CN109879078B

CN109879078B - Automatic loading equipment for bagged objects

Info

Publication number: CN109879078B
Application number: CN201910168278.2A
Authority: CN
Inventors: 郑永新; 叶可枢; 徐杰; 倪明; 陈迎军; 倪晓姗
Original assignee: Zhejiang Mingdu Intelligent Control Technology Co ltd
Current assignee: Hangzhou Mingdu Intelligent Manufacturing Co ltd
Priority date: 2019-01-25
Filing date: 2019-03-06
Publication date: 2021-02-02
Anticipated expiration: 2039-03-06
Also published as: CN209796921U; CN109879078A; CN109720893A; CN109720893B; CN209618281U; CN209721047U; CN209719366U

Abstract

The invention discloses automatic bagged object loading equipment which is used for conveying objects to be loaded to a loading machine head for releasing and loading and comprises a horizontal conveying mechanism, a buffer conveying mechanism, an inclined conveying mechanism and a conveying switching mechanism, wherein the horizontal conveying mechanism and the buffer conveying mechanism are connected through the conveying switching mechanism, the lower part of the conveying switching mechanism is connected with one end of the inclined conveying mechanism, the other end of the inclined conveying mechanism is connected with an external loading machine head, and the output end of the horizontal conveying mechanism can be used for switching an object conveying path between the buffer conveying mechanism and the inclined conveying mechanism through the conveying switching mechanism. The problem of among the prior art because the influence of transmission environment, goods can only remove article through the manual mode when the too big clearance of article quantity that needs of carrying on the conveyer belt when the goods is transmitted on the conveyer belt is solved.

Description

Automatic loading equipment for bagged objects

Technical Field

The invention relates to the technical field of automatic loading, in particular to automatic loading equipment for bagged objects.

Background

In the industries of engineering construction, chemical engineering, grain and the like, such as the product fields of cement, fertilizer, rice and the like, generally, after production and processing are finished, goods need to be packaged and finally transported by a vehicle. Most enterprises can adopt assembly line production at present, and carry out stacking and loading through conveying belts and other semi-automatic or automatic machines. The existing loading equipment generally comprises a transmission belt and a loading machine head, wherein goods are conveyed to the loading machine head by the transmission belt to be loaded or stacked, but due to the influence of a transmission environment, the goods are often damaged or not in accordance with loading requirements due to reasons such as extrusion, scratch and the like when being conveyed on the transmission belt, and at the moment, corresponding goods which are not in accordance with the loading requirements can only be taken out manually. Or sometimes, the rear-end loading equipment cannot process the articles in time to cause the blocking risk just because the number of the articles conveyed on the conveying belt is too large, and at the moment, the excessive articles on the conveying belt can be extracted only in a manual mode. In some prior art, the amount of articles flowing into a rear end truck or other terminal equipment is reduced by installing a blocking mechanism on the conveyor belt, but the blocking mechanism merely blocks the articles on the conveyor belt, and excessive article retention in front of the blocking mechanism would still result in a greater risk of article crushing.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides automatic loading equipment for bagged materials, which comprises a conveying device, a walking lifting device and a loading machine head; the conveying device comprises a horizontal conveying mechanism, a buffer conveying mechanism, an inclined conveying mechanism and a conveying switching mechanism, wherein the horizontal conveying mechanism is connected with the buffer conveying mechanism through the conveying switching mechanism, the lower part of the conveying switching mechanism is connected with one end of the inclined conveying mechanism, the other end of the inclined conveying mechanism is connected with an external loading machine head, and the output end of the horizontal conveying mechanism can perform article conveying path switching between the buffer conveying mechanism and the inclined conveying mechanism through the conveying switching mechanism; the goods input port of the loading machine head is connected with the inclined conveying mechanism, and the upper end of the loading machine head is connected with the walking lifting device and can move and lift under the traction of the walking lifting device.

Preferably, the conveying switching mechanism comprises an installation frame and a switching structure, the two ends of the installation frame are respectively connected with the horizontal conveying mechanism and the cache conveying mechanism, the lower portion of the installation frame is movably connected with the inclined conveying mechanism, the switching structure is arranged in the installation frame and can rotate relative to the installation frame, the switching structure comprises a transmission support and a rolling body arranged on the transmission support, and the transmission support is connected with the installation frame through a rotating shaft and can rotate around the rotating shaft relative to the installation frame.

Preferably, the automatic loading equipment for the bagged materials further comprises a lifting mechanism arranged on the buffer conveying mechanism and an auxiliary connecting piece consisting of a plurality of rigid pieces which are rotatably connected; the inclined conveying mechanism is provided with a connecting frame, a movable traction piece of the lifting mechanism and the connecting frame, and the inclined conveying mechanism can change the inclination angle under the traction of the lifting mechanism; and two ends of the auxiliary connecting piece are respectively movably connected with the inclined conveying mechanism and the buffer conveying mechanism.

Preferably, the buffer conveying mechanism comprises a buffer conveying support capable of moving and walking, and a buffer conveying channel which is arranged on the buffer conveying support and is composed of a rotatable conveying belt or a rotatable conveying roller.

Preferably, the car loader head is provided with a multi-layer throwing frame, a movable throwing device is arranged in the throwing frame, and the throwing device can move and throw the articles placed on the throwing device to a specific position.

