CN216442749U

CN216442749U - Fly ash press

Info

Publication number: CN216442749U
Application number: CN202122953490.5U
Authority: CN
Inventors: 杨洪洲; 夏志友
Original assignee: Hubei Tianjian New Building Materials Co ltd
Current assignee: Hubei Tianjian New Building Materials Co ltd
Priority date: 2021-11-29
Filing date: 2021-11-29
Publication date: 2022-05-06
Anticipated expiration: 2031-11-29

Abstract

The utility model relates to the technical field of fly ash processing, in particular to a fly ash press, which comprises a case, wherein an extrusion box is fixedly arranged in the case, a feeding pipe is arranged on the case, one end of the feeding pipe extends into the case and is fixedly connected with a feeding hole, and the fly ash press also comprises: the extrusion mechanism comprises a first extrusion mechanism and a second extrusion mechanism, and the first extrusion mechanism and the second extrusion mechanism are both connected with the extrusion box; the conveying mechanism is arranged in the case and used for conveying the fly ash pressed blocks to the outside of the case. According to the fly ash press provided by the utility model, the first extrusion mechanism is matched with the discharge door to vertically extrude the fly ash, and the second extrusion mechanism is used for transversely extruding the fly ash, so that the stress balance of the fly ash is ensured, the working efficiency of pressing the fly ash into blocks is improved, and the practicability of the fly ash pressure is improved.

Description

Fly ash press

Technical Field

The utility model relates to the technical field of fly ash processing, in particular to a fly ash press.

Background

The fly ash is formed by tiny ash particles discharged in the combustion process of fuel (mainly coal), also called as ash or fly ash, most of the fly ash is spherical due to the action of surface tension, the surface of the fly ash is smooth, micropores are smaller, and the fly ash is adhered by mutual collision in a molten state to form honeycomb-shaped combined particles with rough surface and more edges and corners. If the fly ash is not controlled or treated, air pollution can be caused, the fly ash enters a water channel to be fouled, and certain chemical substances in the fly ash cause damage to organisms and human bodies, so that the fly ash needs to be pressed into blocks and collected and treated in a centralized manner.

The existing fly ash press drives the movable roller to approach the fixed roller through the hydraulic telescopic rod to increase the extrusion pressure, so that the movable roller and the fixed roller extrude the fly ash into blocks; however, the effect of the existing fly ash press that adopts the movable roller and the fixed roller to extrude the fly ash is not ideal, the fly ash is stressed unevenly, and the fly ash cannot be pressed into blocks, so that the fly ash press has low fly ash pressing efficiency.

Therefore, in view of the above situation, there is an urgent need to develop a fly ash press to overcome the shortcomings in the current practical application.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a fly ash press to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a fly ash press, includes quick-witted case, quick-witted incasement fixation is provided with the extrusion case, spout, feed inlet and discharge door have been seted up on the extrusion case respectively, be provided with the inlet pipe on the quick-witted case, the one end of inlet pipe extends to quick-witted incasement and links to each other with the feed inlet is fixed, still includes:

the extrusion mechanism comprises a first extrusion mechanism and a second extrusion mechanism, the first extrusion mechanism and the second extrusion mechanism are both connected with the extrusion box, the first extrusion mechanism is used for being matched with the discharge door to vertically extrude the fly ash, and the second extrusion mechanism is used for transversely extruding the fly ash;

and the conveying mechanism is arranged in the case and is used for conveying the fly ash pressed block to the outside of the case.

As a further scheme of the utility model: first extrusion mechanism includes flexible module, connecting seat and extruded article, flexible module is fixed on quick-witted case, just the output of flexible module runs through a lateral wall of quick-witted case and extrusion case in proper order and links to each other with the connecting seat is fixed, extruded article movable mounting is in the extrusion case, just the extruded article links to each other with the connecting seat is fixed.

As a further scheme of the utility model: the second extrusion mechanism includes install bin, driving piece, gear and rack, the install bin is fixed on the lateral wall of extrusion case, the driving piece is fixed on the install bin, the output of driving piece is provided with the connection pivot, the one end of connecting the pivot extends to in the install bin and links to each other with the gear is fixed, the one end of rack runs through and movable mounting on the install bin, be provided with the connecting piece on the other end of rack, connecting piece slidable mounting is in the spout, just the one end of connecting piece links to each other with the extrusion piece is fixed, gear and rack toothing are connected.

