CN209275561U - A kind of batch bin efficiently conveyed - Google Patents

Abstract

The utility model relates to the batch bins that one kind efficiently conveys, including pedestal, hopper is provided on the pedestal, gauge assembly and conveying assembly for conveying material, the conveying assembly includes the feed belt that pedestal is fixedly connected with motor and is fixedly connected with motor, the discharge port being provided on the gauge assembly above the feed belt, it is located at the setting of feed belt two sides on the pedestal and slidably connects at least two groups baffle for preventing material from sliding, the baffle and the feed belt are located in same level, the baffle is fixedly connected with for realizing baffle along the transmission component moved perpendicular to the feed belt extending direction, the transmission component is fixedly connected with the motor, the transmission component is slidably connected with the pedestal.The utility model has baffle along horizontal motion, avoids material from the effect of two Slideslip of feed belt.

Description

A kind of batch bin efficiently conveyed

Technical field

The utility model relates to the technical field of construction material process equipment, the ingredient efficiently conveyed more particularly, to one kind Storehouse.

Background technique

At present in concrete plant technique, being equipped with equipment has batch bin, and function is used for by each component powdery needed for formula The receiving of raw material is stored and is drawn off, with guarantee production be carried out continuously, it can according to different concrete mixs, be automatically performed sand, The batching of stone, cement etc. is the ideal equipment for guaranteeing concrete quality, improving quality, reducing labor intensity, and traditional is mixed Solidifying soil proportioning machine can only ingredient, transported next step hybrid working after ingredient, such working forms greatly reduce Work task efficiency wastes the waste of human and material resources, and the proportioning machine with mixing arrangement will appear mixed effect, Material flows out on movement feed belt from the gauge assembly in batch bin, and the two sides of feed belt are equipped with gap, and material is easy It slides.

Existing Authorization Notice No. is that the Chinese patent of CN204549016U discloses a kind of sandstone batch bin, including warehouse It singly starts discharging bin gate, bin gate of singly starting discharging is rotatably mounted to each exit in warehouse bottom and is driven from a cylinder to warehouse side Unscrew, the batch bin further include an antiseize device for being mounted on the warehouse bottom other side, if antiseize device include shaft and Dry weight hammers plate into shape, and shaft is mounted on the warehouse bottom other side, and the axle center of the shaft is parallel with the axis of rotation for bin gate of singly starting discharging, institute State weight plate be installed in series in shaft and can axle center around the shaft independently rotate, the bin gate of singly starting discharging is driven by the cylinder to storehouse Body other side rotary closing and connecting with the side of each weight plate engages.Above-mentioned technical proposal passes through in existing sandstone batch bin Bottom side adds a kind of antiseize device, and due to gravity, each weight plate of antiseize device is vertically fallen, when bin gate of singly starting discharging Closure, each weight plate face can gradually be connected to the side at warehouse center with the side bottom for bin gate of singly starting discharging, to prevent to get stuck The generation of phenomenon.

Prior art among the above has the following deficiencies: material from the bin gate stream of singly starting discharging gradually being connected with warehouse When out to conveyer belt, material is tumbled from feed belt, influences the working efficiency of batch bin.

Utility model content

The purpose of the utility model is to provide the batch bins that one kind efficiently conveys, and having prevents from being flowed into from gauge assembly Material on feed belt slides, and improves the working efficiency of batch bin.

The above-mentioned purpose of utility model of the utility model has the technical scheme that

A kind of batch bin efficiently conveyed, including pedestal are provided with hopper, gauge assembly on the pedestal and for defeated The conveying assembly of material is sent, the conveying assembly includes the transmission skin that pedestal is fixedly connected with motor and is fixedly connected with motor Band, the discharge port being provided on the gauge assembly above the feed belt are located at feed belt two on the pedestal Side setting slidably connects at least two groups baffle for preventing material from sliding, and the baffle and the feed belt are located at same level On face, the baffle is fixedly connected with for realizing baffle along the transmission group moved perpendicular to the feed belt extending direction Part, the transmission component are fixedly connected with the motor, and the transmission component is slidably connected with the pedestal.

By using above-mentioned technical proposal, material is placed in hopper, and gauge assembly control material flows into feed belt Flow, baffle moves along perpendicular to the direction that driving belt moves, motor driven feed belt feed belt, while motor Transmission component movement is driven, under the transmission effect of transmission component, baffle is moved along perpendicular to feed belt extending direction, is kept away Exempt from material to tumble during conveying from the two sides of feed belt.

