pneumatic gripping fingers.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific examples, which are not intended to limit the utility model, so that those skilled in the art may better understand the utility model and practice it.

The sheet material refers to sheet materials with the thickness of 0.5-5mm, such as alcohol fresh-keeping sheets, fiber drying sheets and the like; the term "surface" refers to the surface of the sheet that has the largest area.

The forward direction refers to the circulation direction of the sheet material according to the process flow, namely the circulation direction of the sheet material from the previous process to the next process, namely the forward direction.

The sheet clamping and separating assembly comprises at least one stage of clamping and separating assembly, wherein the clamping and separating assembly is sequentially named as a 1 st stage clamping and separating assembly, a 2 nd stage clamping and separating assembly, … …, an i-th stage clamping and separating assembly, … … and an n-th stage clamping and separating assembly; wherein n is greater than or equal to 1, i=1, 2, … …, n.

Each stage of clamping and separating assembly comprises: the feeding mechanism is used for driving the sheet material to be separated to feed; the pressing mechanism is used for pressing and fixing the sheet materials to be separated; the clamping and separating mechanism is used for separating the sheet materials to be separated from the pressing mechanism; and the receiving mechanism is used for receiving the separated sheet materials separated by the clamping and separating assembly. Specifically, the receiving mechanism of the ith stage clamping and separating assembly is at least one, the (i+1) th stage clamping and separating assembly and the receiving mechanism of the ith stage clamping and separating assembly are arranged in a one-to-one correspondence manner, and a sheet material transferring mechanism is arranged between the receiving mechanism of the ith stage clamping and separating assembly and the feeding mechanism of the (i+1) th stage clamping and separating assembly, and separated sheet materials obtained through separation of the ith stage clamping and separating assembly are sheet materials to be separated of the (i+1) th stage clamping and separating assembly.

Fig. 3 is a schematic structural view of an embodiment of the sheet material holding and separating assembly according to the present utility model. The sheet clamping and separating assembly of the present embodiment includes two stages of clamping and separating assemblies, namely a first stage clamping and separating assembly 100 and a second stage clamping and separating assembly 200, wherein the first stage clamping and separating assembly 100 is used for separating a primary separating sheet material 2 from an initial sheet material 1 along a first notch 5, and the second stage clamping and separating assembly 200 is used for separating a secondary separating sheet material 3 from the primary separating sheet material 2 along a second notch 5.

Specifically, the first stage clamping and separating assembly 100 is a first embodiment of the sheet clamping and separating assembly according to the present utility model, and the first stage clamping and separating assembly 100 includes:

the feeding mechanism is used for driving the to-be-separated sheet material to be fed, the to-be-separated sheet material at the moment is the initial sheet material 1, and the distance of the feeding mechanism for driving the initial sheet material 1 to be fed forward every time is equal to the distance between two adjacent first cuts 5; let the feeding mechanism of the first stage clamping separation assembly 100 be a first feeding mechanism;

the pressing mechanism is used for pressing and fixing the sheet material to be separated, namely, the initial sheet material 1 is pressed and fixed, and after the initial sheet material 1 is pressed and fixed, the front end of the pressing mechanism exposes a first notch 5, and the part of the front side of the exposed first notch 5 is the part to be separated in the initial sheet material 1 at the time; let the pressing mechanism of the first stage clamping and separating assembly 100 be a first pressing mechanism;

the clamping and separating mechanism is used for separating the sheet materials to be separated from the pressing mechanism, namely, separating the part to be separated of the initial sheet material 1 from the initial sheet material 1; let the clamping and separating mechanism of the first stage clamping and separating assembly 100 be a first clamping and separating mechanism;

the receiving mechanism is used for receiving the separated sheet materials separated by the first clamping and separating mechanism, and the separated sheet materials at the moment are the primary separated sheet materials 2; let the receiving mechanism of the first stage clamping separation assembly 100 be the first receiving mechanism.

Further, in the first stage of the clamping and separating assembly 100, the first pressing mechanism includes a pressing carrier plate 101 parallel to the surface of the sheet material to be separated and a pressing assembly 120 for pressing and fastening the sheet material to be separated on the pressing carrier plate 101, and the first feeding mechanism is used for driving the sheet material to be separated to feed forward along the direction parallel to the pressing carrier plate 101.

