CN212580622U - Positioning bin and rotary positioning bin device - Google Patents

Abstract

The utility model relates to the technical field of feeding equipment, in particular to a positioning bin and a rotary positioning bin device, wherein the positioning bin is used for positioning materials and comprises a bottom plate, a first fixed plate, a regulating plate, a synchronous connecting component and a movable positioning mechanism; the adjusting plate is arranged opposite to the first fixing plate so as to clamp the materials together and position the materials in a first direction of the bottom plate; the movable positioning mechanism is connected with the adjusting plate through a synchronous connection assembly and used for clamping the material to position the material in the second direction of the bottom plate. The adjusting plate is only moved by the aid of the synchronous connecting assembly, the movable positioning mechanism can be driven to move synchronously, materials are synchronously loosened and clamped in two directions, the adjusting plate and the movable positioning mechanism do not need to be moved respectively, efficiency of loosening and clamping positioning of the materials by the positioning bin is improved, cost in a production and manufacturing process is reduced, and synchronism is good.

Description

Positioning bin and rotary positioning bin device

Technical Field

The utility model relates to a feeding equipment technical field, concretely relates to location feed bin and rotational positioning feed bin device.

Background

The storage bin is an auxiliary mechanical structure necessary in the normal production and processing process, and has the effects of reducing the time for manually taking and placing materials, improving the production efficiency and achieving the purpose of saving the cost. In recent years, with the continuous development of automated and semi-automated plant improvement, a production mode mainly involving intelligent processing is gradually entering a plant. In order to match with the rhythm of automatic production, most of the storage bins are also automatically transformed, so that the storage bins can position and clamp the materials placed in the storage bins.

However, the clamping and positioning of the existing storage bin can only drive the storage bin transversely and longitudinally respectively to clamp and position the materials, when the materials with larger sizes are replaced for loading, the storage bin needs to be driven transversely and longitudinally respectively to open the storage bin, the materials with larger sizes are put in, and then the storage bin is driven transversely and longitudinally respectively to clamp and position the materials; when the material is discharged, the material can be taken only by opening the storage bin transversely and longitudinally. The feeding and discharging processes of the storage bin are complex and low in efficiency, and meanwhile, different driving mechanisms are needed to drive the storage bin to move transversely and longitudinally respectively, so that the cost is high, and the synchronism is poor.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect of prior art, provide a location feed bin, overcome the problem that the last unloading process of current feed bin is complicated, inefficiency, with high costs, the synchronism is poor.

In a first aspect, the utility model provides a positioning storage bin, which is used for positioning materials and comprises a bottom plate; the first fixing plate is arranged on the bottom plate; the adjusting plate is arranged on the bottom plate and is opposite to the first fixing plate, and the adjusting plate is used for positioning the material along a first direction of the material with the first fixing plate; the movable positioning mechanism is arranged on the bottom plate, connected with the first fixing plate and connected with the adjusting plate through a synchronous connecting assembly, and used for clamping the material so as to position the material along a second direction of the material; wherein, remove the regulating plate, borrow by the synchronous coupling assembling drives movable positioning mechanism synchronous motion to loosen or press from both sides tight the material.

Further: the movable positioning mechanism comprises a first clamping plate and a second clamping plate which are arranged in a relative movable mode and can be clamped elastically, and the adjusting plate is connected with the first clamping plate and/or the second clamping plate through the synchronous connecting assembly.

Further: the synchronizing connection assembly includes a moving member mounted to the adjustment plate; the abutting block is mounted on the first clamping plate and/or the second clamping plate; the moving component is abutted against the abutting block, and rolls or slides on the abutting block to drive the first clamping plate and/or the second clamping plate to move.

Further: the moving member comprises a bearing mounting seat which is mounted on the adjusting plate; the bearing is arranged on the bearing mounting seat; the bearing is connected with the first clamping plate and the second clamping plate through the bearing, the abutting block is an inclined block, an inclined plane of the inclined block is inclined to the first clamping plate and/or the second clamping plate and faces the first fixing plate, and the bearing abuts against the inclined plane.