Preferably, the conveying device further comprises a handpiece conveying mechanism and a conveying switching mechanism, wherein: the machine head transmission mechanism is provided with a plurality of layers of transmission channels corresponding to the delivery frames of the car loader head; and one end of the conveying switching mechanism is in switchable connection with the multilayer transmission channel of the machine head transmission mechanism, and the other end of the conveying switching mechanism is connected with the inclined transmission mechanism.

Preferably, each layer of the conveying channel of the machine head conveying mechanism comprises a first conveying part, a second conveying part and a third conveying part; one end of the first conveying part is connected with the article input port of the corresponding throwing frame, and the other end of the first conveying part is connected with the second conveying part; one end of the third conveying part is connected with the second conveying part, and the other end of the third conveying part can be connected with the conveying switching mechanism; the second conveying part is of a telescopic structure, and the length of the second conveying part can be changed along with the change of the distance between the first conveying part and the third conveying part which are connected at two ends.

Preferably, the second conveying part comprises a telescopic support and a transmission part, two ends of the telescopic support are respectively connected with the first conveying part and the third conveying part, and the transmission part comprises a rolling body which is installed on the telescopic support and can rotate under the driving of self-power or external power.

Preferably, the automatic loading equipment for bagged materials further comprises an inclined conveying frame, the conveying switching mechanism comprises a conveying structure and a switching structure, the conveying structure is used for moving the articles placed on the surface of the conveying structure, and one end of the conveying structure is movably connected with the inclined conveying frame; the switching structure is connected with the transmission structure, and the other end of the transmission structure can be switched to be connected with the multilayer transmission channel under the lifting of the switching mechanism.

Preferably, the machine head transmission mechanism comprises a machine head transmission frame, the end part of the machine head transmission frame is connected with the inclined transmission frame, and a plurality of third conveying parts of the multilayer transmission channel are sequentially arranged up and down in the machine head transmission frame.

The automatic loading equipment for the bagged materials, provided by the invention, is characterized in that a buffer conveying mechanism is independently arranged outside an inclined conveying mechanism and a horizontal conveying mechanism, the buffer conveying mechanism is matched with a conveying switching mechanism, and the conveying paths of the materials can be switched among a plurality of conveying path channels from the horizontal conveying mechanism to the inclined conveying mechanism, from the horizontal conveying mechanism to the buffer conveying mechanism and from the buffer conveying mechanism to the inclined conveying mechanism through the position switching of the conveying switching mechanism, when the unqualified materials needing to be removed from a conveying queue are found or the quantity of the conveyed materials in the conveying queue needs to be reduced due to too many conveyed materials, the horizontal conveying mechanism can be communicated to the buffer conveying mechanism channel, the materials needing to be temporarily removed from the conveying queue can be conveyed to the buffer conveying mechanism for temporary storage, and when the quantity of the materials conveyed to a loading machine head at the tail end is too small, the buffer conveying mechanism can be communicated, the buffer conveying mechanism rotates reversely, so that the articles placed in the buffer conveying mechanism can be conveyed back to the inclined conveying mechanism to be supplemented into the article conveying queue. The problem of among the prior art because the influence of transmission environment, goods when transporting on the conveyer belt because of taking place the damage or other not conform to the circumstances of loading requirement that cause such as extrusion or cut and rub or only because the article quantity of transporting on the conveyer belt is too big need clear up the article only can be removed and reduced the article through the manual mode is solved. Meanwhile, the risk of article extrusion and damage caused by excessive article retention in front of the blocking mechanism due to the fact that the amount of articles flowing into rear-end loading equipment or other terminal equipment is reduced only by installing the blocking mechanism on the conveying belt in the prior art is avoided.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a schematic structural view of an automatic loading device for bagged materials according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a conveying conversion mechanism according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a conversion structure according to an embodiment of the disclosure.

Fig. 4 is a schematic structural diagram of a buffer conveying mechanism according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of a switching state of the conveying switching mechanism according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a lifting mechanism according to an embodiment of the disclosure.

Fig. 7 is a schematic structural diagram of a loading system according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of a loader head according to an embodiment of the present invention.

Fig. 9 is a schematic structural view of an automatic loading apparatus for bagged materials according to another embodiment of the present invention.

Fig. 10 is a partial structural schematic diagram of a loading device according to an embodiment of the disclosure.

Fig. 11 is a schematic structural diagram of a handpiece transport mechanism according to an embodiment of the present invention.

Fig. 12 is a schematic structural view of a second conveying unit according to an embodiment of the present invention.

Fig. 13 is a schematic structural diagram of an oblique transmission mechanism according to an embodiment of the disclosure.

Fig. 14 is a schematic structural view of a loader head according to an embodiment of the present invention.

Fig. 15 is a schematic structural diagram of a dispensing device disclosed in the embodiment of the present invention.

Fig. 16 is a structural schematic diagram of a bottom plate of the dispensing device in an open state according to the embodiment of the present invention.

Fig. 17 is another schematic structural diagram of the dispensing device disclosed in the embodiment of the present invention.

Fig. 18-21 are schematic views of the bottom plate of the dispensing device in a partially opened state according to the embodiment of the present invention.

Fig. 22 and 23 are schematic structural views of another bag placing device disclosed in the embodiment of the invention.

Fig. 24 is an exploded view of the retainer mechanism according to the embodiment of the present invention.

Fig. 25 is a schematic view of the open state of the baffle of the bag blocking mechanism according to the embodiment of the present invention.

Fig. 26 is a schematic structural diagram of a moving element disclosed in the embodiment of the present invention.

