CN221139722U - Material conveying device of combination balance - Google Patents

Abstract

The utility model discloses a material conveying device of a combination scale, which aims to solve the technical problem that the existing combination scale is low in material output efficiency. The utility model comprises a frame, a transverse conveying mechanism, a longitudinal conveying mechanism and a discharging mechanism, wherein the transverse conveying mechanism comprises a transverse left conveying mechanism and a transverse right conveying mechanism which are symmetrically arranged along a vertical plane, the middle of the transverse left conveying mechanism and the middle of the transverse right conveying mechanism are provided with intervals, the transverse left conveying mechanism and the transverse right conveying mechanism oppositely convey materials to the intervals, the longitudinal conveying mechanism is arranged below the transverse conveying mechanism, the center line of the longitudinal conveying mechanism coincides with the vertical plane, the width of the longitudinal conveying mechanism is larger than the interval between the transverse conveying mechanisms, the discharging mechanism is arranged at the tail end of the longitudinal conveying mechanism, the discharging mechanism is of a straight cylindrical structure, and the bottom of the discharging mechanism is provided with a gate. The utility model has the beneficial effects that: and the output efficiency of the materials of the combination balance is improved.

Description

Material conveying device of combination balance

Technical Field

The utility model relates to the technical field of weighing equipment, in particular to a material conveying device of a combination scale.

Background

The combined balance utilizes the principle of combined weighing, and materials are vibrated down from a blanking groove above through a main vibration disc to reach a line vibration disc of each head. When the first layer hopper (called a storage hopper) is empty, vibrating the materials from the line vibration plate to the storage hopper according to the set vibration time. When the weighing hopper below the storage hopper is empty after discharging, the storage hopper is opened and discharged to the weighing hopper, the weighing hopper starts weighing, and then the corresponding weighing hoppers are taken for combination so that the weight of the finally obtained material is in the average range.

After the existing combination balance is used for weighing materials, the materials are released by the weighing hopper and fall onto a conveying belt with the same width as the combination balance, a funnel-shaped buffer hopper is arranged at the tail end of the conveying belt, the materials are concentrated towards the center by the buffer hopper and then released to the feeding hopper, and the feeding hopper is used for conveying to a rear packing machine. But because the width of the conveyer belt is big among the prior art, the slope slow speed that the material naturally slips when buffering fill to the central concentrated material is slow, causes the inefficiency of output material.

Disclosure of utility model

The utility model provides a material conveying device of a combination scale, which aims to solve the technical problem that the existing combination scale is low in material output efficiency.

In order to solve the technical problems, the utility model adopts the following technical scheme:

The utility model provides a combination balance material conveyor installs in combination balance below, includes frame, horizontal conveying mechanism, vertical conveying mechanism, discharge mechanism, horizontal conveying mechanism includes along vertical plane symmetry setting, middle horizontal left conveying mechanism and the horizontal right conveying mechanism of interval have, horizontal left conveying mechanism and horizontal right conveying mechanism to the interval subtend transport material, vertical conveying mechanism sets up in horizontal conveying mechanism below and its centre with vertical plane coincidence, vertical conveying mechanism's width with interval phase-match between the horizontal conveying mechanism, discharge mechanism set up in vertical conveying mechanism's end, it is straight tubular structure, the bottom is provided with the gate.

Further, the frame includes top frame, bottom frame, side support frame, the side support frame includes vertical support frame and slant support frame, and vertical support frame sets up between top frame and bottom frame, and the slant support frame bottom is fixed on top frame, the top obliquely upwards with combination balance fixed connection, horizontal conveying mechanism, vertical conveying mechanism set up in between top frame and the bottom frame.

Further, the edge of the top frame is provided with a blanking plate which is inclined downwards.

Further, horizontal left conveying mechanism and horizontal right conveying mechanism are horizontal synchronous conveyer belt, and this horizontal synchronous conveyer belt includes first side mounting bracket, first head cylinder, first afterbody cylinder, first belt, and first head cylinder and first afterbody cylinder are installed on first side mounting bracket and can drive first belt motion, the bottom of first side support frame is provided with supporting part in order to raise horizontal synchronous conveyer belt, be provided with first layer board on the first side mounting bracket and be used for supporting first belt.

