CN217050749U - A transportation collection device for processing zinc grain - Google Patents

Abstract

The application relates to the technical field of collecting devices, in particular to a transportation and collection device for processing zinc particles. The conveying and collecting device comprises a conveying mechanism and a collecting mechanism, wherein the collecting mechanism is positioned below the conveying mechanism and comprises a pre-storage box used for temporarily collecting materials and a collecting box with an open top used for collecting the materials, the collecting box is positioned right below the pre-storage box, a bottom plate capable of being opened and closed is arranged on the pre-storage box, and the bottom plate is positioned at the bottom of the pre-storage box. The present application has the following effects: the pre-storage box temporarily collects materials, the materials sliding down from the conveying mechanism fall into the pre-storage box, when the materials in the pre-storage box are accumulated to a certain amount, the openable bottom plate of the pre-storage box bottom plate is opened, the materials fall into the collecting box right below the pre-storage box, and the situation that the materials slide down from the conveying mechanism but do not enter the collecting box and fall to the ground when the two collecting boxes are replaced in a time interval can not occur.

Description

A transportation collection device for processing zinc grain

Technical Field

The application relates to the technical field of collecting devices, in particular to a conveying and collecting device for processing zinc particles.

Background

In order to produce the zinc cylinder, a worker of a zinc cylinder production line needs to obtain a zinc belt after processing steps of melting, cooling and the like on a zinc ingot, then the zinc belt is arranged in a stamping device, so that a plurality of round-hole-shaped zinc particles are separated from the stamped zinc belt, the separated zinc particles are collected by a collecting device, the collected zinc particles are conveyed to a device of the next procedure, the next procedure comprises polishing the zinc particles, and the polished zinc particles are stamped again to obtain the required zinc cylinder.

Wherein, the zinc grain that the punching press obtained needs to be transported to collection device in through conveyer, conveyer includes the motor, two at least belt pulleys and transportation area, the zinc grain that the punching press separation obtained can drop to the transportation area upper surface, motor drive belt pulley rotates, the belt pulley drives the transportation area and begins the conveying of zinc grain, collection device includes the collecting box, the one end that stamping device was kept away from in the transportation area is located the collecting box directly over, when the zinc grain conveying was to the position that is close to the collecting box, the transportation area can drive the zinc grain landing from the transportation area, the landing is to in the collecting box.

When zinc particles in the collecting boxes are accumulated to a certain amount, workers transfer the collecting boxes to the next process, empty collecting boxes are placed under the conveying belt, zinc particle collecting work is continued, a time interval exists in the replacement process of the two collecting boxes, and the conveying belt still conveys the zinc particles in the time interval, so that the zinc particles slide off from the conveying belt but do not enter the collecting boxes and fall to the ground, and the falling zinc particles need to be picked up from the ground by the workers and placed back into the collecting boxes, which is troublesome.

SUMMERY OF THE UTILITY MODEL

In order to improve the collecting box and replace the in-process, the condition that the zinc grain slided to ground from the conveyer belt still in work, this application provides a transportation collection device for processing zinc grain.

The application provides a transportation collection device for processing zinc grain adopts following technical scheme: the collecting mechanism is located below the conveying mechanism and comprises a pre-storage box used for temporarily collecting materials and a collecting box with an open top used for collecting the materials, the collecting box is located right below the pre-storage box, an openable bottom plate is arranged on the pre-storage box, and the bottom plate is located at the bottom of the pre-storage box.

By adopting the technical scheme, the pre-storage box temporarily collects materials, the transition of the materials from the conveying mechanism to the collection box is realized, the materials sliding down from the discharge end of the conveying mechanism can fall into the pre-storage box, the bottom of the pre-storage box is a bottom plate which can be opened and closed, when the materials temporarily collected in the pre-storage box are accumulated to a certain amount, the bottom plate can be opened, and the materials in the pre-storage box can fall into the collection box which is positioned right below the pre-storage box from a gap formed by opening the bottom plate; when the materials in the collecting boxes are accumulated to a certain amount, the workers transfer the collecting boxes to the next procedure, the empty collecting boxes are placed under the pre-storing boxes, the bottom plate is in a closed state at the moment, and the situation that the materials slide off the conveying mechanism but do not enter the collecting boxes and fall to the ground in the time interval when the two collecting boxes are replaced is avoided.