As shown in fig. 4, in the first stage clamping and separating assembly 100, the first feeding mechanism includes a first mounting plate 102 located above a pressing load plate 101, the first mounting plate 102 is provided with a material opening push rod 103 in sliding fit with the first mounting plate 102, and the front end of the material opening push rod 103 is provided with a material opening push plate 104; the first mounting plate 102 is provided with a first material opening and pushing driving mechanism for driving the material opening push rod 102 to slide. The first material cutting and pushing driving mechanism adopts a servo electric cylinder 105, an electric cylinder rod 106 of the servo electric cylinder 105 is parallel to the material cutting push rod 103, the electric cylinder rod 106 of the servo electric cylinder 105 is connected with the material cutting push rod 103 through a material cutting connecting plate 107 so as to drive the initial sheet material 1 to move forwards for a set distance each time, and in the embodiment, the first material cutting and pushing driving mechanism drives the initial sheet material 1 to move forwards for a distance equal to the distance between two adjacent first indentations 5 each time. Specifically, in the first stage clamping and separating assembly 100, the first feeding mechanism further includes a pushing slide plate 108, the pressing bearing plate 101 is provided with a linear slide rail 109 parallel to the cutting push rod 103, the pushing slide plate 108 is in sliding fit with the linear slide rail 109, the first mounting plate 102 is mounted on the pushing slide plate 108, and the pressing bearing plate 101 is provided with a second feeding pushing driving mechanism for driving the pushing slide plate 108 to move along the linear slide rail 109. The second pushing driving mechanism of the present embodiment includes a stroke ball screw 110 and a ball screw motor 111 in transmission connection with the stroke ball screw 110, and the stroke ball screw 110 is in threaded engagement with the pushing slide plate 108. Specifically, in the first stage clamping and separating assembly 100, the first feeding mechanism further includes a second mounting plate 112, a linear guide rod 113 is disposed between the second mounting plate 112 and the pushing slide plate 108, the first mounting plate 102 is slidably matched with the linear guide rod 113, and a third pushing driving mechanism for driving the first mounting plate 102 to move along the linear guide rod 113 is disposed on the second mounting plate 112 or the pushing slide plate 108. The linear guide rod 113 of the embodiment is located in the vertical direction, and the third pushing driving mechanism may be a servo electric cylinder 114 or an air cylinder, a hydraulic cylinder, a screw rod mechanism, a gear rack mechanism, etc. mounted on the second mounting plate 112, and the third pushing driving mechanism of the embodiment is a servo electric cylinder 114 mounted on the second mounting plate 112.

Specifically, a feeding monolith mechanism is disposed between the left and right sides of the pressing carrier plate 101. The feeding monolith mechanism of this embodiment includes a feeding monolith baffle 115 and a feeding monolith push plate 116 respectively disposed on the left and right sides of the pressing carrier plate 101, and a feeding monolith driving mechanism 117 for driving the feeding monolith push plate 116 to move in a direction perpendicular to the feeding monolith baffle 115 is disposed on the pressing carrier plate 101. The feeding monolith driving mechanism 117 adopts a cylinder, a hydraulic cylinder, an electric cylinder, a screw thread mechanism or a rack and pinion mechanism for driving the feeding monolith push plate 116 to move, and the feeding monolith driving mechanism 117 of this embodiment adopts a cylinder for driving the feeding monolith push plate 116 to move.

Further, in the first stage clamping separation assembly 100, the press assembly 120 includes a press plate 121 parallel to the press carrier plate 101 and a press driving mechanism 122 for driving the press plate 121 to move relative to the press carrier plate 101. The pressing driving mechanism 122 may be implemented by an air cylinder, a hydraulic cylinder, or an electric cylinder, and the pressing driving mechanism 122 in this embodiment adopts an air cylinder. As shown in fig. 4, in this embodiment, cylinders are disposed at two ends of the pressing plate 121, the cylinder body of the cylinder is fixedly mounted on the pressing carrier plate 101, and the piston rod of the cylinder is fixedly connected with the pressing plate 121. By controlling the synchronous action of the two cylinders, the pressing plate 121 can be driven to move relative to the pressing carrier plate 101 to clamp or unclamp the initial sheet 1 to be separated. Specifically, in the first stage clamping and separating assembly 100, there is a certain fit relationship between the pressing assembly 120 and the first feeding mechanism, that is, after the pressing assembly 120 presses and fixes the initial sheet 1, the first feeding mechanism is stopped at this time, and when the pressing assembly 120 releases the initial sheet 1, the first feeding mechanism acts to drive the initial sheet 1 to feed forward. In the first stage clamping and separating assembly 100, the pressing load plate 101 is located in a horizontal direction, and no anti-clamping structure may be disposed on the pressing load plate 101.