Further, the vertical conveying mechanism is a vertical synchronous conveying belt, the vertical synchronous conveying belt comprises a second side mounting frame, a second head roller, a second tail roller and a second belt, the second head roller and the second tail roller are mounted on the second side mounting frame and can drive the second belt to move, the bottom of the second side supporting frame is fixedly connected with the frame, and a second supporting plate is arranged on the second side mounting frame and used for supporting the second belt.

Further, two sides of the longitudinal conveying mechanism are provided with baffle plates, and the tail ends of the baffle plates are outwards opened so as to facilitate discharging.

Further, the combination balance comprises a plurality of weighing bins which are circumferentially arranged and symmetrical along the vertical plane, and the weighing bins on two sides of the vertical plane are respectively positioned above the transverse left conveying mechanism and the transverse right conveying mechanism and are not more than the edges of the interval.

Further, the lateral left conveying mechanism and the lateral right conveying mechanism are horizontally arranged or obliquely downwards arranged towards the interval.

Further, the discharging mechanism comprises a discharging cylinder and an annular frame body, the annular frame body is fixedly connected with the longitudinal conveying mechanism, and the discharging cylinder is fixed on the annular frame body.

Further, the bottom of a discharging barrel is inverted triangle, the gate comprises a motor, a connecting rod, a left gate plate, a right gate plate, a left connecting arm, a middle connecting arm and a right connecting arm, one end of the connecting rod is connected to the motor, the other end of the connecting rod is rotatably connected with the left gate plate, the left gate plate is rotatably connected with the discharging barrel through the left connecting arm, the right gate plate is rotatably connected with the discharging barrel through the right connecting arm, and two ends of the middle connecting arm are respectively connected to the left connecting arm and the right connecting arm.

Compared with the prior art, the utility model has the beneficial technical effects that:

According to the utility model, the materials released by the combination balance are concentrated towards the center by using the two symmetrical transverse conveying belts, and then the materials are directly conveyed into the feeding hopper by the longitudinal conveying belts, so that the process of collecting materials towards the center by the buffer hopper is omitted, and compared with the process of actively conveying the materials from the buffer hopper to the center, the speed of sliding the materials towards the center by the transverse conveying belts is faster, and the conveying efficiency is greatly improved.

Drawings

FIG. 1 is a schematic diagram of a material conveying device of a combination weigher of the present utility model.

Fig. 2 is a schematic front view of the material conveying device of the combination weigher of the present utility model.

Fig. 3 is a schematic structural view of a frame of the material conveying device of the combination weigher of the present utility model.

Fig. 4 is a schematic structural view of a transverse conveying mechanism of the material conveying device of the combination weigher of the present utility model.

Fig. 5 is a schematic structural view of a longitudinal conveying mechanism of the material conveying device of the combination weigher of the present utility model.

Fig. 6 is a schematic front view of a discharge mechanism of the material conveying device of the combination weigher of the present utility model.

FIG. 7 is a schematic rear view of a discharge mechanism of the combination weigher material handling apparatus of the present utility model.

In the figure, a combination weigher 1, a machine frame 2, a transverse conveying mechanism 3, a longitudinal conveying mechanism 4, a discharging mechanism 5, a base 6, a top frame 21, a bottom frame 22, a side support frame 23, a blanking plate 24, a first side mounting frame 31, a first head roller 32, a first tail roller 33, a first belt 34, a first motor 35, a support plate 36, a second side mounting frame 41, a second head roller 42, a second tail roller 43, a second belt 44, a second motor 45, a striker plate 46, a discharging cylinder 51, an annular frame 52, a right shutter plate 53, a left shutter plate 54, a right shutter arm 55, a left shutter arm 56, a middle shutter arm 57, a shutter motor 58, a link rod 59, a mounting block 60, and a rear shutter plate 61.

Detailed Description

The following examples are given to illustrate the utility model in detail, but are not intended to limit the scope of the utility model in any way.

Example 1: the material conveying device of the combination balance, see fig. 1 and 2, comprises a frame 2, a transverse conveying mechanism 3, a longitudinal conveying mechanism 4 and a discharging mechanism 5, wherein the material output device is arranged below the combination balance 1. The transverse conveying mechanism comprises a transverse left conveying mechanism and a transverse right conveying mechanism which are symmetrically arranged along a central vertical plane and are provided with intervals in the middle, the transverse left conveying mechanism and the transverse right conveying mechanism convey materials to the intervals in opposite directions, the longitudinal conveying mechanism is arranged below the transverse conveying mechanism, the central vertical plane and the central vertical plane of the longitudinal conveying mechanism coincide, the width of the longitudinal conveying mechanism is larger than the interval between the transverse conveying mechanisms, the discharging mechanism is arranged at the tail end of the longitudinal conveying mechanism and is of a straight cylindrical structure, and the bottom of the discharging mechanism is provided with a gate.

