CN216234857U - Basket utensil setting device and panel revolving rack equipment - Google Patents

Abstract

The utility model discloses a basket tool shaping device and plate rotating frame equipment, wherein the basket tool shaping device comprises one or more first shaping mechanisms and one or more second shaping mechanisms; the first shaping mechanism comprises a side pressing piece, a first jacking piece and a first pressing driving piece, wherein the first pressing driving piece is used for driving the side pressing piece to move to the side face of the basket tool to be shaped and driving the first jacking piece to move to the top face of the basket tool; the second shaping mechanism comprises a second jacking part and a second pressing driving part, and the second pressing driving part is used for driving the second jacking part to move towards the top of the basket tool. The first shaping mechanism and the second shaping mechanism work together to maintain the original shape of the basket as much as possible, and prevent the basket from deforming to influence the rotating efficiency and the quality of the plates.

Description

Basket utensil setting device and panel revolving rack equipment

Technical Field

The utility model relates to the technical field of baskets, in particular to a basket shaping device and plate rotating stand equipment.

Background

Glass sheet products have extremely wide application in portable electronic products. As glass processing has higher and higher requirements for process efficiency and quality, the turnaround time between glass processing operations has also become shorter and shorter. Multiple sheets of glass sheets are typically placed in one basket for circulation in one process step, which results in the sheets generally being transferred from one basket to another as they circulate between adjacent process steps.

The conventional art generally relies on an operator to manually remove the glass sheets from the previous baskets and place them in the subsequent baskets to complete the transfer of the glass sheets. Such a transfer process is time consuming and laborious. In order to improve the transfer efficiency of basket utensil, can wholly push away the glass panel to connect the material basket utensil in the basket utensil from changeing the material basket utensil, but at the in-process that promotes glass panel, need change the material basket utensil and connect the panel standing groove in the material basket utensil and counterpoint the accuracy, otherwise panel can receive the hindrance, and then produces too big frictional force, damages the panel surface, also can lead to panel unable promotion simultaneously. And change the material basket utensil because born a large amount of panels, receive glass panel's pressure and wholly take place deformation in the in-service use process, this kind of deformation can make the panel standing groove of changeing the material basket utensil and take place the dislocation between the panel standing groove of connecing the material basket utensil, and then lead to the problem of panel transportation difficulty.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a basket pressing device capable of preventing the basket from deforming when the basket bears the plate.

According to one embodiment of the utility model, a basket sizing device comprises a first sizing mechanism and a second sizing mechanism, wherein the first sizing mechanism comprises one or more sizing mechanisms, and the second sizing mechanism comprises one or more sizing mechanisms;

the first shaping mechanism comprises a side pressing piece, a first jacking piece and a first pressing driving piece, wherein the first pressing driving piece is used for driving the side pressing piece to move towards the side face of the basket to be shaped and driving the first jacking piece to move towards the top face of the basket at the same time;

the second shaping mechanism comprises a second pressing piece and a second pressing driving piece, and the second pressing driving piece is used for driving the second pressing piece to move towards the top of the basket tool.

In one embodiment, the first pressing driving member is connected to the side pressing member, and the driving direction of the first pressing driving member is towards the side surface of the basket tool so as to drive the side pressing member to move towards the side surface of the basket tool.

In one embodiment, the first positioning mechanism further comprises a first deflection rotating part, the first pressing part is connected to the side pressing part through the first deflection rotating part, and the first deflection rotating part is used for driving the first pressing part to move towards the top of the basket tool when the side pressing part moves towards the side surface of the basket tool.

In one embodiment, the first yaw rotating component comprises a first steering member and a first sliding groove member, the first sliding groove member is provided with a first sliding groove, the first steering member comprises a first rotating shaft and a first sliding body capable of rotating around the first rotating shaft, and the position of the first sliding groove member is fixed;

the first rotating shaft is connected to the side pressing piece, the first sliding body is arranged in the first sliding groove and can move along the first sliding groove, the sliding direction of the first sliding body in the first sliding groove is oblique to the moving direction of the side pressing piece, and the first jacking piece is connected to the first steering piece.

In one embodiment, the lateral pressing piece further comprises a rotating shaft bracket, the rotating shaft bracket is fixedly connected to the lateral pressing piece, and the rotating shaft is arranged on the rotating shaft bracket.

