CN215475866U - Powder feeding device with weighing function - Google Patents

Abstract

A flour feeding device with a weighing function relates to the technical field of automatic meal making and selling equipment. It includes: support body, storage push mechanism and drive assembly, wherein, lower flour device still includes: the separation device is fixedly arranged on the frame body and far away from one side of the driving assembly, and the working end of the separation device penetrates through the side wall of the discharge channel and can move relative to the discharge channel to close or open the discharge channel; the powder discharging device is arranged on one side of the frame body, which is far away from the driving assembly, is positioned at the discharging port and is in butt joint with the discharging port; and the weighing assembly is arranged between the separating device and the flour discharging device, one end of the weighing assembly is fixedly arranged on one side, far away from the frame body, of the separating device, and the other end of the weighing assembly is fixedly assembled with the flour discharging device. The flour discharging device adopting the technical scheme has the advantages of good flour separating effect, ingenious separating structure design, simple weighing structure, good weighing effect and accurate metering.

Description

Powder feeding device with weighing function

Technical Field

The utility model relates to the technical field of automatic meal making and selling equipment, in particular to a flour feeding device with a weighing function.

Background

The flour or the flour is a very common food material, and the prepared soup flour or the soup flour is also a food which is often practical in life of people. In general, soup powder or soup noodles are prepared from dry food materials or wet food materials, and the soup powder or soup noodles are cooked by a cook or a manufacturer. 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.

Although the automatic flour making and selling equipment on the market at present can automatically feed dry food materials (such as dry powder and dry flour) and process the dry food materials, the weight of the dry food materials is judged according to the volume of the dry food materials falling into a feeding port in the feeding process, and the flour feeding device is difficult to accurately feed flour, so that improvement is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a flour discharging device with a weighing function, aiming at the defects and shortcomings of the prior art, the flour discharging device is fixedly arranged at the other end of the weighing component by installing the weighing component on the separating device, and the flour discharging device is ensured to be suspended at the discharging port, so that flour falling from the discharging port can preferentially fall into the flour discharging device, is weighed by the weighing component, and controls the final discharging of the flour by controlling the flour discharging device after reaching the preset weight, thereby controlling the weight of the flour discharging.

In order to achieve the purpose, the utility model adopts the technical scheme that: a flour discharging device with weighing function comprises: the device comprises a frame body, wherein a discharge channel and a discharge hole are formed in the frame body; the storage pushing mechanism is arranged in the frame body; and, set up in on the support body and with the drive assembly of storage push mechanism assembly, its characterized in that, the powder device still includes down: the separating device is fixedly arranged on the frame body and far away from one side of the driving assembly, the working end of the separating device penetrates through the side wall of the discharging channel and can move relative to the discharging channel to close or open the discharging channel, and the separating device is used for separating powder to be discharged from the whole powder; the powder discharging device is arranged on one side of the frame body, which is far away from the driving assembly, is positioned at the discharging port and is in butt joint with the discharging port, and is used for controlling the discharging port to be opened or closed so as to realize the vertical falling of the powder; and the weighing assembly is arranged between the separating device and the flour discharging device, one end of the weighing assembly is fixedly arranged on one side, far away from the frame body, of the separating device, the other end of the weighing assembly is fixedly assembled with the flour discharging device, and the weighing assembly is used for weighing the weight of flour falling into the flour discharging device.

Further, the weighing assembly includes: one end of the weighing element is fixedly connected with the separating device, and the other end of the weighing element is fixedly assembled with the flour discharging device through a fastening screw; the fixed gasket is arranged between the weighing element and the separating device and is used for keeping a gap between the weighing element and the powder surface discharging device and a gap between the separating device and the frame body; and the fixing piece is tightly attached to the powder surface discharging device, and a fastening screw penetrates through the fixing piece, the powder surface discharging device and the weighing element in sequence to be fixedly assembled.

Further, the separation device includes: the outer cover is fixedly arranged on one side, far away from the driving assembly, of the frame body, and is provided with an installation cavity; the bottom plate is fixedly assembled with one side, far away from the frame body, of the outer cover; a first separation assembly, a fixed portion of the first separation assembly being fixedly mounted with the housing, a movable portion of the first separation assembly being movable relative to the tapping channel and the housing, the first separation assembly being adapted to open or close the tapping channel; and the fixed part of the second separation component is fixedly assembled with the outer cover, the movable part of the second separation component can move relative to the discharge channel and the outer cover, the second separation component is used for opening or closing the discharge channel, and the second separation component is positioned under the first separation component.

Further, set up first bar groove on the dustcoat, and just first bar groove is close to discharge channel, first separation element includes: the first guide rod is fixedly arranged on the side wall of the outer cover and close to one side of the frame body; the first sliding block group is sleeved on the first guide rod and can slide along the axial direction of the first guide rod; the first inserting plate is fixedly assembled with the first sliding block group at one end and extends towards one side of the first strip-shaped groove at the other end, and the first inserting plate and the first sliding block group can synchronously move to penetrate through the first strip-shaped groove to close the discharging channel or withdraw from the first strip-shaped groove to open the discharging channel; and the first driving structure is fixedly arranged on the inner top wall of the outer cover, is fixedly assembled with the first inserting plate and is used for driving the first inserting plate and the first sliding block group to slide along the first guide rod.