The utility model is further arranged to: the transmission component include the bidirectional helical bar being fixedly connected with motor and With the sliding bar of bidirectional helical bar grafting sliding, the sliding bar is fixedly connected with the baffle, the bidirectional helical bar Horizontally disposed and direction is perpendicular to the feed belt direction of motion along the bidirectional helical bar and the base rotation connect It connects, the sliding bar is slidably connected with the pedestal.

By using above-mentioned technical proposal, motor driven bidirectional helical bar rotates, and sliding bar is in bidirectional helical bar It rotates and along being moved in horizontal direction.

The utility model is further arranged to: being provided on the bidirectional helical bar for driving the sliding bar back and forth to transport Dynamic forward thread groove and reverse thread slot, the forward thread groove and the reverse thread slot to be staggered, it is described forward The end positions of thread groove and the reverse thread slot are smooth connection.

By using above-mentioned technical proposal, sliding bar is moved along forward thread groove, when sliding bar move to it is two-way When one end of threaded rod, sliding bar moves in the opposite direction in reverse thread slot, realizes sliding bar along horizontal defence line Upper reciprocating motion.

The utility model is further arranged to: the sliding slot for sliding bar sliding is provided on the pedestal, it is described Sliding bar passes through the sliding slot and is fixedly connected with the baffle.

By using above-mentioned technical proposal, bidirectional helical bar drives sliding bar to rotate and along transporting in horizontal direction Dynamic, sliding bar passes through sliding slot, and sliding bar is abutted with sliding slot inner wall during rotation, and sliding slot limits the rotation of sliding bar, sliding Lever in horizontal direction along moving.

The utility model is further arranged to: the forward thread groove extends with the reverse thread slot along horizontal direction Equal length, the forward thread groove and the reverse thread slot are less than the baffle along the length that horizontal direction extends With the horizontal distance of discharge port end face circle center.

By using above-mentioned technical proposal, sliding bar is equal to suitable in bidirectional helical bar along the distance moved in horizontal direction To the length of thread groove, baffle along the distance moved in horizontal direction be less than baffle to discharging end face circle center level away from From material is pushed to the lower section of driving belt top discharge mouth by baffle, and material is avoided to tumble.

The utility model is further arranged to: the baffle is fluted close to the setting of the side of the sliding bar, described Sliding bar is hinged with drive rod, and the drive rod is plugged in the groove, and the sliding bar is fixedly connected with for driving Baffle is stated along the wobble component moved straight up, the slide plate for barrier slides, the slide plate are hinged on the pedestal One end and pedestal it is hinged, the wobble component is located at the lower section of the slide plate.

By using above-mentioned technical proposal, baffle moves back and forth in the horizontal direction, and baffle is along being directed away from transmission skin The direction of band moves, and to avoid in plate motion process, carries material and tumbles from feed belt, sliding bar drives wobble component Movement, wobble component drive slide plate along vertical direction on, for baffle along slide plate towards moving upwards, drive rod is plugged in groove It is interior, drive rod be plugged in groove portion size be greater than slot opening at size, drive rod in groove along vertical direction It is upper to slide and be skidded off out of groove.

The utility model is further arranged to: the wobble component include the rack gear being fixedly connected with sliding bar, with it is described The gear of rack gear engagement connection and half gear being coaxially disposed with gear, the gear teeth of half gear are abutted with the slide plate, The abutting slot abutted for half gear with the slide plate is provided on the pedestal.

By using above-mentioned technical proposal, sliding bar drives rack movement, the rotation of rack drives gear, and gear drives half tooth Wheel rotates together, and upper movement, the gear teeth of half gear abut half gear with slide plate along vertical direction, and one end of slide plate and pedestal are cut with scissors It connects, for the other end of slide plate along moving straight up, baffle is driven to movement.

The utility model is further arranged to: the half gear circumferential direction gear teeth are set as half-turn, the half gear half-turn wheel The circumferential size of tooth is equal along the development length of horizontal direction with the forward thread groove.

