Disclosure of Invention
In order to overcome the defects that the surface of a part needs to be marked by a manual handheld marking machine, the part is easy to move and the safety risk is high when the marking is carried out, the technical problem of the invention is as follows: the surface marking device for the production of the parts of the compact shelving of the archives can replace manual work to mark the surfaces of the parts of the compact shelving, when the marks are marked, the parts cannot move, the safety is high, and the surface marking device is convenient for people to use.
The technical scheme of the invention is as follows: a surface marking device for producing parts of compact archives shelves comprises: a frame; the mounting rack is mounted on the rack; two strip-shaped guide rails are arranged on the mounting frame; the two transverse plates are arranged and are arranged on the strip-shaped guide rail in a sliding manner; the two first springs are arranged between the transverse plate and the strip-shaped guide rail; the vertical rod is arranged between the two transverse plates; the marking machine is detachably arranged on the vertical rod; the placing assembly is installed on the rack and placed in a sliding mode.
Furthermore, the placing assembly comprises two cross rods which are arranged on the rack; the mounting plate is slidably mounted between the two cross rods; the rotating shaft is rotatably arranged on the mounting plate through a bearing; two torsion springs are arranged and are arranged between the rotating shaft and the mounting plate; two mounting rods are arranged and are mounted on the rotating shaft; place the board, place the board and be two, all install on the installation pole.
Further, still include drive assembly, drive assembly includes: the two first mounting blocks are mounted on the vertical rod; the first rack is arranged between the two first mounting blocks; the speed reducing motor is arranged on the rack; and the sector gear is arranged on an output shaft of the speed reducing motor and is meshed with the first rack.
Further, still include clamping component, clamping component includes: the two guide sleeves are in one group, at least four groups and are all arranged on the placing plate; at least two N-shaped rods are arranged and are arranged on each group of guide sleeves in a sliding manner; at least two second springs are arranged and are arranged between the N-shaped rod and the guide sleeve; at least two clamping blocks are arranged and are arranged on the N-shaped rod; at least two sliding sleeves are arranged and are arranged on the mounting rod in a sliding manner; at least two third springs are arranged and are arranged between the sliding sleeve and the mounting rod; the connecting plate, the connecting plate is two at least, and equal rotary type is installed on the sliding sleeve, and the connecting plate all is connected with N type pole rotary type.
Further, still include the pushing assembly, the pushing assembly includes: two push rods are arranged and are mounted on the rack; and two contact rods are arranged and are arranged on the sliding sleeve, and the contact rods are matched with the push rod.
Further, still including the rotating assembly, the rotating assembly includes: the full gear is arranged on the rotating shaft; the second mounting block is mounted on the rack; and the second rack is arranged on the second mounting block and is matched with the full gear.
Further, still including collecting the subassembly, collecting the subassembly and including: two third mounting blocks are arranged and are mounted on the rack; two collecting frames are arranged and are respectively arranged between the two third mounting blocks; two damping plates are arranged and are arranged in the collecting frame in a sliding manner; compression spring, compression spring are two at least, all install between shock attenuation board and collection frame.
Further, the clamping blocks are wedge-shaped.
The invention has the following advantages: the marking device can mark the surface of a part by driving the marking machine to move up and down, the part to be marked can be placed through the placing assembly, meanwhile, the part after marking is finished can be poured out, the driving assembly can replace manual pushing of the vertical rod to move downwards, the marking device is more automatic, the part to be marked can be clamped through the clamping assembly, the part is prevented from moving during marking, the part after marking is finished can not be poured out through manually pushing the sliding sleeve through the pushing assembly, the rotating shaft does not need to be manually rotated when the part after marking is poured out through the rotating assembly, the part after marking is effectively prevented from being broken or having scratches through the collecting assembly, and meanwhile, the part after marking is finished can be collected.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of the placement module of the present invention.
Fig. 3 is a schematic perspective view of the driving assembly of the present invention.
Fig. 4 is a perspective view of the clamping assembly of the present invention.
Fig. 5 is a schematic perspective view of the pushing assembly of the present invention.
Fig. 6 is a schematic perspective view of the rotating assembly of the present invention.
Fig. 7 is a perspective view of the collecting assembly of the present invention.
In the above drawings: 1-a machine frame, 2-a mounting frame, 3-a strip-shaped guide rail, 4-a transverse plate, 5-a first spring, 6-a vertical rod, 7-a marking machine, 8-a placement component, 81-a transverse rod, 82-a mounting plate, 83-a rotating shaft, 84-a torsion spring, 85-a mounting rod, 86-a placement plate, 9-a driving component, 91-a first mounting block, 92-a first rack, 93-a speed reducing motor, 94-a sector gear, 10-a clamping component, 101-a guide sleeve, 102-an N-shaped rod, 103-a second spring, 104-a clamping block, 105-a sliding sleeve, 106-a third spring, 107-a connecting plate, 11-a pushing component, 111-a push rod, 112-a contact rod, 12-a rotating component, 121-a full gear, 122-second mounting block, 123-second rack, 13-collecting assembly, 131-third mounting block, 132-collecting frame, 133-damping plate, 134-compression spring.