As a further scheme of the utility model: conveying mechanism includes support, electric element, rotates piece and conveyer belt, the support is fixed at quick-witted incasement, it is on the support to rotate a movable mounting, electric element fixed mounting is on the support, just electric element's output with rotate a fixed linking to each other, the both ends movable sleeve of conveyer belt is on rotating the piece.

As a further scheme of the utility model: a discharge hole is formed in one side, corresponding to the conveying mechanism, of the case, and an installation mechanism is arranged on the case and used for installing the case.

As a further scheme of the utility model: the mounting mechanism comprises a fixing seat, a mounting seat and a telescopic piece, the fixing seat is mounted on the case, and the fixing seat is fixedly connected with the mounting seat through the telescopic piece.

As a further scheme of the utility model: the telescopic piece is movably sleeved with a cushioning piece, and the cushioning piece is used for relieving the vibration of the case.

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

the coal ash enters from the feeding pipe and enters the extrusion box through the feeding hole, at the moment, the first extrusion mechanism and the second extrusion mechanism start to work, and the discharge door is in a closed state;

the telescopic module drives the connecting seat to move downwards in the extrusion box, the connecting seat drives an extrusion piece arranged at the top of the extrusion box to slide downwards in the extrusion box, and the extrusion piece is matched with the discharge door to realize vertical extrusion on the coal ash;

the driving piece drives the connecting rotating shaft to rotate, the connecting rotating shaft drives the gear to rotate in the installation box, the gear drives the racks arranged on two sides of the installation box to move transversely, the racks drive the connecting piece to slide in the sliding groove, and the connecting piece realizes transverse extrusion of the coal ash by driving the extrusion pieces arranged on two sides in the extrusion box to move oppositely;

the cooperation through first extrusion mechanism and discharge door can realize carrying out vertical extrusion to fly ash, can realize carrying out the horizontal extrusion to fly ash through second extrusion mechanism, guarantees that the fly ash atress is balanced, improves the work efficiency to the fly ash briquetting, has improved the practicality of fly ash pressure.

Drawings

Fig. 1 is a front view of the fly ash press of the present invention.

Fig. 2 is a schematic structural view of the second pressing mechanism in fig. 1.

Fig. 3 is a structural plan view of the second pressing mechanism in fig. 2.

FIG. 4 is a schematic structural view of the mounting mechanism of FIG. 1.

In the figure: 1-case, 11-discharge port, 2-extrusion case, 21-chute, 22-feed port, 23-discharge door, 3-feed pipe, 4-first extrusion mechanism, 41-telescopic module, 42-connecting seat, 43-extrusion piece, 5-second extrusion mechanism, 51-installation case, 52-driving piece, 53-connecting rotating shaft, 54-gear, 55-rack, 56-connecting piece, 6-conveying mechanism, 61-bracket, 62-electric element, 63-rotating piece, 64-conveying belt, 7-installation mechanism, 71-fixing seat, 72-installation seat, 73-shock absorbing piece and 74-telescopic piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solution of the present invention will be described in further detail with reference to specific embodiments.

As shown in fig. 1 to 3, a fly ash press provided as an embodiment of the present invention includes a machine case 1, an extrusion box 2 is fixedly disposed in the machine case 1, a chute 21, a feed port 22, and a discharge door 23 are respectively disposed on the extrusion box 2, a feed pipe 3 is disposed on the machine case 1, one end of the feed pipe 3 extends into the machine case 1 and is fixedly connected to the feed port 22, and the fly ash press further includes:

the coal ash extrusion device comprises an extrusion mechanism, wherein the extrusion mechanism comprises a first extrusion mechanism 4 and a second extrusion mechanism 5, the first extrusion mechanism 4 and the second extrusion mechanism 5 are both connected with an extrusion box 2, the first extrusion mechanism 4 is used for being matched with a discharge door 23 to vertically extrude coal ash, and the second extrusion mechanism 5 is used for transversely extruding the coal ash;

and the conveying mechanism 6 is arranged in the case 1, and the conveying mechanism 6 is used for conveying the fly ash pressed block to the outside of the case 1.