It passes through abutting slot by using above-mentioned technical proposal, in half gear rotation process to abut with slide plate, when baffle direction When far from feed belt direction setting in motion, half gear is turned to abut with slide plate, and baffle is along straight up and being directed away from Feed belt movement avoids baffle from carrying material and slides from feed belt.

In conclusion the advantageous effects of the utility model are as follows:

1. on the material movement to feed belt in hopper, motor driven transmission component setting in motion, transmission component is driven Baffle avoids material from sliding from feed belt two sides along horizontal motion, scraper along horizontal motion；

2. motor driven bidirectional helical bar, sliding bar is moved back and forth along in horizontal direction towards feed belt direction, sliding Lever drives baffle to move towards feed belt direction, at this point, sliding bar drives rack movement, rack drives gear is rotated, and half Gear is driven on vertical direction and rotates, and moves when baffle is driven toward far from feed belt direction, and the driving of half gear is slided For plate towards moving upwards, baffle follows slide plate to move upwards, and baffle is avoided to move upwards.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the left view structural representation of the utility model；

Fig. 3 is A-A schematic cross-sectional view in Fig. 2；

Fig. 4 is B partial enlargement diagram in Fig. 3.

In figure, 1, pedestal；2, hopper；3, gauge assembly；4, conveying assembly；5, motor；6, feed belt；7, discharge port； 8, baffle；9, transmission component；10, bidirectional helical bar；11, sliding bar；12, forward thread groove；13, reverse thread slot；14, sliding Slot；15, wobble component；16, slide plate；17, rack gear；18, gear；19, half gear；20, slot is abutted；21, groove；22, drive rod.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Referring to Fig.1, the batch bin efficiently conveyed for one kind disclosed by the utility model, including pedestal 1 are arranged on pedestal 1 Hopper 2 for storing material, the conveying assembly 4 positioned at the gauge assembly 3 of 2 lower section of hopper and for conveying material, hopper 2 Both ends on along vertical direction are disposed as being open, and material is entered out of hopper 2 in gauge assembly 3, and gauge assembly 3 is close One end of conveying assembly 4 is provided with discharge port 7, passes through the trigger induction control 7 position material of discharge port in gauge assembly 3 Flow, realize quantitative conveying to material.

As shown in Figure 1, conveying assembly 4 includes the motor 5 being fixedly connected with pedestal 1 and the biography with the rotation connection of motor 5 Belt 6 is sent, feed belt 6 is located at the lower section of discharge port 7, and motor 5 is fixedly connected with roller, under the action of roller, transmits skin Band 6 starts turning, and material slides from the two sides of feed belt 6 in order to prevent, and the two sides of feed belt 6 are provided with two groups of baffles 8, Baffle 8 extends towards the direction that feed belt 6 extends, and the lower end of baffle 8 and feed belt 6 are located in same level, baffle 8 It is slidably connected with pedestal 1, baffle 8 is fixedly connected with for realizing baffle 8 along moving perpendicular to 6 extending direction of feed belt Four groups of transmission components 9, transmission component 9 are slidably connected with pedestal 1, and four groups of transmission components 9 are fixedly connected with motor 5.

As shown in figure 3, transmission component 9 include the bidirectional helical bar 10 being fixedly connected with motor 5 and with bidirectional helical bar The sliding bar 11 of 10 grafting sliding, bidirectional helical bar 10 and pedestal 1 are rotatablely connected, and sliding bar 11 is slidably connected with pedestal 1, two-way Forward thread groove 12 and reverse thread slot 13 are provided on threaded rod 10, forward thread groove 12 and reverse thread slot 13 are mutually handed over Mistake, forward the both ends link position of thread groove 12 and reverse thread slot 13 is set as smooth connection, when sliding bar 11 moves to When the both ends of bidirectional helical bar 10, it is ensured that sliding bar 11 is smooth to replace sliding with reverse thread slot 13 by forward thread groove 12, double Extend to threaded rod 10 towards along perpendicular to 6 extending direction of feed belt, sliding bar 11 extends along bidirectional helical bar 10 Direction movement.

