CN109632063B - Easily-adjusted and easily-disassembled combination scale - Google Patents

Abstract

The invention discloses an easily-adjustable and easily-detachable combination scale, which comprises a feeding device, a weighing device and a discharging device, wherein the feeding device is connected with the weighing device; the feeding device comprises a bin, a material guide plate and a conveying plate, wherein the bin, the material guide plate and the conveying plate are vertically communicated, the material guide plate is arranged at an opening at the bottom of the bin, a material guide slot for discharging materials is formed between the material guide plate and the bin, the conveying plate is arranged between the material guide slot and the weighing device, and the conveying plate drives the conveying plate to vibrate so as to convey the materials from the material guide slot to the weighing device; the weighing device comprises a plurality of buffer hoppers arranged below the end parts of the conveying plates and a plurality of weighing hoppers arranged below the buffer hoppers; the discharging device comprises a discharging hopper which is arranged below the weighing hoppers; the feed bin rigid coupling is on feed bin lifting support, and feed bin lifting support and feed bin lift rail vertical sliding connection. The invention can conveniently and rapidly adjust the width of the material guiding slot, thereby ensuring reasonable and continuous feeding, and the conveying plate, the buffer hopper and the weighing hopper can be quickly assembled and disassembled and are convenient to maintain.

Description

Easily-adjusted and easily-disassembled combination scale

Technical Field

The invention relates to the field of combination scales, in particular to an easy-to-adjust and easy-to-disassemble combination scale.

Background

The combined balance has the functions of dividing the materials into a plurality of weighing devices for weighing respectively, combining according to the weights of the materials in different weighing devices, and rapidly delivering the materials with high precision and consistent weight.

The existing combination balance is characterized in that materials are placed in a vertically-through bin, a material guide plate is arranged at the bottom of the bin, and a material guide slot is arranged between the material guide plate and the side wall of the bin to enable the materials in the bin to flow out in all directions. Because materials such as toys and the like often have hard sharp angles, a plurality of materials are easy to interleave to form a bridge, thereby blocking a material guide slot and causing unsmooth feeding.

The material flows through the feeding vibration plate from the material guide slot and enters the buffer hopper and the weighing hopper; the feeding vibration plate is in a vibration state at all times, the buffer hopper and the weighing hopper are provided with discharge holes which are frequently opened and closed, the weighing hopper is also connected to the weighing sensor, and the transmission parts need to be lubricated, adjusted and overhauled regularly so as to ensure the feeding and weighing precision; the existing structure is difficult and complicated to disassemble and assemble, and the maintenance time is long.

Disclosure of Invention

The invention aims to solve the technical problem of providing an easily-adjustable and easily-detachable combined balance, which can conveniently and rapidly adjust the width of a material guide slot, thereby ensuring reasonable and continuous feeding, and the conveying plate, the buffer hopper and the weighing hopper can be rapidly detached and installed, and the maintenance is rapid.

In order to achieve the aim, the invention discloses an easily-adjustable and easily-detachable combination scale which comprises a feeding device, a weighing device and a discharging device;

The feeding device comprises a bin, a material guide plate and a conveying plate, wherein the bin, the material guide plate and the conveying plate are vertically communicated, the material guide plate is arranged at an opening at the bottom of the bin, a material guide slot for materials to flow out is formed between the material guide plate and the bin, the conveying plate is arranged between the material guide slot and the weighing device, and the conveying plate drives vibration by a conveying plate driving device to convey the materials from the material guide slot to the weighing device;

The weighing device comprises a plurality of buffer hoppers arranged below the end parts of the conveying plates and a plurality of weighing hoppers arranged below the buffer hoppers;

the discharging device comprises a discharging hopper which is arranged below the weighing hoppers;

the feed bin rigid coupling is on feed bin lifting support, feed bin lifting support and feed bin lift rail vertical sliding connection.

Preferably, one side of the material guiding plate facing the material bin is provided with a material guiding conical surface.

