CN113524057B - Automatic gluing machine for artificial diamond resin elastic grinding block - Google Patents

Abstract

The invention relates to an elastic grinding block gluing machine, in particular to an automatic gluing machine for an artificial diamond resin elastic grinding block. The invention provides an automatic gluing machine for an artificial diamond resin elastic grinding block, which can realize automatic conveying of the elastic grinding block, automatic resin coating and fixation of the elastic grinding block. An automatic gluing machine for artificial diamond resin elastic grinding blocks comprises: the device comprises a bottom frame, a workbench, a housing, a connecting frame, a push-pull mechanism and a smearing mechanism, wherein the workbench is arranged in the middle of the upper portion of the bottom frame, the housing is arranged on the upper portion of the bottom frame, the connecting frame is arranged on the bottom frame, the push-pull mechanism is arranged on the upper portion of the bottom frame, and the smearing mechanism is arranged on the push-pull mechanism. According to the invention, after the poke rod moves rightwards to be contacted with the elastic grinding block, the poke rod conveys the elastic grinding block rightwards, so that the working steps of manually conveying the elastic grinding block by a user are saved, and the effect of conveying the elastic grinding block by the poke rod is realized.

Description

Automatic gluing machine for artificial diamond resin elastic grinding block

Technical Field

The invention relates to an elastic grinding block gluing machine, in particular to an automatic gluing machine for an artificial diamond resin elastic grinding block.

Background

The diamond grinding block is a whole formed by sintering artificial diamond mainly and various metal powders as binding agents at high temperature and high pressure, is not easy to fall off in the using process, is formed by high-temperature hot-pressing sintering, and is widely used for high-efficiency grinding and polishing of products such as ceramics, marble, artificial quartz and the like.

Traditional elasticity abrasive brick viscose mode is placed the elasticity abrasive brick on the workstation through the workman, the workman presses the object on the elasticity abrasive brick again after that, prevent that the elasticity abrasive brick from dropping from the workstation, the workman paints the resin on the elasticity abrasive brick again afterwards, at this in-process, the workman needs manually to carry the elasticity abrasive brick, not only increase workman's job task like this, still can accelerate consuming workman's physical stamina simultaneously, because the resin relies on workman to paint manually, sometimes have the omission, thereby cause the resin to paint inhomogeneously, and do not have the function of fixed elasticity abrasive brick on the workstation.

Therefore, the automatic gluing machine for the artificial diamond resin elastic grinding block is designed, and the automatic conveying, the automatic resin coating and the fixing of the elastic grinding block are realized.

Disclosure of Invention

In order to overcome the defects that the traditional elastic grinding block gluing machine cannot automatically convey an elastic grinding block, cannot automatically apply resin and cannot fix the elastic grinding block, the invention provides the automatic gluing machine for the artificial diamond resin elastic grinding block, which can automatically convey the elastic grinding block, automatically apply the resin and fix the elastic grinding block.

The technical scheme is as follows: an automatic gluing machine for artificial diamond resin elastic grinding blocks, comprising: the device comprises a bottom frame, a workbench, a housing, a connecting frame, a push-pull mechanism and a smearing mechanism, wherein the workbench is arranged in the middle of the upper portion of the bottom frame, the housing is arranged on the upper portion of the bottom frame, the connecting frame is arranged on the bottom frame, the push-pull mechanism is arranged on the upper portion of the bottom frame, and the smearing mechanism is arranged on the push-pull mechanism.

Further, it is particularly preferable that the push-pull mechanism includes: the upper part of the inner wall of the bottom frame is provided with a plurality of fixed blocks, air cylinders are arranged among the fixed blocks, a slide way is arranged on an expansion link of each air cylinder, the slide way is connected with the workbench in a sliding way, a first connecting shaft is arranged on the slide way in a rotating way, rotating shafts are arranged on the rotating shafts and the first connecting shaft in a rotating way, toggle rods are arranged on the rotating shafts and the first connecting shaft, fourth torsion springs are wound on the upper side and the lower side of each rotating shaft, two ends of each fourth torsion spring are respectively connected with the first connecting shaft and the slide way, connecting strips are arranged on two sides of the slide way, long plates are arranged on the lower parts of the two connecting strips, reinforcing ribs are arranged on two sides of the slide way, second connecting shafts are arranged on the upper parts of the two long plates in a rotating way, rotating bevel plates are arranged on the two second connecting shafts, and fifth reset springs are wound on the front side and the rear side of the two second connecting shafts, and two ends of the fifth return spring are respectively connected with the long plate and the second connecting shaft.