Fig. 27 is a schematic structural diagram of a second component disclosed in an embodiment of the invention.

Fig. 28 is a schematic structural diagram of a conveying mechanism disclosed in the embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention without any inventive step, are within the scope of protection of the invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and claims of the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one.

Fig. 1 is a schematic structural diagram of an automatic loading device for bagged materials, which is disclosed in this embodiment, and can be used to transport packaged materials such as cement, fertilizer, rice and the like to a loading and stacking device such as a rear loading machine head or any other material handling device, and specifically includes a transport device, a traveling and lifting device 9 and a loading machine head 2, wherein the transport device includes a horizontal transport mechanism 6, a buffer transport mechanism 7, an inclined transport mechanism 5 and a transport conversion mechanism 8, wherein the horizontal transport mechanism 6 and the buffer transport mechanism 7 are connected through the transport conversion mechanism, the lower portion of the transport conversion mechanism 8 is connected with one end of the inclined transport mechanism 5, the other end of the inclined transport mechanism 5 is connected with an external loading machine head 2, and the output end of the horizontal transport mechanism 6 can perform a material transport path cut between the buffer transport mechanism 7 and the inclined transport mechanism 5 through the transport conversion mechanism 8 And the goods input port of the loader head 2 is connected with the inclined conveying mechanism 5, and the upper end of the loader head 2 is connected with the walking lifting device 9 and can move and lift under the traction of the walking lifting device. The buffer conveying mechanism, the inclined conveying mechanism and the horizontal conveying mechanism can adopt various conveying modes such as a conveying belt conveying mode and a conveying roller way conveying mode. The buffer conveying mechanism is matched with the conveying switching mechanism, and the position of the conveying switching mechanism is switched, so that the conveying path of the article can be switched among a plurality of conveying path channels from the horizontal conveying mechanism to the inclined conveying mechanism, from the horizontal conveying mechanism to the buffer conveying mechanism and from the buffer conveying mechanism to the inclined conveying mechanism, when the unqualified articles in the conveying queue are required to be removed or the quantity of the articles in the conveying queue is required to be reduced due to too many conveyed articles, the horizontal conveying mechanism can be communicated to the buffer conveying mechanism channel, the articles which are required to be temporarily removed from the conveying queue are conveyed to the buffer conveying mechanism for carrying out, and when the quantity of the articles conveyed to the tail end temporary storage vehicle loading machine head is too small, the buffer conveying mechanism can be communicated to the inclined conveying mechanism channel, the buffer conveying mechanism rotates reversely, so that the articles placed in the buffer conveying mechanism can be conveyed back to the inclined conveying mechanism to be supplemented into the article conveying queue. The problem of among the prior art because the influence of transmission environment, goods when transporting on the conveyer belt because of taking place the damage or other not conform to the circumstances of loading requirement that cause such as extrusion or cut and rub or only because the article quantity of transporting on the conveyer belt is too big need clear up the article only can be removed and reduced the article through the manual mode is solved. Meanwhile, the risk of article extrusion and damage caused by excessive article retention in front of the blocking mechanism due to the fact that the amount of articles flowing into rear-end loading equipment or other terminal equipment is reduced only by installing the blocking mechanism on the conveying belt in the prior art is avoided.

In some embodiments, as shown in fig. 2, the transportation switching mechanism 8 includes a mounting frame 81 and a switching structure 82, the mounting frame 81 is connected to the horizontal transportation mechanism 6 and the buffer transportation mechanism 7 at two ends, the lower portion of the mounting frame 81 is movably connected to the inclined transportation mechanism 5, and the switching structure 82 is disposed in the mounting frame 81 and can rotate relative to the mounting frame 81. Specifically, wherein the mounting bracket can be by the connecting elements that two of the left and right sides comprise fixed connection's transverse connection spare and vertical connecting piece, the transverse connection spare both ends respectively with horizontal conveying mechanism and buffer conveying mechanism fixed connection, vertical connecting piece lower extreme is articulated with slope conveying mechanism, make the relative mounting bracket of slope conveying mechanism rotate, constituted the switching space that supplies transform structure 82 activity between the connecting elements of the left and right sides, the connecting elements inboard can with the transform structure 82 swing joint in the mounting bracket, make transform structure 82 can be at the switching space internal rotation. As shown in fig. 4 and 5, fig. 4 is a state diagram of the switching structure 82 switching to the state of communicating the horizontal conveying mechanism and the buffer conveying mechanism, and fig. 5 is a state diagram of the switching structure 82 switching to the state of communicating the horizontal conveying mechanism and the inclined conveying mechanism, the switching of the conveying paths of the articles among several conveying path channels from the horizontal conveying mechanism to the inclined conveying mechanism, from the horizontal conveying mechanism to the buffer conveying mechanism, and from the buffer conveying mechanism to the inclined conveying mechanism is completed through the change of the rotation position of the switching structure.