As shown in figure 3, sliding bar 11 is fixedly connected with baffle 8, sliding bar 11 is plugged in forward thread groove 12 or reversed spiral shell In groove 13, the useful sliding slot 14 extended towards 10 extending direction of bidirectional helical bar is set, sliding bar 11 passes through sliding slot on pedestal 1 14 are fixedly connected with baffle 8, and bidirectional helical bar 10 is started turning by the driving of motor 5, and sliding bar 11 follows bidirectional helical bar 10 1 It rises and rotates and slide in the horizontal direction, sliding bar 11 is abutted with 14 inner wall of sliding slot, the rotation of 14 limit slippage bar 11 of sliding slot, sliding Lever 11 can only be along sliding in horizontal direction, and forward thread groove 12 and reverse thread slot 13 are along the ruler extended in horizontal direction Very little equal, forward the length of thread groove 12 determines the distance that sliding bar 11 moves in the horizontal direction, forward the length of thread groove 12 Degree is less than 7 end face circle center of discharge port to the distance of baffle 8, and baffle 8 is along horizontal motion and will be on feed belt 6 Material pushes to the position far from 6 two sides of feed belt, and material is pushed to the feed belt 6 between two groups of baffles 8.

As shown in figs. 1 and 4, baffle 8 is moved back and forth in the horizontal direction by the driving of bidirectional helical bar 10, and baffle 8 is towards remote When from the movement of 6 direction of feed belt, baffle 8 can carry partial material in order to prevent, be provided with below baffle 8 on pedestal 1 Slide plate 16 for sliding for baffle 8, slide plate 16 is hinged close to one end of feed belt 6 and pedestal 1, the other end of slide plate 16 around Pedestal 1 swing in the vertical direction, sliding bar 11 be fixedly connected with anti-baffle plate 8 be directed away from feed belt 6 movement Four groups of wobble components 15 of material are carried in the process, and wobble component 15 abuts with slide plate 16 and is located at 16 lower section of slide plate.

As shown in figs. 1 and 4, wobble component 15 include the rack gear 17 being fixedly connected with sliding bar 11, with 17 company of engagement of rack gear The gear 18 connect and half gear 19 being coaxially disposed with gear 18, rack gear 17 is horizontally disposed and is slidably connected with pedestal 1, gear 18 are rotatablely connected with pedestal 1, and for sliding bar 11 with carry-over bar 17 along moving in horizontal direction, gear 18 is driven in vertical direction On rotate, half gear 19 is rotatablely connected with pedestal 1, and the half-turn gear teeth are provided on half gear 19, are located at half gear on pedestal 1 19 position, which is provided with, abuts slot 20, and the gear teeth of half gear 19 pass through abutting slot 20 and abut with slide plate 16, abut slot 20 along dampening Square upward size is greater than the diameter of half gear 19.

As shown in Figure 1 and Figure 4, the circumferential size of half gear, the 19 half-turn gear teeth is with forward thread groove 12 along horizontal direction Development length is equal, and when baffle 8 is directed away from conveyer belt movement, the gear teeth of half gear 19 pass through abutting slot 20 and support with slide plate 16 It connects, the separate one end with feed belt 6 of slide plate 16 moves upwards, and baffle 8 is directed away from transmission skin under the action of sliding bar 11 Direction with 6 moves, and baffle 8 is away from one end setting fluted 21 of feed belt 6, and sliding bar 11 is hinged with horizontally disposed Drive rod 22, drive rod 22 are plugged in groove 21 and move back and forth along vertical direction in groove 21,22 grafting of drive rod It is greater than the size of 21 opening of groove, the upper sliding along vertical direction in groove 21 of drive rod 22 in the portion size of groove 21 And will not be skidded off out of groove 21, baffle 8 moves straight up under the action of slide plate 16, and drive rod 22 is opposite to exist with baffle 8 It is moved downward in groove 21, baffle 8 moves in the direction that vertical direction is directed away from feed belt 6, and baffle 8 is avoided to transport in level Material is carried during dynamic and is slid.

The implementation principle of the present embodiment are as follows: material is flowed into out of hopper 2 in gauge assembly 3, the control discharging of gauge assembly 3 Mass flow at mouth 7, material are flowed on feed belt 6 from discharge port 7, and motor 5 drives bidirectional helical bar 10 to rotate, two-way Threaded rod 10 drives baffle 8 to move towards 6 direction of feed belt, and material is pushed to the biography between two groups of baffles 8 by two groups of baffles 8 Send belt 6 position, the gear teeth of half gear 19 are not abutted with slide plate 16 at this time；Bidirectional helical bar 10 continues to rotate, and baffle 8 is driven It is directed away from the direction movement of feed belt 6, is abutted at this point, the gear teeth of half gear 19 pass through abutting slot 20 with slide plate 16, slide plate 16 one end for being away from feed belt 6 move upwards, and baffle 8 moves upwards on slide plate 16, and material is conveyed in feed belt 6 To next process equipment, avoids baffle 8 from carrying material and slide, influence the working efficiency of batch bin.