Furthermore, it is particularly preferred that the application mechanism comprises: the workstation top is equipped with the mount, the gliding style is equipped with connecting rack on the mount, mount bottom both sides all slidingtype is equipped with connects the pole of a long circle, connect the pole of a long circle and be connected with connecting rack, all around having second reset spring on two connect the pole of a long circle, second reset spring both ends are connected with mount and connection pole of a long circle respectively, underframe inner wall upper portion is equipped with containing bucket, containing bucket downside is equipped with connects wide mouthful, the middle rotary type of connecting wide mouthful lower part is equipped with rotatory spout, rotatory spout upside is equipped with the round gear, it is equipped with elementary connecting block to connect the rack lower part, elementary connecting block downside rotary type is equipped with rotates the short slab, both sides all around having third torque spring on the rotation short slab, the third torque spring both ends respectively with elementary connecting block and rotate the short slab and be connected.

In addition, it is especially preferred that the material receiving device further comprises a material receiving mechanism, wherein the material receiving mechanism comprises: the middle part of the workbench is provided with an arc-shaped connecting block, the lower part of the arc-shaped connecting block is rotatably provided with a connecting disc, the connecting disc is provided with a rotating square plate, the connecting disc is provided with second torsion springs on two sides, two ends of each second torsion spring are respectively connected with the arc-shaped connecting block and the connecting disc, and a connecting rod frame is arranged in the middle of the bottom of the rotating square plate.

In addition, it is particularly preferred that the stock stop further comprises a stock stop, and the stock stop comprises: slidingtype is equipped with the picture peg in the middle of the workstation lower part, workstation bottom middle both sides all are equipped with the dead lever, the equal rotary type of two dead lever downside is equipped with rotatory hollow core plate, rotatory hollow core plate and last picture peg sliding type connection, be connected with long connecting rod between two rotatory hollow core plates, be equipped with four spacing round bars in the middle of the workstation bottom, spacing round bar and last picture peg sliding type connection, four spacing round bar downside are all around having first reset spring, first reset spring both ends are connected with spacing round bar and last picture peg respectively.

Further, it is particularly preferable that the apparatus further comprises an opening and closing mechanism including: be equipped with the connection frame on connecting the wide mouthful, connection frame upper portion rotary type is equipped with the rotor plate, and the rotor plate is connected with connecting the wide mouthful rotary type, and connection frame upper portion is equipped with spacing, and around there being first torsion spring on the rotor plate, first torsion spring both ends are connected with connection frame and rotor plate respectively, and the rotary type is equipped with the connection connecting rod on the connection rack, connects connecting rod and rotor plate slidingtype and is connected.

In addition, it is particularly preferable that the apparatus further comprises a feeding mechanism, and the feeding mechanism comprises: the slidingtype of workstation bottom is equipped with the fixed plate, and the screw thread formula is connected with many screws between fixed plate and the workstation, and fixed plate upper portion is equipped with the connecting plate, is equipped with three fixed strips on the connecting plate, is connected with the hollow frame that encloses between three fixed strips.

Furthermore, it is particularly preferred that the rotating plate is used to control the flow of the resin.

