CN213801814U - Rock wool board automated production equipment - Google Patents

Abstract

The utility model relates to the field of rock wool production, in particular to automatic rock wool board production equipment which comprises a frame, a pushing device and a splicing device; the splicing device is configured to splice a plurality of rock wool strips into a rock wool board with a preset pattern, and the width of the rock wool board is limited in a first direction; a pushing device configured to push the plurality of rock wool strips to an inlet of the splicing device and to define a location of each of the plurality of rock wool strips at the inlet; the splicing device comprises a rock wool clamping mechanism and a rock wool transfer mechanism, wherein the rock wool clamping mechanism is configured to clamp the plurality of rock wool strips in a first direction to splice the plurality of rock wool strips into a rock wool panel, and to transfer the rock wool panel in a second direction, and wherein the rock wool transfer mechanism is configured to transfer the rock wool panel only in the second direction.

Description

Rock wool board automated production equipment

Technical Field

The utility model relates to a rock wool production field especially relates to a rock wool board automated production equipment.

Background

The rock wool products all adopt high-quality basalt, dolomite and the like as main raw materials, are melted at a high temperature of over 1450 ℃, are subjected to high-speed centrifugation by adopting an international advanced four-shaft centrifuge to form fibers, are simultaneously sprayed with a certain amount of binder, dustproof oil and water repellent, are collected by a cotton collecting machine, are subjected to a pendulum bob process, are laid cotton by a three-dimensional method, and are then cured and cut to form rock wool strips; when the rock wool strips are combined into a plate shape to manufacture the fireproof and heat-insulating plate, the process is usually carried out manually in the prior art, but the rock wool fibers can cause skin itch after contacting the skin, and are easily sucked into the mouth and nose of a worker, so that the health of the operator is affected. In view of this, the present application is specifically made.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, and provide a rock wool board automated production equipment.

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

the utility model provides a rock wool board automated production equipment for be the rock wool board with the automatic amalgamation of a plurality of rock wool strips, possess: the splicing device is configured to splice a plurality of rock wool strips into a rock wool board with a preset pattern, and the width of the rock wool board is limited in a first direction; the pushing device is configured to be capable of pushing the plurality of rock wool strips to an inlet of the splicing device and limiting the position of each rock wool strip in the plurality of rock wool strips at the inlet; the splicing device comprises a rock wool clamping mechanism and a rock wool transferring mechanism, wherein the rock wool clamping mechanism is configured to clamp the plurality of rock wool strips in a first direction to splice the plurality of rock wool strips into a rock wool panel, and transfer the rock wool panel in a second direction, and the rock wool transferring mechanism is configured to transfer the rock wool panel only in the second direction; the pushing device comprises a pattern forming mechanism and a first driving mechanism for driving the pattern forming mechanism to translate, wherein the pattern forming mechanism is provided with at least two pushing pieces which are arranged in a first direction.

Further, the first direction and the second direction are perpendicular to each other.

Further, the at least two pushers are configured to be different in length in the second direction.

Further, the spacing distance of the at least two pushing pieces in the first direction is smaller than the width of the rock wool strips.

Further, the first driving mechanism comprises a pushing motor, a motion conversion assembly and a movable frame, the at least two pushing members are fixed on the movable frame, the pushing motor is in transmission connection with the motion conversion assembly, and the motion conversion assembly is configured to convert the rotary motion acquired by the pushing motor into linear motion and can drive the movable frame to walk in the second direction.

Furthermore, the motion conversion assembly comprises a toothed belt and a group of toothed wheels in meshing transmission with the toothed belt, the movable frame is fixedly connected to the toothed belt, and an output shaft of the pushing motor is fixedly connected with one of the group of toothed wheels.

Further, the rock wool clamping and conveying mechanism comprises a support frame and at least two clamping and conveying members which are opposite in the first direction, a clamping and conveying channel is formed between the two opposite clamping and conveying members and used for limiting the width of the rock wool board, and the clamping and conveying members comprise side conveying belts and clamping and conveying motors for driving the side conveying belts to travel.

Further, the pinch member is coupled to the support frame by a link, and at least one of the two links is configured to be movable in a first direction.