Specifically, as shown in fig. 3, the switching structure 82 includes a transmission bracket 821, a rolling body 8211 mounted on the transmission bracket 821, and a switching rotation shaft 8212, and the transmission bracket 821 is connected to the mounting bracket 81 through the switching rotation shaft 8212 and can rotate around the rotation shaft relative to the mounting bracket. Preferably, the rolling body 8211 can be a roller transversely arranged on the conveying bracket or a roller capable of rotating under self-powered driving. The rolling bodies are used as transmission parts, so that the upper surface and the lower surface of the conversion structure can play a role in helping articles to move, and the conversion structure can ensure that the articles can smoothly move at each position. Fig. 4 is a diagram illustrating a state in which the switching structure 82 is switched to a state in which the horizontal conveyance mechanism and the buffer conveyance mechanism are communicated, wherein when the transfer bracket 821 is connected to the buffer conveyance mechanism 7 and the horizontal conveyance mechanism 6, the upper ends of the rolling bodies are substantially at the same height as the upper conveyance plane connecting the buffer conveyance mechanism 7 and the horizontal conveyance mechanism 6, so that the conveyed article can smoothly move from the horizontal conveyance mechanism to the buffer conveyance mechanism through the switching structure.

As shown in fig. 6, the conveying device further includes a lifting mechanism 71 installed on the buffer conveying mechanism 7, the inclined conveying mechanism 5 is provided with a connecting frame 52, a movable traction member of the lifting mechanism 71 is connected with the connecting frame 52, and the inclined conveying mechanism 5 can change the inclination angle under the traction of the lifting mechanism 71. The hoisting mechanism 71 can be a winch, a traction rope of the winch is connected with the connecting frame 52, the connecting frame 52 can be directly connected with the inclined conveying frame of the inclined conveying mechanism and used for lifting the inclined conveying mechanism through the winch, and therefore the inclined conveying mechanism and the car loader head connected with the inclined conveying mechanism are matched to lift and descend under the driving of the walking lifting device of the car loader head, the inclined conveying mechanism and the car loader head can lift and descend synchronously, and smooth conveying of objects is guaranteed.

In some other embodiments, the delivery device may further comprise an auxiliary link 53 formed by multiple rigid pieces rotatably connected, wherein both ends of the auxiliary link 53 are movably connected with the inclined delivery mechanism 5 and the buffer delivery mechanism 7 respectively. Specifically, this auxiliary connection piece 53 can select many rectangular shape connecting pieces, rotatable connection constitutes a whole together between the rectangular shape connecting piece, head end and end respectively with buffer conveying mechanism and the rotatable connection of slope conveying mechanism, the axis of rotation of every rotatable coupling joint all is parallel to each other for the slope conveying mechanism can rotate from top to bottom only and can not the side to side movement, has avoided the slope conveying mechanism to produce when lifting or descending under hoist mechanism's drive and has rocked about, influences the transmission of article and the stability that each mechanism connects.

As shown in fig. 4, the buffer conveying mechanism 7 of the conveying device may include a buffer conveying support 72 which can move, and a buffer conveying channel 73 which is mounted on the buffer conveying support 72 and is composed of a rotatable conveying belt or conveying roller. The buffer conveying channel 73 can be a conveying belt mechanism or a conveying roller way which can rotate forward and backward. The lower part of the buffer conveying support 72 can be provided with a roller with a power device for following the movement of the front walking lifting device.

Fig. 7 is a schematic view of another automatic loading device for bagged materials, which may adopt the conveying device for vehicle loading described in the foregoing embodiments, and further includes a traveling lifting device 9 and a loader head 2, wherein the goods input port 211 of the loader head 2 is connected to the inclined conveying mechanism 5 in the conveying device, and the upper end of the loader head 2 is connected to the traveling lifting device 9 and can move and lift under the traction of the traveling lifting device 9. By independently arranging a buffer conveying mechanism, matching the buffer conveying mechanism with the conveying switching mechanism and switching the position of the conveying switching mechanism, can switch the conveying path of the article among a plurality of conveying path channels from the horizontal conveying mechanism to the inclined conveying mechanism, from the horizontal conveying mechanism to the buffer conveying mechanism and from the buffer conveying mechanism to the inclined conveying mechanism, when it is found that defective articles need to be rejected from the conveying queue or that conveying too many articles requires a reduction in the number of articles in the conveying queue, can communicate the horizontal conveying mechanism to the passage of the buffer conveying mechanism, and convey the articles which need to be temporarily removed from the conveying queue to the buffer conveying mechanism for temporary storage, when the articles conveyed to the tail end loading machine head are too few, the buffer conveying mechanism can be communicated to a channel of the inclined conveying mechanism, and the buffer conveying mechanism rotates reversely, so that the articles placed in the buffer conveying mechanism can be conveyed back to the inclined conveying mechanism and then are supplemented into the article conveying queue. The problem of among the prior art because the influence of transmission environment, goods when transporting on the conveyer belt because of taking place the damage or other not conform to the circumstances of loading requirement that cause such as extrusion or cut and rub or only because the article quantity of transporting on the conveyer belt is too big need clear up the article only can be removed and reduced the article through the manual mode is solved. Meanwhile, the risk of article extrusion and damage caused by excessive article retention in front of the blocking mechanism due to the fact that the amount of articles flowing into the rear loading machine head is reduced only by installing the blocking mechanism on the conveying belt in the prior art is avoided.

As shown in fig. 8, the car loader head 2 may further include four dropping

frames

21a, 21b, 21c, and 21d and the dropping device 1 disposed in the dropping frames, the dropping device 1 may move laterally on the dropping frame 21 to drop the articles sent by the conveying device to a specific position, and the four dropping frames 21 are connected in a matrix shape. Through the cooperation function that is located 4 throwing devices of 4 throwing in frames, the improvement article that can the maximize are thrown in and are loaded loading efficiency.

