CN108636580B

CN108636580B - Composite machine door device

Info

Publication number: CN108636580B
Application number: CN201810622767.6A
Authority: CN
Inventors: 荣勇
Original assignee: Leshan Chuanggong Engineering Machinery Manufacturing Co ltd
Current assignee: Leshan Chuanggong Engineering Machinery Manufacturing Co ltd
Priority date: 2018-06-15
Filing date: 2018-06-15
Publication date: 2024-03-26
Anticipated expiration: 2038-06-15
Also published as: CN108636580A

Abstract

The invention discloses a composite gate device, which comprises a shell, a crushing device, a first feeding hopper, an outer gate for sealing the shell and an inner gate for sealing the crushing device, wherein the crushing device is arranged in the shell; the top of the shell is provided with a second feeding hopper for feeding the material guiding section in the machine. The device adopts a double-gate structure, and the outer gate of the sealed casing and the inner gate of the sealed crushing device are fixedly connected on the first feeding hopper, so that the inner gate and the outer gate are opened and closed together, the second feeding hopper of the device is separated from the first feeding hopper, the second feeding hopper is arranged at the top of the casing, the close tightness of the gate is ensured, the stability of the whole machine is ensured, and the deformation caused by overlarge stress of the first feeding hopper is avoided.

Description

Composite machine door device

Technical Field

The invention belongs to the technical field of material guiding devices, and particularly relates to a composite gate device.

Background

Some rice milling and crushing integrated machines are divided into two types: the machine is an exposed rice milling and crushing integrated machine, has serious potential safety hazard and is extremely not environment-friendly and sanitary; one type is a cabinet type rice milling and crushing integrated machine. Because the crusher door needs to be repeatedly opened and closed for a long time according to the requirements of clients in the use process of clients, the crusher inner cavity is replaced or maintained by the powder sieve and the sieve ring which are matched with each other. The structure that the feeding inclined hopper and the feeding vertical hopper of the pulverizer are arranged outside the machine door is as follows: the vertical feeding bucket is arranged above the outside of the machine door, the inclined feeding bucket is arranged on the outside of the machine door, and when the machine door is opened, the vertical feeding bucket and the inclined feeding bucket can move along with the machine door. The naked rice milling and crushing integrated machine can be easily opened because no cabinet is blocked, the cabinet type rice milling and crushing integrated machine can not realize that the crusher door is easily opened because of the blocking of the cabinet body, and particularly, when the crusher door is required to be simultaneously provided with the vertical hopper and the inclined hopper, the crusher is more difficult to realize the opening of the crusher door after being assembled into the cabinet body, and the vertical hopper, the inclined hopper and the inclined hopper square cabinet body can be assembled and disassembled usually when the crusher door is opened, or the feeding part arranged outside the crusher door is completely exposed outside the cabinet body to realize the easy opening of the crusher door. At present, the problem that the shell part and the material guiding part of the pulverizer are completely installed in the box body and the pulverizer door is easy to open and close is solved by solving the structural arrangement problems of the pulverizer door, the material guiding part of the inclined hopper and the vertical hopper and the box body, especially for the cabinet type rice milling and pulverizing integrated machine.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a composite machine door device which is used for skillfully connecting an outer machine door of a machine shell with an inner machine door of a crusher such as a crusher, so that the inner machine door and the outer machine door are simultaneously opened and closed, and the device is greatly convenient to use.

In order to achieve the above object, the present invention adopts the following solutions: the composite machine door device comprises a machine shell, a crushing device, a first feeding hopper, an outer machine door for closing the machine shell and an inner machine door for closing the crushing device, wherein the crushing device is arranged in the machine shell, the first feeding hopper comprises an inner material guide section and an outer material guide section for feeding materials to the inner material guide section, the outer machine door, the inner material guide section and the inner machine door are sequentially and fixedly connected, so that the outer machine door and the inner machine door synchronously act, the outer machine door is provided with an outer material inlet for conducting the outer material guide section and the inner material guide section, and the inner machine door is provided with an inner material inlet for guiding materials to the crushing device; the casing top is equipped with the second feeder hopper, and when outer gate closed casing, the interior guide section of machine is docked with the second feeder hopper, and the feed of second feeder hopper to interior guide section, when outer gate opened the casing, the second feeder hopper was taken off interior guide section of machine.

Further, the outer machine door is fixedly connected with the shell through the buckling component, and the buckling component comprises a hinge component arranged on one side of the outer machine door and a locking component arranged on the other side of the outer machine door.

