CN213833195U - Conveying module and tobacco goods shelf with baking function - Google Patents

Abstract

A conveying module and a tobacco shelf with a baking function thereof comprise a bottom plate, wherein two first side plates and a fetching and delivering column are arranged on the bottom plate, and the two first side plates are fixedly connected through a second side plate; the taking and delivering column is provided with a taking and delivering lifting groove; the taking and delivering lifting groove is clamped with the taking and delivering sliding block and can be assembled in a sliding mode, the taking and delivering sliding block is installed on a taking and delivering seat of the taking and delivering module, the lifting screw penetrates through the taking and delivering sliding block and is assembled with the taking and delivering sliding block in a threaded and screwing mode, and the upper end and the lower end of the lifting screw can be assembled with the top plate and the bottom plate in a circumferential rotating mode and cannot move axially; the top of the lifting screw penetrates out of the top plate and is respectively assembled with different lifting belt wheels, and a lifting belt respectively bypasses each lifting belt wheel so as to form a belt transmission mechanism; a storage support is installed between the two first side plates through a first storage bolt, and the storage support is fixedly assembled with a storage flange plate of a storage unit through a second storage bolt so as to install the storage unit between the two first side plates.

Description

Conveying module and tobacco goods shelf with baking function

Technical Field

The utility model relates to a tobacco storage technology especially relates to a carry module and take tobacco goods shelves of toasting function thereof.

Background

In the process of tobacco purchasing, tobacco needs to be temporarily stored, and the general purchasing standard is that farmers classify the tobacco and then bake the tobacco to a certain degree. The purchasing period is about one month, the purchased tobacco can be put in storage after further processing, the tobacco is generally randomly stacked on a shelf of a storehouse before the purchasing period is about one month, and the quality of the tobacco is seriously influenced because the storehouse is not provided with special humidity control and heat preservation equipment, so that the tobacco is easy to get damp and even mildewed after being stored for a long time (about 20 days). However, the special temperature and humidity control equipment has high manufacturing cost, and if the special temperature and humidity control equipment is installed in a temporary storehouse, the special temperature and humidity control equipment causes high cost and does not meet the current actual situation.

To this utility model people has designed a tobacco goods shelves of function is toasted in area, and it can blow off the hot gas flow to the stock tobacco to continuously toast the stock tobacco, in order to prevent to get damp.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of prior art, the utility model aims to solve the technical problem that a carry module and take tobacco goods shelves of toasting function is provided, its carry module utilizes the displacement that the module of getting off moved down to order about to carry the overlap joint board side to move so that input or output storage frame.

In order to achieve the above object, the utility model provides an output module, including two output risers, output tensioning frame, output wheel axle board, output riser, output tensioning frame, output wheel axle board are installed respectively on the bottom plate, install between two output risers and carry the side board that moves, carry the side board that moves to install on carrying the lap board, carry the side board suit respectively on carrying guiding axle, conveying screw, carry the guiding axle respectively with two output risers assembly and with carry the side board axial slip assembly, conveying screw respectively with two output risers circular rotation and can not the axial displacement assembly, with carry the side board through the screw thread closure assembly, conveying screw orders about the rotation through carrying the power shaft, but carrying the power shaft to pass first conveying axle board, second conveying axle board circular rotation assembly, first conveying axle board, The second conveying shaft plates are respectively arranged on the bottom plate, a conveying gear is sleeved on the conveying power shaft, the conveying gear is meshed with a conveying rack to form a gear rack transmission mechanism, and the conveying rack is arranged on the conveying lifting plate;

the conveying lap joint plate is further assembled with the movable frame, a movable shaft plate is arranged on the movable frame, the movable shaft plate and the output wheel shaft plate are respectively assembled with different first output wheel shafts in a circumferential rotating mode, a first output belt wheel is sleeved on the first output wheel shaft, and the two first output rollers are connected through an output conveying belt and form a belt transmission mechanism.

Preferably, one end of the conveying screw penetrates through one of the output vertical plates and is connected with a conveying power shaft through a conveying belt to form a belt transmission mechanism.

Preferably, the conveying lifting plate is assembled with one end of a first conveying lifting shaft, the other end of the first conveying lifting shaft is installed in a first conveying lifting cylinder and can be axially assembled in a sliding mode, a lifting shaft groove is formed in the first conveying lifting shaft along the axial direction of the first conveying lifting shaft, and the conveying pin penetrates through the first conveying lifting cylinder and is installed in the lifting shaft groove.

Preferably, the first conveying lifting cylinder is internally provided with a hollow first conveying lifting hole, a first conveying spring is mounted on a part of the first conveying lifting hole, which is located between the first conveying lifting shaft and the bottom plate, and the first conveying spring is used for applying elastic force to the first conveying lifting shaft to push the conveying lifting plate.