Further, the supporting frame is provided with a distance adjusting device for adjusting the distance between the two connecting pieces, the distance adjusting device comprises a screw rod and a handheld part for driving the screw rod to rotate, and the screw rod is in threaded connection with at least one of the two connecting pieces.

Further, the support frame is provided with a bias force application member which applies force to at least one of the two connecting members, and the bias force application member can apply force towards the direction that the two connecting members are far away from each other.

Further, rock wool transfer mechanism includes the motor that transfers of conveyer belt and drive bottom suspension conveyer belt walking, the bottom suspension conveyer belt sets up the below at the rock wool board.

Owing to adopted above technical scheme, the utility model discloses following beneficial effect has:

the utility model discloses a rock wool board automated production equipment can splice a plurality of rock wool boards through pusher and amalgamation device automatically, thereby prevent effectively that the workman from contacting rock wool fibre and leading to the health to receive the harm in work, and practiced thrift workman's protection cost;

furthermore, the utility model provides a pusher can arrange into a plurality of rock wool strips effectively and predetermine the pattern to rock wool strip group amalgamation city rock wool board through the amalgamation device will have the preset pattern makes the rock wool board after the combination firm.

Drawings

In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the drawings of the embodiments will be briefly described below, and it is obvious that the drawings in the following description only relate to some embodiments of the present invention, and are not intended to limit the present invention.

FIG. 1 is a schematic diagram of the general structure of the first embodiment;

FIG. 2 is a schematic structural diagram of a pushing device according to a first embodiment;

FIG. 3 is a schematic view of the movable frame of FIG. 2 connected to a toothed belt, a guide post and a pushing member;

FIG. 4 is a schematic structural diagram of a splicing apparatus according to a first embodiment;

FIG. 5 is a schematic view of an intermediate distance adjusting apparatus according to an embodiment;

fig. 6 is a sectional view of fig. 1 at a spacing adjustment device.

Reference numerals:

1. a frame; 2. a pushing device; 21. a mounting seat; 211. a guide post; 22. a first drive mechanism; 221. a pushing motor; 222. a toothed belt; 223. a movable frame; 23. a pattern forming mechanism; 231. a pushing member; 3. a splicing device; 31. a support frame; 32. a rock wool clamping and conveying mechanism; 321. a pinch motor; 322. a connecting member; 323. a side conveyor belt; 33. a rock wool transfer mechanism; 331. a transfer motor; 332. a lower conveyor belt; 3A, a clamping and conveying channel; 4. a spacing adjustment device; 41. a hand-held portion; 42. a screw rod; 43. and (5) pressing a spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which the invention belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a," "an," or "the" and similar referents do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprise" or "comprises", and the like, means that the element or item listed before "comprises" or "comprising" covers the element or item listed after "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like are used only to indicate relative positional relationships that may change when the absolute position of an object being described changes, and are merely for convenience in describing the invention and to simplify the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Some embodiments of the present invention will be described in detail below with reference to the accompanying drawings. Features in the embodiments described below may be combined with each other without conflict.

The first embodiment is as follows:

please refer to fig. 1 to 5, the utility model provides a rock wool board automated production equipment for with the automatic amalgamation of a plurality of rock wool strips for the rock wool board, possess: the splicing device 3 is configured to splice a plurality of rock wool strips into a rock wool board with a preset pattern, and the width of the rock wool board is limited in a first direction; the pushing device 2 is configured to be capable of pushing the plurality of rock wool strips to an inlet of the splicing device 3 and limiting the position of each rock wool strip in the plurality of rock wool strips at the inlet; the splicing device 3 comprises a rock wool clamping mechanism 23 and a rock wool transfer mechanism 33, wherein the rock wool clamping mechanism 23 is configured to clamp the plurality of rock wool strips in a first direction to splice the plurality of rock wool strips into a rock wool panel and transfer the rock wool panel in a second direction, and wherein the rock wool transfer mechanism 33 is configured to transfer the rock wool panel only in the second direction; the pushing device 2 comprises a pattern forming mechanism 23 and a first driving mechanism 22 for driving the pattern forming mechanism 23 to translate, wherein the pattern forming mechanism 23 has at least two pushing members 231, and the at least two pushing members 231 are arranged at intervals in the first direction. And, a distance adjusting device 4 for adjusting the distance between the two connecting pieces 322 is configured on the supporting frame 31.