Further, the hinge assembly comprises a hinge body and an L-shaped connecting piece, wherein the L-shaped connecting piece comprises a first connecting plate and a second connecting plate which are fixedly connected, the first connecting plate is fixedly connected with the outer machine door, and the second connecting plate is hinged with the machine shell through the hinge body.

Further, the locking assembly comprises a tensioning rod and a locking hand wheel, one end of the tensioning rod is hinged with the crushing device, the other end of the tensioning rod is in threaded connection with the locking hand wheel, and the outer machine door is provided with a U-shaped groove for clamping the tensioning rod.

Further, a vertical bucket seat is arranged between the shell and the second feed hopper, the vertical bucket seat is fixedly connected with the shell, and the second feed hopper is inserted into the vertical bucket seat.

Further, the in-machine material guiding section is fixedly connected with a material guiding sleeve for guiding the material in the second feeding hopper into the in-machine material guiding section; the inner surface of the shell is fixedly connected with a material guiding ring for guiding the material in the second feeding hopper into the material guiding sleeve; the gap between the guide ring and the guide sleeve in the guide direction of the guide ring is 1mm-2mm, the projection of the outer wall of the guide ring on the vertical plane in the guide direction of the guide ring is a first projection, the projection of the inner wall of the guide sleeve on the vertical plane in the guide direction of the guide ring is a second projection, the first projection is arranged in the second projection, and the interval between the first projection and the second projection is 3mm-5mm.

Further, the crushing device is arranged as a crusher, the crusher comprises a machine base and a sieve plate arranged in the machine base, and a steel tooth rotor is arranged in the sieve plate.

Further, the surface of the inner machine door is fixedly connected with a fixed fluted disc.

Further, the lower side of the built-in guide section is fixedly connected with a reinforcing bracket.

The invention has the beneficial effects that the shell can be integrally protected and supported by the traditional combined device because of the combination of the traditional pulverizer, the rice mill and the like, and the traditional shell is larger for convenient disassembly and installation, so that the shell has larger cavity, and the occupied area is large, the occupied area and equipment materials are wasted.

Drawings

Fig. 1 is a schematic structural view of a composite gate device according to a first view angle of the present invention, in which a first feeding hopper is opened.

Fig. 2 is a schematic structural view of a composite gate device according to a second view angle of the present invention, in which the first feeding hopper is in a closed state.

FIG. 3 is a schematic view of the structure of the first feeding hopper of the present invention.

Fig. 4 is an enlarged view at a in fig. 2.

Fig. 5 is a schematic structural view of a pulverizer and a rice mill both disposed in a housing in the third embodiment.

In the accompanying drawings:

10. a housing; 20. a crushing device; 21. a sieve plate; 22. a steel tooth rotor; 31. an inboard guide section; 32. an off-machine feed section; 33. a material guiding sleeve; 41. an outer machine door; 42. an inner door; 43. an outer feed port; 44. an inner feed inlet; 45. fixing a fluted disc; 51. a second feed hopper; 52. a vertical bucket seat; 53. a material guiding ring; 61. a hinge body; 62. an L-shaped connector; 71. a tension rod; 72. locking a hand wheel; 80. a rice machine.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the technical solutions in the present invention will be clearly and completely described below, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to the accompanying drawings:

embodiment one:

referring to fig. 1-4, the present invention provides a composite gate device, including a casing 10, a crushing device 20, and a first hopper, an outer gate 41 for closing the casing 10, and an inner gate 42 for closing the crushing device 20, where the crushing device 20 is disposed in the casing 10, the first hopper includes an inner guide section 31, and an outer guide section 32 for feeding the inner guide section 31, and the outer guide section 32, the outer gate 41, the inner guide section 31, and the inner gate 42 are sequentially and fixedly connected, so that the outer gate and the inner gate operate synchronously, the outer gate 41 is provided with an outer feed port 43 for conducting the outer guide section 32 and the inner guide section 31, and the inner gate 42 is provided with an inner feed port 44 for conducting the inner guide section 20.

Because the present pulverizer, rice mill 80, etc. can be combined, the casing 10 can be whole protection and support of such combined device, for convenient dismantlement and installation, traditional casing 10 can be made great for casing 10 has great cavity, just so just lead to area big, extravagant area and equipment material, this device has designed two gate structures ingeniously, the outer gate 41 of the closed casing 10 and the interior gate 42 of closed breaker 20 all fixed connection on first feeder hopper, thereby interior gate 42 and outer gate 41 open, close together, thereby avoided if need opening outer gate 41 earlier when clearing up or maintaining for breaker 20, then open interior gate 42 again, just can dismantle sieve 21 etc.. The structure of the device can avoid using more fasteners such as bolts, and the double door structure can enable the outer door 41 to be tightly closed on the shell 10, so that the breaking device 20 can be closed.