Preferably, the output conveying belt is wound around a conveying tensioning wheel, the conveying tensioning wheel is sleeved on a second output wheel shaft in a circumferential rotation manner, the second output wheel shaft is mounted on the output tensioning frame and is not assembled with one end of a tensioning guide shaft, the other end of the tensioning guide shaft is mounted in a tensioning inner cylinder and is fixedly assembled with a tensioning sliding ring, the tensioning inner cylinder is arranged in a tensioning cylinder, the tensioning cylinder is mounted on the output tensioning frame, a tensioning limit ring is mounted at the top of the tensioning inner cylinder, an output tensioning spring is sleeved on a part, located between the tensioning limit ring and the tensioning sliding ring, of the tensioning guide shaft, and the output tensioning spring is used for applying downward pressing elastic force to the tensioning sliding ring to enable the conveying tensioning wheel to tension the output conveying belt all the time.

The utility model also discloses a tobacco goods shelves of function is toasted in area, its application has above-mentioned output module.

The utility model has the advantages that:

1. the utility model discloses simple structure sets up the memory cell through the unitization, can carry out nimble combination according to actual need to satisfy different memory space demands. And the storage unit is internally provided with the fan and the electric heating tube, air can be blown to the electric heating tube through the fan, and the air is heated by the electric heating tube and then blown to the stored tobacco, so that the tobacco can be continuously baked, and the tobacco is prevented from getting damp. In addition, the air can be dehumidified by large-scale air dehumidifying equipment and then used for baking tobacco, so that the humidity is controlled.

2. The utility model discloses a get and send the module and can get and send storage frame as required to realize automatic storage, take out, so that raise the efficiency greatly, reduce the cost of labor.

3. The utility model discloses an output module can move the rotor plate side to it automatically after drive module moves down to the target in place to be convenient for output, input storage frame.

Drawings

Fig. 1-4 are schematic structural diagrams of the present invention.

Fig. 5-6 are schematic structural diagrams of the storage unit and the pick-and-place module.

Fig. 7-15 are schematic structural diagrams of memory cells. Wherein FIG. 11 is a cross-sectional view at a central plane of the axis of the top gas pipe; fig. 12 and 13 are enlarged views at F1 and F2 in fig. 11, respectively; figure 14 is a cross-sectional view at the central plane of the axis of the heating chamber; fig. 15 is a schematic view of the structure at the closed shelf.

Figure 16 is a schematic view of the structure at the tensioning assembly.

Fig. 17-23 are schematic structural views of the pick-and-place module. Wherein FIG. 21 is a sectional view at the center plane of the axis of the elevating screw; FIG. 22 is a cross-sectional view at the center plane of the axle axis.

Fig. 23-29 are schematic structural views of an output module. Wherein FIG. 27 is a schematic view of the structure at the output screw; figure 28 is a cross-sectional view of the central plane of the output tension shaft axis; fig. 29 is a sectional view at the center plane of the axis of the elevating shaft.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 29, the tobacco shelf of the present embodiment includes a bottom plate 110, two first side plates 120 parallel to each other are mounted on the bottom plate 110, and the two first side plates 120 are connected and fixed by a second side plate 130; the bottom plate 110 is also provided with a taking and delivering column 140, and the taking and delivering column 140 is provided with a taking and delivering lifting groove 141; the taking and delivering lifting groove 141 is clamped with the taking and delivering sliding block B111 and can be assembled in a sliding mode, the taking and delivering sliding block B111 is installed on a taking and delivering seat B110 of the taking and delivering module B, the lifting screw B210 penetrates through the taking and delivering sliding block B111 and is assembled with the taking and delivering sliding block B through threaded screwing, the upper end and the lower end of the lifting screw B210 can be assembled with the top plate 150 and the bottom plate 110 in a circumferential rotating mode and cannot move axially, and the top plate 150 is installed at the top of the taking and delivering column 140; the top of the lifting screw B210 penetrates through the top plate 150 and then is assembled with different lifting belt wheels B451, the lifting belt a450 respectively bypasses each lifting belt wheel B451 to form a belt transmission mechanism, one lifting screw B210 is fixedly connected with an output shaft of the lifting motor B310 through a coupler, and the lifting motor B310 can drive the lifting screw B210 to rotate circumferentially after being started, so that the fetching and delivering module B is driven to move (lift) axially along the lifting screw B210.

Install storage support 160 through first storage bolt A210 between two first curb plates 120, storage support A160 is fixed with storage flange board A142 assembly through second storage bolt A220 and installs storage unit A between two first curb plates 120, and installs a plurality of storage unit A from top to bottom between two first curb plates 120, and every storage unit is used for storing a storage frame 900 respectively, the inside cavity of storage frame 900 and open-top, during the use, storage frame 900 is used for saving the tobacco.