Preferably, a rubber curtain is further arranged between the bin and the material guiding plate.

Preferably, the guide plate is driven to vibrate by a guide plate driving device.

Preferably, the bin lifting support is vertically and slidably connected with the bin lifting guide rail through a lifting quick adjusting device, the lifting quick adjusting device comprises a lifting adjusting block sleeved on the bin lifting guide rail in a sliding manner, a lifting adjusting plate sleeved on the bin lifting guide rail in a sliding manner, one end of the lifting adjusting plate is connected to the lifting adjusting block in a swinging manner, and a spring is arranged between the lifting adjusting plate and the lifting adjusting block to enable the lifting adjusting plate and the lifting adjusting block to be clamped on the lifting guide rail in a certain included angle.

Preferably, the top surface of the conveying driving device is fixedly connected with a conveying plate mounting plate, the conveying plate mounting plate is provided with a locking hole which is changed from large to small, the end part of the conveying plate mounting plate is provided with a lock catch, the bottom surface of the conveying plate is provided with a lock pin with a T-shaped cross section, the bottom surface of the conveying plate is also provided with a lock hook, the lock pin is inserted into the locking hole, and the lock catch is fastened with the lock hook to enable the conveying plate to be connected with the conveying plate driving device.

Preferably, the weighing device further comprises a mounting shell, the outer wall of the mounting shell is provided with a weighing hopper supporting frame, the upper part and the lower part of the weighing hopper supporting frame are respectively provided with a first weighing hopper installation concave position and a second weighing hopper installation concave position, the weighing hoppers are respectively provided with a first weighing hopper installation rod and a second weighing hopper installation rod, and the first weighing hopper installation rod and the second weighing hopper installation rod are respectively clamped in the first weighing hopper installation concave position and the second weighing hopper installation concave position.

Preferably, a weighing sensor is arranged in the mounting shell, a weighing hopper mounting hole is formed in the mounting shell for the sensing end of the weighing sensor to extend out, and the weighing hopper support frame is connected to the sensing end of the weighing sensor.

Preferably, the outer wall of the installation shell is further provided with a buffer hopper support frame, the upper part and the lower part of the buffer hopper support frame are respectively provided with a first buffer hopper installation concave position and a second buffer hopper installation concave position, the buffer hoppers are respectively provided with a first buffer hopper installation rod and a second buffer hopper installation rod, and the first buffer hopper installation rod and the second buffer hopper installation rod are respectively clamped in the first buffer hopper installation concave position and the second buffer hopper installation concave position.

Preferably, the lower extreme opening part rotation of the hopper of weighing is connected with the control the hopper striker plate of weighing of hopper lower extreme opening switching, the installation shell outer wall rotates and is connected with the hopper drive plate of weighing, the hopper drive rod both ends of weighing respectively with hopper striker plate, hopper drive plate of weighing rotate and be connected, the hopper drive plate of weighing is still being connected the hopper drive rod of weighing, the hopper drive rod of weighing set up in the installation shell with between the hopper of weighing, the installation shell orientation still is provided with the hopper eccentric block of weighing on the outer wall of hopper of weighing, thereby the hopper eccentric block of weighing is in by setting up the inside hopper drive arrangement drive eccentric rotation of weighing of installation shell thereby top moves the hopper drive rod of weighing links the hopper striker plate of weighing switching.

Preferably, the lower extreme opening part rotation of buffering hopper is connected with the control buffering hopper striker plate of buffering hopper lower extreme opening switching, installation shell outer wall rotation is connected with buffering hopper drive plate, buffering hopper transfer line both ends respectively with buffering hopper striker plate, buffering hopper drive plate rotate and are connected, buffering hopper drive plate is still being connected buffering hopper drive rod, buffering hopper drive rod set up in the installation shell with between the buffering hopper, the installation shell orientation still is provided with buffering hopper eccentric block on the outer wall of buffering hopper, thereby buffering hopper eccentric block is in by the setting buffering hopper drive arrangement drive eccentric rotation top in the installation shell is moved buffering hopper drive rod linkage buffering hopper striker plate switching.