Fig. 9 is a schematic view of another automatic loading device for bagged materials disclosed in this embodiment, which is capable of being used for full-automatic conveying and loading of bagged material objects such as cement, fertilizer, rice, and the like or other objects, and specifically includes a loader head 2, a head transmission mechanism 3, a conveying switching mechanism 4, and an inclined transmission mechanism 5, as shown in fig. 10, for convenience of description, the loader head 2 hides an outer casing of the loader head, the loader head 2 has a multi-layer putting frame 21, a movable putting device 1 is arranged in the putting frame, and the putting device 1 can move and put the objects placed thereon to a specific position. The machine head transmission mechanism 3 is provided with a multi-layer transmission channel corresponding to the putting frame 21 of the car loader head 2. The conveying switching mechanism 4 is connected with the multi-layer conveying channel 31 of the handpiece conveying mechanism 3 in a switching mode. The two ends of the inclined transmission mechanism 5 are respectively connected with the article external transmission device and the conveying switching mechanism 4, and the inclined transmission mechanism is used for conveying the articles on the external transmission device to the conveying switching mechanism 4. The truck loading machine head formed by the upper and lower layers of the putting frames with the putting devices arranged on each layer and the multilayer conveying mechanism matched with the multilayer putting frames are adopted, so that the articles conveyed by each conveying mechanism can be quickly distributed to the putting devices positioned on the putting frames on each layer for putting. The problem of at present the device of puting in the domestic car loader aircraft nose often only be equipped with the one deck and put in the frame, conveyor or subpackage the mechanism and can only push the article of waiting to put in to the device of puting in that is located this only intraformational and put in, article put in inefficiency is solved.

In some embodiments, as shown in fig. 11, each layer of the conveying channel of the handpiece conveying mechanism 3 includes a first conveying part 31, a second conveying part 32 and a third conveying part 33; one end of the first conveying part 31 is connected with the article input port 211 of the corresponding throwing frame 21, and the other end is connected with the second conveying part 32; the third conveyance unit 33 has one end connected to the second conveyance unit 32 and the other end connectable to the conveyance switching mechanism 4; the second conveying part 32 is a telescopic structure, and the length of the second conveying part can be changed along with the change of the distance between the first conveying part 31 and the third conveying part 33 which are connected at two ends. In this embodiment, since the loader head 2 employs the upper and lower two-stage drop frames, the corresponding first conveying portion 31 and second conveying portion 32 are also of a two-stage structure. First conveying part one end and the article input port fixed connection of loading aircraft nose, and set up telescopic second conveying part between first conveying part and third conveying part, the distance change between conveyer such as aircraft nose transmission mechanism and the slope transmission mechanism at adaptation loading aircraft nose and rear portion that can be fine coordinates loading aircraft nose and conveyor's removal.

As shown in fig. 12, in some embodiments, the second conveying part 32 includes a telescopic bracket 321 and a transmission member 322, the telescopic bracket 321 is connected to the first conveying part 31 and the third conveying part 33 at two ends, respectively, and the transmission member 322 includes a rolling body which is mounted on the telescopic bracket 321 and can rotate under the driving of self-power or external power. In some embodiments, the retractable stand 321 includes a plurality of connecting members connected in an X shape on two sides of a transmission member, and the transmission member 322 is a transmission roller or a rolling body that can rotate under the driving of self-power. The connecting pieces are provided with three connecting holes, the middle part and the lower part of each connecting piece can be connected by a connecting shaft, and the upper parts of the two connecting pieces can be connected together by the same rolling body, so that the telescopic amplitude is ensured, and articles can freely move on the rolling body on the upper part of the second conveying part.

As shown in fig. 13, in some embodiments, the loading device of the multi-layer delivery apparatus further comprises an inclined transportation frame 51, the transportation switching mechanism 4 comprises a transportation structure 41 and a switching structure 42, the transportation structure 41 is used for moving the articles placed on the surface of the transportation structure, and one end of the transportation structure 41 is movably connected with the inclined transportation frame. The switching structure 42 is connected to the transmission structure 41, and the other end of the transmission structure can be switched to be connected to the multi-layer transmission channel by being lifted by the switching mechanism 42. The switching mechanism 42 may be a lifting winch fixed to the inclined transmission frame or the upper moving mechanism, and a steel wire rope of the lifting winch is connected to the transmission mechanism to lift or lower the transmission mechanism 41, so that the article output end of the transmission mechanism 41 can be switched between the third conveying parts of the transmission channels of each layer. Of course, the switching mechanism 42 may also be a hydraulic push rod mounted on the inclined conveying frame 51, and a piston end of the hydraulic push rod is connected to the conveying mechanism 41 for pushing the movable end of the conveying mechanism to lift up and down, so as to realize the switching connection with the third conveying parts of the conveying channels of each layer.

In some embodiments, the switching mechanism 42 may include a first support, a second support 422, and a lifting device, the first support is movably connected to the inclined conveying frame, one end of the second support is connected to the conveying mechanism, the lifting device is mounted on the first support, and a movable traction end of the lifting device is connected to the other end of the second support, so as to pull the conveying mechanism to rotate relative to the inclined conveying frame, thereby realizing the switching connection with the third conveying portion of each layer of conveying channel.

As shown in fig. 13, the handpiece conveying mechanism 3 includes a handpiece conveying frame 34, the end of the handpiece conveying frame 34 is connected with an inclined conveying frame 51, and a plurality of third conveying parts 33 of the multi-layer conveying channel are sequentially mounted in the handpiece conveying frame. In the embodiment shown in the attached drawings, the transmission channels are two layers, and two third conveying parts of the two layers of transmission channels are sequentially arranged in the handpiece transmission frame from top to bottom.