The storage flange plate A142 is installed on the storage base A140, the storage base A140 is hollow inside and the top of the storage base A140 is a storage base plate A141, two storage side plates A110 which are parallel to each other are installed on the storage base plate A141, one ends of the two storage side plates A110 are connected and assembled through a storage vertical plate A160, a storage top plate A130 is installed on the tops of the storage vertical plate A160 and the two storage side plates A110, a storage insertion block A310 and an insertion air guide block A320 are installed on the storage top plate A130, and an insertion matching block A330 and an insertion air supply block A340 are installed at the bottom of the storage base plate A141 respectively; the inserting matching block A330 and the inserting air supply block A340 are respectively provided with an inserting matching groove A331 and an inserting air supply groove A341, and the storage inserting block A310 and the inserting air guide block A320 can be respectively inserted into the inserting matching groove A331 and the inserting air supply groove A341, so that the assembly of an upper adjacent storage unit A and a lower adjacent storage unit A is realized. Specifically, the insertion fitting groove a331 and the insertion air feed groove a341 of the previous storage unit a are fitted into the insertion fitting block a330 and the insertion air feed block a340 of the next storage unit a.

The air guide block A320 is internally provided with a first inserting air guide hole A321 and a second inserting air hole A322, a third inserting air hole A323 is arranged between the first inserting air guide hole A321 and the second inserting air hole A322, an inserting air groove A3221 is arranged on the inner wall of the second inserting air hole A322, the first inserting air guide hole A321, the third inserting air hole A323 and the second inserting air hole A322 are sequentially communicated, the third inserting air hole A323 and the second inserting air hole A322 are assembled with the inserting piston A324 in a sealing and axial sliding mode, a first inserting spring A325 is arranged between the end faces of the inserting piston A324 and the second inserting air hole A322 far away from one end of the first inserting air guide hole A321, and the first inserting spring A325 exerts elastic force pushing the first inserting air hole A321 on the inserting piston A324, so that the inserting piston A323 and the third inserting air hole A321 can be assembled in a sealing mode in an initial state. The plugging air passing groove a3221 is used for communicating the portions of the second plugging air hole a322 located at the two sides of the plugging piston a324 when the plugging piston a324 and the second plugging air hole a322 are assembled. The second inserting air hole A322 is in air guide connection with one end of the first air pipe A411, the other end of the first air pipe A411 is communicated with an outlet of the first one-way valve A520, and an inlet of the first one-way valve A520 is communicated with the inserting air feeding groove A341.

A top air pipe A342 is arranged in the inserting air feeding groove A341, one end of the top air pipe A342 is communicated with the first air pipe A411, a top air pipe groove A3421 is arranged at the other end of the top air pipe A342, and the top air pipe groove A3421 penetrates through the pipe wall of the top air pipe A342; the end of the inserting air-feeding groove A341 far from the top air pipe A342 is opened, the opening end is sealed by a dustproof sheet A345, and the dustproof sheets A345 are provided with a plurality of sheets, so that the inserting air-guiding block A320 can be conveniently installed. The dust-proof sheet A345 is mounted on the dust-proof seat A344, the dust-proof seat A344 is clamped with the inserted air feeding groove A341 and can be assembled in a sliding mode, a second inserted spring A343 is mounted between the end faces, close to the first air pipe A411, of the dust-proof seat A344 and the inserted air feeding groove A341, and the second inserted spring A343 is used for applying elastic force to the dust-proof seat A344 to prevent the dust-proof seat A344 from moving towards the top air pipe A342.

When the plugging air guide block a320 is plugged into the plugging air feed groove a341 in the plugging air feed block a340, the plugging air guide block a320 passes through the dust-proof sheet a345, then the dust-proof seat a344 is pushed to move towards the top air tube a342 by overcoming the elastic force of the second plugging spring a343 until the top air tube a342 passes through the first plugging air guide hole a321 and then is pressed against the plugging piston a324, then the top air tube a342 pushes the plugging piston a324 to move towards the first air tube a411 by overcoming the elastic force of the first plugging spring a325 until the plugging piston is completely assembled with the plugging air feed groove a3221, and at the moment, the plugging air feed groove a3221 passes through the plugging piston and then is communicated with the first air tube. And the plug-in air guide block A320 of the storage unit positioned at the lowest part is connected with the dehumidified airflow, so that the dehumidified airflow is supplied to the first air pipe. The top gas tank A3421 is used for communicating the inside and the outside of the top gas pipe A342 when the top gas pipe A342 and the plugging piston A324 are pressed tightly.