Further: the second fixing plate is arranged on the bottom plate, is opposite to the first fixing plate and is respectively arranged on two sides of the adjusting plate together with the first fixing plate; the first fixing plate and the second fixing plate are connected with the first clamping plate and/or the second clamping plate through auxiliary clamping assemblies, and the auxiliary clamping assemblies are used for keeping the motion member to be always abutted against the abutting block.

Further: the auxiliary clamping assembly comprises a first bearing, and the first bearing is mounted on the first clamping plate; the first guide shaft penetrates through the first bearing, the first fixing plate is provided with a first mounting hole, and two ends of the first guide shaft are abutted against the side wall of the first mounting hole; the first spring is sleeved at one end, far away from the second clamping plate, of the first guide shaft, and two ends of the first spring are abutted to the first bearing and the first fixing plate respectively; a second bearing mounted to the first clamping plate; the second guide shaft penetrates through the second bearing, a second mounting hole is formed in the second fixing plate, and two ends of the second guide shaft abut against the side wall of the second mounting hole; and the second spring is sleeved at one end, far away from the second clamping plate, of the second guide shaft, and two ends of the second spring are respectively abutted to the second bearing and the second fixing plate.

Further: the auxiliary adjusting assembly comprises a third bearing, and the third bearing is mounted on the second fixing plate; the third guide shaft penetrates through the third bearing, and one end of the third guide shaft is connected with the adjusting plate; and the third spring is sleeved on the third guide shaft, and two ends of the third spring are respectively abutted against the third bearing and the adjusting plate.

Further: still include actuating mechanism, actuating mechanism with the regulating plate transmission is connected, actuating mechanism is used for the drive the regulating plate removes.

Further: the material storage device is characterized by further comprising a cushion block, wherein the cushion block is arranged on the bottom plate and used for placing the materials.

In a second aspect, the utility model provides a rotational positioning feed bin device: at least two positioning bins, wherein the two positioning bins are the positioning bins of the first aspect, and bottom plates of the two positioning bins are integrally formed; the rotating mechanism is arranged below the bottom plate and used for driving the bottom plate to rotate so as to change the position of the positioning bin.

The beneficial effects of the utility model reside in that, realize only removing the regulating plate through synchronous coupling assembling's setting, can drive movable positioning mechanism simultaneous movement, realize unclamping and pressing from both sides tightly two ascending synclasticity of material, and need not to remove regulating plate and movable positioning mechanism respectively, improved the location feed bin and unclamped and press from both sides the efficiency of tight location to the material, and reduced the cost in the production manufacturing process, the synchronism is good.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic diagram of a positioning bin according to an embodiment of the present invention;

fig. 2 is an exploded view of a positioning bin according to an embodiment of the present invention;

fig. 3 is a schematic view of a rotary positioning bin device according to an embodiment of the present invention;

fig. 4 is an exploded view of the rotating mechanism of the bin rotary positioning device according to the embodiment of the present invention.

The correspondence between reference numbers and names is as follows:

a bottom plate-1; a first stopper-12; a first fixing plate-21; an adjusting plate-3; a movable positioning mechanism-4; a first clamping plate-41; a second clamping plate-42; a synchronous connecting component-5; a moving member-51; bearing mount-511; bearing-512; an abutment block-52; a second fixing plate-22; a first bearing-61; a first guide shaft-62; a first spring-63; a second bearing-64; a second guide shaft-65; a second spring-66; auxiliary adjusting component-7; a third bearing-71; a third guide shaft-72; a third spring-73; a drive mechanism-8; a cylinder-81; a cylinder fixed block-82; a plug-83; cushion block-11; a rotating mechanism-9; a substrate-91; cylinder mounting plate-911; a vertical plate-912; a rotary cylinder-92; a coupler-93; a fourth bearing-94; a support plate-913; a second stopper-914; a third stop block-915; a buffer-916; a guide shaft-95; bearing cap-96; a bearing sleeve-97; a first positioning bin-10; a second positioning bin-20.