The invention provides an automatic gluing machine for an artificial diamond resin elastic grinding block, which has the following beneficial effects:

1. according to the invention, after the poke rod moves rightwards to be contacted with the elastic grinding block, the poke rod conveys the elastic grinding block rightwards, so that the working steps of manually conveying the elastic grinding block by a user are saved, and the effect of conveying the elastic grinding block by the poke rod is realized;

2. when the connecting rack moves leftwards to be in contact fit with the circular gear, the circular gear and the rotating nozzle are driven to rotate, and resin is sprinkled on the elastic grinding block through the material containing barrel, the connecting wide opening and the rotating nozzle, so that the resin is uniformly distributed on the elastic grinding block, and the effect of uniformly smearing the resin is realized;

3. according to the invention, after the rotating bevel connection plate moves leftwards to be separated from the long connecting rod, the fifth reset spring resets to drive the rotating bevel connection plate to rotate reversely, the upper inserting plate blocks the elastic grinding block, the elastic grinding block is prevented from moving leftwards, and the effect that the upper inserting plate blocks the elastic grinding block is realized;

4. when the elastic grinding block falls through the groove of the workbench, the elastic grinding block can fall on the rotating square plate, and the rotating square plate buffers the elastic grinding block, so that the falling gravity is reduced, and the effect of buffering the elastic grinding block by the rotating square plate is realized.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the cover-removing structure of the present invention.

Fig. 3 is a schematic perspective view of the push-pull mechanism of the present invention.

Fig. 4 is a schematic perspective view of the invention at a.

Fig. 5 is a partial perspective view of the push-pull mechanism of the present invention.

Fig. 6 is a schematic perspective view of the coating mechanism of the present invention.

Fig. 7 is a schematic perspective view of the present invention at position B.

Fig. 8 is a first-view perspective structure schematic diagram of the receiving mechanism of the present invention.

Fig. 9 is a schematic perspective view of a second view of the receiving mechanism of the present invention.

Fig. 10 is a first-view perspective structure diagram of the stock stop of the present invention.

Fig. 11 is a second perspective view of the stock stop of the present invention.

Fig. 12 is a first-view perspective structure diagram of the opening and closing mechanism of the present invention.

Fig. 13 is a second perspective view of the opening and closing mechanism of the present invention.

Fig. 14 is a first-view perspective structure diagram of the feeding mechanism of the present invention.

Fig. 15 is a second-view perspective structure diagram of the feeding mechanism of the present invention.

Wherein the figures include the following reference numerals: 1. bottom frame, 2, workbench, 3, cover, 4, connecting frame, 5, push-pull mechanism, 51, fixed block, 52, cylinder, 53, connecting thin strip, 54, poke rod, 55, first connecting shaft, 56, slide way, 57, reinforcing rib, 58, rotating shaft, 59, fourth torsion spring, 510, long plate, 511, rotating bevel plate, 512, second connecting shaft, 513, fifth return spring, 6, smearing mechanism, 61, fixing frame, 62, connecting rack, 63, connecting long round rod, 64, second return spring, 65, containing barrel, 66, connecting wide port, 67, rotating nozzle, 68, round gear, 69, rotating short plate, 610, primary connecting block, 611, third torsion spring, 7, receiving mechanism, 71, arc connecting block, 72, rotating square plate, 73, connecting rod frame, 74, connecting disc, 75, second torsion spring, 8, material stopping mechanism, 81, 8, The device comprises an upper inserting plate, 82, a fixed rod, 83, a rotary hollow plate, 84, a long connecting rod, 85, a limiting round rod, 86, a first return spring, 9, an opening and closing mechanism, 91, a rotary plate, 92, a limiting strip, 93, a connecting frame, 94, a first torsion spring, 95, a connecting rod, 10, a feeding mechanism, 101, a hollow surrounding frame, 102, a fixed strip, 103, a connecting plate, 104, a fixed plate, 105 and screws.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-15, the present invention provides a technical solution: the utility model provides an automatic viscose machine for artificial diamond resin elasticity abrasive brick, including underframe 1, workstation 2, housing 3, link 4, push-and-pull institution 5 and daub mechanism 6, the welding has workstation 2 in the middle of underframe 1 upper portion, and it has the recess to open on the workstation 2, and the welding of underframe 1 upper portion has the housing 3 that is used for observing, and the welding of underframe 1 right side has link 4, and 1 upper portion front side of underframe is equipped with push-and-pull institution 5, is equipped with on the push-and-pull institution 5 and paints mechanism 6.