Preferably, the prestore case is the box that all is open in top and bottom, the bottom plate is used for sealing the bottom of prestore case, just bottom plate one side lateral wall with prestore case one side inner wall and rotate and link to each other, still be provided with elastic support piece on the prestore case, elastic support piece one end fixed connection in the lower surface of bottom plate, the other end fixed connection in prestore one side inner wall of case.

Through adopting above-mentioned technical scheme, the case of prestoring is top and bottom all open box, the bottom of the case of prestoring is sealed through a lateral wall and prestoring case one side inner wall rotation continuous bottom plate, can realize the effect of bottom plate switching, and connect in the bottom plate lower surface and prestore the elastic support spare between the incasement wall, can play and maintain the bottom plate and be closed state, the material of landing is accumulating to a certain amount in prestoring the incasement when from transport mechanism, the weight of material can force the bottom plate to use the bottom plate to rotate the department of linking to each other with the prestoring case as the axis of rotation, downwards rotation, the state that the bottom plate opened this moment promptly, elastic support spare is the compressed state, and the material is opened the breach landing of formation to the collecting box in from the bottom plate.

Preferably, elastic support includes first bracing piece, second bracing piece and return spring, return spring fixed connection in first bracing piece with between the second bracing piece, just first bracing piece return spring with the second bracing piece is a linear arrangement, first bracing piece is kept away from return spring's one end fixed connection in the lower surface of bottom plate, the second bracing piece is kept away from return spring's one end fixed connection in one side inner wall of deposit case.

Through adopting above-mentioned technical scheme, the weight of the material of accumulation in prestoring the incasement can exert pressure for the bottom plate, and when pressure overcome the spring force, return spring compression forces the bottom plate to open, and the material can the landing to the collecting box in, and the in-process of unloading, the pressure of exerting on the bottom plate reduces gradually, and return spring's elasticity makes the bottom plate return to closed state.

Preferably, still be provided with the slide bar on the prestoring case, slide bar one end rotate connect in the lateral wall of bottom plate, the other end rotates and is connected with the slider, prestoring case one side inner wall still is provided with the confession on one side of the body the gliding spout of slider, the length direction of spout with the axis of rotation of bottom plate is located same horizontal plane, the length direction perpendicular to of spout the axis of rotation of bottom plate, the slider is followed spout length direction slides.

Through adopting above-mentioned technical scheme, the slider slides along spout length direction in the spout, and the length of spout can restrict the slip range of slider, and then when the restriction bottom plate was opened, the rotation angle of bottom plate, because the rotation angle of bottom plate is restricted, so return spring can not compressed to extreme position, to a certain extent, has played the effect of protection return spring.

Preferably, the number of the bottom plates is two, the two bottom plates are respectively and rotatably connected to the inner walls of the opposite sides of the pre-storage box, and when the two bottom plates are located on the same horizontal plane, the two bottom plates seal the bottom of the pre-storage box.

Through adopting above-mentioned technical scheme, set up two baffles, and will form the position setting of rotating connection on the lateral wall that deviates from the side at two baffles with prestoring incasement wall, rotation opposite direction when making two baffles open, because transport mechanism's discharge end is located prestoring case directly over, so the material is piled up the volume of prestoring incasement position and can be more than piling up in quantity all around, make the state that the bottom plate realized opening more easily, increase the frequency of the material landing to the collecting box of prestoring incasement, reduce the material and pile up the probability to the overflow prestoring case in prestoring incasement.