Detailed Description

The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The embodiment of the utility model provides a positioning bin, as shown in fig. 1, for positioning materials, comprising a bottom plate 1, a first fixing plate 21, an adjusting plate 3, a synchronous connecting component 5 and a movable positioning mechanism 4; the first fixing plate 21 is arranged on the bottom plate 1; the adjusting plate 3 is arranged on the bottom plate 1 and opposite to the first fixing plate 21, and the adjusting plate 3 is used for positioning the material along a first direction of the material with the first fixing plate 21; the movable positioning mechanism 4 is arranged on the bottom plate 1, the movable positioning mechanism 4 is connected with the first fixing plate 21 and is connected with the adjusting plate 3 through a synchronous connecting component 5, and the movable positioning mechanism 4 is used for clamping the material so as to position the material along a second direction of the material; wherein, remove regulating plate 3, borrow by synchronous coupling assembling 5 drives movable positioning mechanism 4 synchronous motion to loosen or press from both sides tight the material. In specific implementation, the first direction and the second direction may be various, for example, the first direction may be a length direction of the material, and the second direction may be a width direction of the material; the first direction may be a width direction of the material, the second direction may be a length direction of the material, and the first direction may be selected by a person skilled in the art according to actual needs as long as the material can be positioned. When feeding is needed, the adjusting plate 3 and the movable positioning mechanism 4 are connected through the synchronous connecting component 5, the adjusting plate 3 is moved to open the adjusting plate 3, the movable positioning mechanism 4 is driven to be synchronously opened through the synchronous connecting component 5, the opening of a positioning bin is realized, and at the moment, the material can be placed into the positioning bin; then the adjusting plate 3 is moved reversely, and the movable positioning mechanism 4 is driven by the synchronous connecting component 5 to move synchronously and reversely so as to clamp the material; when needs unloading, remove regulating plate 3 is in order to open regulating plate 3 drives movable positioning mechanism 4 through synchronous connection subassembly 5 and opens in step, realizes loosening to the material to unloader carries out the unloading. The adjusting plate 3 is only moved by the aid of the synchronous connecting assembly 5, the movable positioning mechanism 4 can be driven to move synchronously, materials are loosened and clamped synchronously in two directions, the adjusting plate 3 and the movable positioning mechanism 4 do not need to be moved respectively, efficiency of loosening and clamping positioning of the materials by the positioning bin is improved, cost in a production and manufacturing process is reduced, and synchronism is good.

In an embodiment, as shown in fig. 1 and fig. 2, the movable positioning mechanism 4 includes a first clamping plate 41 and a second clamping plate 42 which are movably disposed relative to each other and can be elastically clamped, and the adjusting plate 3 is connected to the first clamping plate 41 and/or the second clamping plate 42 through the synchronous connection assembly 5. In specific implementation, the adjusting plate 3 may be connected to the first clamping plate 41 through the synchronizing connection assembly 5, the adjusting plate 3 may be connected to the second clamping plate 42 through the synchronizing connection assembly 5, and the adjusting plate 3 may be connected to the first clamping plate 41 and the second clamping plate 42 through the synchronizing connection assembly 5. When the adjusting plate 3 is connected with the first clamping plate 41 through the synchronous connection assembly 5, the second clamping plate 42 can be fixed on the bottom plate 1, and when the adjusting plate 3 moves, the synchronous connection assembly 5 drives the first clamping plate 41 to move, so that the distance between the first clamping plate 41 and the second clamping plate 42 is changed, and synchronous loosening and material clamping in two directions are realized; it will be understood that the adjusting plate 3 is connected to the second clamping plate 42 via the synchronizing connecting assembly 5, and the first clamping plate 41 is fixed to the base plate 1, so as to achieve the same effect; similarly, the same effect can be achieved when the adjusting plate 3 is connected to the first clamping plate 41 and the second clamping plate 42 through the synchronous connection assembly 5. The adjusting plate 3 is connected with the first clamping plate 41 and/or the second clamping plate 42 through the synchronous connection assembly 5, so that the adjusting plate 3 can drive the first clamping plate 41 and the second clamping plate 42 to change the distance between the first clamping plate 41 and the second clamping plate 42, and materials can be synchronously loosened and clamped in two directions.