Further, in the first-stage clip separating assembly 100, the first clip separating mechanism includes a clip mechanism for clipping the initial sheet 1 and a rotation driving mechanism for driving the clip mechanism to rotate to separate the initial sheet. As shown in fig. 8 and 9, the clamping mechanism of the present embodiment includes a clamping driving mechanism and oppositely disposed first and second clamping surfaces 131, 132. The first clamping surface 131 and the second clamping surface 132 are parallel to each other, the clamping driving mechanism drives the first clamping surface 131 and the second clamping surface 132 to move oppositely to clamp the initial sheet material 1 to be separated, or the clamping driving mechanism drives the first clamping surface 131 and the second clamping surface 132 to move oppositely to loosen the separated primary separation sheet material 2, and the loosened primary separation sheet material 2 falls into the first receiving mechanism. The rotation driving mechanism of the present embodiment includes a separation shaft 133 and a rotation power assembly for driving the separation shaft 133 to rotate, the separation shaft 133 is parallel to the first clamping surface 131, and the clamping mechanism rotates synchronously with the separation shaft 133. Specifically, the separation shaft 133 of the present embodiment is located in the horizontal direction.

Specifically, the rotation driving mechanism of this embodiment includes a mounting seat 134 for mounting a separation rotating shaft 133, the separation rotating shaft 133 is mounted on the mounting seat 134 in a rotation fit manner, a rotation power assembly 135 for driving the separation rotating shaft 133 to rotate is provided on the mounting seat 134, the rotation power assembly 135 of this embodiment adopts a servo motor, an output shaft of the servo motor is connected with the separation rotating shaft 133 in a transmission manner, that is, the output shaft of the servo motor is directly connected with the separation rotating shaft 133 by a coupling, and a transmission mechanism can be also provided between the output shaft of the servo motor and the separation rotating shaft 133, so that description is not repeated. In this way, the rotation power assembly 135 is utilized to drive the separation rotating shaft 133 to rotate, so as to drive the clamping mechanism to synchronously rotate, and when the clamping mechanism rotates to the position where the first material pressing mechanism is located, the clamping driving mechanism drives the first clamping surface 131 and the second clamping surface 132 to oppositely move so as to clamp the initial sheet material 1 to be separated; then the rotation driving mechanism drives the clamping driving mechanism to rotate towards the direction of the first receiving mechanism, and the primary separation sheet material 2 is separated from the initial sheet material 1; when the clamping mechanism rotates to the position where the first receiving mechanism is located, the clamping driving mechanism drives the first clamping surface 131 and the second clamping surface 132 to move oppositely so as to loosen the separated primary separation sheet material 2, and the loosened primary separation sheet material 2 falls into the corresponding first receiving mechanism.

The clamping mechanism of the present embodiment includes a first separating clamping plate 136, a first clamping surface 131 is disposed on the first separating clamping plate 136, and a second clamping surface 132 is fixedly disposed relative to the separating rotating shaft 133. The clamping driving mechanism comprises a clamping power device 137, and the clamping power device 137 is located between the first separation clamping plate 136 and the separation rotating shaft 133. Specifically, the second clamping surface 132 may be directly disposed on the separation shaft 133; of course, the second separating clamping plate 138 may also be fixedly disposed with respect to the separating rotating shaft 133, and the second clamping surface 132 may be disposed on a side of the second separating clamping plate 138 facing the first separating clamping plate 136. The second separating clamping plate 138 is fixedly mounted on the separating rotating shaft 133 of the present embodiment, and the second clamping surface 132 is disposed on a side of the second separating clamping plate 138 facing the first separating clamping plate 136. The clamping power devices 137 of this embodiment are provided in two and are respectively located at two ends of the first separating clamping plate 136, and at this time, two sides of the first clamping surface 131 and the second clamping surface 132 form an inlet and an outlet for clamping or loosening the sheet material. Of course, the clamping power device 137 may be provided as one piece and located at one end of the first separating clamping plate 136, and in some embodiments, a guiding mechanism for guiding may be further provided between the other end of the first separating clamping plate 136 and the separating rotating shaft 133, which will not be described again. The clamping power device 137 can be implemented by adopting a cylinder, a hydraulic cylinder or an electric cylinder, and the like, and will not be described again. The clamping power means 137 of the present embodiment employs an air cylinder.