Preferably, the projection of the bottom opening of the prestoring box in the vertical direction is positioned in the projection of the top opening of the collecting box.

By adopting the technical scheme, when the bottom plate is opened, materials sliding from the pre-storage box enter the collection box as much as possible.

Preferably, the transport mechanism includes the frame, sets up transport area and a plurality of transportation baffle in the frame, the transportation baffle links firmly perpendicularly the transport area upper surface, and is a plurality of the transportation baffle is parallel to each other and the equipartition in on the transport area, the discharge end of transport area is located directly over the case of prestoring.

By adopting the technical scheme, the transportation partition plates which are parallel to each other and uniformly distributed on the upper surface of the transportation belt play a partitioned effect on the transportation belt, so that the amount of the materials falling into the interval between every two transportation partition plates is balanced, and the possibility of stacking and disorder of the materials on the transportation belt is reduced.

Preferably, the transportation mechanism further comprises a transportation rail, one end of the transportation rail is used for receiving materials from the stamping device, the other end of the transportation rail is located right above the feeding end of the transportation belt, and one end of the transportation rail located right above the feeding end of the transportation belt is lower than the other end of the transportation rail.

Through adopting above-mentioned technical scheme, the material drops to the transportation area from the stamping device separation, has certain impact force to the transportation, and the transportation area bears for a long time and comes from the material and drops to the impact force of transportation area upper surface, and is great to the damage to the transportation area, is provided with the transportation track after, and the impact force that the material dropped is undertaken by the transportation track, and the orbital setting of transportation can make the position overall arrangement in stamping device and transportation area more reasonable compact, reduces the operating space that equipment occupy.

Preferably, still be equipped with the baffle on the transportation track, the both ends of baffle respectively with the both sides wall of transportation track links firmly mutually, the baffle is followed the orbital length direction of transportation extends to the top of transportation area, the both sides orientation of baffle the transportation area extends and forms parcel portion, two parcel portion will transport the parcel of taking the upside.

Through adopting above-mentioned technical scheme, the material is separated from stamping device and is dropped to when taking from the transportation track, and the acceleration that the in-process that drops produced and its inertia that drops can make the material drop when taking to transportation track and transportation, have the possibility of kick-backing, be provided with the baffle after, can improve the phenomenon that pops out transportation track and transportation and take when the material kick-backs.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the pre-storage box temporarily collects materials, the materials sliding down from the conveying mechanism fall into the pre-storage box, when the materials in the pre-storage box are accumulated to a certain amount, the openable bottom plate of the pre-storage box bottom plate is opened, the materials fall into the collecting box right below the pre-storage box, and the situation that the materials slide down from the conveying mechanism but do not enter the collecting box and fall to the ground in the time interval of replacing the two collecting boxes can be avoided;

2. the weight of the material accumulated in the pre-storage box can exert pressure on the bottom plate, when the pressure overcomes the spring force, the return spring is compressed to force the bottom plate to be opened, the material can slide into the collection box, the pressure exerted on the bottom plate is gradually reduced in the discharging process, and the elastic force of the return spring enables the bottom plate to return to a closed state.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present application;

fig. 2 is an exploded schematic view of a conveyor track, conveyor belt and baffle;

FIG. 3 is a schematic structural view of the elastic support;

FIG. 4 is a partially enlarged schematic view of portion A of FIG. 3;

fig. 5 is an exploded view of the pre-storage tank showing the glide rods and sliders.

Description of reference numerals: 110. a frame; 120. a conveyor belt; 121. transporting the partition plate; 122. a transportation track; 123. a curved transport track; 124. a linear transport track; 125. a baffle plate; 130. a pre-storage box; 131. a base plate; 132. a limiting baffle; 133. a slide bar; 134. a slider; 135. a chute; 140. a collection box; 150. an elastic support member; 151. a first support bar; 152. a return spring; 153. a second support bar.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a transportation collection device for processing zinc grain, in order to improve the collecting box and replace the in-process, the zinc grain from still the condition on landing to ground on the conveyer belt of work.