It should be noted that the splicing in this embodiment refers to the fitting of adjacent rock wool strips, and does not require the rock wool strips to be fastened by an adhesive or a fastener; the preset pattern means that the rock wool strips are pushed to different positions at the inlet of the splicing device 3 (the depth of the rock wool strips pushed into the clamping and conveying channel 3A is different) due to different lengths of the pushing pieces 231 in the pushing device 2, so that the rock wool strips in specific arrangement are obtained, and the preset pattern is obtained by changing the position relationship among the pushing pieces 231. The rock wool strips are spliced with the preset patterns, so that the rock wool strips are mutually embedded together, and the rock wool board can be effectively firmer.

In addition, it should be noted that the first direction is a "Y" direction in fig. 1, and the second direction is an "X" direction in fig. 1; wherein the first direction and the second direction are perpendicular to each other.

In addition, it should be further explained that the rock wool automatic production equipment further comprises a rack 1, wherein the pushing device 2, the splicing device 3 and the distance adjusting device 4 are arranged on the rack 1.

Description of the pushing device 2:

as shown in fig. 1 to 3, the pushing device 2 includes a first driving mechanism 22, a pattern forming mechanism 23, and a mounting base 21, wherein the first driving mechanism 22 is disposed on the mounting base 21, and the pattern forming mechanism 23 is connected to the first driving mechanism 22. And:

the first drive mechanism 22 has a structure in which:

as shown in fig. 1 to 3, the first driving mechanism 22 includes a pushing motor 221, a motion conversion assembly and a movable frame 223, the pushing member 231 in this embodiment is fixed on the movable frame 223, the pushing motor 221 is in power connection with the motion conversion assembly, and the motion conversion assembly is configured to convert the rotational motion obtained by the pushing motor 221 into a linear motion and can drive the movable frame 223 to move in the second direction. The movable frame 223 is fixedly connected to the toothed belt 222, and the output shaft of the pushing motor 221 is fixedly connected to one of a set of toothed wheels.

In the present embodiment, the motion conversion assembly includes a toothed belt 222 and a set of toothed wheels in meshing transmission therewith, and the toothed wheels are rotatably supported on the mounting base 21. The two ends of the movable frame 223 in the first direction are fixedly arranged on the toothed belt 222, and when the pushing motor 221 works, the pushing motor 221 drives the toothed wheel fixed on the output shaft thereof to rotate so as to drive the toothed belt 222 meshed with one set of toothed wheels to rotate, so that the movable frame 223 reciprocates between the toothed wheels. When a plurality of rock wool strips were placed in the frame and were located the second direction of propelling movement spare, when propelling movement motor 221 during operation, this propelling movement motor can be with a plurality of rock wool strip propelling movement to amalgamation device.

It should be noted that, in another embodiment, the motion changing assembly may also be in other structures, such as: the ball screw structure includes a screw shaft extending in the second direction, and a nut connected to the screw shaft in a fitting manner, and the movable frame 223 is fixedly connected to the nut, so that when the pushing motor rotates, the movable frame 223 can reciprocate in the second direction. Alternatively, the motion-changing component may be a slider-crank structure, which is not described in detail in this application since it is a conventional technique in the art.

In addition, as shown in fig. 2 and 3, the fixed frame is provided with a guide post 211, and the movable frame 223 is provided with a guide hole adapted to the shape of the guide post 211, so as to play a guiding role when the toothed belt 222 drives the movable frame 223 to move.

The structure of the pattern forming mechanism 23 is:

as shown in fig. 2 and 3, the pattern forming mechanism 23 in the present embodiment includes a pushing member 231. The at least two pushers 231 are configured to have different lengths in the second direction. That is, the pushing members 231 in this embodiment are arranged in parallel in the first direction, the first ends in the second direction are fixedly arranged on the movable frame 223, and the lengths of the ends of the second ends extending out of the movable frame 223 are different, so that the rock wool strips at different positions have different pushing-out distances when the rock wool strips are pushed.