Of course, the clamping driving mechanism 137 may be implemented in other manners, as shown in fig. 10, where the clamping mechanism includes a third separating clamping plate 139 and a fourth separating clamping plate 140, the first clamping surface 131 is disposed on the third separating clamping plate 139, and the second clamping surface 132 is disposed on the fourth separating clamping plate 140; the third separating clamping plate 139 and the fourth separating clamping plate 140 can both move relative to the separating rotating shaft 133, the clamping power device 137 is fixedly connected with the separating rotating shaft, two clamping fingers 141 capable of moving oppositely or reversely are arranged on the clamping power device 137, and the third separating clamping plate 139 and the fourth separating clamping plate 140 are respectively arranged on the two clamping fingers 141 of the clamping power device 137. Specifically, the clamping power device 137 may be a pneumatic clamping finger. Of course, in some embodiments, the clamping power means 137 is provided in two and located at both ends of the third separating clamping plate 139 and the fourth separating clamping plate 140, respectively; in some embodiments, the clamping power means 137 is provided as one and at one end of the third separating clamping plate 139 and the fourth separating clamping plate 140.

Further, as shown in fig. 11-13, the first receiving mechanism 150 of the first stage pinch separation assembly 100 comprises a receiving trough comprising a trough bottom plate 151, and a first trough side baffle 152 and a second trough side baffle 153 are respectively disposed on two sides of the trough bottom plate 151. Specifically, in the first stage of the clamping and separating assembly 100, the first clamping and separating mechanism places the primary separated sheet 2 separated from the initial sheet 1 in the first receiving mechanism 150, and the surface of the sheet located in the first receiving mechanism 150 is located in the vertical direction and parallel to the first trough side baffle 152 and the second trough side baffle 153.

Specifically, the second stage clamping and separating assembly 200 is a second embodiment of the sheet clamping and separating assembly according to the present utility model, as shown in fig. 14, the second stage clamping and separating assembly 200 includes:

the feeding mechanism is used for driving the sheet material to be separated to feed, the sheet material to be separated at the moment is the primary separation sheet material 2, and the distance of the primary separation sheet material 2 driven by the feeding mechanism to feed forward every time is equal to the distance between two adjacent second cutting marks 6; let the feeding mechanism of the second stage clamping and separating assembly 200 be a second feeding mechanism;

the pressing mechanism is used for pressing and fixing the sheet material to be separated, namely pressing and fixing the primary separation sheet material 2, and after the primary separation sheet material 2 is pressed and fixed, the front end of the pressing mechanism exposes a second cutting mark 6, and the part of the front side of the exposed second cutting mark 6 is the part to be separated in the primary separation sheet material 2 at the time; the pressure mechanism of the second-stage clamping and separating assembly 200 is made to be a second material pressing mechanism;

the clamping and separating mechanism is used for separating the sheet materials to be separated from the second material pressing mechanism, namely separating the part to be separated of the primary separation sheet materials 2 from the primary separation sheet materials 2; let the clamping and separating mechanism of the second stage clamping and separating assembly 200 be a second clamping and separating mechanism;

the receiving mechanism is used for receiving the separated sheet materials separated by the second clamping and separating mechanism, and the separated sheet materials at the moment are secondary separated sheet materials 3; let the receiving mechanism of the second stage clamping and separating assembly 200 be the second receiving mechanism.

Specifically, in the second stage holding and separating assembly 200, the second pressing mechanism includes a pressing carrier 201 parallel to the surface of the sheet material to be separated and a pressing assembly 209 for pressing and fastening the sheet material to be separated on the pressing carrier 201, and the second feeding mechanism is used for driving the sheet material to be separated to feed forward along the direction parallel to the pressing carrier 201. As shown in fig. 13, the second pressing mechanism of the embodiment has a groove-shaped structure, namely a pressing groove 202, the pressing groove 202 includes a pressing groove bottom plate 203 and pressing groove side plates, one of the pressing groove side plates is a pressing material bearing plate 201, namely in the second-stage clamping and separating assembly 200, the pressing material bearing plate 201 is located in the vertical direction.