The push-pull mechanism 5 comprises fixed blocks 51, an air cylinder 52, a connecting thin strip 53, a poke rod 54, a first connecting shaft 55, a slide way 56, a reinforcing rib 57, a rotating shaft 58, a fourth torsion spring 59, a long plate 510, a rotating bevel plate 511, a second connecting shaft 512 and a fifth return spring 513, wherein the front side of the upper part of the inner wall of the bottom frame 1 is welded with a plurality of fixed blocks 51, the air cylinder 52 is fixedly arranged among the fixed blocks 51 through bolts, the right side of the telescopic rod of the air cylinder 52 is provided with the slide way 56, the slide way 56 is connected with the workbench 2 in a sliding way, the first connecting shaft 55 is rotatably arranged at the right side of the rear part of the slide way 56, the rotating shaft 58 is rotatably arranged at the left side of the rear part of the slide way 56, the fourth torsion spring 59 is respectively wound at the upper side and the lower side of the rotating shaft 58, two ends of the fourth torsion spring 59 are respectively connected with the rotating shaft 58 and the slide way 56, the poke rod 54 is respectively arranged on the rotating shaft 58 and the first connecting shaft 55, the upper side and the lower side of the first connecting shaft 55 are respectively wound with the fourth torsion spring 59, fourth torsion spring 59 both ends are connected with first connecting axle 55 and slide 56 respectively, 56 anterior left and right sides of slide have all welded and have connected slender strip 53, two connect slender strip 53 lower part rear sides all welded and have long slab 510, 56 rear portion left and right sides of slide have all welded strengthening rib 57, strengthening rib 57 and poker rod 54 cooperation, two equal rotary types in long slab 510 upper portion right sides are equipped with second connecting axle 512, all weld on two second connecting axles 512 and have rotated bevel connection board 511, both sides are all around having fifth reset spring 513 around two second connecting axles 512, fifth reset spring 513 both ends are connected with long slab 510 and second connecting axle 512 respectively.

The smearing mechanism 6 comprises a fixed frame 61, a connecting rack 62, a connecting long round rod 63, a second return spring 64, a material containing barrel 65, a connecting wide port 66, a rotary nozzle 67, a round gear 68, a rotary short plate 69, a primary connecting block 610 and a third torsion spring 611, wherein the fixed frame 61 is welded on the front side of the top of the workbench 2, the connecting rack 62 is arranged on the left side of the fixed frame 61 in a sliding manner, the connecting long round rods 63 are arranged on the front side and the rear side of the bottom of the fixed frame 61 in a sliding manner, the connecting long round rod 63 is connected with the connecting rack 62, the second return spring 64 is wound on the two connecting long round rods 63, two ends of the second return spring 64 are respectively connected with the fixed frame 61 and the connecting long round rod 63, the material containing barrel 65 is welded on the right side of the upper part of the inner wall of the bottom frame 1, the connecting wide port 66 is arranged on the lower side of the material containing barrel 65, the rotary nozzle 67 is rotatably arranged in the middle of the lower part of the connecting wide port 66, the round gear 68 is arranged on the upper side of the rotary nozzle 67, the circular gear 68 is matched with the connecting rack 62, a primary connecting block 610 is welded at the lower part of the front side of the connecting rack 62, a rotating short plate 69 is arranged on the lower side of the primary connecting block 610 in a rotating mode, the rotating short plate 69 is matched with the slide rail 56, third torsion springs 611 are wound on the front side and the rear side of the rotating short plate 69, and two ends of each third torsion spring 611 are respectively connected with the primary connecting block 610 and the rotating short plate 69.

