阅读说明：本技术 一种具有稳定弹性部件的可翻转式输送装置 (Can convertible conveyor with stable elastomeric element ) 是由 王安云 于 2021-07-12 设计创作，主要内容包括：本发明涉及可翻转式输送装置技术领域,具体为一种具有稳定弹性部件的可翻转式输送装置。所述原型保持杆对称位于输送装置底座上端两侧,其中锁定框位于原型保持杆一端,所述弹性支撑结构对称位于输送装置底座一端两侧,其中输送装置底座上端中侧设置螺钉连接的第一传输机构,所述第一传输机构一端布置转轴连接的第二传输机构,其中第一传输机构另一端设置转轴连接的第三传输结构,所述输送装置底座上端一侧对称设置螺钉连接的第一校正辊。(The invention relates to the technical field of reversible conveying devices, in particular to a reversible conveying device with a stable elastic part. The prototype keeping rod is symmetrically arranged on two sides of the upper end of the conveying device base, the locking frame is arranged at one end of the prototype keeping rod, the elastic supporting structures are symmetrically arranged on two sides of one end of the conveying device base, a first transmission mechanism connected with a screw is arranged on the middle side of the upper end of the conveying device base, a second transmission mechanism connected with a rotating shaft is arranged at one end of the first transmission mechanism, a third transmission mechanism connected with the rotating shaft is arranged at the other end of the first transmission mechanism, and a first correcting roller connected with the screw is symmetrically arranged on one side of the upper end of the conveying device base.)

1. A reversible conveyor apparatus with stable elastomeric components comprising a conveyor base, prototype-retaining rods, locking frames and elastomeric support structures, characterized in that:

the prototype holding rods are symmetrically positioned at two sides of the upper end of the conveying device base, the locking frame is positioned at one end of the prototype holding rods, the elastic supporting structures are symmetrically positioned at two sides of one end of the conveying device base, the middle side of the upper end of the conveying device base is provided with a first transmission mechanism connected by screws, one end of the first transmission mechanism is provided with a second transmission mechanism connected by a rotating shaft, wherein,

the other end of the first transmission mechanism is provided with a third transmission structure connected by a rotating shaft, one side of the upper end of the conveying device base is symmetrically provided with a first correcting roller connected by screws, the other side of the upper end of the conveying device base is provided with a second correcting roller connected by screws, one end of the second correcting roller is provided with a guide groove, the middle end of the second correcting roller is penetrated through the guide groove to provide a built-in groove, the inner end of the built-in groove is provided with a supporting spring, and the upside of the inner end of the built-in groove is provided with a groove sealing plate connected by screws.

2. A reversible conveyor apparatus with stable elastic means according to claim 1, characterized in that: the guide sliding block is placed to the inner downside of guide way, and wherein guide sliding block one end symmetry sets up integrated into one piece's range plate, and the range plate runs through the guide way setting, guide sliding block one end sets up welded connection's follow-up block, and wherein the follow-up block is located the inside in built-in groove, the follow-up block is located supporting spring's lower extreme.

3. A reversible conveyor apparatus with stable elastic means according to claim 1, characterized in that: the device comprises a prototype holding rod, a first transmission mechanism, a second transmission mechanism, a first engaging plate, a second engaging plate, a limiting clamping groove, a first engaging layer, a repeated deformation rod, a second engaging layer, a first engaging plate, a second engaging plate, a first engaging layer, a second engaging layer and a second engaging layer.

4. A reversible conveyor apparatus with stable elastic means, according to claim 3, characterized in that: carry out the screw connection between pole one end that warp repeatedly and the third transmission device, wherein go up the plywood and be located down the upper end of agreeing with the plywood, spacing kelly is located the inside of spacing draw-in groove, and wherein agrees with the plywood and be the arc and offer down in the spacing draw-in groove.

5. A reversible conveyor apparatus with stable elastic means according to claim 1, characterized in that: the locking frame cover is in first kiss close on layer and the kiss of second and closes on the layer, and wherein locking frame one end sets up the apron of articulated connection, and the range of apron turned angle is at zero to one hundred eighty degrees on the locking frame, apron one end medial side is run through and is seted up the screw hole, and wherein evenly run through on the apron and set up the fault, the apron middle-end is run through the fault and is seted up the stretching into groove, the locking frame other end sets up the linkage structure of articulated connection.