The part of the first air pipe A411, which is located between the first check valve A520 and the inserting air guide block A320, is also communicated with one end of a second air pipe A412, the other end of the second air pipe A412 is communicated with an inlet of the second check valve A560, an outlet of the second check valve A560 is communicated with one end of a fifth air pipe A415, the other end of the fifth air pipe A415 is communicated with the heating cavity A701, the fifth air pipe A415 is also communicated with one end of a third air pipe A413, the other end of the third air pipe A413 is communicated with an outlet of an air pump A530, an inlet of the air pump A530 is communicated with one end of a fourth air pipe A414, and the other end of the fourth air pipe A414 penetrates through the part, close to the storage bottom plate A141, of the storage side plate A110, so as to be communicated with the bottom of the inner side between the two storage side plates A110. The heating cavity A701 is enclosed by a heating cover A720 and a heating pore plate A710, a heating wire A730 is further installed in the heating cavity A701, and the heating wire A730 generates heat after being electrified, so that air flow passing through the heating wire is heated. The heating hole plate A710 is provided with a blowing hole A711, and the blowing hole A711 penetrates through the heating hole plate A710 so that the heating cavity A701 is communicated with the external atmosphere. When the tobacco baking device is used, air flow enters the heating cavity to be heated through the heating wire, and then is blown out of the air blowing hole A711 to tobacco in the storage frame 900, so that the tobacco can be continuously insulated and baked.

The inner sides of the storage side plates a110 are respectively provided with a placing platform a111, a thread passing groove a112 and a rolling curtain sliding groove a113, and the placing platform a111 is used for being matched with the bottom of the storage frame 900 to support the storage frame 900; the wire-passing groove a112 is used for allowing a pull rope a630 to pass through, the rolling chute a113 is clamped with the rolling block a610 and can be assembled in a sliding manner, the rolling block a610 is assembled with one end of the pull rope a630, the other end of the pull rope a630 bypasses the guide wheel a604 and then is assembled or wound with the first roller a601, the first roller a601 and the rolling a620 are assembled or wound with one end of a rolling groove a621, the other end of the rolling a620 bypasses the second roller a602 and the third roller a603 and then is assembled with the rolling block a610, the guide wheel a604, the first roller a601, the second roller a602 and the third roller a603 are respectively sleeved on the third rolling shaft a233, the fourth rolling shaft a234, the first rolling shaft a231 and the second rolling shaft a232, the third rolling shaft a233, the fourth rolling shaft a234, the first rolling shaft a231 and the second rolling shaft a232 are respectively assembled with the storage side plate a110 in a rotatable manner, one end of the fourth rolling shaft a234 penetrates through the rear end of the storage box 120 a and is connected with the electric rolling box 120 a through a fixed shaft coupler 510, after the rolling shutter motor a510 is started, the fourth rolling shutter shaft a234 can be driven to rotate forward and backward, so that the rolling shutter 620 is driven to move, and the rolling shutter block a610 slides along the rolling shutter chute a 113. The end, far away from the storage vertical plate a160, of the storage top plate a130 is provided with an air shielding plate a131, and the bottom of the air shielding plate a131 is located below the third roller a603 or is flush with the third roller a603, so that the air flow blown out from the air blowing hole a711 is blocked, and the air flow is directly blown into the storage frame 900.

The storage bottom plate A141 is provided with a closing frame A114, the closing frame A114 is provided with a second storage travel switch A542, the triggering end of the second storage travel switch A542 is opposite to a second storage triggering plate A670, the second storage triggering plate A670 is arranged at one end of a second triggering shaft A660, the other end of the second triggering shaft A660 penetrates through the closing frame A114 and then is assembled with a closing slide seat A642, a closing power block A640 is arranged on the closing slide seat A642, a closing inclined plane A641 is arranged at one end, far away from the closing slide seat A642, of the closing power block A640, a closing spring A650 is sleeved on a part, located between the closing frame A114 and the closing slide seat A642, of the second triggering shaft A660, the closing spring A650 is used for applying elastic force to the closing slide seat A642 and pushing the closing power block A640, and the closing power block A640 penetrates through a storage side plate A110 and then enters the roller shutter chute A113; a rolling block inclined plane A611 is arranged at the position, corresponding to the closing inclined plane A641, of the rolling block A610, after the rolling block A610 moves downwards, the rolling block inclined plane A611 is matched with the closing inclined plane A641 to drive the closing power block A640 to move towards the second storage travel switch A542 by overcoming the elastic force of the closing spring A650 until the second storage trigger plate A670 triggers the second storage travel switch A542, a signal is input to the industrial personal computer after the second storage travel switch A542 is triggered, and the industrial personal computer judges that the rolling curtain reaches a preset position, so that the rolling motor A510 is controlled to stop running and is switched to a reverse rotation state; at the moment, the rolling curtain closes the opening at one end of the two storage side plates A120 far away from the storage vertical plate A160, so that the airflow blown out from the air blowing hole circulates among the two storage side plates A120, the storage vertical plate A160 and the rolling curtain; meanwhile, the rolling curtain groove A621 is opposite to the air blowing hole so as to prevent the rolling curtain from influencing the air blowing of the air blowing hole to the storage frame. When the roller shutter needs to be opened, the roller shutter motor rotates reversely to enable the roller shutter and the pull rope to reset.