The frame 2 is fixed on the base 6, and the structure of the frame is shown in fig. 3, and comprises a top frame 21, a bottom frame 22 and a side support 23, wherein the frames are all of steel pipe structures. The side support 23 comprises a vertical support and an oblique support, the vertical support is fixedly arranged between the top frame 21 and the bottom frame 22, the bottom of the oblique support is fixedly arranged on the top frame 21, the top of the oblique support is obliquely upwards fixedly connected with the combination weigher 1, and the oblique support is used for supporting the combination weigher to be located above the frame 2. The lateral conveying mechanism and the longitudinal conveying mechanism are disposed between the top frame 21 and the bottom frame 22. The edges of the top frame 21 are provided with a blanking plate 24 which is inclined downwards, on the one hand preventing material from overflowing from the edges and on the other hand facilitating quick blanking.

The transverse left conveying mechanism and the transverse right conveying mechanism are both transverse synchronous conveying belts, taking the transverse right conveying mechanism as an example, referring to fig. 4, the transverse synchronous conveying belts comprise a first side mounting frame 31, a first head roller 32, a first tail roller 33 and a first belt 34, the first head roller 31 and the first tail roller 32 are mounted on the first side mounting frame 31 and can be driven by a first motor 35 to move by the first belt 34, a supporting component is arranged at the bottom of the first side supporting frame 31 to lift the transverse synchronous conveying belt, the supporting component is a vertical supporting plate 36, and the bottom of the supporting plate 36 is fixedly mounted on the base 6. A first pallet is provided on the first side mount 31 below the first belt 34 for supporting the first belt 34.

The longitudinal conveying mechanism is a longitudinal synchronous conveying belt, the structure of the longitudinal synchronous conveying belt is similar to that of the transverse conveying mechanism, referring to fig. 5, the longitudinal synchronous conveying belt comprises a second side mounting frame 41, a second head roller 42, a second tail roller 43 and a second belt 44, the second head roller 42 and the second tail roller 43 are mounted on the second side mounting frame 41 and can be driven by a second motor 45 to move by the second belt 44, the bottom of the second side supporting frame 41 is fixedly connected with the bottom frame 22 through a fixing block, a second supporting plate is arranged on the second side mounting frame 41, and the second supporting plate is located below the second belt 44 and is used for supporting the second belt 44. A striker plate 46 is also provided on the second side mounting frame 41, and the end of the striker plate 46 is outwardly open to facilitate discharge.

The combination balance 1 comprises a plurality of weighing bins which are circumferentially arranged and symmetrical along a vertical plane, and the weighing bins on two sides of the vertical plane are respectively positioned above the transverse left conveying mechanism and the transverse right conveying mechanism and are not more than the edges of the interval. The horizontal left conveying mechanism and the horizontal right conveying mechanism are horizontally arranged or obliquely downwards arranged towards the interval, and the downward inclination is more beneficial to the movement of the materials to the center. The materials weighed in the combination balance 1 firstly fall onto the transverse conveying mechanisms and are converged towards the middle, then fall onto the longitudinal conveying mechanisms, the width of the longitudinal conveying mechanisms is slightly larger than the interval between the transverse conveying mechanisms, and the longitudinal conveying mechanisms convey the converged materials to the discharging mechanisms.

The structure of the discharging mechanism is shown in fig. 6 and 7, and comprises a discharging barrel 51 and an annular frame 52, wherein the annular frame 52 is fixedly connected with the bottom of a second side mounting frame 41 of the longitudinal conveying mechanism through a mounting block 60, and the discharging barrel 51 is fixed on the annular frame. The outlet at the bottom of the discharging cylinder 51 is in an inverted triangle shape. The gate comprises a gate motor 58, a connecting rod 59, a right gate plate 53, a left gate plate 54, a right connecting arm 55, a middle connecting arm 57 and a left connecting arm 56, one end of the connecting rod 59 is connected to the motor 58, the other end of the connecting rod 59 is rotatably connected with the left gate plate 54, the left gate plate 54 is rotatably connected with the discharging cylinder 51 through the left connecting arm 56, the right gate plate 53 is rotatably connected with the discharging cylinder 51 through the right connecting arm 55, and two ends of the middle connecting arm 57 are respectively rotatably connected with the left connecting arm 56 and the right connecting arm 55. The back plate 61 of the gate is relatively short to form an opening in the back of the take-off drum 51 for interfacing with the longitudinal transport mechanism.