The top of the casing 10 is provided with a second feeding hopper 51, when the casing 10 is closed by the outer door 41, the inner guide section 31 is in butt joint with the second feeding hopper 51, the second feeding hopper 51 feeds the inner guide section 31, and when the casing 10 is opened by the outer door 41, the second feeding hopper 51 is separated from the inner guide section 31. The composite gate device is suitable for various machines. Different from traditional loading attachment is, in this compound gate device, second feeder hopper 51 sets up in the casing 10 top, and second feeder hopper 51 does not move along with first feeder hopper, and such structure is convenient for reduce the atress on the gate, has guaranteed the closed closely of gate, the stability of complete machine, has avoided first feeder hopper atress too big and warp, and such structure makes second feeder hopper 51 need not to follow first feeder hopper action when opening the gate to reduce the atress of hinge body 61 and L type connecting piece 62, reduced the required space volume of this device when opening and shutting the gate.

Generally, the first feeder hopper is set to the tilting feeder hopper, the second feeder hopper 51 is set to the vertical feeder hopper, if the feeding is stable for a long time, the feeding mode is continuously stable by adopting a guide device which is connected to the second feeder hopper 51 above the second feeder hopper 51, and the split and the movement are not required at ordinary times, so that the device sets the second feeder hopper 51 at the top of the machine shell 10, the movement of the second feeder hopper 51 is avoided, the stability of the second feeder hopper 51 is ensured, and the installation of the continuous and stable guide device is facilitated. The inclined first feeding hopper is lower in position, so that workers can conveniently carry materials for manual feeding, the inclined feeding hopper is convenient for placing material bags in the first feeding hopper, the materials can be gradually discharged by utilizing self weight, and the blockage of the materials can be avoided; at the same time, the outer gate 41 is able to block the material bag in the outer feed section 32, while material passes through the outer feed opening 43 into the inner guide section 31.

Embodiment two:

referring to fig. 1-4, the present invention provides a composite gate device, including a casing 10, a crushing device 20, and a first hopper, an outer gate 41 for closing the casing 10, and an inner gate 42 for closing the crushing device 20, where the crushing device 20 is disposed in the casing 10, the first hopper includes an inner guide section 31 and an outer guide section 32 for feeding the inner guide section 31, the outer guide section 32, the outer gate 41, the inner guide section 31, and the inner gate 42 are sequentially and fixedly connected, the outer gate 41 is provided with an outer feed port 43 for conducting the outer guide section 32 and the inner guide section 31, and the inner gate 42 is provided with an inner feed port 44 for guiding the inner guide section 20. The top of the casing 10 is provided with a second feeding hopper 51, when the casing 10 is closed by the outer door 41, the inner guide section 31 is in butt joint with the second feeding hopper 51, the second feeding hopper 51 feeds the inner guide section 31, and when the casing 10 is opened by the outer door 41, the second feeding hopper 51 is separated from the inner guide section 31.

Referring to fig. 1, in this embodiment, a fastening assembly for fixedly connecting the outer door 41 with the casing 10 is further included, where the fastening assembly includes a hinge assembly disposed on one side of the outer door 41 and a locking assembly disposed on the other side of the outer door 41. In this embodiment, a hinge assembly and a locking assembly are adopted, so that the outer door 41 is tightly connected to the casing 10, the inner door 42 is tightly connected to the crushing device 20, more fastening devices are reduced, the fastening mode is simplified, the use convenience is greatly improved, and time and labor are saved.

The hinge assembly comprises a hinge body 61 and an L-shaped connecting piece 62, wherein the L-shaped connecting piece 62 comprises a first connecting plate and a second connecting plate which are fixedly connected, and an included angle between the first connecting plate and the second connecting plate is set to be 90 degrees; the first connecting plate is fixedly connected with the outer door 41, and the second connecting plate is hinged with the casing 10 through a hinge body 61. The L-shaped connector 62 is used to match the yielding of the inner door 42 relative to the housing 10, so that when the outer door 41 is opened, the inner door 42 can be completely separated from the housing 10, thereby opening the housing 10 to the maximum extent, and facilitating the operation of the crushing device 20 in the housing 10. Meanwhile, the length of the first connecting plate and the second connecting plate of the L-shaped connecting member 62, and the position of the hinge body 61 affect the yielding effect of the inner door 42 from the casing 10.