In one embodiment, the second shaping mechanism includes a second deflection rotating member, the second pressing member is connected to the second pressing driving member through the second deflection rotating member, and the driving direction of the second pressing driving member is upward.

In one embodiment, the second yaw rotating component comprises a second steering element and a second sliding groove element, the second steering element comprises a second rotating shaft and a second sliding body capable of rotating around the second rotating shaft, the position of the second sliding groove element is fixed, and a second sliding groove is formed in the second sliding groove element;

the second rotating shaft is arranged on the second pressure applying driving piece, the second sliding body is arranged in the second sliding groove and can move along the second sliding groove, and the sliding direction of the second sliding body is inclined to the driving direction of the second pressure applying driving piece.

In one embodiment, there are a plurality of the first molding mechanisms, there is one of the second molding mechanisms, and a plurality of the first pressing members in the plurality of the first molding mechanisms are respectively arranged at two sides of the second pressing member of the second molding mechanism.

In one embodiment, the first pressure applying driver is a cylinder; and/or the second pressure applying drive member is a cylinder.

Further, the plate rotating stand equipment comprises a material rotating basket, a material receiving basket, a push plate device and the basket shaping device according to any one of the embodiments;

the plate pushing device is used for pushing plates from the material rotating basket to the material receiving basket, the basket shaping devices are multiple, and the basket shaping devices are respectively used for applying pressure to the side surfaces and the top surfaces of the material rotating basket and the material receiving basket.

In one embodiment, the basket shaping devices are more than four, one or more than one basket shaping device is respectively arranged on two sides of the material transferring basket, and one or more than one basket shaping device is respectively arranged on two sides of the material receiving basket.

The basket tool shaping device can simultaneously apply pressure to the basket tool from the side face and the top face of the basket tool, the basket tool shaping device comprises a first shaping mechanism and a second shaping mechanism, a side pressing piece of the first shaping mechanism can apply pressure to the basket tool from the side face to assist in shaping the side face of the basket tool, and a first top pressing piece driven by a first pressing driving piece simultaneously can assist in shaping the top face of the basket tool synchronously. The first jacking part is influenced by the driving force of the first pressing driving part, so that the second jacking part is arranged to simultaneously press the top surface of the basket tool, and the shaping of the top surface of the basket tool is ensured. The first shaping mechanism and the second shaping mechanism work together to maintain the original shape of the basket as much as possible, and prevent the basket from deforming to influence the rotating efficiency and the quality of the plates.

Drawings

FIG. 1 is a schematic view of the overall structure of a basket fixture molding device;

FIG. 2 is a schematic view of the internal structure of the basket setting device in FIG. 1;

FIG. 3 is a schematic view of a disassembled structure of the basket fixture molding apparatus shown in FIG. 1;

FIG. 4 is a schematic structural view of a plate rotating stand device;

FIG. 5 is a schematic view of the basket of FIG. 4;

FIG. 6 is a schematic illustration of a disassembled structure of the sheet rotating stand apparatus of FIG. 4;

wherein the reference symbols and their meanings are as follows:

100. a basket shaping device; 110. a first pressure applying mechanism; 111. a side casting part; 112. a first pressing member; 113. a first pressure applying driving member; 114. a first steering member; 1141. a first rotating shaft; 1142. a first slider; 115. a first sliding channel member; 116. a rotating shaft bracket; 117. a fixing member; 120. a second pressing member; 121. a second top pressing piece; 122. a second pressure applying driving member; 123. a second steering member; 1231. a second rotating shaft; 1232. a second sliding body; 124. a second sliding channel member; 200. a material turning basket tool; 201. a plate transfer port; 202. a pushing plate opening; 210. a side plate; 220. a plate limiting rod; 221. tooth particles; 230. a connecting rod; 300. a material receiving basket; 410. a material transferring positioning block; 420. a material receiving positioning block; 500. a plate pushing device; 600. a plate transfer mechanism; 700. and a frame.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below with reference to the accompanying embodiments and effect drawings. The examples set forth preferred embodiments of the utility model. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In addition, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or may be connected through two or more elements. It should be understood that it is a matter of course that those skilled in the art can correspondingly understand the specific meanings of the above terms according to specific situations without causing ambiguity.