Preferably, a thermocouple a900 is installed below the heating orifice plate a710, a signal end of the thermocouple a900 is connected to a temperature sensor a541, a signal of the temperature sensor a541 is connected to an industrial personal computer, the temperature sensor is installed on a temperature rack a115, and the temperature rack a115 is installed on the storage side plate a 110. When the temperature control device is used, the temperature sensor detects the temperature through the thermocouple A900, then the temperature is converted into a digital signal and then the digital signal is input into the industrial personal computer, the industrial personal computer judges whether the temperature is proper according to a preset temperature threshold value, and if the temperature is not proper, the temperature of air flow blown out from the air blowing hole is adjusted through adjusting the power of the electric heating pipe.

Preferably, in order to timely find that the pulling force applied to the roll screen is too large, a tension assembly may be installed on the storage side plate a110, the tensioning assembly comprises a first tensioning plate A171, a second tensioning plate A172, a third tensioning plate A173, a tensioning slider A810, the first to third tension plates a171 and a172 and a173 are respectively installed on the storage side plate a110, the storage side plate A110 is provided with a tensioning sliding chute A116, the tensioning sliding chute A116 is clamped with a tensioning sliding block A810 and can be assembled in a sliding way, the upper end and the lower end of the tensioning slide block A810 are respectively provided with a first tensioning ring A811 and a second tensioning ring A812, a first elastic sleeve a820 is installed between the first tension plate a171 and the first tension ring a811, a second elastic sleeve a830 is installed between the second tensioning ring a812 and the third tensioning plate a173, the first elastic sleeve A820 and the second elastic sleeve A830 have telescopic elasticity, so that the tensioning chute A116 is shielded. The tensioning sliding block A810 is assembled with one end of a tensioning sliding shaft A850, the other end of the tensioning sliding shaft A850 penetrates through the second tensioning plate A172 and then is assembled with a tensioning bolt A851, a tensioning spring A840 is sleeved on the part, located between the tensioning sliding block A810 and the second tensioning plate A172, of the tensioning sliding shaft A850, and the tensioning spring A840 is used for applying elastic force for preventing the tensioning sliding block A810 from moving downwards; the tensioning slide block A810 and the second roller shutter shaft A232 can be assembled in a circumferential rotation mode.

Third storage travel switch A543 is installed to second tensioning ring A812 below, third storage travel switch A543 is installed on switch frame A174, and switch frame A174 is installed on storage curb plate A110, third storage travel switch A543's trigger end is just to second tensioning ring A812, and second tensioning ring A812 can trigger third storage travel switch A543 when moving down to the maximum displacement point, and third storage travel switch A543 is triggered the back to industrial computer input signal, and the industrial computer judges that the roll curtain is drawn excessively to inform staff's maintenance according to predetermineeing the procedure, in order to avoid roll curtain to be torn.

The taking and delivering module B comprises a taking and delivering seat B110, a taking and delivering slide block B111 and a taking and delivering guide groove B112 are arranged on the taking and delivering seat B110, the taking and delivering guide groove B112 is clamped with a taking and delivering guide block B121 and can be assembled in a sliding mode, the taking and delivering guide block B121 is installed at the bottom of a taking and delivering guide frame B120, the taking and delivering guide frame B120 is assembled with a second taking and delivering plate B140, a taking and delivering lifting frame B143 is installed on the second taking and delivering plate B140, the taking and delivering lifting frame B143 and a lifting screw cylinder B260 can be assembled in a circumferential rotating mode and cannot be assembled in an axial moving mode, the lifting screw cylinder B260 is assembled and assembled with a taking and delivering screw B250 in a screwing mode through threads, the top of the taking and delivering screw B250 is assembled with a first taking and delivering plate B130, at least two pairs of first taking and delivering shaft plates B131 are installed on the first taking and delivering plate B130, each pair of first taking and delivering shaft plates B131 respectively comprise two first taking and delivering shaft plates B131 which are parallel to each other, each pair of first driving shaft plates B220 and can be assembled in a circumferential rotating mode, each first taking and delivering belt wheel shaft B220 is sleeved with a first taking and delivering roller B411, the two first taking and delivering rollers B411 are connected through a taking and delivering conveyor belt B410 to form a belt transmission mechanism, one first taking and delivering roller B411 is connected with a taking and delivering motor shaft B331 through a first taking and delivering belt B420 to form a belt transmission mechanism, the taking and delivering motor shaft B331 is installed in the taking and delivering motor B330, and the taking and delivering motor is installed on a second taking and delivering plate B140.

