CN214986214U - Blanking device without residual blanking - Google Patents

Abstract

The utility model provides a blanking does not have remaining unloader, it relates to automatic equipment technical field that makes and sell. The blanking device comprises: workbin, pay-off subassembly, unloading subassembly and hopper are provided with discharge port on the workbin, and the unloading subassembly includes: the fixed end of the mounting frame is assembled in the feed box, and the assembling end of the mounting frame extends towards the outer side of the feed box and is positioned below the discharge port; the hopper body is detachably arranged at the assembling end of the mounting frame, and the material bearing opening is arranged corresponding to the discharge port; the telescopic bottom plate is arranged at the lower end of the bucket body, the telescopic bottom plate is tightly attached to the lower end of the bucket body to form a container for holding materials, and the telescopic bottom plate can move relative to the bucket body to realize the holding and residue-free lowering of seasonings; and the driving structure is arranged on the mounting frame and assembled with the telescopic floor. Adopt above-mentioned technical scheme's unloader have the condiment empty the convenience, empty totally, the accurate advantage of unloading.

Description

Blanking device without residual blanking

Technical Field

The utility model relates to an automatic equipment technical field is sold in the system, concretely relates to unloading does not have remaining unloader.

Background

Soup powder or soup noodles are very common food materials and are a meal which is often eaten in people's lives, and in general, the soup powder or the soup noodles are made of dry food materials or wet food materials and are cooked by a chef or a maker during making. Along with the continuous acceleration of city life rhythm, rely on the manual work to carry out the boiling operating time of soup powder or soup face longer, required cost of labor and place rent cost are higher moreover, and business hours is shorter, can't satisfy consumer's night needs. In order to meet the demands of consumers and the market, automatic powder making and selling equipment is available on the market at present.

As is well known, ingredients and seasonings are mostly needed to be put into the flour when the flour is made. At present, when ingredients and seasonings are put into the equipment for making and selling the brake powder on the market, the ingredients are contained in the seasoning tank and are conveyed to the discharging hopper through the auger, and finally, the discharging port is opened, so that the seasonings fall into the meal box. The lower feeding device that sets up like this can realize carrying out the operation of unloading simultaneously to multiple condiment in the same time through the discharge gate that sets up perpendicularly, but because the whole relative rotation that can take place of play hopper to will hold the condiment of dress by the auger transport and incline to the cutlery box in, its in-process of empting, condiment is difficult to empty totally, and then leads to condiment remaining, taste not good enough scheduling problem. Therefore, improvements are desired.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a blanking device without residue in blanking, which is characterized in that a container for containing seasonings is formed by the tight fit between a telescopic bottom plate and a bucket body, and then the telescopic bottom plate slides relative to the bucket body to realize the lower part of the seasonings; at condiment below in-process, through the relative motion between flexible bottom plate and the bucket body lower extreme to will be stained with the condiment on flexible bottom plate and strike off totally, realize the unloading and do not have remaining effect, have that the condiment is emptyd conveniently, is emptyd totally, the accurate advantage of unloading.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a there is not remaining unloader in unloading, unloader installs on automatic equipment is sold in making, just automatic making is provided with control center on selling the equipment, unloader includes: workbin, pay-off subassembly, unloading subassembly and hopper, be provided with discharge port on the workbin, the unloading subassembly includes: the fixed end of the mounting frame is assembled in the feed box, and the assembling end of the mounting frame extends to the outer side of the feed box and is positioned below the discharge port; the hopper body is detachably arranged at the assembling end of the mounting frame, and a material bearing opening is arranged corresponding to the discharge port; the telescopic bottom plate is arranged at the lower end of the bucket body, the telescopic bottom plate is tightly attached to the lower end of the bucket body to form a container for holding materials, and the telescopic bottom plate can move relative to the bucket body to realize holding and residue-free lowering of seasonings; and the driving structure is arranged on the mounting frame and assembled with the telescopic floor, and is used for driving the telescopic bottom plate to reciprocate relative to the bucket body.

Furthermore, two parallel guide rails are arranged on the lower end surface of the bucket body and protrude out of the side wall of the bucket body, and two parallel ends of the telescopic bottom plate are provided with guide grooves assembled with the guide rails; when the driving structure drives the telescopic bottom plate, the telescopic bottom plate moves back and forth along the guide rail, and when the driving structure drives the telescopic bottom plate to move towards one side of the material box, the seasonings borne on the telescopic bottom plate are scraped away from the telescopic bottom plate by the lower end surface of the hopper body.