Still including receiving mechanism 7, receiving mechanism 7 is including arc connecting block 71, rotatory square plate 72, connecting rod frame 73, connect disc 74 and second torsion spring 75, the welding of 2 right sides middle parts of workstation has arc connecting block 71, arc connecting block 71 lower part left side rotary type is equipped with connects disc 74, it is equipped with rotatory square plate 72 to connect disc 74 left side, both sides are all around there being second torsion spring 75 around connecting disc 74, second torsion spring 75 both ends are connected with arc connecting block 71 and connection disc 74 respectively, the welding has connecting rod frame 73 in the middle of rotatory square plate 72 bottom front side, rectangular plate 510 and the cooperation of connecting rod frame 73.

Also comprises a stock stop 8, the stock stop 8 comprises an upper flashboard 81, a fixed rod 82 and a rotary hollow board 83, long connecting rod 84, spacing round bar 85 and first reset spring 86, slidingtype is equipped with picture peg 81 in the middle of 2 lower parts of workstation, dead lever 82 has all been welded to both sides around in the middle of workstation 2 bottom, two dead lever 82 downside homorotary types are equipped with rotatory hollow plate 83, it has the recess to open on the rotatory hollow plate 83, rotatory hollow plate 83 is connected with picture peg 81 slidingtype, be connected with long connecting rod 84 between two rotatory hollow plate 83 left sides, long connecting rod 84 and the cooperation of rotation bevel board 511, be equipped with four spacing round bars 85 in the middle of workstation 2 bottom, spacing round bar 85 and last picture peg 81 sliding type are connected, four spacing round bar 85 downside are all around having first reset spring 86, first reset spring 86 both ends are connected with spacing round bar 85 and last picture peg 81 respectively.

Still including mechanism 9 that opens and shuts, mechanism 9 that opens and shuts is including rotating plate 91, spacing strip 92, connection frame 93, first torsion spring 94 and connecting rod 95, it has connection frame 93 to connect welding on the wide mouthful 66, connection frame 93 upper portion rotary type is equipped with the rotor plate 91, rotor plate 91 is used for controlling the flow of resin, rotor plate 91 is connected with connecting wide mouthful 66 rotary type, connection frame 93 front side upper portion right side welding has spacing strip 92, rotor plate 91 rear side is around having first torsion spring 94, first torsion spring 94 both ends are connected with connection frame 93 and rotor plate 91 respectively, connecting rack 62 front side left part rotary type is equipped with connecting rod 95, connecting rod 95 and rotor plate 91 sliding type are connected.

Still including feed mechanism 10, feed mechanism 10 encloses frame 101 including hollow, fixed strip 102, connecting plate 103, fixed plate 104 and screw 105, 2 bottom left sides slidingtype of workstation are equipped with fixed plate 104, the screw thread formula is connected with many screws 105 between fixed plate 104 and the workstation 2, fixed plate 104 front side upper portion is equipped with connecting plate 103, connecting plate 103 front side welded has three fixed strip 102, is connected with hollow frame 101 that encloses between three fixed strip 102 inboards.

The working principle of the invention is that when people want to coat resin on the elastic grinding block, the automatic gluing machine for the artificial diamond resin elastic grinding block can be used, firstly, a user pours the resin into the coating mechanism 6, after the resin is poured, the user places the elastic grinding block on the workbench 2, the user starts the push-pull mechanism 5, then the user operates the push-pull mechanism 5 to operate, the push-pull mechanism 5 conveys the elastic grinding block rightwards, after the elastic grinding block moves rightwards to the lower part of the coating mechanism 6, the push-pull mechanism 5 is matched with the coating mechanism 6, so as to drive the coating mechanism 6 to operate, the resin is sprinkled on the elastic grinding block through the coating mechanism 6, so that the resin is uniformly distributed on the elastic grinding block, after the resin is coated, the user operates the push-pull mechanism 5 to operate reversely, the push-pull mechanism 5 drives the coating mechanism 6 to operate reversely to the recovery position, the user closes the push-pull mechanism 5 and the above operation is stopped.