The taking and delivering guide frame B120 is also assembled with a taking and delivering rack B520, the taking and delivering rack B520 is meshed with a taking and delivering gear B510 to form a gear-rack transmission mechanism, the taking and delivering gear B510 is sleeved on a taking and delivering middle shaft B210, and the taking and delivering middle shaft B210 is arranged in a taking and delivering seat B110 and can be assembled with the taking and delivering seat B110 in a circumferential rotation mode and cannot move axially; the taking and delivering middle shaft B210 is connected with a side moving motor shaft B321 through a second taking and delivering belt B430 to form a belt transmission mechanism, the side moving motor shaft B321 is arranged in the side moving motor B320, the side moving motor B320 can drive the side moving motor shaft B321 to rotate circumferentially after being started, so that a taking and delivering gear B510 is driven to rotate circumferentially, and the taking and delivering gear B510 drives the taking and delivering rack B520 and the taking and delivering guide frame B120 to move along the taking and delivering guide groove B112, so that the side moving of the taking and delivering conveyor belt B410 is realized. Preferably, there are two of the fetching and delivering intermediate shafts B210, and the two fetching and delivering intermediate shafts B210 are connected through a third fetching and delivering belt B440 to form a belt transmission mechanism.

A lifting gear B740 is sleeved outside the lifting screw cylinder B260, the lifting gear B740 is meshed with a lifting rack B730 to form a gear-rack transmission mechanism, the lifting rack B730 is arranged on a rack rod B720, the lifting rack B730 or the rack rod B720 is arranged on a rack push plate B710, the rack push plate B710 is sleeved on a rack screw B240 and is screwed and assembled with the rack screw B240 through threads, the rack screw B240 is respectively assembled with two screw shaft plates B142 in a circumferential rotation and non-axial movement manner, the two screw shaft plates B142 are respectively arranged on a second taking and sending plate B140, one end of the rack screw B240 is fixedly connected with an output shaft of a screw motor B340 through a coupler, the screw motor B340 can drive the rack screw B240 to circumferentially rotate after being started, so as to drive the rack push plate B710 to axially move along the rack screw B240, namely to drive the lifting rack B730 to synchronously move, and the lifting rack B730 drives the lifting screw cylinder B260 to circumferentially rotate through the lifting gear B740, thereby driving the first pick-and-place plate B130 to ascend and descend.

The second fetching and delivering plate B140 is further assembled and fixed with a second fetching and delivering shaft plate B141, the second fetching and delivering shaft plate B141 and a second driving pulley shaft B230 can be assembled in a circumferential rotating mode, a second fetching and delivering roller B412 is sleeved on the second driving pulley shaft B230, the second fetching and delivering roller B412 and a fetching and delivering conveyor belt B410 form a belt transmission mechanism, a fetching and delivering spring groove B1411 is formed in the second fetching and delivering shaft plate B141, the fetching and delivering spring groove B1411 is clamped with a fetching and delivering sliding rod B620 and can be assembled in a sliding mode, one end of the fetching and delivering sliding rod B620 and a universal wheel carrier B610 can be assembled in a circumferential rotating mode, a fetching and delivering abdicating groove B621 is formed in the other end of the fetching and delivering shaft plate B141, the fetching and delivering abdicating groove B621 passes through a second fetching and delivering shaft plate B141, the fetching and delivering abdicating groove B621 and can be assembled in a sliding mode. The universal wheel frame B610 is sleeved with a roller B530 in a manner of being capable of rotating circularly through a wheel shaft B531, a roller spring B640 is installed between one end of the taking and delivering sliding rod B620, which is installed in the taking and delivering spring groove B1411, and the closed end of the taking and delivering spring groove B1411, and the roller spring B640 is used for applying elastic force for preventing the taking and delivering sliding rod B620 from moving upwards.

Preferably, the first shifting piece B311 and the second shifting piece switch B312 are respectively installed on two sides of the taking and delivering guide frame B120 of the taking and delivering seat B110, when the taking and delivering guide frame B120 moves, the first shifting piece B311 and the second shifting piece switch B312 can be respectively triggered, when the first shifting piece B311 and the second shifting piece switch B312 are triggered, a signal is sent to an industrial personal computer, the industrial personal computer judges that the taking and delivering guide frame B120 moves to a maximum displacement point, and then the lateral movement motor is controlled to stop operating.