Compared with the prior art, the invention has the beneficial effects that:

The height of the bin can be conveniently and quickly adjusted, so that the width of the material guide slot is adjusted, the bin is suitable for materials with different shapes and sizes, and a reasonable, uniform, smooth and stable feeding effect is realized by matching with a rubber curtain for blocking; the mechanism which is provided with the moving parts, is easy to wear and is required to be maintained, such as the conveying plate, the buffer hopper and the weighing hopper, has a quick-dismantling structure, and is more convenient and quicker to maintain; the driving mode is more compact, the occupied transverse space is smaller, more weighing hoppers can be arranged in the same circumference, and the weighing and discharging efficiency is higher.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the feeding device;

FIG. 3 is a schematic diagram of the overall structure of a transfer plate;

FIG. 4 is a schematic diagram of the overall structure of the weighing device;

FIG. 5 is a schematic view of another overall structure of the weighing apparatus;

FIG. 6 is a schematic diagram of the overall structure of the buffer hopper;

FIG. 7 is a schematic diagram of the overall structure of the weighing hopper;

fig. 8 is an enlarged view at a in fig. 1.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings of fig. 1 to 8.

Referring to fig. 1-8, an easy-to-adjust and easy-to-disassemble combination balance comprises a feeding device 1, a weighing device 2 and a discharging device 3.

The feeding device 1 comprises a bin 11, a material guide plate 12 and a conveying plate 13, wherein the bin 11, the material guide plate 12 and the conveying plate 13 are vertically communicated, the material guide plate 12 is arranged at the bottom opening of the bin 11, a material guide slit 16 for material to flow out is formed between the material guide plate 12 and the bin 11, the conveying plate 13 is arranged between the material guide slit 16 and the weighing device 2, and the conveying plate 13 is driven by a conveying plate driving device 131 to vibrate so as to convey the material from the material guide slit 16 to the weighing device 2.

The storage bin 11 is fixedly connected to the storage bin lifting support 14, and the storage bin lifting support 14 is vertically and slidably connected with the storage bin lifting guide rail 15. The height of the bin 11 is adjusted in a linkage manner by sliding the height of the bin lifting support 14, so that the distance between the bin 11 and the guide plate 12, namely the width of the guide slot 16, can be adjusted. The feed bin lifting support 14 is vertically and slidably connected with the feed bin lifting guide rail 15 through the lifting quick adjusting device 18, the lifting quick adjusting device 18 comprises a lifting adjusting block 181 which is slidably sleeved on the feed bin lifting guide rail 15, a lifting adjusting plate 182 which is slidably sleeved on the feed bin lifting guide rail 15, a swinging jack 184 is formed in the lifting adjusting block 181, one end of the lifting adjusting plate 182 is swung and inserted into the swinging jack 184, and a spring 183 is arranged between the lifting adjusting plate 182 and the lifting adjusting block 181 to enable the lifting adjusting plate 182 and the lifting adjusting block 181 to form a certain included angle so as to be clamped on the lifting guide rail 15. Pressing down on the lifting adjusting plate 182 releases the clamping, and the lifting bracket 14 of the stock bin can be freely adjusted to lift.

The material guiding plate 12 has a material guiding conical surface on one side facing the storage bin 11, so that the material can be better guided to flow from the center to the periphery. The material guide plate 12 is driven by a material guide plate driving device to vibrate, so that the material flows more smoothly.

A rubber curtain 17 is further arranged between the storage bin 11 and the material guide plate 12, and certain tightening force is applied to the materials, so that the materials are prevented from suddenly dumping, and uneven feeding is caused.