After a user places the elastic grinding block on the workbench 2, the user starts the air cylinder 52, the expansion rod of the air cylinder 52 extends rightwards, the expansion rod of the air cylinder 52 drives the connecting thin strip 53, the poke rod 54, the first connecting shaft 55, the slide way 56, the reinforcing rib 57, the rotating shaft 58, the fourth torsion spring 59, the long plate 510, the rotating bevel plate 511, the second connecting shaft 512 and the fifth reset spring 513 to move rightwards, after the poke rod 54 moves rightwards to be in contact with the elastic grinding block, the poke rod 54 conveys the elastic grinding block rightwards, so that the working steps of manually conveying the elastic grinding block by the user are saved, after the elastic grinding block moves rightwards to a specified position, the expansion rod of the air cylinder 52 is controlled by the user to shorten leftwards, the expansion rod of the air cylinder 52 drives the connecting thin strip 53, the poke rod 54, the first connecting shaft 55, the slide way 56, the reinforcing rib 57, the rotating shaft 58, the fourth torsion spring 59 and the long plate 510 to be connected with the air cylinder 52, The rotating bevel plate 511, the second connecting shaft 512 and the fifth return spring 513 move leftwards, after the poke rod 54 moves leftwards to be in contact with the elastic grinding block on the workbench 2, the elastic grinding block drives the poke rod 54, the first connecting shaft 55 and the rotating shaft 58 to rotate, the fourth torsion spring 59 is in torsional deformation, after the poke rod 54 moves leftwards to be separated from the elastic grinding block, the fourth torsion spring 59 resets, so that the poke rod 54, the first connecting shaft 55 and the rotating shaft 58 are driven to rotate reversely to be in contact with the reinforcing rib 57 and then stop, after the conveying of the elastic grinding block is completed, the user closes the air cylinder 52, and the above actions stop.

After a user pours resin into the material containing barrel 65, when the slide way 56 moves leftwards, the convex part of the slide way 56 moves leftwards to be in contact fit with the short rotating plate 69, so as to drive the short rotating plate 69, the primary connecting block 610, the third torsion spring 611, the connecting rack 62 and the long connecting round rod 63 to move leftwards, the second return spring 64 is compressed, the connecting rack 62 moves leftwards to be in contact fit with the round gear 68, so as to drive the round gear 68 and the rotating nozzle 67 to rotate, the resin is sprinkled on the elastic grinding block through the material containing barrel 65, the connecting wide opening 66 and the rotating nozzle 67, so that the resin is uniformly distributed on the elastic grinding block, when the slide way 56 moves rightwards, the convex part of the slide way 56 moves rightwards to be separated from the short rotating plate 69, the second return spring 64 is reset, so as to drive the short rotating plate 69, the third torsion spring 611, the connecting rack 62 and the long connecting round rod 63 to move rightwards, the connecting rack 62 moves rightwards to be in contact fit with the round gear 68, thereby causing the circular gear 68 to idle.

When the long plate 510 moves rightwards, the long plate 510 moves rightwards to be in contact fit with the connecting rod frame 73, so that the connecting rod frame 73 is driven, the rotating square plate 72 and the connecting circular disc 74 rotate downwards, the second torsion spring 75 is twisted and deformed, the rotating square plate 72 is changed into an inclined state from a stable state, when the elastic grinding block drops through the groove of the workbench 2, the elastic grinding block drops on the rotating square plate 72, the rotating square plate 72 buffers the elastic grinding block, the descending gravity is reduced, when the long plate 510 moves leftwards, the long plate 510 moves leftwards to be separated from the connecting rod frame 73, the second torsion spring 75 resets, the connecting rod frame 73 is driven, the rotating square plate 72 and the connecting circular disc 74 are rotated upwards to a recovery position, and the rotating square plate 72 is changed into the stable state from the inclined state.