Specifically, the first receiving mechanisms of the first-stage clamping and separating assembly are two, the second-stage clamping and separating assembly 200 is arranged in one-to-one correspondence with the first receiving mechanisms of the first-stage clamping and separating assembly, and a sheet transferring mechanism is arranged between the first receiving mechanisms of the first-stage clamping and separating assembly and the second feeding mechanism of the second-stage clamping and separating assembly, and separated sheets separated by the first-stage clamping and separating assembly are sheets to be separated of the second-stage clamping and separating assembly. As shown in fig. 14, in this embodiment, the sheet material transferring mechanism is a sheet material transferring lifting mechanism 154 disposed below the receiving slot, and the sheet material transferring lifting mechanism 154 is used for driving the receiving slot to make lifting movement. Specifically, the sheet transferring and lifting mechanism 154 may be implemented by using an air cylinder, a hydraulic cylinder, an electric cylinder, a threaded screw mechanism, a rack and pinion mechanism, and the like, and the sheet transferring and lifting mechanism 154 in this embodiment uses an air cylinder. When the receiving trough moves upwards to a set position, the first-stage clamping and separating assembly 100 receives the primary separation sheet 2 from the first clamping and separating mechanism, when the receiving trough moves downwards to the set position, the receiving trough is connected with the pressing trough 202, namely the trough bottom plate 151 of the receiving trough is flush with the pressing trough bottom plate 203, the first trough side baffle 152 is flush with the pressing bearing plate 201, and at the moment, the second feeding mechanism of the second-stage clamping and separating assembly 200 can drive the primary separation sheet 2 to enter the pressing trough 202 from the receiving trough. In order to make the primary separation sheet 2 entering the pressing chute 202 from the receiving chute adhere to the pressing carrier plate 201, the first stage clamping separation assembly 100 further includes a chute pushing mechanism for pushing the primary separation sheet 2 in the receiving chute toward the first chute side baffle 152. Specifically, in this embodiment, the chute pushing mechanism includes a chute pushing hole 155 provided in the second chute side baffle 153, a chute pushing block 156 mated with the chute pushing hole 155, and a chute pushing drive mechanism 157 for driving the chute pushing block 156 to pass through the chute pushing hole 155 to push the sheet material in the receiving chute toward the first chute side baffle 152. The material pushing driving mechanism of the material groove can be realized by adopting a cylinder, a hydraulic cylinder or an electric cylinder and the like, and the material pushing driving mechanism of the material groove of the embodiment adopts the cylinder.

Therefore, the first receiving mechanism of the first stage clamping and separating assembly 100 and the second pressing mechanism of the second stage clamping and separating assembly 200 are respectively provided with a loading plate parallel to the surface of the sheet material and located in the vertical direction, the loading plate of the first receiving mechanism of the first stage clamping and separating assembly 100 is the first trough side baffle 152, and the loading plate of the second pressing mechanism of the second stage clamping and separating assembly 200 is the pressing loading plate 201, so in this embodiment, the first trough side baffle 152 and the pressing loading plate 201 are respectively provided with anti-clamping structures. The anti-pinch structure can be implemented in various ways, for example, the anti-pinch structure adopts an anti-pinch protrusion 204 integrally formed with the carrier plate, as shown in fig. 11 and 16; alternatively, the anti-pinch structure employs an anti-pinch plate 205 mounted on a carrier plate, as shown in FIG. 13. The anti-clamping structure of this embodiment adopts anti-clamping protrusions 204 integrally formed with the carrier plate, that is, the first trough side baffle 152 and the pressing carrier plate 201 are provided with anti-clamping protrusions 204.

As shown in fig. 6, in the second stage clamping and separating assembly 200, the second feeding mechanism includes a servo cylinder 206, a feeding connector 207 is mounted on a cylinder rod of the servo cylinder 206, and a feeding push plate 208 is provided on the feeding connector 207. The feeding push plate 208 is driven to move by the servo electric cylinder 206, so that the sheet material in the receiving groove enters the pressing groove 202, and the technical purpose of feeding the second clamping and separating mechanism of the second-stage clamping and separating assembly 200 is achieved. In the second stage clamping and separating assembly 200, the pressing assembly 209 is an air cylinder for pressing and fastening the sheet material on the pressing carrier 201, and of course, the pressing assembly 209 may also be a hydraulic cylinder or an electric cylinder, which will not be described again.