The top surface of the conveying driving device 131 is fixedly connected with the conveying plate mounting plate 132, the conveying plate mounting plate 132 is provided with a locking hole 133 which is changed from large to small, the end part of the conveying plate mounting plate 132 is provided with a lock catch 134, the bottom surface of the conveying plate 13 is provided with a lock pin 135 with a T-shaped cross section, the bottom surface of the conveying plate 13 is also provided with a lock hook 136, the lock pin 135 is inserted into the locking hole 133, and the lock catch 134 is tightly fastened with the lock hook 136 to enable the conveying plate 13 and the conveying plate driving device 131 to be connected together and vibrate along with the lock hook.

The weighing device 2 comprises a plurality of buffer hoppers 21 arranged below the end parts of the conveying plates 13 and a plurality of weighing hoppers 22 arranged below the buffer hoppers 21.

The weighing device 2 further comprises a mounting shell 23, the buffer hopper 21 and the weighing hopper 22 are respectively mounted on the mounting shell 23, a plurality of mounting shells 23 are respectively mounted on the circumference of a weighing bracket cage 24, and the weighing bracket cage 24 is arranged at the center of the weighing device 2.

The outer wall of the mounting shell 23 is provided with a weighing hopper supporting frame 232, the upper part and the lower part of the weighing hopper supporting frame 232 are respectively provided with a first weighing hopper installation concave position 2321 and a second weighing hopper installation concave position 2322, the weighing hopper 22 is respectively provided with a first weighing hopper installation rod 221 and a second weighing hopper installation rod 222, and the first weighing hopper installation rod 221 and the second weighing hopper installation rod 222 are respectively clamped in the first weighing hopper installation concave position 2321 and the second weighing hopper installation concave position 2322.

The installation shell 23 is internally provided with a weighing sensor 235, the installation shell 23 is provided with a weighing hopper installation hole for extending out the sensing end of the weighing sensor 235, and the weighing hopper support frame 232 is connected to the sensing end of the weighing sensor 235.

The outer wall of the mounting shell 23 is also provided with a buffer hopper supporting frame 231, the upper part and the lower part of the buffer hopper supporting frame 231 are respectively provided with a first buffer hopper installation concave position 2311 and a second buffer hopper installation concave position 2312, the buffer hopper is respectively provided with a first buffer hopper installation rod 211 and a second buffer hopper installation rod 212, and the first buffer hopper installation rod 211 and the second buffer hopper installation rod 212 are respectively clamped in the first buffer hopper installation concave position 2311 and the second buffer hopper installation concave position 2312.

The lower extreme opening part rotation of weighing hopper 22 is connected with the weighing hopper striker plate 223 of control weighing hopper 22 lower extreme opening switching, weighing hopper 22 both sides rigid coupling respectively have weighing hopper backup pad 224, weighing hopper backup pad 224 rigid coupling is at the installation shell 23 outer wall, weighing hopper drive plate 225 rotates simultaneously through pivot 226 and connects on weighing hopper backup pad 224 and installation shell 23 outer wall, weighing hopper transfer line 227 both ends respectively with weighing hopper striker plate 223, weighing hopper drive plate 225 rotates to be connected, weighing hopper drive plate 225 is still connected weighing hopper drive rod 228, weighing hopper drive rod 228 sets up between installation shell 23 and weighing hopper 22, thereby weighing hopper eccentric block 2341 still is provided with on the installation shell 23 towards weighing hopper 22's the outer wall drive eccentric rotation by setting up at the inside weighing hopper drive arrangement 234 of installation shell 23 and thereby top moves weighing hopper drive rod 228 linkage weighing hopper striker plate 223 switching, still be provided with between weighing hopper drive plate 225 and the weighing hopper backup pad 224 and weighing hopper drive plate 229 and keep weighing hopper striker plate 223's normal close state.