Detailed Description
The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.
Example 1
The utility model provides a mark device is beaten to surface for production of archives intensive spare part, as shown in fig. 1-7, including frame 1, mounting bracket 2, bar guide rail 3, diaphragm 4, first spring 5, montant 6, marking machine 7 and place subassembly 8, the welding of 1 upper portion of frame has mounting bracket 2, the symmetry is equipped with bar guide rail 3 around 2 left sides of mounting bracket, it is equipped with diaphragm 4 all to slide on the bar guide rail 3, all be connected with first spring 5 between diaphragm 4 and the bar guide rail 3, be equipped with montant 6 between two diaphragm 4 inboards around, 6 bottoms of montant are equipped with marking machine 7 with the detachable mode, be equipped with in the frame 1 and carry out the subassembly 8 of placing through gliding mode.
Use the device to beat when the intensive spare part surface, the staff puts into the spare part that needs beat the mark earlier and places the subassembly 8, put the back, the staff promotes diaphragm 4 and slides downwards in bar guide rail 3, first spring 5 is compressed, montant 6 drives marking machine 7 downstream thereupon and beats the mark to the spare part surface, beat mark completion back, the staff no longer promotes diaphragm 4, at this moment, under the effect that first spring 5 resets, diaphragm 4 drives marking machine 7 rebound through montant 6 thereupon and resets, afterwards, the spare part after the staff will beat the mark completion takes off, so, can beat the mark to the spare part surface through driving marking machine 7 reciprocates.
As shown in fig. 1, 2, 4 and 6, the placing assembly 8 includes a cross rod 81, a mounting plate 82, a rotating shaft 83, a torsion spring 84, a mounting rod 85 and a placing plate 86, the cross rods 81 are welded on the front and rear sides of the right portion of the rack 1, the mounting plate 82 is slidably arranged between the front cross rod 81 and the rear cross rod 81, the rotating shaft 83 is arranged on the mounting plate 82 through a bearing in a rotating manner, the torsion spring 84 is connected between the rotating shaft 83 and the two sides of the mounting plate 82 in a winding manner, the mounting rod 85 is symmetrically welded on the rotating shaft 83 in the front and rear directions, and the placing plate 86 is fixedly.
When marking the spare part, the staff will need to carry out the part of marking and put to placing on the board 86, afterwards, mark on the spare part surface, mark the completion back, the staff promotes mounting panel 82 and slides right on horizontal pole 81, pivot 83 drives through installation pole 85 thereupon and places board 86 and move right, move right to suitable position after placing board 86, the staff clockwise rotation pivot 83, torsion spring 84 is compressed, installation pole 85 drives thereupon and places the clockwise rotation of board 86 and pour out the spare part after the mark completion, after the completion, the staff loosens pivot 83, under the effect that torsion spring 84 resets, pivot 83 drives thereupon through installation pole 85 and places board 86 anticlockwise rotation and reset, thus, can place the spare part that needs to carry out the mark, and simultaneously, can pour out the spare part after the mark completion.
Example 2
On the basis of embodiment 1, as shown in fig. 1 and 3, the driving device further includes a driving assembly 9, the driving assembly 9 includes a first mounting block 91, a first rack 92, a reduction motor 93 and a sector gear 94, two first mounting blocks 91 are disposed on the upper portion of the right side of the vertical rod 6, the first rack 92 is disposed between the right sides of the two first mounting blocks 91, the reduction motor 93 is fixedly connected to the upper portion of the rack 1 through a bolt, the sector gear 94 is connected to an output shaft of the reduction motor 93 through a key, and the sector gear 94 is engaged with the first rack 92.
When marking the spare part surface, the staff starts gear motor 93 work, gear motor 93 output shaft rotates and drives sector gear 94 and rotate, when sector gear 94 rotates to mesh with first rack 92, sector gear 94 rotates and drives first rack 92 downstream, thereby drive montant 6 downstream through first installation piece 91, and then mark the spare part surface, rotate to breaking away from the back with first rack 92 when sector gear 94, montant 6 upstream resets and drives first rack 92 upstream through first installation piece 91 and reset, so, can replace artifical promotion montant 6 downstream, make the device more automatic, when no longer needing to mark, it can to stop gear motor 93 work.
On the basis of embodiment 1, as shown in fig. 1, 4 and 5, the clamping device 10 further includes a clamping assembly 10, the clamping assembly 10 includes guide sleeves 101, N-shaped rods 102, second springs 103, clamping blocks 104, sliding sleeves 105, third springs 106 and connecting plates 107, four sets of guide sleeves 101 are disposed on the periphery of the bottom of the placement plate 86, two guide sleeves 101 form a set, each set of guide sleeve 101 is provided with the N-shaped rod 102 in a sliding manner, the second springs 103 are wound between the N-shaped rods 102 and the guide sleeves 101, the clamping blocks 104 are welded on the upper portions of the N-shaped rods 102, the sliding sleeves 105 are disposed on the installation rods 85 in a sliding manner, the third springs 106 are wound between the sliding sleeves 105 and the installation rods 85, four connecting plates 107 are rotatably disposed on the periphery of the sliding sleeves 105, and the upper ends of the connecting plates 107 are connected with the.