Referring to fig. 1, the transportation and collection device includes a transportation mechanism and a collection mechanism, the collection mechanism is located below the transportation mechanism, the transportation mechanism includes a frame 110 and a transportation belt 120 disposed on the frame 110, a feeding end of the transportation belt 120 is used for receiving materials obtained through stamping and separation by the stamping device, in this embodiment, the materials are zinc particles, and a discharging end of the transportation belt 120 is located right above the collection mechanism, so that the collection mechanism is convenient to collect the zinc particles after stamping.

The transport mechanism still includes a plurality of transportation baffles 121 that set up perpendicularly in the transport belt 120 upper surface, a plurality of transportation baffles 121 are parallel to each other and the equipartition links firmly in the upper surface of transport belt 120, in this embodiment, transport belt 120 is the level and places, in other embodiments, also can place transport belt 120 slope, when transport belt 120 is the state that the feed end height is less than the discharge end height, transport baffles 121 can also play the effect that promotes zinc grain and slide to collecting mechanism from transport belt 120, in this embodiment, transport baffles 121 are provided with fourteen.

In order to improve the situation that each device of the production line occupies a large working space, the punching device and the conveyer belt 120 are arranged in front and back in this embodiment, in other embodiments, the conveyer belt 120 may be arranged obliquely to save the transverse working space, and after improvement, the conveyer belt 120 cannot horizontally pass through the discharge hole of the punching device, so the conveyer belt 122 is further provided in this embodiment.

Referring to fig. 1 and 2, the transportation rail 122 is two-sectioned, one section is a curved transportation rail 123, the other section is a linear transportation rail 124, the curved transportation rail 123 is introduced into the discharge port of the stamping apparatus for receiving zinc particles, one section of the linear transportation rail 124 is fixedly connected to the curved transportation rail 123, and the other end is located right above the feed end of the transportation belt 120.

Transportation track 122 is the structure of character cut in bas-relief, still is provided with baffle 125 on the transportation track 122, and the both ends of baffle 125 link firmly with the both sides outer wall of transportation track 122 respectively mutually, and in this implementation, the board body width direction of baffle 125 is the arc form, and the arc form can make the zinc grain when dropping to the in-process of transportation area 120 has great resilience space, still saves the manufacturing material of baffle 125.

The baffle 125 further extends to the upper side of the conveyor belt 120 along the length direction of the conveying track 122, the portion of the baffle 125 above the conveyor belt 120 extends towards both sides to form a wrapping portion, and both ends of the wrapping portion are fixedly connected to the frame 110 of the conveying mechanism to wrap the upper side of the conveyor belt 120.

Referring to fig. 1, zinc particles are transported along the transport direction of the conveyor belt 120 to the discharge end of the conveyor belt 120, and the zinc particles slide off the conveyor belt 120 into the collecting mechanism for collection.

The collection mechanism includes prestoring case 130 and the collecting box 140 that is used for collecting the zinc grain that is used for temporarily collecting the zinc grain, prestores case 130 and all open box in top and bottom, prestores case 130 and links firmly in transport mechanism's frame 110, prestores case 130 and is located collecting box 140 directly over, collecting box 140 is the open box in top, and prestores case 130 bottom and uncovered in the projection of vertical direction and be located the open projection in collecting box 140 top.

Referring to fig. 1 and 3, the bottom of the pre-storage box 130 is provided with two openable bottom plates 131 for sealing the bottom of the pre-storage box 130, the two bottom plates 131 are respectively rotatably connected to the inner walls of two opposite sides of the pre-storage box 130 on the side walls of the two bottom plates 131, and when the two bottom plates 131 are on the same horizontal plane, the two bottom plates 131 jointly form a seal for the bottom of the pre-storage box 130.