Further, the first driving structure includes: the fixed frame is fixedly assembled with the inner top wall of the outer cover; the first power source is fixedly arranged on the fixed frame; the first driving wheel is fixedly arranged on a power output shaft in the first power source and can synchronously move along with the power output shaft of the first power source; the first rack is fixedly arranged on one side, far away from the discharge hole, of the first plug board, and one side, close to the first driving wheel, of the first rack is meshed with the first driving wheel; and one end of the guide piece is fixedly arranged on the fixed frame, the other end of the guide piece is abutted to the first rack, and the guide piece plays a role in guiding in the movement process of the first rack.

Further, set up second bar groove on the dustcoat and second bar groove is located under the first bar groove, the second separation element includes: the second guide rod is fixedly arranged on the side wall of the outer cover close to one side of the bottom plate and is parallel to the first guide rod; the second sliding block group is sleeved on the second guide rod and can slide along the axis direction of the second guide rod; the second inserting plate is fixedly assembled with the second sliding block group at one end and extends towards one side of the second strip-shaped groove at the other end, and the second inserting plate and the second sliding block group can synchronously move to penetrate through the second strip-shaped groove to close the discharging channel or withdraw from the second strip-shaped groove to open the discharging channel; and the second driving structure is fixedly arranged on the bottom plate, is fixedly assembled with the second inserting plate and is used for driving the second inserting plate and the second sliding block group to slide along the second guide rod.

Further, the second driving structure includes: a second power source fixedly mounted on the base plate; the second driving gear is fixedly assembled on the power output shaft of the second power source and can synchronously move along with the power output shaft of the second power source; and one end of the second rack is fixedly assembled with the second inserting plate, and the other end of the second rack extends towards one side of the second driving gear and is meshed with the second driving gear.

Furthermore, a first sliding groove and a second sliding groove are formed in the side wall of the outer cover, the first sliding groove is arranged corresponding to the first sliding block set, the second sliding groove is arranged corresponding to the second sliding block set, and the first sliding groove and the second sliding groove are located on different side walls; the first separation assembly is also provided with a first induction assembly, and the second separation assembly is also provided with a second induction assembly; the first inductive component includes: the first starting position switch is fixedly arranged on the outer side wall of the outer cover and is positioned on one side, away from the discharging channel, of the first sliding chute; the first end position switch is fixedly arranged on the outer side wall of the outer cover and is positioned on one side, close to the discharging channel, of the first sliding chute; the first trigger piece is fixedly arranged on the first sliding block group and can slide along with the first sliding block group, and the first trigger piece is used for triggering the first starting position switch or the first ending position switch; the second inductive component includes: the second starting position switch is fixedly arranged on the outer side wall of the outer cover and is positioned on one side, away from the discharging channel, of the second chute; a second end position switch fixedly arranged on the outer side wall of the outer cover, wherein the second end position switch is positioned on one side, close to the discharging channel, of the second chute; and the second trigger piece is fixedly arranged on the second sliding block group and can slide along with the second sliding block group, and the second trigger piece is used for triggering the second starting position switch or the second ending position switch.

Further, the flour discharging device comprises: the mounting frame is fixedly assembled with the weighing element, and a gap is reserved between the mounting frame and the separation device as well as between the mounting frame and the discharge hole; the discharging baffle is rotatably assembled on the mounting frame; the third driving structure is assembled on one side of the mounting rack and used for driving the discharging baffle to rotate; the baffle cover is fixedly arranged on the mounting frame and covers the third driving structure; and the trigger switch is fixedly installed on the mounting frame and connected with the third driving structure, and when the discharge baffle rotates to the maximum rotating position, the discharge baffle starts to drive the trigger switch so as to enable the three driving assemblies to drive the discharge baffle to reset.

Further, ejection of compact baffle through the pivot assembly in on the mount, third drive structure includes: the third power source is fixedly arranged on the fixed frame; a power output shaft of the third power source penetrates through the fixed frame and is fixedly assembled with the second driving wheel; and the transmission gear set is in meshing transmission with the second driving wheel, and under the driving of the second driving wheel, the transmission gear set drives the discharge baffle to rotate.