In the initial state, the second pick-up plate B140 is located right above the pick-up base B110. When the storage frame 900 needs to be taken out, the lifting motor B310 is started, so that the taking and sending module B is driven to move up and down to the corresponding storage frame 900; the lateral movement motor B320 is started, so that the taking and delivering gear B510 is driven to rotate circularly, the taking and delivering gear B510 drives the taking and delivering guide frame B120 to move towards the storage frame 900 through the taking and delivering rack B520, so that the roller B530 is tightly pressed with the storage bottom plate B141 to support the taking and delivering conveyor belt B410, and the existing height difference is adjusted through the roller spring B640. When the second toggle switch is triggered, the screw motor B340 is then started, and the screw motor B340 drives the first fetching and conveying plate B130 to move upwards, so that the fetching and conveying conveyor belt B410 jacks up the storage frame 900; the fetching motor B330 is started, and the driving motor rotates forward to drive the fetching conveyer belt B410 to operate so as to convey the storage frame 900 to the designated position on the fetching conveyer belt B410. And reversing the lateral movement motor to reset the taking and conveying conveyor belt B410, starting the lifting motor to convey the storage frame 900 to the output module C, and outputting the storage frame by the output module C. The operation process from the input of the storage frame to the storage unit from the output module C and the above-mentioned process direction are only required.

The output module C comprises two output vertical plates C110, an output tensioning frame C120 and an output axle plate C130, the output vertical plates C110, the output tensioning frame C120 and the output axle plate C130 are respectively arranged on the bottom plate 110, a conveying side shifting plate C171 is arranged between the two output vertical plates C110, the conveying side shifting plate C171 is arranged on a conveying lapping plate C170, the conveying side shifting plate C171 is respectively sleeved on a conveying guide shaft C210 and a conveying screw C290, the conveying guide shaft C210 is respectively assembled with the two output vertical plates C110 and can be axially assembled with the conveying side shifting plate C171 in a sliding manner, the conveying screw C290 is respectively assembled with the two output vertical plates C110 in a circumferential rotating and non-axial moving manner and is assembled with the conveying side shifting plate C171 through screw threads in a rotating and combining manner, one end of the conveying screw C290 penetrates through one output vertical plate C110 and then is connected with the conveying shaft C280 through a conveying belt C320 to form a belt transmission mechanism, the conveying power shaft C280 penetrates through a first conveying shaft plate C171 and a second conveying shaft plate C172 and can be assembled in a circumferential rotating mode, the first conveying shaft plate C171 and the second conveying shaft plate C172 are respectively installed on the base plate 110, a conveying gear C510 is sleeved on the conveying power shaft C280, the conveying gear C510 is meshed with a conveying rack C520 to form a rack-and-pinion transmission mechanism, the conveying rack C520 is installed on the conveying lifting plate C160, the conveying lifting plate C160 is assembled with one end of a first conveying lifting shaft C270, the other end of the first conveying lifting shaft C270 is installed in a first conveying lifting cylinder C260 and can be assembled in an axial sliding mode, a lifting shaft groove C271 is formed in the first conveying lifting shaft C270 in the axial direction, a conveying pin C810 penetrates through the first conveying lifting cylinder C260 and then is installed in the lifting shaft groove C271, a hollow first conveying lifting hole C261 is formed in the first conveying lifting cylinder C260, a first conveying spring C820 is installed on a portion of the first conveying lifting hole C261 between the first conveying lifting shaft C270 and the base plate 110, and the first conveying spring C820 is used to apply an elastic force of pushing the first conveying lifting shaft C270 toward the conveying lifting plate C160.

The conveying lapping plate C170 is further assembled with a movable frame C140, a movable shaft plate C141 is arranged on the movable frame C140, the movable shaft plate C141 and an output wheel shaft plate C130 are respectively assembled with different first output wheel shafts C241 in a circumferential rotation manner, a first output wheel shaft C311 is sleeved on the first output wheel shaft C241, two first output rollers C311 are connected through an output conveyer belt C310 to form a belt transmission mechanism, the output conveyer belt C310 further winds a conveying tension pulley C312, the conveying tension pulley C312 is sleeved on a second output wheel shaft C242 in a circumferential rotation manner, the second output wheel shaft C242 is installed on the output tension frame C150 and is assembled with one end of a tension guide shaft C230 without the output tension frame C150, the other end of the tension guide shaft C230 is installed in a tension inner cylinder C221 and is assembled and fixed with a tension slip ring C231, the tension inner cylinder C221 is arranged in a tension cylinder C220, the cylinder C220 is installed on the output tension frame C120, the top of the tensioning inner cylinder C221 is provided with a tensioning limiting ring C222, a part of the tensioning guide shaft C230 located between the tensioning limiting ring C222 and the tensioning slip ring C231 is sleeved with an output tensioning spring C610, and the output tensioning spring C610 is used for applying a downward pressing elastic force to the tensioning slip ring C231 so that the conveying tensioning wheel C312 always tensions the output conveying belt C310.