6. A reversible conveyor apparatus with stable elastic components according to claim 5, characterized in that: the inner promotion screw rod that sets up the spiro union that runs through of screw hole, wherein promotion screw rod one end sets up welded connection's reference column, the shape of reference column is the toper platform, and wherein the maximum diameter of reference column is less than the minimum diameter of screw hole, the reference column passes stretching into groove and fault setting in proper order.

7. A reversible conveyor apparatus with stable elastic components according to claim 5, characterized in that: linkage structure is including gangbar, connecting rod and fixed ring, wherein articulates between gangbar and the locking frame and is connected, the connecting rod evenly is located the upper end of gangbar, wherein is integrated into one piece's structure between connecting rod and the gangbar, fixed ring welded fastening is in the upper end of connecting rod.

8. A reversible conveyor apparatus with stable elastic means according to claim 1, characterized in that: elastic support structure includes the bracing piece, adjusts spout, slide bar, adapter bar and outstanding piece, wherein the one end of bracing piece with warp repeatedly and articulate between the pole and be connected, adjust the spout and run through the bracing piece lower extreme and set up, wherein the slide bar runs through and adjusts the spout setting, the adapter bar is fixed in the slide bar both sides by the pivot symmetry, wherein the adapter bar other end is fixed on the second correction roller by the screw, outstanding piece welded fastening is in bracing piece lower extreme one side, wherein carries out the pivot between outstanding piece one end and the range extender board and is connected.

Technical Field

The invention relates to the technical field of reversible conveying devices, in particular to a reversible conveying device with a stable elastic part.

Background

Can convertible conveyor under prior art has certain problem, specifically be that current device levels through the gear, reach the purpose of flattening, transmission device utilizes the elastic plate to reset simultaneously, the elastic plate can take place deformation at gear pulling transmission device's in-process, but the position of elastic plate deformation is specific, borrow this request book picture 1, the pole that warp repeatedly that is located the oblique upper end of second correction roller is the position that takes place to warp, consequently, the pole that warp repeatedly can partly appear deformation in the pole that warp repeatedly, along with long-time use, transmission device is under the condition of elastic plate deformation, unable recovery normal position, and then cause harmful effects to transmission device's transmission, if change the elastic plate is whole, can waste prototype and keep this position of pole, and then cause the waste of raw materials.

Disclosure of Invention

The object of the present invention is to provide a reversible conveyor with stable elastic means to solve the problems mentioned in the above process.

In order to achieve the purpose, the invention provides the following technical scheme: a turnover type conveying device with stable elastic components is provided, the prototype holding rods are symmetrically arranged at two sides of the upper end of a conveying device base, a locking frame is arranged at one end of the prototype holding rod, elastic supporting structures are symmetrically arranged at two sides of one end of the conveying device base, a first transmission mechanism connected with screws is arranged at the middle side of the upper end of the conveying device base, a second transmission mechanism connected with a rotating shaft is arranged at one end of the first transmission mechanism, a third transmission mechanism connected with a rotating shaft is arranged at the other end of the first transmission mechanism, a first correcting roller connected with screws is symmetrically arranged at one side of the upper end of the conveying device base, a second correcting roller connected with screws is arranged at the other side of the upper end of the conveying device base, a guide groove is formed at one end of the second correcting roller, an inner groove is formed by penetrating through the middle end of the second correcting roller, a supporting spring is arranged at the inner end of the inner groove, wherein, the upper side of the inner end of the built-in groove is provided with a groove sealing plate connected by screws.

Preferably, the direction slider has been placed to the inner downside of guide way, and wherein direction slider one end symmetry sets up integrated into one piece's range plate, and the range plate runs through the guide way setting, direction slider one end sets up welded connection's follow-up block, and wherein the follow-up block is located the inside in built-in groove, the follow-up block is located supporting spring's lower extreme.

Preferably, one end of the prototype holding rod is in screw connection with the first transmission mechanism, one end of the prototype holding rod is provided with an integrally formed lower conjunction plate, the upper side of the middle end of the lower conjunction plate is provided with a limiting clamping groove in a penetrating mode, the lower end of the lower conjunction plate is provided with a first conjunction layer, the inclined upper end of the prototype holding rod is provided with a repeatedly-deformed rod, one side of one end of the repeatedly-deformed rod is provided with an integrally formed upper conjunction plate, the middle side of the lower end of the upper conjunction plate is provided with an integrally formed limiting clamping rod, and the upper end of the repeatedly-deformed rod is provided with a second conjunction layer.