When the rotary bevel plate 511 moves to the right, the rotary bevel plate 511 moves to the right to be in contact with and engaged with the long connecting rod 84, thereby driving the long connecting rod 84 and the rotary hollow plate 83 to rotate downward, the rotary hollow plate 83 drives the upper insert plate 81 to move downward, the first return spring 86 is compressed, after the rotary bevel plate 511 moves to the right to be disengaged from the long connecting rod 84, the first return spring 86 is returned, thereby driving the upper insert plate 81 to move upward, the upper insert plate 81 drives the long connecting rod 84 and the rotary hollow plate 83 to rotate upward, when the rotary bevel plate 511 moves to the left, the rotary bevel plate 511 moves to the left to be in contact with and engaged with the long connecting rod 84, thereby driving the rotary bevel plate 511 to rotate, the fifth return spring 513 is torsionally deformed, after the rotary bevel plate 511 moves to the left to be disengaged from the long connecting rod 84, the fifth return spring 513 is returned, thereby driving the rotary bevel plate 511 to rotate reversely, and the upper insert plate 81 blocks the elastic grinding block, the elastic grinding block is prevented from moving leftwards.

When the connecting rack 62 moves leftwards, the connecting rack 62 drives the connecting link 95 to move leftwards, the connecting link 95 drives the rotating plate 91 to rotate downwards, the first torsion spring 94 is twisted and deformed, so that the rotating plate 91 opens the connecting wide mouth 66 channel, resin is sprinkled on the elastic grinding block through the connecting wide mouth 66 and the rotating nozzle 67, when the connecting rack 62 moves rightwards, the connecting rack 62 drives the connecting link 95 to move rightwards, the first torsion spring 94 resets, the rotating plate 91 is driven to rotate upwards, and the connecting wide mouth 66 channel is closed.

The user puts into the hollow frame 101 that encloses with polylith elasticity abrasive brick, and the elasticity abrasive brick falls on workstation 2 through hollow frame 101 that encloses, and after the elasticity abrasive brick of downside was transported, the elasticity abrasive brick up dropped on workstation 2 after that, has saved the work step that the user placed the elasticity abrasive brick one by one.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (7)

1. The utility model provides an automatic viscose machine for synthetic diamond resin elasticity abrasive brick, characterized by includes: the device comprises a bottom frame (1), a workbench (2), a housing (3), a connecting frame (4), a push-pull mechanism (5) and a smearing mechanism (6), wherein the workbench (2) is arranged in the middle of the upper part of the bottom frame (1), the housing (3) is arranged on the upper part of the bottom frame (1), the connecting frame (4) is arranged on the bottom frame (1), the push-pull mechanism (5) is arranged on the upper part of the bottom frame (1), and the smearing mechanism (6) is arranged on the push-pull mechanism (5); the push-pull mechanism (5) comprises: a plurality of fixed blocks (51) are arranged on the upper portion of the inner wall of the bottom frame (1), air cylinders (52) are installed among the fixed blocks (51), slide rails (56) are arranged on telescopic rods of the air cylinders (52), the slide rails (56) are connected with the workbench (2) in a sliding mode, first connecting shafts (55) are arranged on the slide rails (56) in a rotating mode, rotating shafts (58) are arranged on the slide rails (56) in a rotating mode, toggle rods (54) are arranged on the rotating shafts (58) and the first connecting shafts (55), fourth torsion springs (59) are wound on the upper side and the lower side of each rotating shaft (58), two ends of each fourth torsion spring (59) are connected with the first connecting shafts (55) and the slide rails (56) respectively, connecting thin strips (53) are arranged on two sides of each slide rail (56), two connection thin strip (53) lower parts all are equipped with elongated plate (510), both sides all are equipped with strengthening rib (57) on slide (56), two equal rotary types in elongated plate (510) upper portion are equipped with second connecting axle (512), all be equipped with on two second connecting axles (512) and rotate bevel connection board (511), both sides all around fifth reset spring (513) on two second connecting axles (512), fifth reset spring (513) both ends are connected with elongated plate (510) and second connecting axle (512) respectively.