Referring to fig. 3 and 4, an elastic support 150 is disposed on the pre-storage tank 130, the elastic support 150 includes a first support rod 151, a return spring 152 and a second support rod 153, one end of the first support rod 151 is fixedly connected to a lower surface of the bottom plate 131, the other end of the first support rod is fixedly connected to one end of the return spring 152, the other end of the return spring 152 is fixedly connected to one end of the second support rod 153, and the other end of the second support rod 153 is fixedly connected to an inner wall of one side of the pre-storage tank 130, when zinc particles enter the pre-storage tank 130, the weight of the zinc particles applies pressure to the bottom plate 131, when the pressure overcomes a force for maintaining the bottom plate 131 to be closed, the bottom plate 131 is opened, at this time, the return spring 152 is compressed, and when the material in the pre-storage tank 130 is discharged to the material and the pressure applied to the bottom plate 131 is smaller than the elastic force of the return spring 152, the bottom plate 131 returns to the closed state by the elastic force of the return spring 152.

Two end portions of the return spring 152 are respectively sleeved on the shafts of the first support rod 151 and the second support rod 153, and when the return spring 152 pushes the bottom plate 131 to return to the closed state, the shafts of the first support rod 151 and the second support rod 153 embedded in the return spring 152 play a role in guiding the return of the return spring 152, thereby ensuring that the first support rod 151, the return spring 152 and the second support rod 153 are on the same line.

In the present embodiment, there are four elastic supports 150, and two elastic supports 150 are symmetrically disposed on the lower surface of each bottom plate 131.

Referring to fig. 1 and 5, the pre-storage box 130 is further provided with a limit baffle 132, the limit baffle 132 is arranged along the inner wall of the pre-storage box 130 in a complete circle, the lower surface of the limit baffle 132 is tightly attached to the upper surface of the bottom plate 131, and when the elastic force of the return spring 152 pushes the bottom plate 131 to rotate upwards, the limit baffle 132 can limit the limit position of the bottom plate 131 to rotate upwards to be a horizontal position.

The pre-storage box 130 is further provided with a sliding rod 133, one end of the sliding rod 133 is rotatably connected with a sliding block 134, in this embodiment, the sliding block 134 is a rectangular parallelepiped block, the other end of the sliding rod 133 is rotatably connected to a side wall of the bottom plate 131, a sliding groove 135 for the sliding block 134 to slide is formed in the side wall of the pre-storage box 130, in this embodiment, the sliding groove 135 penetrates through the side wall of the pre-storage box 130, the length direction of the sliding groove 135 and the rotation axis of the bottom plate 131 are located on the same horizontal plane, the length direction of the sliding groove 135 is perpendicular to the rotation axis of the bottom plate 131, and the sliding block 134 slides along the length direction of the sliding groove 135.

The implementation principle of the transportation and collection device for processing zinc particles in the embodiment of the application is as follows: the zinc belt is punched in the punching device, zinc particles are obtained through separation, the zinc particles fall to a conveying rail 122 which is led into a discharge port of the punching device, and then slide down to the conveying belt 120 from the conveying rail 122, the zinc particles are conveyed to a discharge end of the conveying belt 120 along the conveying direction of the conveying belt 120, the zinc particles can slide down to a pre-storage box 130 from the conveying belt 120, the pre-storage box 130 temporarily collects the zinc particles, the weight of the zinc particles can apply pressure to a bottom plate 131 which is positioned at the bottom of the pre-storage box 130, when the pressure overcomes the spring force, a return spring 152 is compressed to force the bottom plate 131 to be opened, the zinc particles can slide down to a collection box 140, in the discharging process, the pressure applied to the bottom plate 131 is gradually reduced, the elastic force of the return spring 152 enables the bottom plate 131 to return to a closed state, and when the zinc particles in the collection box 140 are collected to a certain amount, a worker can transfer the collection box 140 to the next process.