Meanwhile, the hinge assemblies are suggested to be arranged into 2 groups, and the hinge assemblies arranged side by side in the 2 groups can provide stable hinge support for the outer machine door 41, prevent the outer machine door 41 from shaking and provide basic guarantee for the tight closure of the outer machine door 41 and the inner machine door 42; and the locking component is arranged on the symmetry line of the 2 groups of hinge components, so that the tensioning force can be better provided by the position matching.

The locking assembly comprises a tensioning rod 71 and a locking hand wheel 72, one end of the tensioning rod 71 is hinged with the crushing device 20, the other end of the tensioning rod 71 is in threaded connection with the locking hand wheel 72, and the outer machine door 41 is provided with a U-shaped groove for clamping the tensioning rod 71. The hinge assembly is arranged on one side of the outer casing 10, the buckling assembly is arranged on the other side of the outer casing 10 and is connected with the casing 10, the buckling assembly is connected with the crushing device 20, and the relative positions of the outer machine door 41 and the inner machine door 42 are fixed.

In the assembly of the first feeding hopper, the rigidity of the relative positions of the outer machine door 41 and the inner machine door 42 is improved as much as possible, so that the relative positions of the outer machine door 41 and the inner machine door 42 are kept, the deformation of the inner material guide section 31 caused by overlarge stress is prevented when the outer machine door 41 is closed, and the crushing device 20 can be tightly closed by the inner machine door 42 while the outer machine door 41 is tightly closed on the shell 10. The best way to increase the rigidity of the relative positions of the outer door 41 and the inner door 42 is to increase the rigidity of the inner guide section 31 of the elevator, and in order to achieve this, the lower side of the inner guide section 31 is fixedly connected with a reinforcing bracket which is an effective structural reinforcing way.

In addition, the position where the tightening rod 71 is hinged to the crushing device 20 is the shell of the crushing device 20, the shell of the crushing device 20 has good hardness and strength, a stable fulcrum can be provided for the tightening action of the tightening rod 71, when the outer door 41 is locked, the tightening rod 71 is embedded into the U-shaped groove, the locking hand wheel 72 abuts against the outer surface of the outer door 41, and the locking hand wheel 72 is tightened, namely, the outer door 41 is locked to the shell 10 and the inner door 42 is locked to the crushing device 20.

Embodiment III:

The hinge assembly comprises a hinge body 61 and an L-shaped connecting piece 62, wherein the L-shaped connecting piece 62 comprises a first connecting plate and a second connecting plate which are fixedly connected, and an included angle between the first connecting plate and the second connecting plate is set to be 90 degrees; the first connecting plate is fixedly connected with the outer door 41, and the second connecting plate is hinged with the casing 10 through a hinge body 61.

The locking assembly comprises a tensioning rod 71 and a locking hand wheel 72, one end of the tensioning rod 71 is hinged with the crushing device 20, the other end of the tensioning rod 71 is in threaded connection with the locking hand wheel 72, and the outer machine door 41 is provided with a U-shaped groove for clamping the tensioning rod 71.

In this embodiment, a vertical bucket seat 52 is disposed between the casing 10 and the second feeding hopper 51, the vertical bucket seat 52 is fixedly connected with the casing 10, and the second feeding hopper 51 is inserted into the vertical bucket seat 52. The inboard guide section 31 is fixedly connected with a guide sleeve 33 for guiding material in the second feed hopper 51 into the inboard guide section 31. The inner surface of the shell 10 is fixedly connected with a guide ring 53 for guiding the material in the second feed hopper 51 into the guide sleeve 33, and the guide ring 53 is distributed between the vertical hopper seat 52 and the guide sleeve 33; the gap between the guide ring 53 and the guide sleeve 33 in the guide direction of the guide ring 53 is 1mm-2mm, the projection of the outer wall of the guide ring 53 on the vertical plane in the guide direction of the guide ring 53 is a first projection, the projection of the inner wall of the guide sleeve 33 on the vertical plane in the guide direction of the guide ring 53 is a second projection, the first projection is arranged in the second projection, and the interval between the first projection and the second projection is 3mm-5mm. These two distance dimensions avoid that the material will not scatter out from the gap between the guide ring 53 and the guide sleeve 33 during the guiding process from the guide ring 53 to the guide sleeve 33, and at the same time ensure that the first feeding hopper has enough space for letting down between the guide sleeve 33 and the guide ring 53 during the opening and closing process.