Further, the second clamping and separating mechanism of the second stage clamping and separating assembly 200 is similar to the first clamping and separating mechanism of the first stage clamping and separating assembly 100 in structure, namely: as shown in fig. 17 to 18, in the second-stage clip separating assembly 200, the second clip separating mechanism includes a clip mechanism for clipping the initial sheet material 1 and a rotation driving mechanism for driving the clip mechanism to rotate to separate the initial sheet material. The clamping mechanism of the present embodiment includes a clamping driving mechanism and a first clamping surface 131 and a second clamping surface 132 that are disposed opposite to each other. The first clamping surface 131 and the second clamping surface 132 are parallel to each other, the clamping driving mechanism drives the first clamping surface 131 and the second clamping surface 132 to move oppositely to clamp the primary separation sheet material 2 to be separated, or the clamping driving mechanism drives the first clamping surface 131 and the second clamping surface 132 to move oppositely to loosen the separated secondary separation sheet material 3, and the loosened secondary separation sheet material 3 falls into the second receiving mechanism. The rotation driving mechanism of the present embodiment includes a separation shaft 133 and a rotation power assembly for driving the separation shaft 133 to rotate, the separation shaft 133 is parallel to the first clamping surface 131, and the clamping mechanism rotates synchronously with the separation shaft 133. Specifically, the separation shaft 133 of the present embodiment is located in the vertical direction.

Specifically, the rotation driving mechanism of this embodiment includes a mounting seat 134 for mounting a separation rotating shaft 133, the separation rotating shaft 133 is mounted on the mounting seat 134 in a rotation fit manner, a rotation power assembly 135 for driving the separation rotating shaft 133 to rotate is provided on the mounting seat 134, the rotation power assembly 135 of this embodiment adopts a servo motor, an output shaft of the servo motor is connected with the separation rotating shaft 133 in a transmission manner, that is, the output shaft of the servo motor is directly connected with the separation rotating shaft 133 by a coupling, and a transmission mechanism can be also provided between the output shaft of the servo motor and the separation rotating shaft 133, so that description is not repeated. In this way, the rotation power assembly 135 is utilized to drive the separation rotating shaft 133 to rotate, so as to drive the clamping mechanism to synchronously rotate, and when the clamping mechanism rotates to the position where the second pressing mechanism is located, the clamping driving mechanism drives the first clamping surface 131 and the second clamping surface 132 to oppositely move so as to clamp the primary separation sheet material 2 to be separated; then the rotation driving mechanism drives the clamping driving mechanism to rotate towards the direction of the second receiving mechanism, and the secondary separation sheet 3 is separated from the primary separation sheet 2; when the clamping mechanism rotates to the position where the second receiving mechanism is located, the clamping driving mechanism drives the first clamping surface 131 and the second clamping surface 132 to move oppositely so as to loosen the separated secondary separation sheet 3, and the loosened secondary separation sheet 3 falls into the corresponding second receiving mechanism.

The clamping mechanism of the present embodiment includes a first separating clamping plate 136, a first clamping surface 131 is disposed on the first separating clamping plate 136, and a second clamping surface 132 is fixedly disposed relative to the separating rotating shaft 133. The clamping driving mechanism comprises a clamping power device 137, and the clamping power device 137 is located between the first separation clamping plate 136 and the separation rotating shaft 133. Specifically, the second clamping surface 132 may be directly disposed on the separation shaft 133; of course, the second separating clamping plate 138 may also be fixedly disposed with respect to the separating rotating shaft 133, and the second clamping surface 132 may be disposed on a side of the second separating clamping plate 138 facing the first separating clamping plate 136. The second separating clamping plate 138 is fixedly mounted on the separating rotating shaft 133 of the present embodiment, and the second clamping surface 132 is disposed on a side of the second separating clamping plate 138 facing the first separating clamping plate 136. In the second stage clamping and separating assembly 200, the clamping power means 137 is provided as one and located at one end of the first separating clamping plate 136, and the other ends of the first clamping surface 131 and the second clamping surface 132 form an access opening for clamping or unclamping the sheet material. Of course, the clamping power devices 137 may be provided in two and located at two ends of the first separating clamping plate 136, which will not be described again. The clamping power device 137 can be implemented by adopting a cylinder, a hydraulic cylinder or an electric cylinder, and the like, and will not be described again. The clamping power means 137 of the present embodiment employs an air cylinder.