Buffer hopper 21's lower extreme opening part rotates and is connected with buffer hopper striker plate 213 that control buffer hopper 21 lower extreme opening was opened and shut, buffer hopper 21 both sides respectively rigid coupling has buffer hopper backup pad 214, buffer hopper backup pad 214 rigid coupling is in installation shell 23 outer wall, buffer hopper drive plate 215 rotates simultaneously through pivot 216 and is connected on buffer hopper backup pad 214 and installation shell 23 outer wall, buffer hopper transfer line 217 both ends respectively with buffer hopper striker plate 213, buffer hopper drive plate 215 rotate and be connected, buffer hopper drive plate 215 is still connected buffer hopper drive rod 218, buffer hopper drive rod 218 sets up between installation shell 23 and buffer hopper 21, still be provided with buffer hopper eccentric block 2331 on the outer wall that installation shell 23 is towards buffer hopper 21, thereby buffer hopper eccentric block 2331 is driven eccentric rotation by the buffer hopper drive device 233 that sets up in installation shell 23, thereby top moves buffer hopper drive rod 218 linkage buffer hopper striker plate 213 and opens and shuts, still be provided with buffer tensioning spring 219 between buffer hopper drive plate 215 and the buffer hopper backup pad 214 and keep buffer hopper 213's normally closed state.

The discharging device 3 comprises a discharging hopper 31, wherein the discharging hopper 31 is arranged below the weighing hoppers 22 and is used for collecting materials falling from the weighing hoppers 22 and uniformly discharging.

Referring to fig. 1 to 8, the process of realizing automatic weighing and discharging according to the embodiment of the invention is as follows:

The material is placed in the bin 11, the material is vibrated by the material guide plate 12 and is tightly bound by the rubber curtain 17, so that the material uniformly and stably flows from the center to the periphery, and enters the conveying plate 13 arranged on the periphery of the material guide plate 12, the conveying plate 13 vibrates and feeds the material into the buffer hopper 21 below the tail end of the conveying plate 13, the buffer hopper baffle 213 at the lower end of the buffer hopper 21 is driven to be opened by the buffer hopper driving device 233, the material enters the weighing hopper 22 for weighing, and then the buffer hopper baffle 213 is closed to continuously receive the material from the conveying plate 13, so that the material is prevented from falling into the weighing hopper 22 to influence the weighing process; after the weighing hoppers 22 are weighed, the control computer controls a plurality of weighing hoppers 22 to be opened according to the data of each weighing hopper 22, so that materials with preset weight are combined, fall into the discharge hopper 31, and are discharged from the discharge ports of the discharge hopper 31 in a unified manner.

The above embodiments are only for illustrating the technical concept and features of the present invention, and therefore, it is intended that the present invention can be understood by those skilled in the art and implemented according to the technical concept, and the present invention is not limited to the above embodiments, but modifications made according to the spirit and scope of the main technical solution of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides an easy regulation, easy dismouting combination balance which characterized in that includes feed arrangement, weighing device, discharging device;

The feeding device comprises a bin, a material guide plate and a conveying plate, wherein the bin, the material guide plate and the conveying plate are vertically communicated, the material guide plate is arranged at an opening at the bottom of the bin, a material guide slot for materials to flow out is formed between the material guide plate and the bin, the conveying plate is arranged between the material guide slot and the weighing device, and the conveying plate drives vibration by a conveying plate driving device to convey the materials from the material guide slot to the weighing device;

a rubber curtain is arranged between the bin and the material guide plate;

The weighing device comprises a plurality of buffer hoppers arranged below the end parts of the conveying plates and a plurality of weighing hoppers arranged below the buffer hoppers;

the discharging device comprises a discharging hopper which is arranged below the weighing hoppers;

The feed bin rigid coupling is on feed bin lifting support, feed bin lifting support is through the vertical sliding connection of quick adjusting device of lift with feed bin lifting rail, quick adjusting device of lift include slide set in lift regulating block on the feed bin lifting rail, slide set in lift regulating plate on the feed bin lifting rail, the one end swing of lift regulating plate is connected on the lift regulating block, the lift regulating plate with be provided with the spring between the lift regulating block and make the lift regulating plate with thereby lift regulating block is certain contained angle chucking and is in on the lifting rail.

2. The easy-to-adjust and easy-to-disassemble combination balance according to claim 1, wherein one side of the material guiding plate facing the stock bin is provided with a material guiding conical surface, and the material guiding plate is driven to vibrate by a material guiding plate driving device.