Unless otherwise defined, in the description of the present invention, terms indicating orientation or positional relationship such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the orientation or positional relationship shown in the drawings of the present invention, which are only for convenience and simplicity of description of the present invention and help the reader to understand in conjunction with the drawings, and do not define or imply that the device or element referred to must have a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The utility model provides a basket shaping device, which comprises one or more first shaping mechanisms and one or more second shaping mechanisms, wherein the one or more first shaping mechanisms are arranged on the basket shaping device;

the first shaping mechanism comprises a side pressing piece, a first jacking piece and a first pressing driving piece, wherein the first pressing driving piece is used for driving the side pressing piece to move to the side face of the basket tool to be shaped and driving the first jacking piece to move to the top face of the basket tool;

the second shaping mechanism comprises a second jacking part and a second pressing driving part, and the second pressing driving part is used for driving the second jacking part to move towards the top of the basket tool.

Fig. 1 is a schematic overall structure diagram of a basket fixture sizing device 100 according to the present invention, and fig. 2 is a schematic internal structure diagram of the basket fixture sizing device 100 with a housing removed, which includes a first sizing mechanism and a second sizing mechanism, the first sizing mechanism includes a side pressing member 111, a first pressing member 112 and a first pressing driving member 113, the first pressing driving member 113 is used for driving the side pressing member 111 to move towards the side surface of the basket fixture to be sized, and simultaneously driving the first pressing member 112 to move towards the top surface of the basket fixture; the second molding mechanism includes a second pressing member 121 and a second pressing driving member 122, and the second pressing driving member 122 is used for driving the second pressing member 121 to move toward the top of the basket.

One or more first shaping mechanisms can be provided, and one or more second shaping mechanisms can be provided.

To further understand the connection manner of the components inside the basket fixture 100, please refer to fig. 3, which shows a schematic disassembled structure of the basket fixture 100 in fig. 1.

The basket styling apparatus 100 includes one or more first pressing mechanisms 110. The first pressing mechanism 110 comprises a side pressing piece 111, a first pressing piece 112 and a first pressing driving piece 113, wherein the first pressing driving piece 113 is used for driving the side pressing piece 111 to move towards the side of the basket to be shaped and simultaneously driving the first pressing piece 112 to move towards the top of the basket. The first pressing driving member 113 can directly drive the first pressing member 112 to move, or can drive the first pressing member 112 to move by moving the side pressing member 111. It will be appreciated that the side pressing member 111 is spaced from the side of the basket in the non-operative position and moves towards the side of the basket to contact the basket in the operative position. The first pressing member 112 is disposed directly above the basket device and spaced from the top of the basket device in the non-operating state, and moves toward the top of the basket device and applies pressure to the top of the basket device in the operating state.

In the first pressing mechanism 110, the first pressing driver 113 is connected to the side pressing member 111, and the driving direction of the first pressing driver 113 is toward the side of the basket to drive the side pressing member 111 to move toward the side of the basket.

Optionally, the first pressing mechanism 110 further includes a first deflection rotating component, the first pressing component 112 is connected to the side pressing component 111 through the first deflection rotating component, and the first deflection rotating component is configured to drive the first pressing component 112 to move towards the top of the basket tool when the side pressing component 111 moves towards the side of the basket tool. When the side pressing member 111 moves, the first steering member 114 can swing, so that the friction force generated when the first pressing member 112 presses the basket device can be reduced.

Further, in the first pressing mechanism 110, the first deflection rotating member includes a first steering member 114 and a first sliding groove member 115, the first sliding groove member 115 is provided with a first sliding groove, the position of the whole first sliding groove member 115 is fixed, the first steering member 114 includes a first rotating shaft 1141 and a first sliding body 1142 which are connected, the first rotating shaft 1141 is provided on the side pressing member 111, the first sliding body 1142 is provided in the first sliding groove and can move along the first sliding groove, the sliding direction of the first sliding body 1142 is inclined to the moving direction of the side pressing member 111, and the first pressing member 112 is connected to the first steering member 114. When the pressing member 111 moves toward the side of the basket, the first sliding body 1142 moves to drive the first turning member 114 to rotate around the rotating shaft and drive the first pressing member 112 to rotate, so that one end of the first pressing member 112 presses down toward the top surface of the basket.

Optionally, the first pressing mechanism 110 further includes a rotating shaft bracket 116, the rotating shaft bracket 116 is fixedly connected to the side pressing member 111, and the first rotating shaft 1141 is rotatably connected to the rotating shaft bracket 116 to be disposed on the side pressing member 111.