Of course, the clamping driving mechanism 137 may be implemented in other manners, as shown in fig. 16, where the clamping mechanism includes a third separating clamping plate 139 and a fourth separating clamping plate 140, the first clamping surface 131 is disposed on the third separating clamping plate 139, and the second clamping surface 132 is disposed on the fourth separating clamping plate 140; the third separating clamping plate 139 and the fourth separating clamping plate 140 can both move relative to the separating rotating shaft 133, the clamping power device 137 is fixedly connected with the separating rotating shaft, two clamping fingers 141 capable of moving oppositely or reversely are arranged on the clamping power device 137, and the third separating clamping plate 139 and the fourth separating clamping plate 140 are respectively arranged on the two clamping fingers 141 of the clamping power device 137. Specifically, in the second stage clamping and separating assembly 200, the clamping power means 137 is provided as one and located at one end of the third separating clamping plate 139 and the fourth separating clamping plate 140, and the other ends of the third separating clamping plate 139 and the fourth separating clamping plate 140 form an access opening for clamping or unclamping the sheet material. Of course, in other embodiments, two clamping power devices 137 may be provided, which will not be described.

Further, when the receiving mechanisms of the ith clamping and separating assembly are at least two, the ith clamping and separating assembly further comprises a discharging moving mechanism, and the discharging moving mechanism is used for driving the clamping and separating mechanism of the ith clamping and separating assembly to move so as to place separated sheet materials obtained by separation into the corresponding receiving mechanisms; or the discharging moving mechanism is used for driving the receiving mechanism of the ith clamping and separating assembly to move so as to receive separated sheet materials from the clamping and separating mechanism. As shown in fig. 8-9, in this embodiment, the first receiving mechanisms of the first stage clamping and separating assembly 100 are two, and the first stage clamping and separating assembly 100 further includes a discharging moving mechanism. In this embodiment, the discharging moving mechanism includes a discharging slide rail 161, a discharging slide block 162 slidingly matched with the discharging slide rail 161, and a discharging power device 163 for driving the discharging slide block 162 to move along the discharging slide rail 161, and a first clamping and separating mechanism in the first stage clamping and separating assembly 100 is installed on the discharging slide block 162. The discharging power device 163 can be realized by adopting a cylinder, a hydraulic cylinder, an electric cylinder, a threaded screw rod mechanism or a gear rack mechanism, and the like, and the discharging power device 163 of the embodiment can be realized by adopting the cylinder without being tired.

Further, as shown in fig. 14, the second receiving mechanism of the second stage clamping and separating assembly 200 includes a receiving bottom plate 210, and the receiving bottom plate 210 is configured to receive the secondary separated sheet 3 separated by the second stage clamping and separating mechanism of the second stage clamping and separating assembly 200. The receiving base plate 210 of the present embodiment is provided with a discharge mechanism. As shown in fig. 15, the discharging mechanism of the present embodiment includes a feeding channel 211 and a discharging channel 212 which are perpendicular to each other, a communication area 213 is provided between the feeding channel 211 and the discharging channel 212, and the communication area 213 is respectively communicated with the feeding channel 211 and the discharging channel 212. Specifically, the discharging mechanism of this embodiment further includes: a first discharge pushing mechanism for pushing the secondary separation sheet 3 in the feed channel 211 to the communication area 213; the second discharging and pushing mechanism is used for pushing the secondary separation sheet 3 in the communicating area 213 to the discharging channel 212. By providing the discharge mechanism on the receiving bottom plate 210, the separated secondary separation sheets 3 can be arranged according to stacking requirements, so as to be convenient for boxing and stacking.

As shown in fig. 15, a discharge baffle 214 is disposed on a side of the discharge channel 212 and the communication area 213 facing away from the feed channel 211 in this embodiment, so as to define a position where the first discharge pushing mechanism pushes the secondary separation sheet 2 into the communication area 213. The first discharging and pushing mechanism comprises a feeding pushing plate 214 and a feeding and pushing driving mechanism, wherein the feeding and pushing driving mechanism is used for driving the feeding and pushing plate 214 to move along a direction parallel to the length direction of the feeding channel 211 so as to push the secondary separation sheet 2 to the communication area 213. The feeding pushing driving mechanism can be realized by adopting a cylinder, a hydraulic cylinder or an electric cylinder and the like, and the feeding pushing driving mechanism of the embodiment adopts the cylinder. The second discharging and pushing mechanism may be implemented by an air cylinder, a hydraulic cylinder, or an electric cylinder, and the second discharging and pushing mechanism of this embodiment may employ an air cylinder 215 and a discharging guide rod 216 for guiding the extension and retraction direction of the piston rod of the air cylinder 215.

Note that: "forward" in this context means the direction of sheet material flow according to the process flow, i.e., the direction of sheet material flow from the previous process to the next process is "forward".