Furthermore, one side of the guide rail, which is close to the material box, is provided with an extension section.

Furthermore, the assembly end of mounting bracket is provided with the draw-in groove, be provided with on the lateral wall of bucket body with the fixture block of draw-in groove joint assembly.

Further, the driving structure includes: the fixed block is fixedly arranged at the fixed end of the mounting frame and is provided with a sliding groove; the main body of the power source is fixedly arranged on the lower end face of the fixed end of the mounting frame, and a power output shaft of the power source protrudes out of the fixed end of the mounting frame; and one part of the connecting rod assembly is fixedly assembled with a power output shaft of the power source and can synchronously rotate along with the power output shaft, and the other part of the connecting rod assembly is slidably arranged in the sliding groove and fixedly assembled on the telescopic bottom plate after penetrating through the sliding groove.

Further, the connecting rod assembly includes: the transmission rod is fixedly assembled with a power output shaft of the power source; the driving rod is installed in the sliding groove, can slide relative to the fixed block along the sliding groove, and is fixedly assembled with the bottom of the telescopic bottom plate; and one end of the connecting rod is rotatably assembled with the transmission rod, and the other end of the connecting rod is rotatably assembled with the driving rod.

Further, be provided with spacing portion on the up end of fixed block, spacing portion is located the middle part position department of spout, spacing portion is used for prescribing a limit to the actuating lever slides in the spout.

Furthermore, a trigger switch is fixedly assembled on the limiting part, a trigger end of the trigger switch is positioned above the sliding groove, and the trigger switch is used for being matched with the connecting rod to control the power source to stop moving when the driving rod drives the telescopic bottom plate to be completely closed with the bucket body.

Further, the unloading subassembly still includes weighing sensor, weighing sensor one end with the stiff end bottom fixed mounting of mounting bracket, the other end with the inside fixed mounting of workbin, weighing sensor is used for weighing the mounting bracket the flexible bottom plate the hopper the weight of drive structure and the material that bears, weighing sensor with control center connects when the condiment on the flexible bottom plate reachs the condiment weight that control center predetermines, control center control drive flexible bottom plate is to mounting bracket stiff end one side motion.

Further, the workbin is range upon range of and is provided with two, and every all be provided with two discharge port on the workbin, the detachable installation of hopper is on the lower extreme workbin, the hopper is located the bucket body below on the upper end workbin, the hopper is used for leading the material in the meal box.

After the technical scheme is adopted, the utility model discloses beneficial effect does: when seasoning is fed, the power source drives the telescopic bottom plate to move relative to the hopper body through the connecting rod assembly, so that the telescopic bottom plate moves towards one side far away from the material box; at the moment, the lower end of the hopper body is completely sealed by the telescopic bottom plate, the telescopic bottom plate and the hopper body are combined to form a container for containing seasonings, and after the seasonings are sent out from the discharging port by the feeding assembly, the seasonings fall on the telescopic bottom plate below the feeding assembly under the action of gravity. After weighing sensor senses the predetermined condiment weight of control center of weight arrival of condiment whereabouts, control center control power supply pulling link assembly for link assembly drive flexible bottom plate removes to workbin place side, at its in-process that removes, because closely assemble between the lower terminal surface of flexible bottom plate and bucket body, the event is at the in-process that flexible bottom plate contracts, the bucket body can be with flexible bottom plate on remaining no material clearance catch up, it is convenient to have condiment to empty, empty totally, the accurate advantage of unloading.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic view of a first structure of the blanking assembly in this embodiment;

FIG. 3 is a schematic view of a second structure of the blanking assembly in the present embodiment;

FIG. 4 is a schematic view of a third structure of the blanking assembly of the present embodiment;

fig. 5 is an exploded view of the blanking assembly in this embodiment.

Description of reference numerals: 100. a material box; 110. a discharge port; 200. a blanking assembly; 201. a card slot; 202. a chute; 210. a mounting frame; 211. a fixed end; 212. an assembly end; 220. a bucket body; 221. a guide rail; 222. an extension section; 223. a clamping block; 230. a telescopic bottom plate; 231. a guide groove; 240. a drive structure; 241. a fixed block; 241a, a limiting part; 242. a power source; 243. a transmission rod; 244. a drive rod; 245. a connecting rod; 246. a trigger switch; 250. a weighing sensor; 300. and (4) a hopper.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment as required without making a contribution, but all the embodiments are protected by the patent law within the scope of the claims of the present invention.