Preferably, carry out the screw connection between pole one end of warping repeatedly and the third transmission device, wherein go up the contract plywood and be located the upper end of contract plywood down, spacing kelly is located the inside of spacing draw-in groove, and wherein the contract plywood is the arc and offers under the spacing draw-in groove coincide.

Preferably, the locking frame cover is in first kiss close on layer and the second kiss close on layer, and wherein locking frame one end sets up the apron of articulated connection, and the apron turned angle's scope is at zero to one hundred eighty degrees on the locking frame, apron one end medial side is run through and is seted up the screw hole, and wherein evenly run through on the apron and set up the fault, the apron middle-end is run through the fault and is seted up and stretch into the groove, the locking frame other end sets up the linkage structure of articulated connection.

Preferably, threaded hole inner runs through the promotion screw rod that sets up the spiro union, wherein promotes screw rod one end and sets up welded connection's reference column, the shape of reference column is the toper platform, and wherein the maximum diameter of reference column is less than the minimum diameter of threaded hole, the reference column passes in proper order and stretches into the groove and the fault setting.

Preferably, the linkage structure includes gangbar, connecting rod and fixed ring, wherein articulates between gangbar and the locking frame and is connected, the connecting rod evenly is located the upper end of gangbar, wherein is integrated into one piece's structure between connecting rod and the gangbar, fixed ring welded fastening is in the upper end of connecting rod.

Preferably, the elastic support structure includes the bracing piece, adjusts spout, slide bar, adapter rod and outstanding piece, wherein the one end of bracing piece with warp repeatedly and articulate between the pole and be connected, adjust the spout and run through the bracing piece lower extreme and set up, wherein the slide bar runs through and adjusts the spout setting, the adapter rod is fixed in the slide bar both sides by the pivot symmetry, wherein the adapter rod other end is fixed on the second correction roller by the fix with screw, outstanding piece welded fastening is in bracing piece lower extreme one side, wherein carry out the pivot between outstanding piece one end and the range plate and be connected.

Compared with the prior art, the invention has the beneficial effects that:

1. through the arrangement of the invention, under the condition of not delaying the work of the elastic component, the elastic plate can be divided into a prototype holding rod and a repeated deformation rod, which is beneficial for workers to replace the repeated deformation rod with serious deformation, so as to achieve the purpose of saving materials and effectively ensure the normal work of the elastic plate;

2. the rapid fixing device can quickly fix the prototype holding rod and the repeated deformation rod, has a simple fixing mode, can finish uniform butt joint and fixation of one side by adopting a screw rod, effectively prevents the repeated deformation rod from bouncing off the prototype holding rod, and is beneficial to ensuring the work of the elastic plate;

3. through the arrangement of the invention, one end of the repeatedly-deformed rod can be elastically supported, so that the pressure obtained by the repeatedly-deformed rod can be favorably relieved, meanwhile, the service life of the repeatedly-deformed rod can be prolonged, the replacement frequency of the repeatedly-deformed rod is further reduced, and the conveying efficiency of the conveying device is favorably increased.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a conveyor base according to the present invention in half section;

FIG. 3 is a perspective view of a prototype retainer rod of the present invention;

FIG. 4 is a perspective view of a repeatedly deformable rod of the present invention;

FIG. 5 is an enlarged, semi-sectional, perspective view of the cover plate of the present invention;

FIG. 6 is an enlarged view of the invention at A in FIG. 2.

In the figure: the device comprises a conveying device base 1, a first conveying mechanism 11, a second conveying mechanism 12, a third conveying mechanism 13, a first correcting roller 14, a second correcting roller 15, a guide groove 16, a guide sliding block 1601, a distance increasing plate 1602, a follow-up block 1603, an internal groove 17, a supporting spring 18, a groove sealing plate 19, a prototype holding rod 2, a lower engagement plate 21, a limiting clamping groove 22, a first engagement layer 23, a repeated deformation rod 24, an upper engagement plate 25, a limiting clamping rod 26, a second engagement layer 27, a locking frame 3, a cover plate 31, a threaded hole 32, a pushing screw 3201, a positioning column 3202, a fault 33, an extending groove 34, a linkage structure 35, a linkage rod 3501, a connecting rod 3502, a fixed ring 3503, an elastic supporting structure 4, a supporting rod 41, an adjusting sliding chute 42, a sliding rod 43, a bearing rod 44 and a protruding block 45.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: comprises a conveying device base 1, a prototype holding rod 2, a locking frame 3 and an elastic supporting structure 4, wherein the prototype holding rod 2 is symmetrically positioned at two sides of the upper end of the conveying device base 1, the locking frame 3 is positioned at one end of the prototype holding rod 2, the elastic supporting structure 4 is symmetrically positioned at two sides of one end of the conveying device base 1, a first transmission mechanism 11 connected by screws is arranged at the middle side of the upper end of the conveying device base 1, a second transmission mechanism 12 connected by a rotating shaft is arranged at one end of the first transmission mechanism 11, a third transmission mechanism 13 connected by a rotating shaft is arranged at the other end of the first transmission mechanism 11, a first correcting roller 14 connected by screws is symmetrically arranged at one side of the upper end of the conveying device base 1, a second correcting roller 15 connected by screws is arranged at the other side of the upper end of the conveying device base 1, a guide groove 16 is arranged at one end of the second correcting roller 15, an inner groove 17 is arranged at the middle end of the second correcting roller 15 through the guide groove 16, the inner end of the built-in groove 17 is provided with a supporting spring 18, wherein the upper side of the inner end of the built-in groove 17 is provided with a groove sealing plate 19 connected with a screw.