The stand 52 can determine the installation position of the second hopper 51 and provide structural strength of the second hopper 51, especially strength of the bottom of the second hopper 51, because the bottom of the second hopper 51 is pressed most when the second hopper 51 is filled with material, and the stand 52 achieves the effect of reinforcing the strength of the bottom of the second hopper 51. The material guiding sleeve 33 enhances the feeding effect of the second feeding hopper 51 from the perspective of the in-machine material guiding section 31, and the material guiding sleeve 33 prevents the material from falling out of the in-machine material guiding section 31 after entering from the second feeding hopper 51. The material guiding ring 53 enhances the feeding effect of the second feeding hopper 51 from the angle of the second feeding hopper 51, and the first feeding hopper is a movable part, so that the position matching of the second feeding hopper 51 and the inner material guiding section 31 plays an important role in preventing materials from scattering, and the sealing effect can be achieved by adopting static sealing and dynamic sealing, and the material guiding sleeve 33 can be matched with the material guiding ring 53 to further prevent materials from scattering outside the inner material guiding section 31. In this embodiment, the inner diameter of the guide ring 53 is set smaller than the inner diameter of the guide sleeve 33, and the lower end surface of the guide ring 53 is set flush with the upper end surface of the guide sleeve 33, so that all the materials in the guide ring 53 fall into the guide sleeve 33.

In this embodiment, the crushing device 20 is provided as a crusher, the crusher comprises a frame and a screen plate 21 arranged in the frame, and a steel tooth rotor 22 is arranged in the screen plate 21. The surface of the inner machine door 42 is fixedly connected with a fixed fluted disc 45. The steel tooth rotor 22 is matched with a fixed fluted disc 45 on the inner machine door 42 to achieve excellent crushing effect.

Referring to fig. 5, the crushing device 20 and the rice mill 80 are simultaneously arranged in the casing, the crushing device is arranged as a crusher, and the casing forms a protective support for the crusher and the rice mill 80 at the same time.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. A composite gate device is characterized in that: the crushing device is arranged in the shell, the first feeding hopper comprises an inner guide section and an outer guide section used for feeding the inner guide section, the outer guide section and the inner guide section are sequentially and fixedly connected, so that the outer guide section and the inner guide section synchronously act, the outer guide section is provided with an outer feed port used for conducting the outer guide section and the inner guide section, and the inner guide section is provided with an inner feed port used for conducting the inner guide section to the crushing device;

the casing top is equipped with the second feeder hopper, and when outer gate closed casing, the interior guide section of machine is docked with the second feeder hopper, and the feed of second feeder hopper to interior guide section, when outer gate opened the casing, the second feeder hopper was taken off interior guide section of machine.

2. The composite gate device of claim 1, wherein: the lock assembly comprises a hinge assembly arranged on one side of the outer machine door and a locking assembly arranged on the other side of the outer machine door.

3. The composite gate device of claim 2, wherein: the hinge assembly comprises a hinge body and an L-shaped connecting piece, wherein the L-shaped connecting piece comprises a first connecting plate and a second connecting plate which are fixedly connected, the first connecting plate is fixedly connected with the outer machine door, and the second connecting plate is hinged with the machine shell through the hinge body.

4. A composite gate device according to claim 2 or 3, characterized in that: the locking assembly comprises a tensioning rod and a locking hand wheel, one end of the tensioning rod is hinged with the crushing device, the other end of the tensioning rod is in threaded connection with the locking hand wheel, and the outer machine door is provided with a U-shaped groove for clamping the tensioning rod.

5. The composite gate device of claim 1, wherein: a vertical bucket seat is arranged between the shell and the second feeding hopper, the vertical bucket seat is fixedly connected with the shell, and the second feeding hopper is inserted into the vertical bucket seat.

6. The composite gate device of claim 5, wherein: the inner guide section is fixedly connected with a guide sleeve for guiding the material in the second feed hopper into the inner guide section; the inner surface of the shell is fixedly connected with a guide ring for guiding the material in the second feed hopper into the guide sleeve; the gap between the guide ring and the guide sleeve in the guide direction of the guide ring is 1mm-2mm, the projection of the outer wall of the guide ring on the vertical plane in the guide direction of the guide ring is a first projection, the projection of the inner wall of the guide sleeve on the vertical plane in the guide direction of the guide ring is a second projection, the first projection is arranged in the second projection, and the interval between the first projection and the second projection is 3mm-5mm.

7. The composite gate device of claim 1, wherein: the crushing device is arranged as a crusher, the crusher comprises a machine base and a sieve plate arranged in the machine base, and a steel tooth rotor is arranged in the sieve plate.

8. The composite gate device of claim 7, wherein: the surface of the inner machine door is fixedly connected with a fixed fluted disc.

9. The composite gate device of claim 1, wherein: and the lower side of the built-in guide section is fixedly connected with a reinforcing bracket.