Furthermore, the spacing distance of the at least two pushing elements 231 in the first direction is smaller than the width of the rockwool strip. That is, the gap between the adjacent pushing members 231 is smaller than the width of the rockwool strip, so as to prevent the rockwool strip from being stuck in the gap between the adjacent pushing members 231. In addition, as a further improvement, the pushing member 231 is provided with a pushing part protruding from the body of the pushing member 231 in the first direction on the end surface of the second end, so as to further prevent the rockwool strips from being stuck in the gap between the pushing members 231.

Description of the split device 3:

as shown in fig. 1 and 4, the splicing device 3 includes a rock wool transfer mechanism 33 and a rock wool clamping and conveying mechanism 23, wherein the rock wool clamping and conveying mechanism 23 is arranged above the rock wool transfer mechanism 33, and the rock wool clamping and conveying mechanism are arranged in a non-contact manner or have the same conveying speed when in work. Wherein:

the rock wool transfer mechanism 33 has the structure:

as shown in fig. 4, the rock wool transfer mechanism 33 includes a lower conveyor belt 332, a transfer motor 331 for driving the lower conveyor belt 332 to move, and a set of lower transfer wheels in meshing transmission with the lower conveyor belt; the lower transfer part is pivotally connected to the frame 1, the transfer motor 331 is fixedly connected to one of the lower transfer wheels, and the lower conveyor belt 332 is disposed below the rock wool board. When the rock wool is pushed to the top of the rock wool transfer mechanism 33, the transfer motor 331 operates to rotate the lower transfer wheel fixed to its output shaft, which drives the lower drive belt to operate and move the rock wool sliver forward in the first direction.

It should be noted that, in the present embodiment, the lower set of transfer wheels includes a main transfer wheel and a plurality of driven transfer wheels, and the specific number of transfer wheels is determined by the worker in the art according to the specific situation.

Rock wool clamp send mechanism 23's structure does:

as shown in fig. 1, 4, 5 and 6, the rock wool gripping mechanism 23 includes a support frame 31 and at least two gripping members opposed to each other in a first direction, wherein the gripping members are coupled to the support frame 31 by a coupling member 322, and the gripping members include a gripping motor 231, a side conveyor belt 323, and a set of gripping wheels to be gripped by the side conveyor belt 323, and an output shaft of the gripping motor 231 is fixedly connected to one of the set of gripping wheels. Further, the pinch motor 231 and the pinch wheel are provided on the link 322.

As shown in fig. 1 and 4, a pinch passage 3A is formed between the two opposing pinch members for defining the width of the rock wool panel, the pinch passage 3A including an inlet near the pushing device 2 and an outlet far from the pushing device 2, the width at the inlet being larger than the width at the outlet so as to receive inward pinching force from the two side conveyor belts 323 when the plurality of rock wool strips pass through the pinch passage 3A in the second direction, thereby splicing the plurality of rock wool strips together. It should be noted that the predetermined pattern formed by the rock wool strips in the pushing device 2 can be further shaped by being forced in the clamping and conveying channel 3A to form a rock wool panel with the predetermined pattern.

It should be noted that at least one of the two connecting members 322 is configured to be movable in a first direction. In this embodiment, the supporting frame 31 is provided with a distance adjusting device 4 for adjusting the distance between the two connecting members 322, the distance adjusting device 4 includes a screw rod 42 and a handheld portion 41 for driving the screw rod 42 to rotate, the handheld portion 41 and the screw rod 42 are coaxially disposed, and the screw rod 42 is in threaded connection with one of the two connecting members 322. When the user rotates the hand-held portion 41, the lead screw 42 can rotate along with the hand-held portion 41, and drives the connecting member 322 to move in the first direction so as to adjust the pitch of the pinch passage 3A. It should be further noted that the supporting frame 31 is provided with a wire guiding post for enabling the connecting member 322 to move in a top-line manner. In another embodiment, the handle 41 may be replaced by a motor, and the motor may be controlled by the user to operate. In another embodiment, the connecting member 322 may be disposed at the outlet of the linear motion device to facilitate the cylinder, the oil cylinder and the linear motor.

The supporting frame 31 is provided with a biasing member for applying a force to one of the two connecting members 322, and the biasing member can apply a force in a direction to move the two connecting members 322 away from each other. This bias voltage application of force spare is pressure spring 43, and after a plurality of rock wool strips entered into to press from both sides the passageway 3A, the effect of rock wool strip lateral extrusion is received to the side conveyer belt, and when the existence of this bias voltage application of force spare, rock wool pinch mechanism 23 can finely tune in the first direction to prevent rock wool pinch mechanism 23's damage.