The present embodiment relates to a blanking device without blanking residue, as shown in fig. 1 to 5, the blanking device is installed on an automatic manufacturing and selling device, and a control center (not shown in the drawings) is arranged on the automatic manufacturing and selling device. Wherein, unloader includes: a bin 100, a feed assembly (not shown), a blanking assembly 200, and a hopper 300.

Specifically, the magazine 100 is provided in plurality, and the plurality of magazines 100 are installed in a vertical direction to be stacked. Discharge ports 110 are arranged on the plurality of material boxes 100, and the directions of the discharge ports 110 are the same. In this embodiment, two magazines 100 are provided. A feed assembly is disposed within the bin 100 for feeding material within the bin 100 to the discharge port 110 for discharge from the discharge port 110. Blanking assembly 200 is fixedly mounted to hopper 100 on a side thereof adjacent to discharge port 110. The discharging assembly 200 is used for receiving the material falling from the discharging port 110 and weighing the falling material. When the material carried on the blanking assembly 200 reaches a predetermined weight, the blanking assembly 200 can lower the material into the meal box. The hopper 300 is detachably mounted on the bin 100 and is positioned between adjacent blanking assemblies 200. The hopper 300 is used for receiving the material falling from the blanking assembly 200 above and guiding the material into the lunch box. The above structures are all the prior art, and are not described in detail in this application.

Further, as shown in fig. 1 to 5, the blanking assembly 200 includes: mounting bracket 210, bucket body 220, telescoping floor 230, and drive structure 240. Specifically, fixed end 211 of mounting bracket 210 is mounted within bin 100, and mounting end 212 of mounting bracket 210 extends outside bin 100 and below discharge port 110. The bucket body 220 is detachably mounted on the mounting end 212 of the mounting frame 210, and the material receiving opening is disposed corresponding to the discharging port 110. The retractable bottom plate 230 is disposed at a lower end of the bucket body 220. The telescopic bottom plate 230 is used for being tightly attached to the lower end of the hopper body 220 to form a container for receiving materials. In addition, the telescopic bottom plate 230 can move relatively to the bucket body 220 to realize the loading and residue-free lowering of the seasonings. The driving structure 240 is mounted on the mounting bracket 210 and assembled with the telescopic floor. The driving structure 240 is used for driving the retractable base plate 230 to reciprocate relative to the bucket body 220.

It should be noted that, during discharging, the telescopic bottom plate 230 is tightly matched with the bucket body 220 to form a container for containing seasonings, and then the telescopic bottom plate 230 slides relative to the bucket body 220 to realize the lower part of the seasonings; in the process below the seasonings, the seasonings stained on the telescopic bottom plate 230 are completely scraped off through the relative movement between the telescopic bottom plate 230 and the lower end of the bucket body 220, so that the effect of no residue in the blanking process is realized.

Further, as shown in fig. 1 to 5, two parallel guide rails 221 are disposed on the lower end surface of the bucket body 220 protruding from the sidewall. The telescopic base plate 230 is provided at both ends thereof parallel to each other with guide grooves 231 fitted with the guide rails 221. When the driving structure 240 drives the telescopic base plate 230, the telescopic base plate 230 performs a reciprocating motion along the guide rail 221. When the driving structure 240 drives the telescopic bottom plate 230 to move towards the side of the material box 100, the seasonings carried on the telescopic bottom plate 230 are scraped away from the telescopic bottom plate 230 by the lower end surface of the bucket body 220.

Preferably, the guide rail 221 is provided with an extension section 222 on a side close to the material box 100, so that when the retractable bottom plate 230 is retracted, the lower end surface of the bucket body 220 can completely scrape off the material carried on the retractable bottom plate 230.

Preferably, the mounting end 212 of the mounting bracket 210 is provided with a clamping groove 201, and the side wall of the bucket body 220 is provided with a clamping block 223 clamped and assembled with the clamping groove 201. In this embodiment, two mounting arms extend from the mounting frame 210, each mounting arm is provided with two slots 201, and the slots 201 are inverted T-shaped. Two clamping blocks 223 are respectively arranged on two opposite sides of the bucket body 220. The bucket body 220 is detachably assembled with the mounting frame 210 through the matching of the fixture block 223 and the clamping groove 201.

Further, as shown in fig. 1-5, the driving structure 240 includes: fixed block 241, power source 242 and link assembly. Specifically, the fixing block 241 is fixedly mounted on the fixing end 211 of the mounting bracket 210, and the fixing block 241 is provided with a sliding groove 202. The main body of the power source 242 is fixedly mounted to the lower end surface of the fixed end 211 of the mounting bracket 210. The power output shaft of the power source 242 protrudes from the fixed end 211 of the mounting bracket 210. One part of the connecting rod assembly is fixedly assembled with the power output shaft of the power source 242 and can rotate synchronously with the power output shaft, and the other part of the connecting rod assembly is slidably installed in the sliding groove 202 and passes through the sliding groove 202 to be fixedly assembled on the telescopic bottom plate 230.

