CN212581420U - Double-freedom-degree rack matched with compression plate for stacking - Google Patents

Abstract

The utility model discloses a double-freedom-degree frame used in cooperation with compression plate stacking, belonging to the technical field of compression plate building material production devices; comprises a pressure-bearing bottom plate fixed on the ground; a guide rail is arranged on the pressure-bearing bottom plate along the width direction of the pressure-bearing bottom plate; the movable plate is arranged on the pressure-bearing bottom plate; a first motor is arranged on the movable plate; the output end of the first motor is connected with the guide rail through a transmission device, and the movable plate is movably arranged on the pressure-bearing bottom plate through the matching between the transmission device and the guide rail; a support frame is arranged on the movable plate along the vertical direction; the upper top of the supporting frame is provided with a main pressure bearing platform and more than two auxiliary pressure bearing platforms; a second motor is arranged on the main pressure bearing platform; the output end of the second motor is connected with the lifting device through a transmission shaft; the auxiliary pressure bearing table is provided with an upper bearing seat matched with the transmission shaft; the lifting device is connected with the pedestal.

Description

Double-freedom-degree rack matched with compression plate for stacking

Technical Field

The utility model relates to a compression plate building materials apparatus for producing technical field, concretely relates to two degree of freedom frames that cooperation compression plate stack used.

Background

Autoclaved aerated concrete slabs (short for aerated slabs and AAC slabs) are widely popularized and applied in China due to the characteristics of economy, convenience in construction and environmental protection in production, aerated slabs which are formed by pouring and cut also need to be stacked in advance, so that the internal space of a steam-curing kettle is more efficiently utilized for steam curing, currently, an aerated slab movable base capable of being stacked is shown in figure 1, a support rod placed at the side end part needs to be manually taken out and then correspondingly installed at a positioning hole position above the base in the working process, and then another base provided with an aerated slab can be stacked to the corresponding position of a base below through the support rod; obviously, the efficiency of taking and placing the support rod only by manpower is relatively low, and in the operation process, as the air-entraining plate is just cut, raw material chips and dust are also attached to the air-entraining plate, so that the health damage to workers is further increased; in the process of automatic design, how to match the movement of the mechanical arm to realize the front and back taking and the position lifting of the support rod is a main problem facing the current.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a two degree of freedom frames that cooperation pressure plate stack was used to solve and can only get through artifical manual getting at present and put the lift branch, inefficiency, have the problem of certain health potential safety hazard to the staff.

In order to solve the above problem, the utility model provides a following technical scheme:

a double-freedom-degree rack used in cooperation with a compression plate stack comprises a pressure-bearing bottom plate fixed on the ground; a guide rail is arranged on the pressure-bearing bottom plate along the width direction of the pressure-bearing bottom plate; the movable plate is arranged on the pressure-bearing bottom plate; a first motor is arranged on the movable plate; the output end of the first motor is connected with the guide rail through a transmission device, and the movable plate is movably arranged on the pressure-bearing bottom plate through the matching between the transmission device and the guide rail; a support frame is arranged on the movable plate along the vertical direction; the upper top of the supporting frame is provided with a main pressure bearing platform and more than two auxiliary pressure bearing platforms; a second motor is arranged on the main pressure bearing platform; the output end of the second motor is connected with the lifting device through a transmission shaft; the auxiliary pressure bearing table is provided with an upper bearing seat matched with the transmission shaft; the lifting device is connected with the pedestal.

Preferably, the guide rail is of a rubber rack structure, the corresponding transmission device is of a transmission shaft structure with a gear matched with the guide rail, and a lower bearing seat matched with the transmission shaft for use is further arranged on the upper top surface of the movable plate.

Preferably, the first motor and the second motor are respectively arranged on the movable plate and at the middle position of the support frame, and the lower bearing seat and the upper bearing seat are symmetrically arranged on two sides of the first motor and the second motor.

Preferably, the pressure-bearing bottom plate is a special-shaped plate structure with a concave-shaped cross section, and the number of the guide rails is two, and the guide rails are respectively arranged at the convex positions on the two sides of the special-shaped plate.