Optionally, the first pressing mechanism 110 further includes a fixing member 117, the fixing member 117 may be fixedly connected to the housing, and the sliding groove is fixedly connected to the fixing member 117.

Alternatively, the first pressing driving member 113 is an air cylinder, and the driving direction of the air cylinder is toward the basket side. Wherein the first pressing driving member 113 is selected from a pressure-adjustable cylinder for adjusting the pressure of the lateral pressing member 111 and the first pressing member 112.

Wherein, drive first roof pressure piece 112 through setting up side casting die 111 and remove, can make side casting die 111 and first roof pressure piece 112 remove jointly, compress tightly the basket utensil jointly from side and top surface, be convenient for prevent that the basket utensil from taking place the panel dislocation phenomenon that deformation leads to.

Alternatively, the first pressing mechanism 110 is plural. The first pressing driving members 113 of the plurality of first pressing mechanisms 110 may be the same driving member or two different driving members.

The basket fixture sizing device 100 further comprises a second pressing mechanism, the second pressing mechanism comprises a second pressing member 121 and a second pressing driving member 122, and the second pressing driving member 122 is used for driving the second pressing member 121 to move towards the top of the basket fixture so as to apply pressure to the top surface of the basket fixture.

Alternatively, the second pressing mechanism includes a second deflection rotating member, the second pressing member 121 is connected to the second pressing driving member 122 through the second deflection rotating member, and the driving direction of the second pressing driving member 122 is upward, specifically, may be obliquely upward or directly upward. The second yaw rotating member includes a second steering member 123 and a second sliding groove member 124, the second sliding groove member 124 is provided with a second sliding groove, and the position of the second sliding groove member 124 is fixed. The second steering member 123 includes a second rotating shaft 1231 and a second sliding body 1232, the second rotating shaft 1231 is rotatably disposed on the second pressing driving member 122, the second sliding body 1232 is disposed in the second sliding groove and can move along the second sliding groove, the sliding direction of the second sliding body 1232 is inclined to the driving direction of the second pressing driving member 122, and the second pressing member 121 is connected to the second steering member 123.

When the second pressing driving member 122 is driven, the second steering member 123 can perform a yawing rotation, so as to reduce a friction force when the second pressing member 121 presses the basket.

Alternatively, there are a plurality of first pressing mechanisms 110, and the second pressing member 121 in the second pressing mechanism is disposed between two adjacent first pressing members 112 in the plurality of first pressing mechanisms 110. So set up for this basket utensil forming device 100 has three roof pressure spare to exert pressure to the top of basket utensil, can guarantee as far as possible that the top atress of basket utensil is even, further avoids the deformation of basket utensil.

Optionally, the second pressure actuator 122 is a pneumatic cylinder. Specifically, the second pressing driving member 122 is selected from a pressure-adjustable cylinder, so as to adjust the pressure of the second pressing member 121.

The basket shaping device 100 can simultaneously press the basket from the side surface and the top surface of the basket, the basket shaping device 100 comprises a first shaping mechanism and a second shaping mechanism, a side pressing piece 111 of the first shaping mechanism can press the basket from the side surface to assist in shaping the side surface of the basket, and a first pressing piece 112 driven by a first pressing driving piece 113 can synchronously assist in shaping the top surface of the basket. The first pressing member 112 is influenced by the driving force of the first pressing driving member 113, and therefore, the second pressing member 121 is further provided to simultaneously press the top surface of the basket to ensure the shaping of the top surface of the basket. The first shaping mechanism and the second shaping mechanism work together to maintain the original shape of the basket as much as possible, and prevent the basket from deforming to influence the rotating efficiency and the quality of the plates.

The basket fixture forming apparatus 100 may be applied to the process of transferring the plate material from the material transferring basket 200 to the material receiving basket 300. Therefore, the utility model also provides the plate rotating frame equipment.

Referring to fig. 4, the plate material rotating stand apparatus includes a material rotating basket 200, a material receiving basket 300, a plate pushing device 500 and a basket shaping device 100 according to the above embodiment.

The push plate device 500 is used for pushing the plate from the material transferring basket 200 to the material receiving basket 300, the number of basket shaping devices 100 is multiple, and the basket shaping devices 100 are respectively used for applying pressure on the side surfaces and the top surfaces of the material transferring basket 200 and the material receiving basket 300.