3. The easy-to-adjust and easy-to-disassemble combination balance according to claim 1, wherein a conveying plate mounting plate is fixedly connected to the top surface of the conveying plate driving device, the conveying plate mounting plate is provided with a locking hole which changes from large to small, the end part of the conveying plate mounting plate is provided with a lock catch, the bottom surface of the conveying plate is provided with a lock pin with a T-shaped cross section, the bottom surface of the conveying plate is also provided with a lock hook, the lock pin is inserted into the locking hole, and the lock catch is fastened with the lock hook to enable the conveying plate to be connected with the conveying plate driving device.

4. The easily adjustable and easily detachable combination weigher according to any one of claims 1 to 3, wherein the weighing device further comprises a mounting shell, a weighing hopper supporting frame is arranged on the outer wall of the mounting shell, a first weighing hopper installation concave position and a second weighing hopper installation concave position are respectively arranged on the upper portion and the lower portion of the weighing hopper supporting frame, a first weighing hopper installation rod and a second weighing hopper installation rod are respectively arranged on the weighing hopper, and the first weighing hopper installation rod and the second weighing hopper installation rod are respectively clamped in the first weighing hopper installation concave position and the second weighing hopper installation concave position.

5. The easy-to-adjust and easy-to-disassemble combination balance according to claim 4, wherein a weighing sensor is arranged in the mounting shell, a weighing hopper mounting hole is formed in the mounting shell for extending out of an induction end of the weighing sensor, and the weighing hopper support frame is connected to the induction end of the weighing sensor.

6. The easy-to-adjust and easy-to-disassemble combination balance according to claim 4, wherein the outer wall of the mounting shell is further provided with a buffer hopper supporting frame, the upper part and the lower part of the buffer hopper supporting frame are respectively provided with a first buffer hopper mounting concave position and a second buffer hopper mounting concave position, the buffer hopper is respectively provided with a first buffer hopper mounting rod and a second buffer hopper mounting rod, and the first buffer hopper mounting rod and the second buffer hopper mounting rod are respectively clamped in the first buffer hopper mounting concave position and the second buffer hopper mounting concave position.

7. The easily adjustable and easily detachable combined scale according to claim 4, wherein the opening at the lower end of the weighing hopper is rotationally connected with a weighing hopper baffle plate for controlling the opening at the lower end of the weighing hopper to be opened and closed, the outer wall of the mounting shell is rotationally connected with a weighing hopper driving plate, two ends of a weighing hopper driving rod are respectively rotationally connected with the weighing hopper baffle plate and the weighing hopper driving plate, the weighing hopper driving plate is further connected with a weighing hopper driving rod, the weighing hopper driving rod is arranged between the mounting shell and the weighing hopper, the mounting shell is further provided with a weighing hopper eccentric block facing the outer wall of the weighing hopper, and the weighing hopper eccentric block is eccentrically rotated by a weighing hopper driving device arranged inside the mounting shell so as to push the weighing hopper driving rod to link the weighing hopper baffle plate to be opened and closed.

8. The easy-to-adjust and easy-to-disassemble combination scale according to claim 4, wherein a buffer hopper baffle plate for controlling the opening and closing of the lower end opening of the buffer hopper is rotationally connected to the opening of the lower end of the buffer hopper, a buffer hopper driving plate is rotationally connected to the outer wall of the mounting shell, two ends of a buffer hopper driving rod are rotationally connected to the buffer hopper baffle plate and the buffer hopper driving plate respectively, the buffer hopper driving plate is further connected to a buffer hopper driving rod, the buffer hopper driving rod is arranged between the mounting shell and the buffer hopper, a buffer hopper eccentric block is further arranged on the outer wall of the mounting shell facing the buffer hopper, and the buffer hopper eccentric block is eccentrically rotated by a buffer hopper driving device arranged inside the mounting shell so as to push the buffer hopper driving rod to link the buffer hopper baffle plate to be opened and closed.