While the present utility model has been described in detail with reference to the drawings and the embodiments, those skilled in the art will understand that various specific parameters in the above embodiments may be changed without departing from the spirit of the utility model, and a plurality of specific embodiments are all common variation ranges of the present utility model and will not be described in detail herein.

Claims (10)

1. The utility model provides a combination balance material conveyor installs in combination balance below, its characterized in that: the vertical conveying mechanism is arranged below the horizontal conveying mechanism, the central line of the vertical conveying mechanism coincides with the vertical plane, the width of the vertical conveying mechanism is matched with the interval between the horizontal conveying mechanisms, the discharging mechanism is arranged at the tail end of the vertical conveying mechanism, the discharging mechanism is of a straight cylindrical structure, and a gate is arranged at the bottom of the discharging mechanism.

2. The combination balance material conveying apparatus of claim 1, wherein: the frame comprises a top frame, a bottom frame and a side support frame, wherein the side support frame comprises a vertical support frame and an inclined support frame, the vertical support frame is arranged between the top frame and the bottom frame, the bottom of the inclined support frame is fixed on the top frame, the top is obliquely upwards connected with the combination scale fixedly, and the transverse conveying mechanism and the longitudinal conveying mechanism are arranged between the top frame and the bottom frame.

3. The combination balance material conveying apparatus of claim 2, wherein: the edge of the top frame is provided with a blanking plate which is inclined downwards.

4. The combination balance material conveying apparatus of claim 1, wherein: the horizontal left conveying mechanism and the horizontal right conveying mechanism are both horizontal synchronous conveying belts, each horizontal synchronous conveying belt comprises a first side mounting frame, a first head roller, a first tail roller and a first belt, the first head roller and the first tail roller are mounted on the first side mounting frame and can drive the first belt to move, a supporting part is arranged at the bottom of the first side supporting frame so as to lift the horizontal synchronous conveying belts, and a first supporting plate is arranged on the first side mounting frame and used for supporting the first belt.

5. The combination balance material conveying apparatus of claim 1, wherein: the vertical conveying mechanism is a vertical synchronous conveying belt, the vertical synchronous conveying belt comprises a second side mounting frame, a second head roller, a second tail roller and a second belt, the second head roller and the second tail roller are mounted on the second side mounting frame and can drive the second belt to move, the bottom of the second side supporting frame is fixedly connected with the frame, and a second supporting plate is arranged on the second side mounting frame and used for supporting the second belt.

6. The combination balance material handling apparatus of claim 5, wherein: the two sides of the longitudinal conveying mechanism are provided with baffle plates, and the tail ends of the baffle plates are outwards opened so as to facilitate discharging.

7. The combination balance material conveying apparatus of claim 1, wherein: the combined balance comprises a plurality of weighing bins which are circumferentially arranged and symmetrical along the vertical plane, and the weighing bins on two sides of the vertical plane are respectively positioned above the transverse left conveying mechanism and the transverse right conveying mechanism and not exceeding the edges of the intervals.

8. The combination balance material conveying apparatus of claim 1, wherein: the transverse left conveying mechanism and the transverse right conveying mechanism are horizontally arranged or obliquely downwards arranged towards the interval.

9. The combination balance material conveying apparatus of claim 1, wherein: the discharging mechanism comprises a discharging cylinder and an annular frame body, wherein the annular frame body is fixedly connected with the longitudinal conveying mechanism, and the discharging cylinder is fixed on the annular frame body.

10. The combination balance material handling apparatus of claim 9, wherein: the bottom of a discharging barrel is inverted triangle, the gate comprises a motor, a connecting rod, a left gate plate, a right gate plate, a left connecting arm, a middle connecting arm and a right connecting arm, one end of the connecting rod is connected to the motor, the other end of the connecting rod is rotatably connected with the left gate plate, the left gate plate is rotatably connected with the discharging barrel through the left connecting arm, the right gate plate is rotatably connected with the discharging barrel through the right connecting arm, and two ends of the middle connecting arm are respectively connected to the left connecting arm and the right connecting arm.