In an embodiment, as shown in fig. 2, the synchronization connection assembly 5 comprises a moving member 51 and an abutment block 52; the moving member 51 is mounted to the adjusting plate 3; the abutment block 52 is mounted to the first clamping plate 41 and/or the second clamping plate 42; wherein, the moving member 51 abuts against the abutting block 52, and the moving member 51 rolls or slides on the abutting block 52 to drive the first clamping plate 41 and/or the second clamping plate 42 to move. The moving member 51 and the abutting part may be both inclined blocks and abut against each other, and when the adjusting plate 3 is moved, the moving member 51 slides on the abutting part to drive the first clamping plate 41 and/or the second clamping plate 42 to move, so as to change the distance between the first clamping plate 41 and the second clamping plate 42, thereby realizing synchronous loosening and clamping of the material in two directions.

Preferably, the moving member 51 includes a bearing mount 511 and a bearing 512; the bearing mounting seat 511 is mounted on the adjusting plate 3; the bearing 512 is mounted on the bearing mounting seat 511; wherein, the butt joint block 52 is an oblique block, the inclined plane of the oblique block is inclined to the first clamping plate 41 and/or the second clamping plate 42 and faces the first fixing plate 21, the bearing 512 is abutted to the inclined plane to move the adjusting plate 3, drive the bearing 512 to roll on the oblique block, thereby drive the first clamping plate 41 and/or the second clamping plate 42 to move, so as to loosen or clamp the material.

In an embodiment, the positioning storage bin further includes a second fixing plate 22, the second fixing plate 22 is disposed on the bottom plate 1, the second fixing plate 22 is disposed opposite to the first fixing plate 21, and is disposed on two sides of the adjusting plate 3, respectively, with respect to the first fixing plate 21; wherein, the first fixing plate 21 and the second fixing plate 22 are connected with the first clamping plate 41 and/or the second clamping plate 42 through an auxiliary clamping component, and the auxiliary clamping component is used for keeping the moving member 51 always abutted against the abutting block 52. The first fixing plate 21 and the second fixing plate 22 may be connected to the first clamping plate 41 and/or the second clamping plate 42 in various ways, and besides using the auxiliary clamping assembly, other ways may also be used, for example, an elastic assembly may be disposed on the bottom plate 1 on a side of the first clamping plate 41 and/or the second clamping plate 42 away from the adjustment plate 3, the elastic assembly abuts against the first clamping plate 41 and/or the second clamping plate 42, and when the adjustment plate 3 drives the first clamping plate 41 and/or the second clamping plate 42 to move, the elastic assembly generates an acting force on the first clamping plate 41 and/or the second clamping plate 42, so that the moving member 51 always abuts against the abutting block 52, as long as the moving member 51 always abuts against the abutting block 52. Through the arrangement of the second fixing plate 22 and the auxiliary clamping assembly, when the adjusting plate 3 drives the first clamping plate 41 and/or the second clamping plate 42 to move, the moving member 51 is always abutted to the abutting block 52, and the moving member 51 is not separated from the abutting block 52.