After the technical scheme is adopted, the utility model has the beneficial effects that: when the powder feeding operation is carried out, firstly, the powder is conveyed into the discharging channel from the storage pushing mechanism, the first inserting plate and the first sliding block set are driven to slide along the first guide rod through the first driving structure, and then the first trigger plate is driven to synchronously move, so that the first trigger plate is separated from the first starting position switch until the discharging channel is closed by the first inserting plate; at the moment, the first trigger plate is matched with the first end position switch, and powder conveyed into the discharging channel is borne on the first inserting plate. Secondly, the second driving mechanism drives the second inserting plate and the second sliding block group to slide along the second guide rod and then drives the second trigger plate to move synchronously, so that the second trigger plate is separated from the second initial position switch, and the second inserting plate of the device seals the discharging channel; at the moment, the second trigger plate is matched with the second end position switch, and in the moving process of the second inserting plate, the first driving structure drives the first inserting plate and the first sliding group to reset, so that the first trigger plate is separated from the first end position switch, and the powder surface is borne on the second inserting plate; and then repeating the steps to ensure that the first inserting plate and the second inserting plate repeatedly seal the discharging channel, the powder surface positioned between the first inserting plate and the second inserting plate falls into the powder surface discharging device, the weighing assembly is used for weighing, when the weight reaches the preset weight, the third driving structure drives the discharging baffle plate to rotate, so that the discharging hole is opened, and the weighed powder surface vertically falls into the meal box to finish one-time discharging. The lower flour device arranged in this way has the advantages of good flour separation effect, ingenious design of the separation structure, simple weighing structure, good weighing effect and accurate metering.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and 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 creative efforts.

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

FIG. 2 is a schematic view of the shield of this embodiment after explosion;

FIG. 3 is a schematic view of a first result of the frame, the separating device, the flour discharging device and the buffering assembly according to the embodiment;

FIG. 4 is a schematic diagram of a second result of the frame, the separating device, the flour discharging device and the buffering assembly according to the embodiment;

FIG. 5 is a schematic view of a first structure of the frame, the separating device, the powder discharging device and the buffering assembly after explosion;

fig. 6 is a schematic view of a second structure of the frame body, the separating device, the powder discharging device and the buffering assembly after explosion.

Description of reference numerals: 1. a frame body; 1a, a discharge channel; 2. a storage pushing mechanism; 3. a drive assembly; 100. a separation device; 101. a first chute; 102. a second chute; 110. a housing; 120. a base plate; 130. a first separation assembly; 131. a first guide bar; 132. a first slider group; 133. a first board insert; 134. a first drive structure; 134a, a fixing frame; 134b, a first power source; 134c, a first drive wheel; 134d, a first rack; 134e, a guide; 140. a second separation assembly; 141. a second guide bar; 142. a second set of sliders; 143. a second board plug; 145. a second drive structure; 145a, a second power source; 145b, a second driving gear; 145c, a second rack; 150. a first sensing assembly; 151. a first start position switch; 152. a first end position switch; 153. a first trigger piece; 160. a second sensing assembly; 161. a second home position switch; 162. a second end position switch; 163. a second trigger piece; 200. a flour discharging device; 210. a mounting frame; 220. a discharge baffle; 230. a third drive structure; 231. a third power source; 232. a second drive wheel; 233. a drive gear set; 240. a shield; 250. a trigger switch; 300. a weighing assembly; 310. a weighing element; 320. fixing a gasket; 330. a fixing sheet; 400. a buffer assembly; 410. a buffer frame; 420. a first buffer block; 420. a second buffer block; 440. a third guide bar; 450. a third slider group; 460. a spring; 500. a wedge block; 600. and assembling the plate.

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 of the present embodiment as necessary without making a contribution thereto after reading the present specification, but all are protected by patent laws within the scope of the claims of the present invention.

The embodiment relates to a flour discharging device with weighing function, as shown in fig. 1-6, comprising: the powder noodle separation device comprises a frame body 1, a storage pushing mechanism 2, a driving assembly 3, a separation device 100, a powder noodle discharging device 200 and a weighing assembly 300.

Specifically, the frame body 1 is provided with a discharge passage 1a and a discharge hole. The storage pushing mechanism 2 is arranged in the frame body 1, the storage pushing mechanism 2 is combined in the frame body 1 to form a plurality of storage cavities, and the storage cavities continuously move to one side of the discharging channel 1a under the driving of the driving assembly 3. The driving component 3 is arranged on the frame body 1 and assembled with the storage pushing mechanism 2. The separating device 100 is fixedly installed on the frame body 1 at a side far away from the driving assembly 3. The working end of the separating device 100 passes through the side wall of the tapping channel 1a and can be moved relative to the tapping channel 1a to close or open the tapping channel 1 a. The separating device 100 is used for separating the flour to be discharged from the whole flour. The powder discharging device 200 is disposed on the frame 1 and away from the driving assembly 3. The flour discharging device 200 is located at the discharging port and is in butt joint with the discharging port. The powder discharging device 200 is used for controlling the opening or closing of the discharging hole, so as to realize the vertical falling of the powder. The weighing unit 300 is disposed between the separating device 100 and the flour discharging device 200. One end of the weighing assembly 300 is fixedly mounted on the separating device 100 far away from the frame body 1, and the other end is fixedly assembled with the flour discharging device 200. The weighing assembly 300 is used for weighing the flour falling into the flour discharging device 200.

It should be noted that the flour discharging device described in this embodiment is mainly used in an automatic flour making and selling apparatus, and the apparatus has a control center (not shown in the drawings). The control center is connected with the storage pushing mechanism 2, the driving assembly 3, the separating device 100, the powder discharging device 200 and the weighing assembly 300, and controls the mechanisms to work sequentially, so that automatic weighing and discharging are realized. The control logic between the control center and each mechanism belongs to the prior art, and meanwhile, the storage pushing mechanism 2 and the driving assembly 3 also belong to the prior art, and therefore, details are not repeated in this embodiment.