Namely, one of the two connecting members 322 in this embodiment is provided with the spacing adjustment device 4 for actively adjusting the spacing between the pinch passages 3A, and the other is provided with the bias force application member for passively adjusting the spacing between the pinch passages 3A. Through the combined action of the spacing adjusting device 4 and the bias pressure application part, the clamping pressure of the rock wool strip and the service life of the rock wool clamping and conveying mechanism 23 can be effectively balanced.

It should be further noted that the lead screw 42 is pivotally connected to the support frame, and the lead screw 42 is disposed in a space-saving manner at the position of the bias force application member.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (11)

1. The utility model provides a rock wool board automated production equipment for be the rock wool board with the automatic amalgamation of a plurality of rock wool strips, its characterized in that possesses:

the splicing device is configured to splice a plurality of rock wool strips into a rock wool board with a preset pattern, and the width of the rock wool board is limited in a first direction; and

a pushing device configured to push the plurality of rock wool strips to an inlet of the splicing device and to define a location of each of the plurality of rock wool strips at the inlet;

the splicing device comprises a rock wool clamping mechanism and a rock wool transferring mechanism, wherein the rock wool clamping mechanism is configured to clamp the plurality of rock wool strips in a first direction to splice the plurality of rock wool strips into a rock wool panel, and transfer the rock wool panel in a second direction, and the rock wool transferring mechanism is configured to transfer the rock wool panel only in the second direction;

the pushing device comprises a pattern forming mechanism and a first driving mechanism for driving the pattern forming mechanism to translate, wherein the pattern forming mechanism is provided with at least two pushing pieces which are arranged in a first direction.

2. The automatic rock wool board production facility of claim 1, wherein the first direction and the second direction are perpendicular to each other.

3. The automatic rock wool board production facility of claim 1 or 2, wherein the at least two pushing members are configured to be different in length in the second direction.

4. The automatic rock wool board production equipment of claim 3, wherein the at least two pushing members are spaced apart in the first direction by a distance less than the width of the rock wool strip.

5. The automatic production equipment of rock wool boards as claimed in claim 1, 2 or 4, wherein the first driving mechanism comprises a pushing motor, a motion conversion assembly and a movable frame, the at least two pushing members are fixed on the movable frame, the pushing motor is in transmission connection with the motion conversion assembly, and the motion conversion assembly is configured to convert the rotary motion obtained by the pushing motor into a linear motion and can drive the movable frame to move in the second direction.

6. The automated rock wool board production apparatus of claim 5, wherein the motion conversion assembly includes a toothed belt and a set of toothed wheels driven by the same, the movable frame is fixedly engaged with the toothed belt, and the output shaft of the pushing motor is fixedly connected to one of the set of toothed wheels.

7. The automatic production equipment for rock wool panels as claimed in claim 1, wherein the rock wool pinching mechanism comprises a support frame and at least two opposing pinching members in a first direction, a pinching channel is formed between the two opposing pinching members for limiting the width of the rock wool panel, and the pinching members comprise a side conveyor belt and a pinching motor for driving the side conveyor belt to travel.

8. The automated rock wool panel production apparatus of claim 7, wherein the gripping member is coupled to the support frame by a connector, and at least one of the two connectors is configured to be movable in a first direction.

9. The automatic rock wool board production equipment of claim 8, wherein the support frame is provided with a spacing adjustment device for adjusting the distance between the two connecting pieces, the spacing adjustment device comprises a screw rod and a handheld part for driving the screw rod to rotate, and the screw rod is in threaded connection with at least one of the two connecting pieces.

10. An automatic rock wool board production apparatus as claimed in claim 8 or claim 9 wherein the support frame is provided with a biased biasing member for biasing at least one of the two connectors, the biased biasing member being biased towards a direction in which the two connectors are moved away from each other.

11. The automatic production equipment of rock wool board of claim 1, characterized in that, rock wool transfer mechanism includes the transfer motor of lower conveyer belt and drive lower conveyer belt walking, and the lower conveyer belt sets up the below at the rock wool board.

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