In one specific example, there are more than four basket setting devices 100, one or more basket setting devices 100 are respectively disposed on both sides of the material turning basket 200, and one or more basket setting devices 100 are respectively disposed on both sides of the material receiving basket 300.

For example, there are four basket setting devices 100, two basket setting devices 100 are in a group, in one group of basket setting devices 100, two basket setting devices 100 of one group are respectively disposed on two opposite sides of the material transferring basket 200, and two basket setting devices 100 of the other group are respectively disposed on two sides of the material receiving basket 300. In the course of the work, the basket utensil bears the weight of the multi-disc panel, and the basket utensil probably receives the pressure of panel to produce deformation, leads to the problem of wherein each panel can't accurate counterpoint, and then leads to the multi-disc panel can't counterpoint simultaneously and remove to in the panel transfer groove or connect the panel spacing groove in the material basket utensil 300. The basket shaping device 100 can simultaneously apply pressure to the side surface and the top surface of the basket, so that the original shape of the basket can be maintained as far as possible, and the problem that plates cannot be accurately aligned due to deformation of the basket is solved.

The transfer basket 200 and the receiving basket 300 have similar structures. Illustrated as a spin basket 200. Referring to fig. 5, which shows a specific structural schematic diagram of the material transferring basket 200 in fig. 4, a basket body of the material transferring basket 200 includes two side plates 210 and a plurality of plate limiting rods 220, which are oppositely disposed, two ends of each plate limiting rod 220 are respectively connected to the two side plates 210, and each plate limiting rod 220 is provided with a plurality of plate limiting grooves for accommodating plates. All panel spacing grooves form multiunit panel spacing groove, and each group of panel spacing groove all is used for a slice panel of holding, has a plurality of panel spacing grooves the same with panel gag lever post 220 quantity in every group panel spacing groove to wherein a plurality of panel spacing grooves divide and locate on a plurality of panel gag lever posts 220. It can be understood that the specific shape and the opening direction of the plate limiting groove can be specifically designed corresponding to the shape of the plate, as long as one set of plate limiting groove can accommodate one plate. For example, the plate can be vertically or obliquely placed in the plate limiting groove, and the opening direction of the limiting groove can be specifically set corresponding to different placing modes of the plate. Optionally, the plate is vertically placed in the plate limiting groove. At this time, the surface determined by each plate limiting groove in the group of plate limiting grooves is also a vertical plane.

Further, each plate limiting rod 220 comprises a plate limiting rod 220 body and a plurality of teeth 221 rotatably penetrating through the plate limiting rod 220 body, and a plate limiting groove is formed between every two adjacent teeth 221. Optionally, the width of each tooth 221 gradually decreases from the center to the edge, so that a gap forming a plate material limiting groove is formed between two adjacent tooth 221 at a position close to the edge. Two adjacent teeth 221 may be disposed in contact with each other or spaced apart from each other, and optionally, two adjacent teeth 221 may be disposed in contact with each other to prevent the displacement of a single tooth 221. The teeth 221 are flexible to rotate relative to the plate limiting rod 220, and friction resistance of the plate in the moving process can be reduced as much as possible.

Wherein, on the basket body of the material turning basket 200, a connecting rod 230 for fixing the position of the two side plates 210 is further arranged between the two side plates 210, and the connecting rod 230 can further reinforce the two side plates 210 in the basket body.

A plate material transfer port 201 for allowing a plate material to enter and exit is provided between the two side plates 210. It can be understood that, in order to realize simultaneous access of all the boards, the board transfer port 201 can provide simultaneous access of all the boards, and there should be no rod body blocking the boards at the board transfer port 201, for example, the connecting rod 230 and the board limiting rod 220 should be fixed at the area outside the board transfer port 201. The plate can enter the basket body through the plate transfer opening 201 and slide into the corresponding plate limiting groove.

Fig. 6 further shows a detailed schematic of the components of fig. 4 after disassembly. Referring to fig. 6, in one example, the plate rotating stand device further includes a basket positioning mechanism and a plate transferring mechanism 600, wherein the basket positioning mechanism includes a basket positioning component for transferring materials and a material receiving basket positioning component, the basket positioning component is used for positioning the material transferring basket 200 at the material transferring station, and the material receiving basket positioning component is used for positioning the material receiving basket 300 at the material receiving station; a plurality of groups of plate transfer grooves are formed in the plate transfer mechanism 600.