Further, as shown in fig. 1-6, the weighing assembly 300 includes: a weighing element 310, a fixing washer 320 and a fixing plate 330. Wherein, one end of the weighing element 310 is fixedly connected with the separating device 100, and the other end is fixedly assembled with the flour discharging device 200 through a fastening screw. The fixing washer 320 is disposed between the weighing element 310 and the separating apparatus 100. The fixing washer 320 serves to maintain a gap between the weighing cell 310 and the powder discharge apparatus 200 and the separating apparatus 100 and the housing 1, thereby facilitating the weighing operation of the weighing cell 310. The fixing plate 330 is tightly attached to the flour discharging device 200, and the fastening screws sequentially penetrate through the fixing plate 330, the flour discharging device 200 and the weighing element 310 to be fixedly assembled.

It should be noted that, since the flour discharging device 200 is installed on the weighing side of the weighing cell 310, the weighing cell 310 needs to be zeroed before use, so as to avoid the influence of the weight of the flour discharging device 200 on the actual weight of the flour, thereby effectively solving the problem of flour weighing error. The weighing element 310 is a heavy sensor, the fixing plate 330 is a metal plate, and the fixing pad 320 is a rubber plate.

Further, as shown in fig. 1 to 6, the separation device 100 includes: housing 110, base plate 120, first separator assembly 130, and second separator assembly 140. Specifically, the housing 110 is fixedly mounted on the frame body 1 at a side away from the driving assembly 3, and the housing 110 has a mounting cavity. The base plate 120 is fixedly assembled with one side of the outer cover 110 far away from the frame body 1. The fixed portion of the first separating member 130 is fixedly assembled with the outer cover 110, and the movable portion of the first separating member 130 is movable relative to the discharging passage 1a and the outer cover 110. The first separating assembly 130 is used to open or close the discharging channel 1 a. The fixed portion of the second separation member 140 is fixedly fitted with the housing 110, the movable portion of the second separation member 140 is movable with respect to the discharging passage 1a and the housing 110, and the second separation member 140 is located directly below the first separation member 130. The second separation assembly 140 is used to open or close the discharge channel 1 a. Under the control of the control center, the first separating assembly 130 and the second separating assembly 140 are conveyed in a crossed mode, so that automatic powder feeding is achieved.

Further, as shown in fig. 1 to 6, the housing 110 is provided with a first strip-shaped groove, and the first strip-shaped groove is close to the discharging channel 1 a. The first separating assembly 130 includes: a first guide rod 131, a first set of sliders 132, a first insert plate 133, and a first drive structure 134.

Specifically, the first guide rod 131 is fixedly installed on the side wall of the outer cover 110 near the frame body 1. The first sliding block set 132 is sleeved on the first guide rod 131, and the first sliding block set 132 can slide along the axial direction of the first guide rod 131. The first insert plate 133 has one end fixedly fitted with the first slider group 132 and the other end extending to the first linear groove side. The first insert plate 133 can move synchronously with the first slide block set 132 to close the discharge passage 1a through the first elongated groove or to open the discharge passage 1a by exiting the first elongated groove. The first driving structure 134 is fixedly installed on the inner top wall of the outer cover 110 and is fixedly assembled with the first inserting plate 133. The first driving structure 134 is used for driving the first inserting plate 133 and the first sliding block set 132 to slide along the first guide rod 131. In this embodiment, two first guide rods 131 are disposed in parallel, and two corresponding first sliding block sets 132 are disposed and respectively sleeved on the two first sleeve rods.

Further, as shown in fig. 1-6, the first drive structure 134 includes: a fixed frame 134a, a first power source 134b, a first driving wheel 134c, a first rack 134d, and a guide 134 e. Specifically, the fixing frame 134a is fixedly assembled with the inner top wall of the outer cover 110. The first power source 134b is fixedly mounted on the fixed frame 134 a. The first driver 134c is fixedly mounted on a power take-off shaft within the first power source 134 b. The first driver 134c is capable of moving synchronously with the power take-off shaft of the first power source 134 b. The first rack 134d is fixedly mounted on the first inserting plate 133 at a side far away from the discharging hole. The first rack 134d is engaged with the first driving wheel 134c on a side thereof close to the first driving wheel 134 c. One end of the guide 134e is fixedly mounted on the fixed frame 134a, the other end of the guide 134e abuts against the first rack 134d, and the guide 134e plays a role in guiding the movement process of the first rack 134 d.

Preferably, as shown in fig. 1 to 6, the fixing frame 134a is generally U-shaped, and the fixing frame 134a is fixedly assembled with the inner top wall of the outer cover 110 by fastening screws. The first power source 134b is a motor, a main body of the motor is fixedly mounted on the fixed frame 134a, and a power output shaft of the motor passes through the fixed frame 134a and is fixedly assembled with the first driving wheel 134 c. A fitting plate 600 is disposed between the first rack 134d and the first insert plate 133, and the fitting plate 600 is used to fit the first insert plate 133 and the first rack 134 d.