Further, as shown in fig. 1 to 5, the connecting rod assembly includes: a drive rod 243, a drive rod 244, and a connecting rod 245. Specifically, the transmission rod 243 is fixedly assembled with the power output shaft of the power source 242. The driving rod 244 is installed in the slide groove 202, and the driving rod 244 can slide along the slide groove 202 relative to the fixed block 241. The driving rod 244 is fixedly assembled with the bottom of the telescopic base plate 230. One end of the connecting rod 245 is rotatably fitted with the driving rod 243, and the other end of the connecting rod is rotatably fitted with the driving rod 244.

Preferably, a limiting portion 241a is disposed on an upper end surface of the fixing block 241, the limiting portion 241a is located at a middle position of the sliding slot 202, and the limiting portion 241a is used for limiting the driving rod 244 to slide in the sliding slot 202. The limit portion 241a is arranged to effectively limit the driving rod 244 in the sliding slot 202 to perform linear reciprocating motion, so as to ensure the stability of the telescopic bottom plate 230 in the telescopic process,

preferably, the trigger switch 246 is fixedly mounted on the limiting portion 241a, and a trigger end of the trigger switch 246 is located above the sliding groove 202. The trigger switch 246 is adapted to cooperate with the connecting rod 245 to control the power source 242 to stop moving when the drive rod 244 drives the telescoping floor 230 to fully close the bucket 220.

Further, as shown in fig. 1-5, the blanking assembly 200 further includes a load cell 250. One end of the weighing sensor 250 is fixedly assembled with the bottom of the fixed end 211 of the mounting frame 210, and the other end is fixedly assembled with the inside of the material box 100. Load cells 250 are used to weigh the weight of mounting bracket 210, telescoping floor 230, hopper 300, drive structure 240, and the material carried thereby. The load cell 250 is connected to the control center. When the seasoning on the retractable bottom plate 230 reaches the preset seasoning weight of the control center, the control center controls the driving structure 240 to drive the retractable bottom plate 230 to move toward the fixed end 211 of the mounting rack 210.

The working principle of the present embodiment is roughly as follows: when seasoning is fed, the power source 242 drives the telescopic bottom plate 230 to move relative to the bucket body 220 through the connecting rod assembly, so that the telescopic bottom plate 230 moves to the side far away from the material box 100; at this time, the lower end of the bucket body 220 is completely closed by the retractable bottom plate 230, and the retractable bottom plate 230 and the bucket body 220 are combined to form a container for containing seasonings, and after the seasonings are delivered from the outlet port 110 by the feeding assembly, the seasonings fall onto the retractable bottom plate 230 under the gravity. After weighing sensor 250 senses the weight of condiment whereabouts and reaches the predetermined condiment weight of control center, control center control power source 242 pulling link assembly for link assembly drive telescopic bottom plate 230 moves to workbin 100 place side, at its in-process that removes, because closely assemble between the lower terminal surface of telescopic bottom plate 230 and bucket body 220, the event is at the in-process that telescopic bottom plate 230 contracts, bucket body 220 can be with telescopic bottom plate 230 go up remaining no material clearance catch up, it is convenient to have condiment empty, empty totally, the accurate advantage of unloading.

The above description is only for the purpose of illustration and not limitation, and other modifications or equivalent replacements made by those skilled in the art to the technical solution of the present invention should be covered by the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a there is not remaining unloader in unloading, unloader installs on automatic equipment is sold in making, just automatic making is provided with control center on selling the equipment, unloader includes: workbin (100), pay-off subassembly, unloading subassembly (200) and hopper (300), be provided with discharge port (110) on workbin (100), its characterized in that, unloading subassembly (200) includes:

the fixed end (211) of the mounting frame (210) is assembled in the material box (100), and the assembling end (212) of the mounting frame (210) extends towards the outer side of the material box (100) and is positioned below the material outlet port (110);

the hopper body (220) is detachably mounted at the assembling end (212) of the mounting frame (210), and a material bearing opening is arranged corresponding to the discharging port (110);

the telescopic bottom plate (230) is arranged at the lower end of the bucket body (220), the telescopic bottom plate (230) is tightly attached to the lower end of the bucket body (220) to form a container for holding materials, and the telescopic bottom plate (230) can move relative to the bucket body (220) to hold seasonings and place the seasonings without residues; and the number of the first and second groups,

the driving structure (240) is mounted on the mounting frame (210) and assembled with the telescopic bottom plate, and the driving structure (240) is used for driving the telescopic bottom plate (230) to move back and forth relative to the bucket body (220).