When the material transferring basket device 200 is located at the material transferring position and the material receiving basket device 300 is located at the material receiving position, the plate transferring opening 201 on the material transferring basket device 200 is right opposite to the plate transferring opening 201 on the material receiving basket device 300, and the plate transferring groove is used for transferring plates transferred from the material transferring basket device 200 to the material receiving basket device 300 in a transition manner.

Referring to fig. 6, the basket positioning mechanism includes a basket positioning component and a receiving basket positioning component corresponding to the material transferring basket 200 and the receiving basket 300. The material transferring basket positioning part comprises a plurality of material transferring positioning blocks 410, and when the material transferring basket 200 is arranged at a material transferring station, the plate surfaces of two side plates 210 in the material transferring basket 200 are respectively abutted against at least one material transferring positioning block 410; the material receiving basket positioning component comprises a plurality of material receiving positioning blocks 420, and when the material receiving basket 300 is arranged at the material receiving station, two side plates 210 in the material receiving basket 300 are respectively abutted against at least one material receiving positioning block 420.

Optionally, there are four material transferring positioning blocks 410, when the material transferring basket 200 is located at the material transferring position, two material transferring positioning blocks 410 abut against one side plate 210 of the basket body in the material transferring basket 200, and the other two material transferring positioning blocks 410 abut against the other side plate 210 of the basket body. Similarly, there may be four receiving positioning blocks 420, when the receiving basket 300 is located at the receiving station, two of the receiving positioning blocks 420 abut against one side plate 210 of the basket body in the receiving basket 300, and the other two receiving positioning blocks 420 abut against the other side plate 210 of the basket body.

Wherein the position of the fixing plate is fixed. For example, a fixing plate may be mounted on the frame 700 to achieve position fixing.

It can be understood that, in order to enable the plate to be smoothly pushed onto the receiving basket device 300 from the material transferring basket device 200 integrally, when the material transferring basket device 200 is mounted on the material transferring basket device positioning component and the receiving basket device 300 is mounted on the receiving basket device positioning component, the plate transferring opening 201 on the material transferring basket device 200 is opposite to the plate transferring opening 201 on the receiving basket device 300 to form a plate moving channel; moreover, the plurality of sets of plate limiting grooves on the material turning basket 200 are opposite to the plurality of sets of plate limiting grooves on the material receiving basket 300 one by one.

Referring to fig. 6, the plate transferring mechanism 600 is disposed between the positioning component of the material transferring basket and the positioning component of the material receiving basket, and when the material transferring basket 200 is mounted on the positioning component of the material transferring basket and the material receiving basket 300 is mounted on the positioning component of the material receiving basket, the plate transferring mechanism 600 is disposed between the material transferring basket 200 and the material receiving basket 300. The plate transferring mechanism 600 is provided with a plurality of groups of plate transferring grooves for transferring plates from the material transferring basket 200 to the material receiving basket 300. It can be understood that the number of the groups of the plate transfer grooves is the same as that of the plate limiting grooves in each basket body, and the plate transfer grooves are opposite to the plate limiting grooves one by one.

Referring to fig. 6, the plate pushing device 500 of the plate rotating rack apparatus is disposed on a side of the material rotating basket 200 away from the material receiving basket 300. The push plate device 500 has a push plate member and a push plate driving member for driving the push plate member, a push plate opening 202 for the push plate member to extend into is further provided in the basket body of the material transferring basket 200, and the push plate opening 202 and the plate transferring opening 201 are arranged oppositely.

Wherein, the push plate can push all the plates in the material-rotating basket 200 at the same time. Optionally, the working end of the pushing plate has a plurality of pushing plate grooves corresponding to the plurality of plates in the material rotating basket 200 one by one, so as to assist the plates not to shift during the pushing plate process. Further, the pushing plate end of the pushing plate member may be serrated.