In this embodiment, can realize carrying out vertical extrusion to fly ash through the cooperation of first extrusion mechanism 4 with discharge door 23, can realize carrying out horizontal extrusion to fly ash through second extrusion mechanism 5, guarantee that the fly ash atress is balanced, improve the work efficiency to the fly ash briquetting, improved the practicality of fly ash pressure.

As shown in fig. 1, as a preferred embodiment of the present invention, the first extruding mechanism 4 includes a telescopic module 41, a connecting base 42 and an extruding member 43, the telescopic module 41 is fixed on the cabinet 1, and an output end of the telescopic module 41 sequentially penetrates through a sidewall of the cabinet 1 and the extruding box 2 and is fixedly connected with the connecting base 42, the extruding member 43 is movably installed in the extruding box 2, and the extruding member 43 is fixedly connected with the connecting base 42.

In the embodiment, the fly ash enters from the feeding pipe 3 and enters the extrusion box 2 through the feeding hole 22, at this time, the first extrusion mechanism 4 and the second extrusion mechanism 5 start to work, and the discharging door 23 is in a closed state;

the telescopic module 41 drives the connecting seat 42 to move downwards in the extrusion box 2, the connecting seat 42 drives the extrusion piece 43 arranged at the top of the extrusion box 2 to slide downwards in the extrusion box 2, and the extrusion piece 43 is matched with the discharge door 23 to realize vertical extrusion on the fly ash.

In a preferred embodiment, the telescopic module 41 is preferably a hydraulic telescopic cylinder and a telescopic rod, and may also be a pneumatic telescopic cylinder and a telescopic rod meeting the requirements;

what extruded piece 43 preferentially adopted is the extrusion piece that satisfies the condition, extruded piece 43 is provided with three groups, and sets up respectively at the top and both sides of extrusion case 2, extrusion case 2 sets up to tee bend tubular construction.

As shown in fig. 1 to 3, as a preferred embodiment of the present invention, the second squeezing mechanism 5 includes a mounting box 51, a driving member 52, a gear 53 and a rack 54, the mounting box 51 is fixed on one side wall of the squeezing box 2, the driving member 52 is fixed on the mounting box 51, an output end of the driving member 52 is provided with a connecting rotating shaft 53, one end of the connecting rotating shaft 53 extends into the mounting box 51 and is fixedly connected with the gear 53, one end of the rack 54 penetrates through and is movably mounted on the mounting box 51, the other end of the rack 54 is provided with a connecting member 56, the connecting member 56 is slidably mounted in the sliding groove 21, one end of the connecting member 56 is fixedly connected with the pushing member 43, and the pushing member 53 is engaged with the rack 54.

In this embodiment, the driving member 52 drives the connecting shaft 53 to rotate, the connecting shaft 53 drives the gear 54 to rotate in the installation box 51, the gear 54 drives the racks 54 disposed on both sides of the installation box 51 to move laterally, the rack 54 drives the connecting member 56 to slide in the sliding slot 21, and the connecting member 56 drives the extrusion members 43 slidably disposed on both sides of the extrusion box 2 to move in opposite directions, so as to achieve lateral extrusion of the fly ash.

In a preferred embodiment, the drive member 52 is preferably a servo motor;

the connecting member 56 is preferably a connecting pin structure.

As shown in fig. 1, as a preferred embodiment of the present invention, the conveying mechanism 6 includes a bracket 61, a motorized element 62, a rotating member 63, and a conveying belt 64, the bracket 61 is fixed in the chassis 1, the rotating member 63 is movably mounted on the bracket 61, the motorized element 62 is fixedly mounted on the bracket 1, an output end of the motorized element 62 is fixedly connected to the rotating member 63, and two ends of the conveying belt 64 are movably sleeved on the rotating member 63.

In this embodiment, after the coal ash is pressed into a block, the discharge door 23 is opened, the coal ash pressed into a block moves to the conveyer belt 64 through the discharge door 23, the electric element 62 is powered on to work, the rotating part 63 is driven to rotate on the bracket 61, the rotating part 63 drives the conveyer belt 64 to rotate, the coal ash pressed into a block is conveyed to the outside of the case 1 through the conveyer belt 64, so that the collection and treatment of workers are facilitated, and the practicability of the press is improved.