When the part is placed, the clamping block 104 is wedge-shaped, so that a worker can directly push downwards when the part is placed, after the part is placed, the part to be marked can be clamped through the clamping block 104 under the action of the second spring 103, after the part is placed, marking is carried out on the part, after the marking is completed, the worker pushes the sliding sleeve 105 to slide upwards on the installation rod 85, the third spring 106 is compressed, the sliding sleeve 105 slides upwards and pushes the N-shaped rod 102 to slide outwards in the guide sleeve 101 through the connecting plate 107, the second spring 103 is stretched, the clamping block 104 moves outwards along with the sliding sleeve 105 and does not clamp the part, then the part after the marking is taken down, after the marking is completed, the worker loosens the sliding sleeve 105, under the reset action of the third spring 106, the sliding sleeve 105 slides downwards along with the sliding sleeve 107 to reset, so that the N-shaped rod 102 is driven to slide inwards along with the connecting plate 107 to reset, the clamping block 104 moves inwards to reset, the second spring 103 is reset along with the first spring, so that the part to be marked can be clamped when the surface of the part is marked, and the part is prevented from moving when the part is marked.
On the basis of embodiment 1, as shown in fig. 1 and 5, the device further includes a pushing assembly 11, the pushing assembly 11 includes a push rod 111 and a contact rod 112, the push rod 111 is welded to both sides of the front and back of the upper portion of the rack 1, the contact rod 112 is welded to the sliding sleeve 105, and the contact rod 112 is matched with the push rod 111.
After the parts are marked, the rotating shaft 83 moves rightwards to drive the mounting rod 85 to move rightwards, the sliding sleeve 105 drives the contact rod 112 to move rightwards, after the parts are moved rightwards to a proper position, a worker rotates the rotating shaft 83 clockwise, the mounting rod 85 drives the sliding sleeve 105 to rotate clockwise, the contact rod 112 rotates clockwise, when the contact lever 112 is rotated to be in contact with the push rod 111, the contact lever 112 continues to rotate, at this time, the push rod 111 pushes the sliding sleeve 105 to slide upward on the mounting rod 85 through the contact rod 112, and then, after the marked parts are poured out, the rotating shaft 83 rotates anticlockwise to reset, the mounting rod 85 drives the sliding sleeve 105 to rotate anticlockwise to reset, the contact rod 112 rotates to reset to be separated from the push rod 111, the sliding sleeve 105 slides downwards on the mounting rod 85 to reset, thus, the marked parts do not need to be poured out by manually pushing the sliding sleeve 105.
On the basis of embodiment 1, as shown in fig. 1 and 6, the device further includes a rotating assembly 12, the rotating assembly 12 includes a full gear 121, a second mounting block 122 and a second rack 123, the full gear 121 is connected to the rotating shaft 83 by a key, the second mounting block 122 is welded to the right portion of the rack 1, the second rack 123 is arranged on the second mounting block 122, and the second rack 123 is matched with the full gear 121.
After the marking on the surface of the part is finished, the rotating shaft 83 moves rightwards, the full gear 121 moves rightwards along with the full gear, when the full gear 121 moves rightwards to be matched with the second rack 123, the full gear 121 continues moving rightwards, at the moment, the full gear 121 moves rightwards and simultaneously drives the rotating shaft 83 to rotate, then the part subjected to marking is poured out, after the marking is finished, the rotating shaft 83 moves leftwards to reset, the full gear 121 moves leftwards to reset along with the full gear, and under the action of the second rack 123, the full gear 121 drives the rotating shaft 83 to rotate reversely to reset, so that when the part subjected to marking is poured out, the rotating shaft 83 does not need to be rotated manually.
On the basis of embodiment 1, as shown in fig. 1 and 7, the collecting device 13 further includes a collecting assembly 13, the collecting assembly 13 includes a third mounting block 131, a collecting frame 132, a damping plate 133 and compression springs 134, the two third mounting blocks 131 are welded to the right portion of the rack 1, the collecting frame 132 is fixedly connected between the outer sides of the two third mounting blocks 131 through bolts, the damping plate 133 is slidably arranged in the collecting frame 132, and three rows of compression springs 134 are connected between the damping plate 133 and the collecting frame 132.
When will beat the spare part after the mark is accomplished and pour out, the spare part of pouring drops to collecting in the frame 132, simultaneously, carries out the shock attenuation through shock attenuation board 133 and compression spring 134 to the spare part that drops, can effectually prevent to beat the spare part of mark after accomplishing and be broken or have the scratch, simultaneously, can collect and beat the spare part of mark after accomplishing.
The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.