Referring to fig. 1, a groove sealing plate 19 is disposed at the upper end of the supporting spring 18, wherein the groove sealing plate 19 limits the position of the supporting spring 18 so that the supporting spring 18 is deformed in an accumulating manner inside the built-in groove 17.

The two sides of one end of the conveying device base 1 continuing the second correcting roller 15 are provided with a guide groove 16 and an internal groove 17, so that the guide slider 1601 and the follow-up block 1603 have enough space to slide in the grooves, and therefore the guide slider 1601 and the follow-up block 1603 are positioned in the guide groove 16 and the internal groove 17 on the conveying device base 1 in the figure.

In fig. 6, a guide slider 1601 is disposed at the lower side of the inner end of the guide slot 16, wherein an integrally formed distance increasing plate 1602 is symmetrically disposed at one end of the guide slider 1601, the distance increasing plate 1602 penetrates through the guide slot 16, a follow-up block 1603 connected by welding is disposed at one end of the guide slider 1601, wherein the follow-up block 1603 is located inside the built-in slot 17, and the follow-up block 1603 is located at the lower end of the support spring 18.

When the third transmission mechanism 13 presses the prototype holding rod 2 and the repeated deformation rod 24, the repeated deformation rod 24 deforms according to the second correction plate 15, so that one end of the repeated deformation rod 24 moves back down, at this time, the repeated deformation rod 24 presses the support rod 41 down, and the support rod 41 changes the angle according to the adjustment chute 42 and the sliding rod 43.

Meanwhile, the bearing rod 44 supports the sliding rod 43, the other end of the supporting rod 41 drives the protruding block 45 to tilt upwards, the other end of the supporting rod 41 enables the guide slider 1601 to slide upwards in the guide groove 16 under the connection relationship between the distance increasing plate 1602 and the protruding block 45, the follower block 1603 moves along with the guide slider 1601 and slides upwards in the built-in groove 17, and further, the supporting spring 18 is subjected to force accumulation deformation under the action of the follower block 1603.

It can be seen from fig. 3 and 4 that, the screw connection is carried out between 2 one ends of prototype holding rod and the first transmission device 11, wherein 2 one ends of prototype holding rod set up integrated into one piece's lower agreeing plate 21, the lower agreeing plate 21 middle-end upside runs through and sets up spacing draw-in groove 22, wherein the lower end of agreeing plate 21 sets up first inosculation layer 23 down, prototype holding rod 2 inclined upper end is placed and is bent over pole 24 repeatedly, wherein 24 one end one side of pole that repeatedly bends sets up integrated into one piece's last agreeing plate 25, it sets up integrated into one piece's spacing draw-in bar 26 to go up agreeing with the board 25 lower extreme middle-side, wherein 24 upper ends of pole that repeatedly bends set up second inosculation layer 27.

In fig. 4, the limiting clamping rod 26 is located inside the limiting clamping groove 22, so that the lower engaging block 21 and the upper engaging block 25 are in closer contact, and the position fixing of the prototype holding rod 2 and the repeated deformation rod 24 by the later-stage locking 3 is facilitated.

The one end of the repeated deformation rod 24 is connected with the third transmission mechanism 13 through screws, wherein the upper conjunction plate 25 is positioned at the upper end of the lower conjunction plate 21, the limit clamping rod 26 is positioned in the limit clamping groove 22, and the lower conjunction plate 21 matched with the limit clamping groove 22 is formed in an arc shape.