Specifically, supplementary centre gripping subassembly includes: a first bearing 61, a first guide shaft 62, a first spring 63, a second bearing 64, a second guide shaft 65, and a second spring 66; the first bearing 61 is attached to the first clamping plate 41; the first guide shaft 62 is inserted into the first bearing 61, the first fixing plate 21 is provided with a first mounting hole 211, and two ends of the first guide shaft 62 abut against the side wall of the first mounting hole 211; the first spring 63 is sleeved on one end of the first guide shaft 62 far away from the second clamping plate 42, and two ends of the first spring 63 are respectively abutted against the first bearing 61 and the first fixing plate 21; the second bearing 64 is mounted to the first clamping plate 41; the second guide shaft 65 is inserted into the second bearing 64, the second fixing plate 22 is provided with a second mounting hole 221, and two ends of the second guide shaft 65 abut against the side wall of the second mounting hole 221; the second spring 66 is sleeved on one end of the second guide shaft 65 far away from the second clamping plate 42, and two ends of the second spring 66 are respectively abutted against the second bearing 64 and the second fixing plate 22. Because the two ends of the first spring 63 respectively abut against the first bearing 61 and the first fixing plate 21, and the first spring 63 is sleeved on the first guide shaft 62 at an end far from the second clamping plate 42, when the first clamping plate 41 moves along the first guide shaft 62, the first spring 63 will generate an acting force on the first clamping plate 41. It will be understood, of course, that the second spring 66 will also exert a force on the first clamping plate 41 as the first clamping plate 41 moves along the second guide shaft 65. In specific implementation, when the adjusting plate 3 is opened, the bearing 512 is driven to roll on the inclined block, so that the first clamping plate 41 is pushed to move to be opened, and due to the action of the spring forces of the first spring 63 and the second spring 66, the first clamping plate 41 is always kept in abutting joint with the adjusting plate 3, so that the bearing 512 is always kept to roll on the inclined block until the opening of the positioning bin in the first direction and the second direction is completed, and the material is placed in the positioning bin; then, the adjusting plate 3 moves reversely, the bearing 512 rolls reversely on the inclined block, so that the acting force between the adjusting plate 3 and the first clamping plate 41 becomes small, and when the acting force is smaller than the spring force of the first spring 63 and the second spring 66, the first spring 63 and the second spring 66 jointly push the first clamping plate 41 to move reversely, and the clamping and positioning of the material are completed. The first clamping plate 41 and the first fixing plate 21 are connected through a first bearing 61, a first guide shaft 62 and a first spring 63, and the first clamping plate 41 and the second fixing plate 22 are connected through a second bearing 64, a second guide shaft 65 and a second spring 66, so that when the adjusting plate 3 is opened to push the first clamping plate 41, the first clamping plate 41 is always abutted against the adjusting plate 3 under the spring force of the first spring 63 and the second spring 66, and meanwhile, the moving member 51 is always abutted against the abutting block 52; when the adjusting plate 3 moves reversely, the first clamping plate 41 can move reversely and stably under the action of the common spring force of the first spring 63 and the second spring 66, and the clamping of the material in the second direction is automatically realized.

In an embodiment, the positioning magazine further comprises an auxiliary adjustment assembly 7, the auxiliary adjustment assembly 7 comprising: a third bearing 71, a third guide shaft 72, and a third spring 73; the third bearing 71 is mounted to the second fixing plate 22; the third guide shaft 72 penetrates through the third bearing 71, and one end of the third guide shaft 72 is connected with the adjusting plate 3; the third spring 73 is sleeved on the third guide shaft 72, and two ends of the third spring 73 are respectively abutted against the third bearing 71 and the adjusting plate 3. Since both ends of the third spring 73 abut against the third bearing 71 and the adjustment plate 3, respectively, the third spring 73 generates a force on the adjustment plate 3 when the adjustment plate 3 moves. When the concrete implementation, when regulating plate 3 opens, regulating plate 3 moves towards the direction that is close to second fixed plate 22 promptly for third spring 73 compresses, opens completely until regulating plate 3, arranges the material in the location feed bin, stops to remove regulating plate 3, and under the spring force effect of third spring 73, regulating plate 3 reverse movement accomplishes the tight location of clamp to the material, need not additionally to provide power reverse movement regulating plate 3, only can press from both sides tight location under the spring force effect of third spring 73.