2. The automatic gluing machine for synthetic diamond resin elastic grinding blocks as claimed in claim 1, characterized in that the coating mechanism (6) comprises: a fixed frame (61) is arranged at the top of the workbench (2), a connecting rack (62) is arranged on the fixed frame (61) in a sliding manner, connecting long round rods (63) are arranged on two sides of the bottom of the fixed frame (61) in a sliding manner, the connecting long round rods (63) are connected with the connecting rack (62), second reset springs (64) are wound on the two connecting long round rods (63), two ends of each second reset spring (64) are respectively connected with the fixed frame (61) and the connecting long round rods (63), a material containing barrel (65) is arranged on the upper portion of the inner wall of the bottom frame (1), a connecting wide opening (66) is arranged on the lower side of the material containing barrel (65), a rotary nozzle (67) is rotatably arranged in the middle of the lower portion of the connecting wide opening (66), a round gear (68) is arranged on the upper side of the rotary nozzle (67), a primary connecting block (610) is arranged on the lower portion of the connecting rack (62), a rotary short rotary plate (69) is rotatably arranged on the lower side of the primary connecting block (610), third torsion springs (611) are wound on two sides of the rotating short plate (69), and two ends of each third torsion spring (611) are connected with the primary connecting block (610) and the rotating short plate (69) respectively.

3. The automatic gluing machine for artificial diamond resin elastic grinding blocks as claimed in claim 2, characterized by further comprising a material receiving mechanism (7), wherein the material receiving mechanism (7) comprises: the middle of the workbench (2) is provided with an arc-shaped connecting block (71), the lower part of the arc-shaped connecting block (71) is rotatably provided with a connecting disc (74), the connecting disc (74) is provided with a rotating square plate (72), two sides of the connecting disc (74) are respectively wound with a second torsion spring (75), two ends of the second torsion spring (75) are respectively connected with the arc-shaped connecting block (71) and the connecting disc (74), and the middle of the bottom of the rotating square plate (72) is provided with a connecting rod frame (73).

4. The automatic gluing machine for artificial diamond resin elastic grinding blocks as claimed in claim 3, further comprising a stock stop (8), wherein the stock stop (8) comprises: sliding type is equipped with picture peg (81) in the middle of workstation (2) lower part, both sides all are equipped with dead lever (82) in the middle of workstation (2) bottom, the equal rotary type of two dead lever (82) downside is equipped with rotatory hollow core plate (83), rotatory hollow core plate (83) and last picture peg (81) sliding type are connected, be connected with long connecting rod (84) between two rotatory hollow core plates (83), be equipped with four spacing round bars (85) in the middle of workstation (2) bottom, spacing round bar (85) and last picture peg (81) sliding type are connected, four spacing round bar (85) downside all around having first reset spring (86), first reset spring (86) both ends are connected with spacing round bar (85) and last picture peg (81) respectively.

5. The automatic gluing machine for artificial diamond resin elastic grinding blocks as claimed in claim 4, characterized in that it further comprises an opening and closing mechanism (9), the opening and closing mechanism (9) comprising: be equipped with connection frame (93) on connecting wide mouthful (66), connection frame (93) upper portion rotary type is equipped with rotor plate (91), rotor plate (91) with be connected wide mouthful (66) rotary type and be connected, connection frame (93) upper portion is equipped with spacing strip (92), around having first torsion spring (94) on rotor plate (91), first torsion spring (94) both ends are connected with connection frame (93) and rotor plate (91) respectively, it is equipped with connection connecting rod (95) to rotate the formula on connecting rack (62), connection connecting rod (95) and rotor plate (91) sliding type are connected.

6. The automatic gluing machine for artificial diamond resin elastic grinding blocks as claimed in claim 5, characterized in that it further comprises a feeding mechanism (10), the feeding mechanism (10) comprises: a fixing plate (104) is arranged at the bottom of the workbench (2) in a sliding mode, a plurality of screws (105) are connected between the fixing plate (104) and the workbench (2) in a threaded mode, a connecting plate (103) is arranged on the upper portion of the fixing plate (104), three fixing strips (102) are arranged on the connecting plate (103), and a hollow surrounding frame (101) is connected between the three fixing strips (102).

7. The automatic gluing machine for synthetic diamond resin elastic grinding blocks as claimed in claim 5, wherein the rotating plate (91) is used to control the flow of the resin.

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