Furthermore, an auxiliary guide rail is arranged on the concave middle plane of the pressure-bearing bottom plate; and the bottom of the movable plate is provided with a roller matched with the auxiliary guide rail.

Preferably, a reinforcing rib is further arranged between the movable plate and the support frame; the first motor and the transmission device are arranged in a space enclosed by the movable plate, the support frame and the reinforcing ribs.

Preferably, the lifting device is a chain transmission mechanism, a chain wheel corresponding to the chain transmission mechanism is installed on the transmission shaft, and two ends of the chain are respectively fixed at the upper end side and the lower end side of the pedestal.

Furthermore, a rotary table is fixed on the front end face of the movable plate; an auxiliary chain wheel is arranged in the rotary table; the upper and lower parts of the chain are respectively arranged around the chain wheel and the auxiliary chain wheel.

Furthermore, the auxiliary chain wheel is arranged at the lower bottom of the rotary table, the length of the movable plate is smaller than that of the pressure-bearing bottom plate, and an empty groove structure facing the inner side of the pressure-bearing bottom plate is formed in the end face, opposite to the pedestal, of the pressure-bearing bottom plate; the size of the empty groove structure is larger than that of the rotary table and the auxiliary chain wheel.

Preferably, the left side and the right side of the end face, opposite to the pedestal, of the support frame are respectively provided with a guide slide rail along the vertical direction; the pedestal passes through the guide slide rail is movably installed at the support frame.

The beneficial effects of the utility model

In the embodiment, the movable plate structure which can move on the pressure-bearing base through the matching between the guide rail and the transmission device driven by the first motor is designed to realize the movement in the horizontal direction, and the support frame is further arranged on the movable plate; and install the second motor and the transmission shaft and the hoisting device that correspond on the carriage, let pedestal direct mount realize the vertical removal of pedestal on hoisting device to solve effectively and to get through artifical manual getting at present and put the lifting support pole, inefficiency, there is the problem of certain health potential safety hazard to the staff.

Drawings

FIG. 1 is a view showing a base structure of a pressurizing plate to be processed in the present embodiment;

fig. 2 is a schematic structural view of the present invention in an embodiment;

FIG. 3 is a front view of the apparatus of FIG. 1 with the backing plate removed;

FIG. 4 is a main frame structure formed by the movable plate, the supporting frame and the reinforcing ribs in the present embodiment;

FIG. 5 is a schematic structural view of the pressure-bearing bottom plate of the present embodiment;

description of reference numerals: 1. the bearing device comprises a bearing bottom plate, 2, a guide rail, 3, a movable plate, 4, a first motor, 5, a transmission device, 6, a support frame, 7, a main bearing platform, 8, an auxiliary bearing platform, 9, a second motor, 10, a transmission shaft, 11, a lifting device, 11A, a chain wheel, 11B, a chain, 12, an upper bearing seat, 13, a pedestal, 14, a lower bearing seat, 15, an auxiliary guide rail, 16, a reinforcing rib, 17, a rotary table, 18, an auxiliary chain wheel, 19 and a guide slide rail.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

example (b):

referring to fig. 1, the present embodiment provides a two-degree-of-freedom rack for use with stacking of compression plates, including a pressure-bearing bottom plate 1 fixed on the ground; a guide rail 2 is arranged on the pressure-bearing bottom plate 1 along the width direction of the pressure-bearing bottom plate 1; the movable plate 3 is placed on the pressure-bearing bottom plate 1; a first motor 4 is mounted on the movable plate 3; the output end of the first motor 4 is connected with the guide rail 2 through a transmission device 5, and the movable plate 3 is movably arranged on the pressure-bearing bottom plate 1 through the matching between the transmission device 5 and the guide rail 2; a support frame 6 is arranged on the movable plate 3 along the vertical direction; a main pressure bearing table 7 and more than two auxiliary pressure bearing tables 8 are arranged at the upper top of the support frame 6; a second motor 9 is arranged on the main pressure bearing platform 7; the output end of the second motor 9 is connected with a lifting device 11 through a transmission shaft 10; an upper bearing seat 12 matched with the transmission shaft 10 is arranged on the auxiliary bearing platform 8; the lifting device 11 is connected to the pedestal 13.