The embodiments of the present invention are all preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a transportation collection device for processing zinc grain, includes transport mechanism and collects the mechanism, it is located to collect the mechanism the below of transport mechanism, its characterized in that: the collecting mechanism comprises a pre-storing box (130) used for temporarily collecting materials and a collecting box (140) with an open top used for collecting the materials, the collecting box (140) is located right below the pre-storing box (130), an openable bottom plate (131) is arranged on the pre-storing box (130), and the bottom plate (131) is located at the bottom of the pre-storing box (130).

2. The transportation and collection device for processing zinc particles according to claim 1, wherein: the pre-storage box (130) is a box body with the top and the bottom both open, the bottom plate (131) is used for sealing the bottom of the pre-storage box (130), the side wall of one side of the bottom plate (131) is connected with the inner wall of one side of the pre-storage box (130) in a rotating mode, the pre-storage box (130) is further provided with an elastic supporting piece (150), one end of the elastic supporting piece (150) is fixedly connected to the lower surface of the bottom plate (131), and the other end of the elastic supporting piece is fixedly connected to the inner wall of one side of the pre-storage box (130).

3. The transportation and collection device for processing zinc particles as claimed in claim 2, wherein: elastic support member (150) includes first bracing piece (151), second bracing piece (153) and return spring (152), return spring (152) fixed connection in first bracing piece (151) with between second bracing piece (153), just first bracing piece (151) return spring (152) with second bracing piece (153) are a linear arrangement, first bracing piece (151) are kept away from the one end fixed connection of return spring (152) in the lower surface of bottom plate (131), keep away from second bracing piece (153 the one end fixed connection of return spring (152) in one side inner wall of deposit case (130).

4. The transportation and collection device for processing zinc particles according to claim 3, wherein: it slides pole (133) still to be provided with on case (130) to deposit in advance, slide pole (133) one end rotate connect in the lateral wall of bottom plate (131), and the other end rotates and is connected with slider (134), it supplies still to be provided with on case (130) one side inner wall to deposit in advance slider (134) gliding spout (135), the length direction of spout (135) with the axis of rotation of bottom plate (131) is located same horizontal plane, the length direction perpendicular to of spout (135) the axis of rotation of bottom plate (131), slider (134) are followed spout (135) length direction slides.

5. The transportation and collection device for processing zinc particles as claimed in claim 4, wherein: the two bottom plates (131) are rotatably connected to the inner walls of the opposite sides of the pre-storage box (130), and when the two bottom plates (131) are positioned on the same horizontal plane, the two bottom plates (131) seal the bottom of the pre-storage box (130).

6. The transportation and collection device for processing zinc particles as claimed in claim 5, wherein: the projection of the bottom opening of the pre-storage box (130) in the vertical direction is positioned in the projection of the top opening of the collection box (140).

7. The transportation and collection device for processing zinc particles according to claim 6, wherein: transport mechanism includes frame (110), transport area (120) and a plurality of transportation baffle (121) of setting in frame (110), transportation baffle (121) link firmly perpendicularly transport area (120) upper surface, and a plurality of transport baffle (121) are parallel to each other and the equipartition in on transport area (120), the discharge end of transport area (120) is located directly over prestore case (130).

8. The transportation and collection device for processing zinc particles according to claim 7, wherein: the conveying mechanism further comprises a conveying track (122), one end of the conveying track (122) is used for receiving materials from the stamping device, the other end of the conveying track (122) is located right above the feeding end of the conveying belt (120), and one end, located right above the feeding end of the conveying belt (120), of the conveying track (122) is lower than the other end of the conveying track (122).

9. The transportation and collection device for processing zinc particles according to claim 8, wherein: still be equipped with baffle (125) on transportation track (122), the both ends of baffle (125) respectively with the both sides wall of transportation track (122) links firmly, baffle (125) are followed the length direction of transportation track (122) extends to the top of transportation area (120), the both sides orientation of baffle (125) transportation area (120) extend and form parcel portion, two parcel portion will transport and take (120) upside parcel.

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