As shown in fig. 14, in this embodiment, the loader head 2 has a two-layer delivery frame 21, the head transmission mechanism 3 has a two-layer transmission channel corresponding to the loader head delivery frame 21, and the delivery switching mechanism 4 is switchably connected to the two-layer transmission channel of the head transmission mechanism 3. Wherein, be equipped with in putting in frame 21 and supply the guide rail 213 of putting in device lateral shifting, the article input port 211 of putting in frame 21 is located putting in the middle of the frame anterior portion, guarantees that the temperature that the putting in mechanism removed to both sides after obtaining the goods of waiting to put in is stable.

Fig. 15 is a schematic structural diagram of a feeding device disclosed in this embodiment, which can be used in the automatic loading device for bagged materials disclosed in the above embodiments, and is configured to transfer the bagged materials conveyed by a conveying belt to a predetermined position above a hopper of a vehicle to be loaded and to feed the bagged materials to a specific position, where the feeding device for a loader head can include a frame 11, a placing platform 12, and a conveying mechanism 13, where the frame 11 can move in the loader head; the placing platform 12 is composed of at least two groups of bottom plates which can rotate around the frame, and the front side, the rear side and the left side and the right side inside the frame 11 are respectively connected with at least one group of bottom plates; the conveying mechanism 13 is arranged on a part of the bottom plate and used for adjusting the position of the bagged objects on the placing platform. Through setting up the bottom plate that the multiunit can open, especially front and back both sides and left and right sides all are provided with the bottom plate that can open in the frame, make can select different bottom plate opening order according to the different gestures of the bagged object that gets into place the platform, can open the bottom plate that is located bagged object width direction earlier, then open the bottom plate of bagged object length direction and make its whereabouts, can prevent effectively that the bagged object from rotating along its length direction promptly axis of ordinates, the phenomenon that the whereabouts in-process inclusion that has often appeared when having overcome current input device that adopts left and right sides to arrange the bottom plate structure for the bagged object of perpendicular package state of puting in takes place the upset, the attitude stability of the package that falls is maintained, guaranteed going on smoothly of loading or pile up neatly.

In some preferred embodiments, as shown in fig. 16, the placement platform 12 of the bag dispenser may be composed of a first set of bottom plates 121 and a second set of bottom plates 122, wherein the first set of bottom plates 121 has two

bottom plates

121a, 121b rotatably connected to the front and rear sides of the interior of the frame; the second group of bottom plates 122 is provided with two

bottom plates

122a and 122b which are respectively rotatably connected with the left side and the right side in the frame, and the end parts of the first group of bottom plates 121 and the second group of bottom plates 122 are arranged in a staggered mode, so that the rest bottom plates can provide enough support for bagged objects when any group of bottom plates are opened in advance, and the bagged objects on the placing platform cannot fall down when any group of bottom plates are opened in advance.

The bottom plate of the feeding device is connected with the frame through the turning plate rotating shaft, the turning plate rotating shafts on the two sides are connected with the driving shaft through the gear box, and the driving motor is used for driving the bottom turning plate rotating shaft to rotate to open or close the group of bottom plates corresponding to the bottom turning plate rotating shaft through driving the driving shaft to rotate. The driving motor tip is equipped with the drive wheel, the drive wheel passes through the hold-in range and is connected and then accessible driving motor drives the drive shaft rotation with driving epaxial follow driving wheel for the bottom plate can open and close under the drive shaft drives, also can directly be connected through gear or speed reducer certainly, and the bottom plate opening speed is fast, makes the floor truck can the quick release cement bag of transport to specific release position, guarantees the accuracy of the whereabouts position of the cement bag of release, finally guarantees the accuracy and the controllable of the interior pile up neatly shape of carriage.

In some embodiments, as shown in fig. 17, the first set of bottom plates 121 are provided with side rectangular concave-convex edges 1211 on the left and right sides, and the second set of bottom plates 122 are provided with end rectangular concave-convex edges 1221 matched with the side rectangular concave-convex edges of the first set of bottom plates 121 at the ends, so as to ensure that the opening of the bottom plates does not damage the bag body of the bagged material and does not damage the bag shape of the bagged material. When the bag body entering the placing platform is a longitudinal bag, as shown in fig. 18 and 19, the second group of bottom plates can be opened first, so that the bagged objects are borne by the first group of bottom plates, and then the first group of bottom plates are opened to complete the placing of the vertical bag of bagged objects. When the bag body entering the placing platform is a transverse bag, as shown in fig. 20 and 21, the first group of bottom plates can be opened first, so that the bagged objects are borne by the second group of bottom plates, and then the second group of bottom plates are opened to finish the throwing of the transverse bagged objects.

As shown in fig. 18, the conveying mechanism 13 is a plurality of rolling bodies 131 disposed above the bottom plate and capable of rotating under the driving of self-power or external power, and the rolling bodies 131 are transversely arranged along the front-back direction in the placing platform 12. The bag can move on the rolling body under the rotation of the rolling body, thereby changing the position of the bag on the placing platform. Specifically, the rolling bodies 131 may be disposed in the protruding regions of the rectangular concave-convex edges of the first group bottom plate 121 and the second group bottom plate 122, so that the bagged materials can be supported sufficiently, and the rolling bodies disposed on the first group bottom plate and the second group bottom plate can satisfy the movement of the bagged materials in various postures, such as horizontal packaging and vertical packaging. In some embodiments, a bagged object baffle is further arranged on the frame behind the placing platform and is used for preventing the bagged object from moving out of the placing platform under the driving of the rolling bodies.