In an embodiment, the positioning bin further comprises a driving mechanism 8, the driving mechanism 8 is in transmission connection with the adjusting plate 3, and the driving mechanism 8 is used for driving the adjusting plate 3 to move. The opening of the adjustment plate 3 can be driven by the drive mechanism 8. In a specific implementation, the driving mechanism 8 includes an air cylinder 81 and an air cylinder fixing block 82, and the air cylinder 81 is mounted on the air cylinder fixing block 82; the third bearing 71 is fixed to the second fixing plate 22; a third guide shaft 72 penetrates through the third bearing 71, one end of the third guide shaft 72 is fixedly connected with the adjusting plate 3, and the other end of the third guide shaft is fixedly connected with the cylinder fixing block 82; the third spring 73 is sleeved on the third guide shaft 72, and two ends of the third spring 73 are respectively abutted against the adjusting plate 3 and the second fixing plate 22; the top 83 of the cylinder 81 pushes against the second fixing plate 22 to drive the cylinder fixing block 82 to be away from the second fixing plate 22, so as to drive the adjusting plate 3 to be close to the second fixing plate 22 and open the adjusting plate 3. During the use, when the top 83 of cylinder 81 drives regulating plate 3 and opens, the butt compresses in regulating plate 3 and the third spring 73 of second fixed plate 22 to produce the effort to regulating plate 3, accomplish to open when the location feed bin, and after putting into the material in the location feed bin, regulating plate 3 is loosened to the top 83 of cylinder 81, and regulating plate 3 reverse movement under the effect of the spring force of third spring 73 accomplishes the tight location of clamp to the material. Through supplementary adjusting part 7 for adjusting plate 3 can compress third spring 73 when opening under the effect of actuating mechanism 8, and adjusting plate 3 need not to be by actuating mechanism 8 power again when pressing from both sides tight location to the material, only can press from both sides tight location under the effect of third spring 73, therefore actuating mechanism 8 need not continuous work, can improve actuating mechanism 8's life.

In an embodiment, the positioning bin further comprises a cushion block 11, and the cushion block 11 is arranged on the bottom plate 1 and used for placing the material. In specific implementation, the cushion block 11 can be a whole block and is placed in the middle of the bottom plate 1, and when materials need to be placed, the materials are directly placed on the cushion block 11; the cushion block 11 may be a plurality of blocks, as long as the material can be placed, and those skilled in the art can select the arrangement according to actual requirements. The cushion blocks 11 can also be detachably arranged on the bottom plate 1, so that different cushion blocks 11 can be conveniently replaced according to the characteristics of materials, the device is suitable for materials with different properties, and the universality and the flexibility of the device are improved. Through set up cushion 11 on bottom plate 1, place the material in the feed bin through cushion 11, can avoid the direct and bottom plate 1 contact of material, damage the material with 1 collision of bottom plate when preventing to deposit and withdraw the material.

The utility model discloses a positioning bin for positioning materials, which comprises a bottom plate 1, a first fixing plate 21, an adjusting plate 3, a synchronous connecting component 5 and a movable positioning mechanism 4; activity positioning mechanism 4 with first fixed plate 21 is connected, and through synchronous connection subassembly 5 with regulating plate 3 is connected, realizes only removing regulating plate 3 through synchronous connection subassembly 5's setting, can drive the 4 synchronous motion of activity positioning mechanism, realizes loosening and pressing from both sides tightly in two ascending syncs of material, and need not to remove regulating plate 3 and activity positioning mechanism 4 respectively, has improved the efficiency that the location feed bin loosened and pressed from both sides tight location to the material, and has reduced the cost in the production manufacturing process, and the synchronism is good.

The embodiment of the utility model also provides a rotary positioning bin device, as shown in fig. 3, comprising at least two positioning bins, wherein the two positioning bins are the positioning bins in the above embodiment, and the bottom plates 1 of the two positioning bins are integrally formed; the rotating mechanism 9 is arranged at the bottom of the bottom plate 1, and the rotating mechanism 9 is used for driving the bottom plate 1 to rotate so as to change the position of the positioning bin. In specific implementation, the two positioning bins include a first positioning bin 10 and a second positioning bin 20. During the use, first location feed bin 10 is opened and is put into the material loading, and second location feed bin 20 is opened and the unloading simultaneously, then rotates 180 under rotary mechanism 9's effect for first location feed bin 10 and the interchange of second location feed bin 20 position, first location feed bin 10 is opened and the unloading, and second location feed bin 20 is opened and is put into the material loading simultaneously. Through the arrangement of the two positioning storage bins and the rotating mechanism 9, the two positioning storage bins can be respectively used for feeding and discharging, and then the two positioning storage bins can be continuously and respectively used for discharging and feeding after the positions of the two positioning storage bins are exchanged, so that the feeding and discharging efficiency is improved.