2. The blanking device without residue in blanking according to claim 1, wherein two parallel guide rails (221) are arranged on the lower end surface of the hopper body (220) and protrude out of the side wall, and two parallel ends of the telescopic bottom plate (230) are provided with guide grooves (231) assembled with the guide rails (221); when the driving structure (240) drives the telescopic bottom plate (230), the telescopic bottom plate (230) moves back and forth along the guide rail (221), and when the driving structure (240) drives the telescopic bottom plate (230) to move towards one side of the material box (100), the seasonings carried on the telescopic bottom plate (230) are scraped away from the telescopic bottom plate (230) by the lower end face of the hopper body (220).

3. Blanking device with no residue according to claim 2, wherein the guide rail (221) is provided with an extension (222) on the side close to the magazine (100).

4. The blanking device without residue in blanking according to claim 1, wherein a clamping groove (201) is formed in an assembling end (212) of the mounting frame (210), and a clamping block (223) assembled with the clamping groove (201) in a clamping mode is arranged on the side wall of the bucket body (220).

5. Blanking device for blanking without residues according to any one of claims 1 to 4, wherein said driving structure (240) comprises:

the fixing block (241) is fixedly arranged at the fixed end (211) of the mounting frame (210), and a sliding groove (202) is formed in the fixing block (241);

the main body of the power source (242) is fixedly arranged on the lower end face of the fixed end (211) of the mounting frame (210), and the power output shaft of the power source (242) protrudes out of the fixed end (211) of the mounting frame (210); and the number of the first and second groups,

one part of the connecting rod assembly is fixedly assembled with a power output shaft of the power source (242) and can synchronously rotate along with the power output shaft, and the other part of the connecting rod assembly is slidably installed in the sliding groove (202) and penetrates through the sliding groove (202) to be fixedly assembled on the telescopic bottom plate (230).

6. The blanking device with no residue in blanking according to claim 5, wherein the connecting rod assembly comprises: the transmission rod (243), the transmission rod (243) is fixedly assembled with the power output shaft of the power source (242);

the driving rod (244), the driving rod (244) is installed in the sliding chute (202), the driving rod (244) can slide along the sliding chute (202) relative to the fixed block (241), and the driving rod (244) is fixedly assembled with the bottom of the telescopic bottom plate (230); and the number of the first and second groups,

one end of the connecting rod (245) is rotatably assembled with the transmission rod (243), and the other end of the connecting rod is rotatably assembled with the driving rod (244).

7. The blanking device without residue in blanking according to claim 6, wherein a limiting part (241a) is arranged on the upper end surface of the fixing block (241), the limiting part (241a) is located at the middle position of the sliding slot (202), and the limiting part (241a) is used for limiting the driving rod (244) to slide in the sliding slot (202).

8. The blanking device with no residue in blanking according to claim 7, wherein a trigger switch (246) is fixedly assembled on the limiting portion (241a), a trigger end of the trigger switch (246) is located above the chute (202), and the trigger switch (246) is used for cooperating with the connecting rod (245) to control the power source (242) to stop moving when the driving rod (244) drives the telescopic bottom plate (230) and the bucket body (220) to be completely closed.

9. Blanking device with no residue according to any one of claims 6 to 8, characterized in that the blanking component (200) also comprises a weighing sensor (250), one end of the weighing sensor (250) is fixedly assembled with the bottom of the fixed end (211) of the mounting rack (210), the other end of the weighing sensor is fixedly assembled with the inside of the material box (100), the weighing sensor (250) is used for weighing the mounting rack (210), the telescopic bottom plate (230), the hopper (300), the driving structure (240) and the loaded material, the weighing sensor (250) is connected with the control center, when the seasonings on the telescopic bottom plate (230) reach the seasoning weight preset by the control center, the control center controls the driving structure (240) to drive the telescopic bottom plate (230) to move towards the fixed end (211) side of the mounting frame (210).

10. The blanking device without residue in blanking according to claim 1, wherein two material boxes (100) are stacked, each material box (100) is provided with two material outlet ports (110), the hopper (300) is detachably mounted on the lower material box (100), the hopper (300) is located below the hopper body (220) on the upper material box (100), and the hopper (300) is used for guiding materials into the meal box.

Images