The locking frame 3 is sleeved on the first anastomosis layer 23 and the second anastomosis layer 27, wherein one end of the locking frame 3 is provided with a cover plate 31 which is connected in a hinged mode, the rotation angle of the cover plate 31 on the locking frame 3 ranges from zero to one hundred eighty degrees, a threaded hole 32 is formed in the middle side of one end of the cover plate 31 in a penetrating mode, a fault 33 is formed in the cover plate 31 in a uniformly penetrating mode, the middle end of the cover plate 31 penetrates through the fault 33 and is provided with an extending groove 34, and the other end of the locking frame 3 is provided with a linkage structure 35 which is connected in a hinged mode.

Threaded push screw 3201 is arranged at the inner end of the threaded hole 32 in a penetrating manner, a positioning column 3202 connected in a welding manner is arranged at one end of the push screw 3201, the positioning column 3202 is in a conical table shape, the maximum diameter of the positioning column 3202 is smaller than the minimum diameter of the threaded hole 32, and the positioning column 3202 sequentially penetrates through the extending groove 34 and the fault 33.

Referring to fig. 5, the linkage structure 35 includes a linkage rod 3501, a connection rod 3502 and a fixed ring 3503, wherein the linkage rod 3501 is hinged to the locking frame 3, the connection rod 3502 is uniformly located at the upper end of the linkage rod 3501, wherein the connection rod 3502 and the linkage rod 3501 are integrally formed, and the fixed ring 3503 is welded and fixed at the upper end of the connection rod 3502.

In fig. 5, the connecting rod 3502 and the fixing ring 3503 are located inside the fault 33, meanwhile, the diameter of the fixing ring 3503 is gradually reduced, the positioning post 3202 is arranged at the middle end of the fixing ring 3503, the fixing ring 3503 is arranged to be attached to the surface of the positioning post 3202, and under the action of the special shape of the positioning post 3202, the positioning post 3202 contacts with the first fixing ring 3503 to have a guiding function because the diameter of the first fixing ring 3503 is larger than the diameter of the opening end of the positioning post 3202.

Referring to fig. 2, it can be seen that the elastic supporting structure 4 includes a supporting rod 41, an adjusting chute 42, a sliding rod 43, a receiving rod 44 and a protruding block 45, wherein one end of the supporting rod 41 is hinged to the repeatedly deforming rod 24, the adjusting chute 42 is disposed through the lower end of the supporting rod 41, the sliding rod 43 is disposed through the adjusting chute 42, the receiving rod 44 is symmetrically fixed to two sides of the sliding rod 43 by a rotating shaft, the other end of the receiving rod 44 is fixed to the second correcting roller 15 by a screw, the protruding block 45 is welded to one side of the lower end of the supporting rod 41, and one end of the protruding block 45 is connected to the distance increasing plate 1602 by the rotating shaft.

In fig. 2, when the third transmission mechanism 13 presses the prototype holding rod 2 and the repeated deformation rod 24, the repeated deformation rod 24 deforms according to the second correction plate 15, so that one end of the repeated deformation rod 24 moves back down, at this time, the repeated deformation rod 24 presses down the support rod 41, the support rod 41 changes the angle according to the adjustment chute 42 and the slide rod 43, the receiving rod 44 supports the slide rod 43, the other end of the support rod 41 drives the protruding block 45 to tilt up, under the connection relationship between the distance increasing plate 1602 and the protruding block 45, the other end of the support rod 41 causes the guide slider 1601 to slide up inside the guide chute 16, the follower block 1603 slides up inside the built-in chute 17 along with the movement of the guide slider 1601, further, the support spring 18 is subjected to accumulated force deformation under the action of the follower block 1603, and when the repeated deformation rod 24 needs to follow-up, utilize screw hole 32 to rotate pushing screw 3201, make pushing screw 3201 leave screw hole 32, reference column 3502 can leave fixed ring 3503 gradually this moment, stretch into groove 34 and fault 33, further reference column 3202 can not fix fixed ring 3503's position, can rotate apron 31 and linkage structure 35 simultaneously this moment, pull down locking frame 3, the pulling warp pole 24 repeatedly, make spacing kelly 26 leave the inside of spacing draw-in groove 22, make to warp repeatedly between pole 24 and the bracing piece 41 simultaneously, can change deformation pole 24 repeatedly afterwards, the fixed of deformation pole 24 can be accomplished to the above-mentioned step of anti-operation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.