In a specific implementation, the rotation mechanism 9 comprises: a base 91, a rotary cylinder 92, a coupler 93, a fourth bearing 94, a support plate 913, and a guide shaft 95; the rotary cylinder 92 is mounted on the base 91; the guide shaft 95 penetrates through the fourth bearing 94, one end of the guide shaft is connected with the bottom plate 1, and the other end of the guide shaft is connected with an output shaft of the rotary cylinder 92 through a coupler 93; the support plate 913 is mounted on the base 91 and located between the base plate 1 and the rotary cylinder 92, and has a through hole, and the fourth bearing 94 is mounted on the support plate 913 through the through hole. In this embodiment, the base 91 includes a cylinder mounting plate 911 and two vertical plates 912, the vertical plates 912 are symmetrically disposed, a through hole is formed in the middle of each vertical plate 912, the bottom of each vertical plate 912 has an L-shaped folded edge structure deviating from each other, the support plate 913 is mounted on the top end of each vertical plate 912, and the cylinder mounting plate 911 is mounted on the vertical plate 912 through the through hole in the middle of the vertical plate 912. During the use, the output shaft of revolving cylinder 92 passes through shaft coupling 93 with power transmission for guide shaft 95, drives guide shaft 95 rotatory, and then drives the bottom plate 1 of being connected with guide shaft 95 rotatory. The guide shaft 95 is provided with a fourth bearing 94, and the fourth bearing 94 is mounted on the support plate 913 to support the guide shaft 95 for rotation. In specific implementation, the fourth bearing 94 is an angle bearing, the angle bearing is disposed in the bearing sleeve 97 and covered above the bearing sleeve 97 by a bearing cover 96 with a through hole, the guide shaft 95 passes through the angle bearing by the bearing cover 96 and the bearing sleeve 97, and the bearing sleeve 97 and the bearing cover 96 can protect the angle bearing, so that the service life of the angle bearing is longer. Therefore, the output shaft of the rotary cylinder 92 transmits power to the guide shaft 95 through the coupler 93, and drives the guide shaft 95 to rotate, so that the bottom plate 1 connected with the guide shaft 95 can be driven to rotate.

In an embodiment, a first stopper 12 is disposed at a lower end of the bottom plate 1, and a second stopper 914 and a third stopper 915 are disposed at an upper end of the supporting plate 913, so as to limit and position the rotation of the bottom plate 1. When the bottom plate 1 rotates 180 degrees and is close to the second limiting block 914, the second limiting block 914 can block the first limiting block 12 from continuing to rotate; when the bottom plate 1 rotates in the reverse direction by 180 degrees and approaches the third stopper 915, the third stopper 915 can block the first stopper 12 from continuing to rotate. Through the arrangement of the limiting block, the bottom plate 1 can be limited to continue rotating when the bottom plate 1 rotates to the limiting position, and the bottom plate 1 can be positioned.

In an embodiment, the second stopper 914 and the third stopper 915 of the supporting plate 913 are both provided with a buffer 916. Therefore, when the first stopper 12 rotates to be close to the second stopper 914/the third stopper 915, the buffer 916 can buffer the rotation, and the rotation will not directly abut against the second stopper 914/the third stopper 915 to cause collision, so that the rotation stability of the base plate 1 can be ensured.

The embodiment of the utility model also shows a rotary positioning bin device, which comprises at least two positioning bins, wherein the two positioning bins are the positioning bins in the embodiment, and the bottom plates 1 of the two positioning bins are integrally formed; the rotating mechanism 9 is arranged at the bottom of the bottom plate 1, and the rotating mechanism 9 is used for driving the bottom plate 1 to rotate so as to change the position of the positioning bin. Through the arrangement of the two positioning storage bins and the rotating mechanism 9, the two positioning storage bins can be respectively used for feeding and discharging, and then the two positioning storage bins can be continuously and respectively used for discharging and feeding after the positions of the two positioning storage bins are exchanged, so that the feeding and discharging efficiency is improved.

It should be understood that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same, and those skilled in the art can modify the technical solutions described in the above embodiments, or make equivalent substitutions for some technical features; and all such modifications and alterations should fall within the scope of the appended claims.