After the fetching and delivering module B fetches out the storage frame 900 and moves down to the storage frame, the storage frame can be tightly pressed with the conveying lifting plate C160 so as to drive the conveying lifting plate C160 to move down against the elastic force of the first conveying spring C820, the conveying lifting plate C160 moves down to drive the conveying rack C520 to move down so as to drive the conveying gear C510 to rotate circumferentially, the conveying gear C510 drives the conveying power shaft C280 to rotate circumferentially, the conveying power shaft C280 drives the conveying screw C290 to rotate circumferentially through the conveying belt C320, and the conveying screw C290 can drive the conveying lapping plate C170 to move towards the fetching and delivering conveyer belt B410 along the axial direction when rotating circumferentially, so that the conveying lapping plate C170 is close to the fetching and delivering conveyer belt B410. Then, the pick-up conveyor B410 is started, so that the storage frames on the pick-up conveyor B410 are output to the conveying lap plate C170, and finally output from the conveying conveyor C310. When the storage frame needs to be input from the conveying module C to the fetching and sending module B, the reverse operation is only needed according to the procedures.

The details of the present invention are well known to those skilled in the art.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (6)

1. An output module, characterized by: the conveying device comprises two output vertical plates, an output tensioning frame and an output wheel shaft plate, wherein the output vertical plates, the output tensioning frame and the output wheel shaft plate are respectively arranged on a bottom plate, a conveying side shifting plate is arranged between the two output vertical plates, the conveying side shifting plate is arranged on a conveying lap plate, the conveying side shifting plate is respectively sleeved on a conveying guide shaft and a conveying screw rod, the conveying guide shaft is respectively assembled with the two output vertical plates and can be axially and slidably assembled with the conveying side shifting plate, the conveying screw rod is respectively assembled with the two output vertical plates in a circumferentially rotating and non-axially movable manner and is screwed with the conveying side shifting plate through threads, the conveying screw rod is driven to rotate through a conveying power shaft, the conveying power shaft penetrates through a first conveying shaft plate and a second conveying shaft plate and can be circumferentially rotatably assembled, the first conveying shaft plate and the second conveying shaft plate are respectively arranged on the bottom plate, and a conveying gear is sleeved on the conveying power shaft, the conveying gear is meshed with the conveying rack to form a gear rack transmission mechanism, and the conveying rack is arranged on the conveying lifting plate;

the conveying lap joint plate is further assembled with the movable frame, a movable shaft plate is arranged on the movable frame, the movable shaft plate and the output wheel shaft plate are respectively assembled with different first output wheel shafts in a circumferential rotating mode, a first output belt wheel is sleeved on the first output wheel shaft, and the two first output rollers are connected through an output conveying belt and form a belt transmission mechanism.

2. The output module of claim 1, wherein: one end of the conveying screw rod penetrates through one of the output vertical plates and is connected with a conveying power shaft through a conveying belt to form a belt transmission mechanism.

3. The output module of claim 1, wherein: the conveying lifting plate is assembled with one end of a first conveying lifting shaft, the other end of the first conveying lifting shaft is arranged in a first conveying lifting cylinder and assembled with the first conveying lifting cylinder in an axial sliding mode, a lifting shaft groove is formed in the first conveying lifting shaft in the axial direction of the first conveying lifting shaft, and a conveying pin penetrates through the first conveying lifting cylinder and then is arranged in the lifting shaft groove.

4. The output module of claim 3, wherein: the first conveying lifting cylinder is internally provided with a hollow first conveying lifting hole, a first conveying spring is arranged on the part, located between the first conveying lifting shaft and the bottom plate, of the first conveying lifting hole, and the first conveying spring is used for applying elastic force to the first conveying lifting shaft to push the conveying lifting plate.

5. The output module of claim 1, wherein: the output conveying belt is wound around a conveying tensioning wheel, the conveying tensioning wheel is sleeved on a second output wheel shaft in a circumferential rotating mode, the second output wheel shaft is installed on an output tensioning frame and is not assembled with one end of a tensioning guide shaft, the other end of the tensioning guide shaft is installed in a tensioning inner cylinder and is fixedly assembled with a tensioning sliding ring, the tensioning inner cylinder is arranged in the tensioning cylinder, the tensioning cylinder is installed on the output tensioning frame, a tensioning limiting ring is installed at the top of the tensioning inner cylinder, an output tensioning spring is sleeved on a portion, located between the tensioning limiting ring and the tensioning sliding ring, of the tensioning guide shaft, and the output tensioning spring is used for applying downward pressing elasticity to the tensioning sliding ring to enable the conveying tensioning wheel to tension the output conveying belt all the time.

6. Tobacco shelves with toasting capabilities, characterized in that an output module according to any of claims 1-5 is applied.

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