Preferably, as shown in fig. 1 to 6, the guide 134e includes: a fixed shaft and a bearing. The fixed shaft is fixedly installed on the fixed frame 134a and is located at the same side of the first driving wheel 134 c. The inner ring fixed mounting of bearing is on the bearing, and the outer lane and the first rack 134d butt of bearing to for first rack 134d direction when first rack 134d moves, and then promote the stationarity of first rack 134d in the operation process.

Further, as shown in fig. 1 to 6, a second strip-shaped groove is formed in the outer cover 110, and the second strip-shaped groove is located right below the first strip-shaped groove. The second separation assembly 140 includes: a second guide rod 141, a second slide block group 142, a second insert plate 143, a discharge passage 1a and a second driving structure 145.

Specifically, the second guide rod 141 is fixedly installed on a side wall of the outer cover 110 close to the bottom plate 120, and the second guide rod 141 is parallel to the first guide rod 131. It should be noted that the first guide rods 131 are located right above the second guide rods 141, and two second guide rods 141 are also provided. The second sliding block set 142 is provided with two blocks, and is respectively sleeved on the two second guide rods 141. The second slider group 142 is slidable in the axial direction of the second guide rod 141. One end of the second insertion plate 143 is fixedly assembled with the second slider group 142, and the other end extends to one side of the second bar-shaped groove. The second insert plate 143 can move synchronously with the second set of slides 142 in order to close the discharge channel 1a through the second elongated slot or to exit the second elongated slot to open the discharge channel 1 a. The second driving structure 145 is fixedly installed on the base plate 120 and fixedly assembled with the second insertion plate 143. The second driving structure 145 is used for driving the second inserting plate 143 and the second slider group 142 to slide along the second guide rod 141.

Further, as shown in fig. 1-6, the second drive structure 145 includes: a second power source 145a, a second pinion gear 145b, and a second rack gear 145 c. Specifically, the second power source 145a is fixedly mounted on the base plate 120. The second driving gear 145b is fixedly mounted to the power take-off shaft of the second power source 145a, and the second driving gear 145b is capable of moving synchronously with the power take-off shaft of the second power source 145 a. One end of the second rack 145c is fixedly assembled with the second insert plate 143, and the other end extends toward the second driving tooth side. The second rack gear 145c is engaged with the second pinion gear 145 b. In the present embodiment, a fitting plate 600 is also provided between the second rack 145c and the second insert plate 143, and the fitting plate 600 is used to fit the second insert plate 143 and the second rack 145 c.

Further, as shown in fig. 1 to 6, a first sliding groove 101 and a second sliding groove 102 are further formed on the side wall of the outer cover 110. The first sliding groove 101 and the first sliding block set 132 are disposed correspondingly, the second sliding groove 102 and the second sliding block set 142 are disposed correspondingly, and the first sliding groove 101 and the second sliding groove 102 are located on different side walls. The first separation element 130 is further provided with a first sensing element 150, and the second separation element 140 is further provided with a second sensing element 160.

Specifically, as shown in fig. 1-6, the first inductive component 150 includes: a first start position switch 151, a first end position switch 152, and a first trigger piece 153. Wherein the first start position switch 151 is fixedly installed on an outer sidewall of the housing 110. The first start position switch 151 is located on a side of the first chute 101 away from the discharging passage 1 a. The first end position switch 152 is fixedly mounted to the outer side wall of the housing 110. The first end position switch 152 is located on the side of the first chute 101 close to the discharging channel 1 a. The first trigger piece 153 is fixedly mounted on the first slider group 132 and is slidable with the first slider group 132. The first trigger piece 153 is used to trigger the first start position switch 151 or the first end position switch 152.

As shown in fig. 1-6, the second inductive component 160 includes: a second start position switch 161, a second end position switch 162, and a second trigger piece 163. Wherein, the second start position switch 161 is fixedly installed on the outer sidewall of the outer cover 110. The second home position switch 161 is located on a side of the second chute 102 away from the discharging passage 1 a. The second end position switch 162 is fixedly mounted to the outer side wall of the housing 110. The second end position switch 162 is located on the side of the second chute 102 near the tapping channel 1 a. The second trigger piece 163 is fixedly mounted on the second slider group 142 and is slidable with the second slider group 142. The second trigger piece 163 is used to trigger the second start position switch 161 or the second end position switch 162. It should be noted that the first sensing assembly 150 and the second sensing assembly 160 are both connected to the control center, so as to provide data assistance for the control center to control the operation of the first separating assembly 130 and the second separating assembly 140.