The above-described embodiments are merely preferred embodiments for fully explaining the present utility model, and the scope of the present utility model is not limited thereto. Equivalent substitutions and modifications will occur to those skilled in the art based on the present utility model, and are intended to be within the scope of the present utility model. The protection scope of the utility model is subject to the claims.

Claims (12)

1. The utility model provides a piece material clamping separation subassembly which characterized in that: comprising the following steps:

the feeding mechanism is used for driving the sheet material to be separated to feed;

the pressing mechanism is used for pressing and fixing the sheet materials to be separated;

the clamping and separating mechanism is used for separating the sheet materials to be separated from the pressing mechanism;

and the receiving mechanism is used for receiving the separated sheet materials separated by the clamping and separating mechanism.

2. The sheet material holding and separating assembly according to claim 1, wherein: the feeding mechanism is used for driving the sheet material to be separated to feed forward along the direction parallel to the pressing bearing plate.

3. The sheet material holding and separating assembly according to claim 2, wherein: the pressing assembly comprises a pressing plate parallel to the pressing bearing plate and a pressing driving mechanism for driving the pressing plate to move relative to the pressing bearing plate.

4. The sheet material holding and separating assembly according to claim 1, wherein: when the material pressing mechanism and the material receiving mechanism are internally provided with the bearing plate which is parallel to the surface of the sheet material and positioned in the vertical direction, the bearing plate is provided with a material clamping preventing structure.

5. The sheet material holding and separating assembly according to claim 4, wherein: the anti-clamping structure adopts anti-clamping protrusions integrally formed with the bearing plate; or, the anti-clamping structure adopts an anti-clamping plate arranged on the bearing plate.

6. The sheet material holding and separating assembly according to claim 1, wherein: when the receiving mechanisms are arranged at least two, the clamping and separating assembly further comprises a discharging moving mechanism, and the discharging moving mechanism is used for driving the clamping and separating mechanism to move so as to place separated sheet materials obtained by separation into the corresponding receiving mechanisms; or the discharging moving mechanism is used for driving the receiving mechanism to move so as to receive separated sheet materials obtained by separation from the clamping and separating mechanism.

7. The sheet material holding and separating assembly according to any one of claims 1 to 6, wherein: the clamping and separating mechanism comprises a clamping mechanism for clamping the sheet material and a rotation driving mechanism for driving the clamping mechanism to rotate so as to separate the sheet material; the rotation driving mechanism comprises a separation rotating shaft and a rotation power assembly for driving the separation rotating shaft to rotate.

8. The sheet material holding and separating assembly according to claim 7, wherein: the clamping mechanism comprises a clamping driving mechanism, a first clamping surface and a second clamping surface which are oppositely arranged; the first clamping surface and the second clamping surface are parallel to each other, the clamping driving mechanism drives the first clamping surface and the second clamping surface to move oppositely so as to clamp the sheet materials to be separated, or the clamping driving mechanism drives the first clamping surface and the second clamping surface to move oppositely so as to loosen the separated sheet materials.

9. The sheet material holding and separating assembly according to claim 8, wherein: the clamping mechanism comprises a first separation clamping plate, the first clamping surface is arranged on the first separation clamping plate, and the second clamping surface is fixedly arranged relative to the separation rotating shaft.

10. The sheet material holding and separating assembly according to claim 9, wherein: the second clamping surface is arranged on the separation rotating shaft; or, the device further comprises a second separation clamping plate fixedly arranged relative to the separation rotating shaft, and the second clamping surface is arranged on the second separation clamping plate.

11. The sheet material holding and separating assembly according to claim 8, wherein: the clamping mechanism comprises a third separation clamping plate and a fourth separation clamping plate, the first clamping surface is arranged on the third separation clamping plate, and the second clamping surface is arranged on the fourth separation clamping plate; the third separation clamping plate and the fourth separation clamping plate can move relative to the separation rotating shaft, two clamping fingers capable of moving oppositely or reversely are arranged on the clamping driving mechanism, and the third separation clamping plate and the fourth separation clamping plate are respectively arranged on the two clamping fingers.

12. The sheet material holding and separating assembly according to claim 8, wherein: the rotary driving mechanism comprises a separation rotating shaft and a rotary power assembly for driving the separation rotating shaft to rotate, the separation rotating shaft is parallel to the first clamping surface, and the clamping mechanism and the separation rotating shaft synchronously rotate.

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