In a preferred embodiment, the electrically powered element 62 is preferably an electrically powered spindle;

the rotating member 63 is preferably a rotating roller.

As shown in fig. 1, as a preferred embodiment of the present invention, a discharge port 11 is opened at a side of the enclosure 1 corresponding to the conveying mechanism 6, a mounting mechanism 7 is disposed on the enclosure 1, and the mounting mechanism 7 is used for mounting the enclosure 1.

As shown in fig. 1 and 4, as a preferred embodiment of the present invention, the mounting mechanism 7 includes a fixed seat 71, a mounting seat 72, and an expansion member 74, where the fixed seat 71 is mounted on the chassis 1, and the fixed seat 71 is fixedly connected with the mounting seat 72 through the expansion member 74.

As shown in fig. 2, as a preferred embodiment of the present invention, a shock absorbing member 73 is movably sleeved on the telescopic member 74, and the shock absorbing member 73 is used for absorbing shock received by the chassis 1.

In the present embodiment, the telescopic member 74 is preferably a telescopic column structure;

the shock absorbing piece 73 is preferably a spring, and can also be an elastic sheet meeting the requirements, and the shock absorbing piece 73 is matched with the telescopic piece 74 to realize the effect of relieving and absorbing the shock received by the case 1, so that the stability and the practicability of the press are improved.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a fly ash press, includes quick-witted case, quick-witted incasement fixation is provided with the extrusion case, spout, feed inlet and discharge door have been seted up on the extrusion case respectively, be provided with the inlet pipe on the quick-witted case, the one end of inlet pipe extends to quick-witted incasement and links to each other fixedly with the feed inlet, its characterized in that still includes:

the extrusion mechanism comprises a first extrusion mechanism and a second extrusion mechanism, the first extrusion mechanism and the second extrusion mechanism are both connected with the extrusion box, the first extrusion mechanism is used for being matched with the discharge door to vertically extrude the coal ash, and the second extrusion mechanism is used for transversely extruding the coal ash;

the conveying mechanism is arranged in the case and used for conveying the fly ash pressed blocks to the outside of the case.

2. The fly ash press of claim 1, wherein the first extrusion mechanism comprises a telescopic module, a connecting seat and an extrusion piece, the telescopic module is fixed on the machine case, the output end of the telescopic module sequentially penetrates through the machine case and one side wall of the extrusion box and is fixedly connected with the connecting seat, the extrusion piece is movably arranged in the extrusion box, and the extrusion piece is fixedly connected with the connecting seat.

3. The fly ash press as claimed in claim 1, wherein the second extrusion mechanism comprises a mounting box, a driving member, a gear and a rack, the mounting box is fixed on one side wall of the extrusion box, the driving member is fixed on the mounting box, the output end of the driving member is provided with a connecting rotating shaft, one end of the connecting rotating shaft extends into the mounting box and is fixedly connected with the gear, one end of the rack penetrates through and is movably mounted on the mounting box, the other end of the rack is provided with a connecting member, the connecting member is slidably mounted in the sliding groove, one end of the connecting member is fixedly connected with the extrusion piece, and the gear is meshed with the rack.

4. The fly ash press of claim 3, wherein the conveying mechanism comprises a bracket, a motor element, a rotating member and a conveying belt, the bracket is fixed in the machine case, the rotating member is movably mounted on the bracket, the motor element is fixedly mounted on the bracket, an output end of the motor element is fixedly connected with the rotating member, and two ends of the conveying belt are movably sleeved on the rotating member.

5. The fly ash press as claimed in claim 1, wherein a discharge port is provided at a side of the machine case corresponding to the conveying mechanism, and a mounting mechanism is provided on the machine case for mounting the machine case.

6. The fly ash press of claim 5, wherein the mounting mechanism comprises a fixed seat, a mounting seat and a telescopic member, the fixed seat is mounted on the machine case, and the fixed seat is fixedly connected with the mounting seat through the telescopic member.

7. The fly ash press of claim 6, wherein the telescopic member is movably sleeved with a shock absorption member, and the shock absorption member is used for absorbing shock received by the case.