Further, as shown in fig. 1 to 6, the flour discharging device 200 includes: mounting bracket 210, outfeed baffle 220, third drive structure 230, shield 240, and trigger switch 250. Wherein the mounting bracket 210 is fixedly assembled with the weighing element 310, and a gap is provided between the mounting bracket 210 and the separating device 100 and the discharge hole. The discharge baffle 220 is rotatably mounted on the mounting frame 210, and the discharge baffle 220 is used for opening or closing the discharge hole. A third driving structure 230 is mounted on one side of the mounting frame 210, and the third driving structure 230 is used for driving the discharge baffle 220 to rotate. The shield 240 is fixedly mounted on the mounting frame 210, and the shield 240 covers the third driving structure 230. The trigger switch 250 is fixedly installed on the mounting bracket 210 and connected to the third driving structure 230. When the discharging baffle 220 rotates to the maximum rotating position, the discharging baffle 220 starts to trigger the switch 250, so that the three-driving assembly 3 drives the discharging baffle 220 to reset.

Further, as shown in fig. 1 to 6, the discharge baffle 220 is mounted on the fixing frame 134a through a rotating shaft, and the third driving structure 230 includes: a third power source 231, a second drive pulley 232, and a drive gear set 233. The third power source 231 is fixedly mounted on the fixing frame 134a, and the third power source 231 is a motor. The power output shaft of the third power source 231 passes through the fixed frame 134a and is fixedly assembled with the second driving wheel 232. The transmission gear set 233 is in meshing transmission with the second driving wheel 232, and the transmission gear set 233 drives the discharge baffle 220 to rotate under the driving of the second driving wheel 232. In this embodiment, the pivot is provided with two, and all overlaps in the pivot and be equipped with the gear, is provided with two driving teeth between two gears to realize opening and closing of ejection of compact baffle 220.

As shown in fig. 1-6, the frame body 1 is further provided with a buffer assembly 400, the buffer assembly 400 is disposed in the frame body 1, and one end of the buffer assembly 400 protrudes out of the side wall of the discharging channel 1 a. The buffer assembly 400 is disposed opposite to the separation apparatus 100, and the buffer assembly 400 buffers the first insert plate 133 and the second insert plate 143, thereby preventing the first insert plate 133 and the second insert plate 143 from rigidly colliding with the sidewall of the discharging channel 1 a.

Specifically, the buffer assembly 400 includes: a buffer frame 410, a first buffer block 420, a second buffer block 420, a third guide rod 440, a third slider group 450, and a spring 460. Wherein, the third guide rod 440 is fixedly installed on the inner wall of the frame body 1 through four fixing legs, and two third guide rods 440 are arranged in parallel. The third sliding block set 450 is slidably sleeved on the third guide rod 440, and two third sliding block sets 450 are correspondingly arranged. The buffer frame 410 is fixedly installed on the third slider group 450, and the buffer frame 410 can slide synchronously with the third slider group 450. A first buffer block 420 and a second buffer block 420 are fixedly arranged on one side of the buffer frame 410 close to the discharging channel 1 a. The first buffer block 420 is fixed on the buffer frame 410 by fastening screws, and the second buffer block 420 is fixedly mounted on the lower end surface of the first buffer block 420 by fastening screws. The first buffer block 420 buffers the first board 133, and the second buffer block 420 buffers the second board 143. The lateral wall of the discharging channel 1a is provided with a third strip-shaped groove, and the strip-shaped groove is used for the movement of the first buffer block 420 and the second buffer block 420. In this embodiment, a wedge block 500 is fixedly mounted on the side wall of the discharging channel 1a, and the wedge block 500 guides the falling of the powder surface. And the wedge block 500 is fixedly installed at the upper end of the first buffer block 420.

The working principle of the present embodiment is roughly as follows: when the flour discharging operation is performed, firstly, the flour is sent into the discharging channel 1a from the storage pushing mechanism 2, the first inserting plate 133 and the first sliding block set 132 are driven to slide along the first guide rod 131 by the first driving structure 134, and then the first trigger plate is driven to move synchronously, so that the first trigger plate is separated from the first start position switch 151 until the discharging channel 1a is closed by the first inserting plate 133; the first trigger plate is now engaged with the first end position switch 152 and the powder surface delivered into the outlet channel 1a is carried on the first insert plate 133. Secondly, the second driving mechanism drives the second inserting plate 143 and the second sliding block set 142 to slide along the second guide rod 141, and then drives the second trigger plate to move synchronously, so that the second trigger plate is separated from the second initial position switch 161, and the second inserting plate 143 closes the discharging channel 1 a; at this time, the second trigger plate is matched with the second end position switch 162, and in the process of moving the second insertion plate 143, the first driving structure 134 drives the first insertion plate 133 and the first sliding group to reset, so that the first trigger plate is separated from the first end position switch 152, and the powder surface is borne on the second insertion plate 143; then, the above process is repeated, so that the first inserting plate 133 and the second inserting plate 143 repeatedly close the discharging channel 1a, the flour located between the first inserting plate 133 and the second inserting plate 143 falls into the flour discharging device 200, the weighing assembly 300 weighs the flour, and when the weight reaches a predetermined weight, the third driving structure 230 drives the discharging baffle 220 to rotate, so that the discharging hole is opened, and the weighed flour vertically falls into the meal box, thereby completing one-time discharging. The lower flour device arranged in this way has the advantages of good flour separation effect, ingenious design of the separation structure, simple weighing structure, good weighing effect and accurate metering.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered by the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. A flour discharging device with weighing function comprises: the device comprises a frame body (1), wherein a discharge channel (1a) and a discharge hole are formed in the frame body (1); the storage pushing mechanism (2) is arranged in the frame body (1); and, set up in on support body (1) and with drive assembly (3) of storage push mechanism (2) assembly, its characterized in that, the powder device still includes down:

the separating device (100) is fixedly arranged on one side of the frame body (1) far away from the driving assembly (3), the working end of the separating device (100) penetrates through the side wall of the discharging channel (1a) and can move relative to the discharging channel (1a) to close or open the discharging channel (1a), and the separating device (100) is used for separating powder to be discharged from the whole powder;

the powder discharging device (200) is arranged on one side, far away from the driving assembly (3), of the frame body (1), the powder discharging device (200) is located at the discharging port and is in butt joint with the discharging port, and the powder discharging device (200) is used for controlling the discharging port to be opened or closed so as to achieve vertical falling of powder; and the number of the first and second groups,

the powder noodle weighing device comprises a weighing assembly (300) arranged between the separating device (100) and the powder noodle discharging device (200), one end of the weighing assembly (300) is fixedly installed on one side, far away from the frame body (1), of the separating device (100), the other end of the weighing assembly is fixedly assembled with the powder noodle discharging device (200), and the weighing assembly (300) is used for weighing the weight of powder noodle falling into the powder noodle discharging device (200).

2. The breading unit with weighing function according to claim 1 characterized in that the weighing assembly (300) comprises:

one end of the weighing element (310) is fixedly connected with the separating device (100), and the other end of the weighing element (310) is fixedly assembled with the powder surface discharging device (200) through a fastening screw;

a fixed gasket (320), wherein the fixed gasket (320) is arranged between the weighing element (310) and the separating device (100), and the fixed gasket (320) is used for keeping a gap between the weighing element (310) and the flour discharging device (200) and the separating device (100) and the frame body (1); and the number of the first and second groups,

the fixing plate (330) is tightly attached to the flour discharging device (200), and fastening screws sequentially penetrate through the fixing plate (330), the flour discharging device (200) and the weighing element (310) to be fixedly assembled.

3. The breading unit with weighing function according to claim 2 characterized in that said separating device (100) comprises:

the outer cover (110), the outer cover (110) is fixedly installed on one side, far away from the driving assembly (3), of the frame body (1), and the outer cover (110) is provided with an installation cavity;

the bottom plate (120) is fixedly assembled with one side, far away from the frame body (1), of the outer cover (110);

a first separation assembly (130), a fixed part of the first separation assembly (130) being fixedly assembled with the housing (110), a movable part of the first separation assembly (130) being movable relative to the tapping channel (1a) and the housing (110), the first separation assembly (130) being used to open or close the tapping channel (1 a); and the number of the first and second groups,

a second separation assembly (140), a fixed part of the second separation assembly (140) is fixedly assembled with the housing (110), a movable part of the second separation assembly (140) can move relative to the discharging channel (1a) and the housing (110), the second separation assembly (140) is used for opening or closing the discharging channel (1a), and the second separation assembly (140) is positioned right below the first separation assembly (130).

4. The flour discharging device with weighing function according to claim 3, wherein the housing (110) is provided with a first strip-shaped groove, and the first strip-shaped groove is close to the discharging channel (1a), and the first separating assembly (130) comprises:

a first guide rod (131) fixedly arranged on the side wall of the outer cover (110) close to one side of the frame body (1); the first sliding block group (132) is sleeved on the first guide rod (131) and can slide along the axial direction of the first guide rod (131);

a first insert plate (133) fixedly assembled with the first slide block group (132) at one end and extending towards one side of the first linear groove at the other end, wherein the first insert plate (133) can move synchronously with the first slide block group (132) to penetrate through the first linear groove to close the discharging channel (1a) or withdraw from the first linear groove to open the discharging channel (1 a); and the number of the first and second groups,

and the first driving structure (134) is fixedly arranged on the inner top wall of the outer cover (110), is fixedly assembled with the first inserting plate (133), and is used for driving the first inserting plate (133) and the first sliding block group (132) to slide along the first guide rod (131).

5. A powdered surface discharging device with weighing function according to claim 4, characterized in that said first driving structure (134) comprises:

the fixing frame (134a), the fixing frame (134a) is fixedly assembled with the inner top wall of the outer cover (110);

the first power source (134b), the said first power source (134b) is fixedly mounted on the said fixed mount (134 a); the first driving wheel (134c) is fixedly arranged on a power output shaft in the first power source (134b), and the first driving wheel (134c) can synchronously move along with the power output shaft of the first power source (134 b);

the first rack (134d) is fixedly arranged on one side, far away from the discharge hole, of the first inserting plate (133), and one side, close to the first driving wheel (134c), of the first rack (134d) is meshed with the first driving wheel (134 c); and the number of the first and second groups,

one end of the guide piece (134e) is fixedly arranged on the fixed frame (134a), the other end of the guide piece (134e) is abutted to the first rack (134d), and the guide piece (134e) plays a role in guiding in the movement process of the first rack (134 d).