The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical Within novel protection scope.

Claims (8)

1. the batch bin that efficiently conveys of one kind, including pedestal (1), hopper (2), gauge assembly (3) are provided on the pedestal (1) And the conveying assembly (4) for conveying material, it is characterised in that: the conveying assembly (4) includes fixed with the pedestal (1) The motor (5) of connection and the feed belt (6) being fixedly connected with the motor (5) are provided with position on the gauge assembly (3) Discharge port (7) above the feed belt (6), be located on the pedestal (1) feed belt (6) two sides slidably connect to Few two groups of baffles (8) for preventing material from sliding, the baffle (8) and the feed belt (6) are located in same level, described Baffle (8) is fixedly connected with for realizing baffle (8) along the transmission group moved perpendicular to the feed belt (6) extending direction Part (9), the transmission component (9) are fixedly connected with the motor (5), and the transmission component (9) and the pedestal (1) sliding connect It connects.

2. the batch bin that one kind according to claim 1 efficiently conveys, it is characterised in that: the transmission component (9) includes The bidirectional helical bar (10) being fixedly connected with motor (5) and the sliding bar with bidirectional helical bar (10) grafting sliding (11), the sliding bar (11) is fixedly connected with the baffle (8), and the bidirectional helical bar (10) is horizontally disposed and towards vertical It is arranged in the feed belt (6) direction of motion, the bidirectional helical bar (10) and the pedestal (1) are rotatablely connected, the cunning Lever (11) is slidably connected with the pedestal (1).

3. the batch bin that one kind according to claim 2 efficiently conveys, it is characterised in that: on the bidirectional helical bar (10) Be provided with for drive the sliding bar (11) move back and forth forward thread groove (12) and reverse thread slot (13), it is described forward Thread groove (12) is to be staggered with the reverse thread slot (13), the forward thread groove (12) and the reverse thread slot (13) end positions are smooth connection.

4. the batch bin that one kind according to claim 3 efficiently conveys, it is characterised in that: be provided on the pedestal (1) For the sliding slot (14) of the sliding bar (11) sliding, the sliding bar (11) passes through the sliding slot (14) and the baffle (8) It is fixedly connected.

5. the batch bin that one kind according to claim 4 efficiently conveys, it is characterised in that: the forward thread groove (12) with The equal length that the reverse thread slot (13) extends along horizontal direction, the forward thread groove (12) and the reversed spiral shell Groove (13) is less than the level of the baffle (8) and the discharge port (7) end face circle center along the length that horizontal direction extends Distance.

6. the batch bin that one kind according to claim 5 efficiently conveys, it is characterised in that: the baffle (8) is close to institute Fluted (21) are arranged in the side for stating sliding bar (11), and the sliding bar (11) is fixedly connected with drive rod (22), the transmission Bar (22) is connected in the groove (21), and the sliding bar (11) is fixedly connected with for driving the baffle (8) along perpendicular The wobble component (15) directly moved upwards is hinged with the slide plate (16) for baffle (8) sliding, the cunning on the pedestal (1) Hingedly, the wobble component (15) is located at the lower section of the slide plate (16) for one end and pedestal (1) of plate (16).

7. the batch bin that one kind according to claim 6 efficiently conveys, it is characterised in that: the wobble component (15) includes The rack gear (17) that is fixedly connected with sliding bar (11), engaged with the rack gear (17) gear (18) connecting and with gear (18) Half gear (19) of coaxial arrangement, the gear teeth of half gear (19) abut with the slide plate (16), are arranged on the pedestal (1) There is the abutting slot (20) abutted for half gear (19) with the slide plate (16).

8. the batch bin that one kind according to claim 7 efficiently conveys, it is characterised in that: half gear (19) is circumferentially taken turns Tooth is set as half-turn, and the circumferential size of half gear (19) the half-turn gear teeth and the forward thread groove (12) are along horizontal direction Development length it is equal.