Claims (10)

1. A location feed bin for locating materials, comprising:

a base plate;

the first fixing plate is arranged on the bottom plate;

the adjusting plate is arranged on the bottom plate and is opposite to the first fixing plate, and the adjusting plate is used for positioning the material along a first direction of the material with the first fixing plate;

the movable positioning mechanism is arranged on the bottom plate, connected with the first fixing plate and connected with the adjusting plate through a synchronous connecting assembly, and used for clamping the material so as to position the material along a second direction of the material;

wherein, remove the regulating plate, borrow by the synchronous coupling assembling drives movable positioning mechanism synchronous motion to loosen or press from both sides tight the material.

2. The positioning storage bin as claimed in claim 1, wherein the movable positioning mechanism comprises a first clamping plate and a second clamping plate which are movably arranged relative to each other and can be elastically clamped, and the adjusting plate is connected with the first clamping plate and/or the second clamping plate through the synchronous connecting assembly.

3. The positioning bin of claim 2, wherein the synchronizing connection assembly comprises:

a moving member mounted to the adjustment plate;

the abutting block is mounted on the first clamping plate and/or the second clamping plate;

the moving component is abutted against the abutting block, and rolls or slides on the abutting block to drive the first clamping plate and/or the second clamping plate to move.

4. The positioning bin of claim 3, wherein the moving member comprises:

the bearing mounting seat is mounted on the adjusting plate;

the bearing is arranged on the bearing mounting seat;

the bearing is connected with the first clamping plate and the second clamping plate through the bearing, the abutting block is an inclined block, an inclined plane of the inclined block is inclined to the first clamping plate and/or the second clamping plate and faces the first fixing plate, and the bearing abuts against the inclined plane.

5. The positioning bunker of claim 3, further comprising:

the second fixing plate is arranged on the bottom plate, is opposite to the first fixing plate and is respectively arranged on two sides of the adjusting plate together with the first fixing plate;

the first fixing plate and the second fixing plate are connected with the first clamping plate and/or the second clamping plate through auxiliary clamping assemblies, and the auxiliary clamping assemblies are used for keeping the motion member to be always abutted against the abutting block.

6. The positioning magazine of claim 5, wherein the auxiliary clamp assembly comprises:

a first bearing mounted to the first clamping plate;

the first guide shaft penetrates through the first bearing, the first fixing plate is provided with a first mounting hole, and two ends of the first guide shaft are abutted against the side wall of the first mounting hole;

the first spring is sleeved at one end, far away from the second clamping plate, of the first guide shaft, and two ends of the first spring are abutted to the first bearing and the first fixing plate respectively;

a second bearing mounted to the first clamping plate;

the second guide shaft penetrates through the second bearing, a second mounting hole is formed in the second fixing plate, and two ends of the second guide shaft abut against the side wall of the second mounting hole;

and the second spring is sleeved at one end, far away from the second clamping plate, of the second guide shaft, and two ends of the second spring are respectively abutted to the second bearing and the second fixing plate.

7. The positioning bin of claim 5, further comprising an auxiliary adjustment assembly, the auxiliary adjustment assembly comprising:

a third bearing mounted to the second stationary plate;

the third guide shaft penetrates through the third bearing, and one end of the third guide shaft is connected with the adjusting plate;

and the third spring is sleeved on the third guide shaft, and two ends of the third spring are respectively abutted against the third bearing and the adjusting plate.

8. The positioning storage bin as claimed in any one of claims 1 to 7, further comprising a driving mechanism in transmission connection with the adjusting plate, wherein the driving mechanism is used for driving the adjusting plate to move.

9. The positioning bunker of claim 8, further comprising a spacer block disposed on the bottom plate for placement of the material.

10. A rotational positioning bin device, comprising:

at least two positioning bins, wherein the two positioning bins are the positioning bins of any one of claims 1-9, and the bottom plates of the two positioning bins are integrally formed;

the rotating mechanism is arranged at the bottom of the bottom plate and used for driving the bottom plate to rotate so as to change the position of the positioning bin.

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