The push plate device in the plate rotating frame equipment can push plates in the material rotating basket tool to the material receiving basket tool once in batches so as to complete the transfer of the plates. Wherein, be provided with basket utensil positioning mechanism in the panel revolving rack equipment, can assist to change the material basket utensil and connect the material basket utensil to set up respectively on changeing the material station and connecing the material station to make each group's panel spacing groove in changeing the material basket utensil and connect each group's panel spacing groove in the material basket utensil to counterpoint the setting, supply the panel transfer through setting up panel transfer mechanism simultaneously and pass through, in order to overcome the condition that panel takes place the dislocation easily in promoting the in-process. Therefore, the plate rotating frame equipment can efficiently push plates to be transferred and simultaneously avoid the problem of plate scratch caused by plate dislocation as much as possible.

It should be understood that the above-mentioned embodiment is only one of the best possible modes of the present invention, and the size, position, shape, etc. of the components are set accordingly to realize the technical idea of the present invention, and the present invention is not limited to be realized only by the above-mentioned embodiment.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The basket shaping device is characterized by comprising a first shaping mechanism and a second shaping mechanism, wherein one or more first shaping mechanisms are arranged, and one or more second shaping mechanisms are arranged;

the first shaping mechanism comprises a side pressing piece, a first jacking piece and a first pressing driving piece, wherein the first pressing driving piece is used for driving the side pressing piece to move towards the side face of the basket to be shaped and driving the first jacking piece to move towards the top face of the basket at the same time;

the second shaping mechanism comprises a second pressing piece and a second pressing driving piece, and the second pressing driving piece is used for driving the second pressing piece to move towards the top of the basket tool.

2. The basket fixture sizing device according to claim 1, wherein the first pressing driver is connected to the side pressing member, and the first pressing driver is driven toward the side of the basket fixture to drive the side pressing member to move toward the side of the basket fixture.

3. The basket fixture molding apparatus of claim 2, wherein the first molding mechanism further comprises a first biasing rotating member, the first pressing member is connected to the side pressing member via the first biasing rotating member, and the first biasing rotating member is configured to move the first pressing member toward the top of the basket fixture when the side pressing member moves toward the side of the basket fixture.

4. The basket tool setting device according to claim 3, wherein the first deflection rotating member comprises a first steering member and a first sliding groove member, the first sliding groove member is provided with a first sliding groove, the first steering member comprises a first rotating shaft and a first sliding body capable of rotating around the first rotating shaft, and the position of the first sliding groove member is fixed;

the first rotating shaft is connected to the side pressing piece, the first sliding body is arranged in the first sliding groove and can move along the first sliding groove, the sliding direction of the first sliding body in the first sliding groove is oblique to the moving direction of the side pressing piece, and the first jacking piece is connected to the first steering piece.

5. The basket fixture shaping device according to any one of claims 1 to 4, wherein the second shaping mechanism comprises a second deflection rotating member, the second pressing member is connected to the second pressing driving member through the second deflection rotating member, and the driving direction of the second pressing driving member is upward.

6. The basket tool setting device according to claim 5, wherein the second deflection rotating member comprises a second rotating member and a second sliding groove member, the second rotating member comprises a second rotating shaft and a second sliding body capable of rotating around the second rotating shaft, the position of the second sliding groove member is fixed, and the second sliding groove member is provided with a second sliding groove;

the second rotating shaft is arranged on the second pressure applying driving piece, the second sliding body is arranged in the second sliding groove and can move along the second sliding groove, and the sliding direction of the second sliding body is inclined to the driving direction of the second pressure applying driving piece.

7. The basket fixture molding apparatus according to claim 5, wherein there are a plurality of the first molding mechanisms, one of the second molding mechanisms, and a plurality of the first pressing members of the plurality of the first molding mechanisms are respectively disposed at two sides of the second pressing member of the second molding mechanism.

8. The basket setting device according to any one of claims 1 to 4 and 6 to 7, wherein the first pressing driving member is a cylinder; and/or

The second pressure applying driving member is an air cylinder.

9. The plate rotating frame equipment is characterized by comprising a material rotating basket, a material receiving basket, a push plate device and a basket shaping device according to any one of claims 1 to 8;

the plate pushing device is used for pushing plates from the material rotating basket to the material receiving basket, the basket shaping devices are multiple, and the basket shaping devices are respectively used for applying pressure to the side surfaces and the top surfaces of the material rotating basket and the material receiving basket.

10. The sheet material rotating rack device according to claim 9, wherein the basket shaping devices are more than four, one or more than one basket shaping devices are respectively arranged on two sides of the material rotating basket, and one or more than one basket shaping devices are respectively arranged on two sides of the material receiving basket.

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