Fig. 22 shows another embodiment of a dispensing device, which comprises a carriage 11 movable within a loader head; the placing platform 12 is arranged in the frame, the placing platform 12 is provided with a bottom plate for placing and throwing articles, and the bottom plate is movably connected with the frame and can be switched between an opening state and a closing state; the bag blocking mechanism 14 is arranged above the vehicle frame 11 at the rear part of the placing platform 12, the bag blocking mechanism 14 is provided with a baffle structure 143 which can be switched between an opening state and a closing state, and the baffle structure can block the bagged objects on the placing platform from passing through the bag blocking mechanism 14 when being in the closing state. In other embodiments, the dispenser may further include side panels 16 disposed on opposite sides of the platform to prevent inadvertent removal of the bag from the dispenser. The bag blocking mechanism capable of being opened and closed is arranged at the rear part of the feeding device, so that bagged objects can be controlled to stay on the placing platform or leave the feeding device from the rear part of the placing platform, the feeding device can become an intermediate station for carrying the bagged objects and the like, the bagged objects and the like can be conveyed for the subsequent feeding device, and the feeding efficiency of the loading machine head is improved by the aid of the object transfer matching of a plurality of feeding devices. The problem of present delivery device in the loading aircraft nose can only directly acquire the article that need put in from transmission mechanism or subpackage mechanism, can only put in single article simultaneously, can't realize waiting of many delivery devices and put in the article transmission and carry for can't set up many delivery devices around the same layer of putting in and put in the article simultaneously, greatly limit the efficiency of putting in of loading aircraft nose. The placing platform in the embodiment can be composed of at least two groups of bottom plates which can rotate around the frame as described in the previous embodiment, and the front side, the rear side and the left side and the right side in the frame are respectively connected with the placing platform with at least one group of bottom plates; and various placing platforms adopting a structure with two openable bottom plates at left and right in the prior art can be selected.

As shown in fig. 23, the bag blocking mechanism 14 includes a blocking bracket 141, a driving structure 142, and a baffle structure 143, wherein the blocking bracket 141 is installed above the frame 11 at the rear portion of the placing platform 12, the driving structure 142 is connected to the baffle structure 143, the baffle structure 143 is located below the blocking bracket 141 and movably connected to the blocking bracket 141, and the baffle structure 143 is driven by the driving structure 142 to switch between an open state and a closed state. In some implementations, as shown in fig. 24, the blocking bracket 141 is provided with a first component 1411 and a second component 1412. The baffle structure 143 comprises a baffle frame, a baffle plate 1432, wherein the baffle frame is connected with the driving structure 142, and the baffle frame can move along the first part 1411 under the driving of the driving structure 142; the baffle 1432 is movably connected with the baffle frame, and the baffle 1432 can rotate relative to the baffle frame under the pushing of the second part 1412, so that the opening and the closing of the baffle are realized. In other embodiments, the driving structure may be a hydraulic push rod mounted on the blocking bracket, the baffle structure may be movably connected to the blocking bracket, the hydraulic push rod may directly push the baffle on the baffle structure to open and close to release the articles, or other electric or pneumatic door opening structures may be adopted.

In some embodiments, the first member 1411 is a track disposed inside the blocking bracket and the second member 1412 is a push rod coupled to the inside of the blocking bracket. The baffle holder comprises a baffle seat 1437 hinged with the baffle and moving

pieces

1433a and 1433b fixedly connected to two sides under the baffle seat, as shown in fig. 26, the moving

pieces

1433a and 1433b are provided with rollers 1434 capable of rolling in the track 1411. The driving structure 142 is a motor installed on the blocking bracket, a rack 1435 is arranged below the moving member 1433 on one side of the baffle seat, and the end of the electric rotating shaft is engaged with the rack 1435 through a gear 1436. Further, the blocking bracket 141 is further provided with a third part 1413 and a fourth part 1414, the first part 1411 is a rail arranged on the inner side of the third part 1413, and the third part 1413 is arranged on the fixing bracket fixedly connected with the frame on the two sides of the frame. The push rod is fixedly connected to the third member by a fourth member 1414. As shown in fig. 25, the upper end surface of the third member 1413 is higher than or equal to the upper end surface of the shutter seat 1437, so as to limit the moving range of the shutter seat 1437 and ensure reliable and stable opening and closing of the shutter.

As shown in fig. 27, the pushrod end 1412a is curved and is provided with a roller 1412b that rolls on the surface of the baffle plate at the pushrod end 1412 a. When the baffle seat drives the baffle to move, the lower surface of the baffle is slowly opened along the upper cambered surface of the end part of the push rod, so that the opening smoothness of the baffle is ensured, and meanwhile, the rolling piece 1412b can also reduce the assisting force of the baffle during opening.