6. The flour discharging device with the weighing function according to claim 5, wherein a second strip-shaped groove is formed in the outer cover (110) and is located right below the first strip-shaped groove, and the second separating component (140) comprises:

the second guide rod (141) is fixedly arranged on the side wall of the outer cover (110) and close to one side of the bottom plate (120), and the second guide rod (141) is parallel to the first guide rod (131);

the second sliding block group (142) is sleeved on the second guide rod (141) and can slide along the axial direction of the second guide rod (141);

a second insert plate (143) having one end fixedly assembled with the second slider group (142) and the other end extending to one side of the second strip-shaped groove, wherein the second insert plate (143) can move synchronously with the second slider group (142) to pass through the second strip-shaped groove to close the discharging channel (1a) or exit the second strip-shaped groove to open the discharging channel (1 a); and the number of the first and second groups,

and the second driving structure (145) is fixedly arranged on the bottom plate (120), is fixedly assembled with the second inserting plate (143) and is used for driving the second inserting plate (143) and the second sliding block set (142) to slide along the second guide rod (141).

7. A powdered dough discharging device with weighing function according to claim 6, characterized in that said second driving structure (145) comprises:

a second power source (145a) fixedly mounted on the base plate (120);

a second driving gear (145b) fixedly mounted on the power take-off shaft of the second power source (145a) and capable of moving synchronously with the power take-off shaft of the second power source (145 a); and the number of the first and second groups,

and a second rack (145c) having one end fixedly assembled with the second inserting plate (143) and the other end extending to one side of the second driving gear and engaged with the second driving gear (145 b).

8. The flour discharging device with the weighing function according to claim 7, wherein a first sliding chute (101) and a second sliding chute (102) are further formed in the side wall of the housing (110), the first sliding chute (101) is arranged corresponding to the first sliding block set (132), the second sliding chute (102) is arranged corresponding to the second sliding block set (142), and the first sliding chute (101) and the second sliding chute (102) are located on different side walls; a first induction component (150) is further arranged on the first separation component (130), and a second induction component (160) is further arranged on the second separation component (140);

the first inductive component (150) comprises:

a first starting position switch (151) fixedly arranged on the outer side wall of the outer cover (110), wherein the first starting position switch (151) is positioned on one side, away from the discharging channel (1a), of the first sliding chute (101);

a first end position switch (152) fixedly arranged on the outer side wall of the outer cover (110), wherein the first end position switch (152) is positioned on one side of the first chute (101) close to the discharging channel (1 a); and a first trigger piece (153) fixedly mounted on the first slider group (132) and slidable with the first slider group (132), the first trigger piece (153) being for triggering the first start position switch (151) or the first end position switch (152);

the second inductive component (160) comprises:

a second starting position switch (161) fixedly arranged on the outer side wall of the outer cover (110), wherein the second starting position switch (161) is positioned on one side, away from the discharging channel (1a), of the second sliding chute (102);

a second end position switch (162) fixedly arranged on the outer side wall of the outer cover (110), wherein the second end position switch (162) is positioned on one side of the second chute (102) close to the discharging channel (1 a); and a second trigger piece (163) fixedly mounted on the second slider group (142) and slidable with the second slider group (142), the second trigger piece (163) being for triggering the second start position switch (161) or the second end position switch (162).

9. A breading unit with weighing function according to claim 8 characterized in that the breading discharge unit (200) comprises:

a mounting bracket (210), wherein the mounting bracket (210) is fixedly assembled with the weighing element (310), and a gap is formed between the mounting bracket (210) and the separation device (100) and the discharge hole;

the discharging baffle (220), the discharging baffle (220) is rotatably assembled on the mounting rack (210);

a third driving structure (230), wherein the third driving structure (230) is assembled at one side of the mounting rack (210), and the third driving structure (230) is used for driving the discharging baffle (220) to rotate;

the blocking cover (240) is fixedly arranged on the mounting frame (210), and the blocking cover (240) covers the third driving structure (230); and the number of the first and second groups,

trigger switch (250), trigger switch (250) fixed mounting in on mounting bracket (210), and with third drive structure (230) are connected, when ejection of compact baffle (220) rotate to the maximum pivoted position, ejection of compact baffle (220) start trigger switch (250), so that three drive assembly (3) drive ejection of compact baffle (220) reset.

10. The powder discharge device with weighing function according to claim 9, wherein the discharge baffle (220) is mounted on the fixed frame (134a) through a rotating shaft, and the third driving structure (230) comprises:

a third power source (231), wherein the third power source (231) is fixedly arranged on the fixed frame (134 a);

a power output shaft of the third power source (231) penetrates through the fixed frame (134a) and is fixedly assembled with the second driving wheel (232); and the number of the first and second groups,

the transmission gear set (233) is in meshing transmission with the second driving wheel (232), and the transmission gear set (233) drives the discharge baffle (220) to rotate under the driving of the second driving wheel (232).

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