In some embodiments, as shown in fig. 28, the dispenser may further include a transfer passage 15 disposed on the frame 11 behind the placing platform 12, and the transfer passage 15 may be used for transferring the bagged materials on the placing platform 12 to the outside of the dispenser. Further, the transfer passage 15 may be at least one rolling element 151 mounted on the rear frame of the bag stopper mechanism 14 and capable of rotating under the driving of self-power or external power. After passing through the opened flap mechanism, the bag can leave the dispensing device along the transfer passage 15 into other dispensing devices or other areas for later access for loading of articles. The throwing device can be an intermediate station for carrying bagged objects, and can convey the bagged objects for subsequent throwing devices, so that the throwing efficiency of the loading machine head is improved by the transmission and matching of the bagged objects of a plurality of throwing devices.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the claims of the present invention.

Claims

1. The utility model provides an automatic loading equipment of thing in bags which characterized in that: the device comprises a conveying device, a walking lifting device, a loading machine head and a throwing device;

the conveying device comprises a horizontal conveying mechanism, a buffer conveying mechanism, an inclined conveying mechanism and a conveying switching mechanism, wherein the horizontal conveying mechanism is connected with the buffer conveying mechanism through the conveying switching mechanism, the lower part of the conveying switching mechanism is connected with one end of the inclined conveying mechanism, the other end of the inclined conveying mechanism is connected with an external loading machine head, and the output end of the horizontal conveying mechanism can perform article conveying path switching between the buffer conveying mechanism and the inclined conveying mechanism through the conveying switching mechanism;

the goods input port of the loading machine head is connected with the inclined conveying mechanism, and the upper end of the loading machine head is connected with the walking lifting device and can move and lift under the traction of the walking lifting device;

the throwing device comprises a frame, a placing platform and a conveying mechanism, wherein the frame can move in a loading machine head, the placing platform consists of at least two groups of bottom plates which can rotate around the frame, and the front side, the rear side, the left side and the right side in the frame are respectively connected with at least one group of bottom plates; the end regions of the front and rear bottom plates and the left and right bottom plates are arranged in a staggered mode, and the conveying mechanism is arranged on part of the bottom plates and used for adjusting the position of bagged objects on the placing platform.

2. The automatic loading equipment of bagged materials according to claim 1, characterized in that: the conveying conversion mechanism comprises an installation frame and a conversion structure, wherein the two ends of the installation frame are respectively connected with a horizontal conveying mechanism and a cache conveying mechanism, the lower portion of the installation frame is movably connected with an inclined conveying mechanism, the conversion structure is arranged in the installation frame and can rotate relative to the installation frame, the conversion structure comprises a transmission support and a rolling body arranged on the transmission support, and the transmission support is connected with the installation frame through a rotating shaft and can rotate around the rotating shaft relative to the installation frame.

3. The automatic loading apparatus of bagged materials according to claim 2, wherein: the buffer conveying mechanism is arranged on the buffer conveying mechanism, and the buffer conveying mechanism comprises a lifting mechanism and an auxiliary connecting piece which is formed by a plurality of rigid pieces which are rotatably connected;

the inclined conveying mechanism is provided with a connecting frame, a movable traction piece of the lifting mechanism and the connecting frame, and the inclined conveying mechanism can change the inclination angle under the traction of the lifting mechanism;

and two ends of the auxiliary connecting piece are respectively movably connected with the inclined conveying mechanism and the buffer conveying mechanism.

4. The automatic loading apparatus of bagged materials according to claim 3, wherein: the buffer conveying mechanism comprises a buffer conveying support capable of moving and walking and a buffer conveying channel which is arranged on the buffer conveying support and is composed of a rotatable conveying belt or a conveying roller.

5. The automatic loading equipment of bagged materials, according to claim 4, wherein the conveying device further comprises a machine head conveying mechanism and a conveying switching mechanism, wherein:

the machine head transmission mechanism is provided with a plurality of layers of transmission channels corresponding to the delivery frames of the car loader head;

and one end of the conveying switching mechanism is in switchable connection with the multilayer transmission channel of the machine head transmission mechanism, and the other end of the conveying switching mechanism is connected with the inclined transmission mechanism.

6. The automatic loading equipment for bagged materials according to claim 5, wherein each layer of the conveying channel of the machine head conveying mechanism comprises a first conveying part, a second conveying part and a third conveying part;

one end of the first conveying part is connected with the article input port of the corresponding throwing frame, and the other end of the first conveying part is connected with the second conveying part;

one end of the third conveying part is connected with the second conveying part, and the other end of the third conveying part can be connected with the conveying switching mechanism;

the second conveying part is of a telescopic structure, and the length of the second conveying part can be changed along with the change of the distance between the first conveying part and the third conveying part which are connected at two ends.

7. The automatic loading apparatus of bagged materials according to claim 6, wherein:

the second conveying part comprises a telescopic support and a transmission part, two ends of the telescopic support are respectively connected with the first conveying part and the third conveying part, and the transmission part comprises a rolling body which is installed on the telescopic support and can rotate under the driving of self-powered power or external power.

8. The automatic loading equipment of bagged materials according to any one of claims 5 to 7, characterized in that: the conveying switching mechanism comprises a conveying structure and a switching structure, the conveying structure is used for moving the articles placed on the surface of the conveying structure, and one end of the conveying structure is movably connected with the inclined conveying frame;

the switching structure is connected with the transmission structure, and the other end of the transmission structure can be switched to be connected with the multilayer transmission channel under the lifting of the switching mechanism.

9. The automatic loading apparatus of bagged materials according to claim 8, wherein: the machine head transmission mechanism comprises a machine head transmission frame, the end part of the machine head transmission frame is connected with the inclined transmission frame, and a plurality of third conveying parts of the multilayer transmission channels are sequentially arranged up and down in the machine head transmission frame.