The guide rail 2 is of a rubber rack structure, the corresponding transmission device 5 is of a transmission shaft structure with a gear matched with the guide rail 2, and a lower bearing seat 14 matched with the transmission shaft for use is further arranged on the upper top surface of the movable plate 3. In the present embodiment, the transmission device 5 is a gear shaft structure; considering the abrasion of the quality of the device, the guide rail 2 is replaced by a rubber rack structure, so that the abrasion can be reduced, and the service life of the device is prolonged.

The first motor 4 and the second motor 9 are respectively arranged at the movable plate 3 and at the middle position of the support frame 6, and the lower bearing seat 14 and the upper bearing seat 12 are symmetrically arranged at two sides of the first motor 4 and the second motor 9.

The pressure-bearing bottom plate 1 is a special-shaped plate structure with a concave-shaped cross section, and the number of the guide rails 2 is two, and the guide rails are respectively arranged at the convex positions on the two sides of the special-shaped plate.

Furthermore, an auxiliary guide rail 15 is arranged on the concave middle plane of the pressure-bearing bottom plate 1; and a roller used in cooperation with the auxiliary guide rail 15 is installed at the lower bottom of the movable plate 3. In order to increase the contact area between the movable plate 3 and the pressure-bearing bottom plate 1 and reduce the pressure intensity applied to the guide rail 2, an auxiliary guide rail 15 and a roller structure at the lower bottom of the movable floor 3 are arranged.

A reinforcing rib 16 is also arranged between the movable plate 3 and the support frame 6; the first motor 4 and the transmission device 5 are both arranged in a space enclosed by the movable plate 3, the support frame 6 and the reinforcing ribs 16. The arrangement of the reinforcing ribs 16 can further improve the structural stability of the device, and a certain protection effect can be exerted on the first motor 4 in the space enclosed by the movable plate 3, the support frame 6 and the reinforcing ribs 16.

The lifting device 11 is a chain transmission mechanism, a chain wheel 11A corresponding to the chain transmission mechanism is installed on the transmission shaft 10, and two ends of a chain 11B are respectively fixed at the upper and lower end side positions of the pedestal 13. A rotary table 17 is fixed on the front end face of the movable plate 3; an auxiliary sprocket 18 is installed in the turn table 17; the upper and lower portions of the chain 11B are disposed around the sprocket 11A and the auxiliary sprocket 18, respectively.

The auxiliary chain wheel 18 is arranged at the lower bottom of the rotary table 17, the length of the movable plate 3 is smaller than that of the pressure-bearing bottom plate 1, and an empty groove structure facing the inner side of the pressure-bearing bottom plate 1 is formed in the end face, opposite to the pedestal 13, of the pressure-bearing bottom plate 1; the size of the empty groove structure is larger than that of the rotary table 17 and the auxiliary chain wheel 18. In the embodiment, the empty groove is a V-shaped structure extending towards the interior of the pressure-bearing bottom plate 1, and since the length of the movable plate 3 is less than that of the pressure-bearing bottom plate 1, i.e. the guide rail 2, the auxiliary sprocket 18 located at the lower part of the movable plate 3 may interfere with the pressure-bearing bottom plate 1, so that a large enough empty groove needs to be designed to meet the activity requirement.

The left side and the right side of the end surface of the support frame 6 opposite to the pedestal 13 are respectively provided with a guide slide rail 19 along the vertical direction; the stand 13 is movably mounted on the support frame 6 by means of said guide slide 19. The guide slide rail 19 can perform a function of limiting and guiding the pedestal 13, thereby preventing the pedestal from shaking when the pedestal moves up and down through the lifting device, and improving the stability of the device.

Claims (10)

1. A two-degree-of-freedom rack matched with a compression plate for stacking is characterized in that: comprises a pressure-bearing bottom plate (1) fixed on the ground; a guide rail (2) is arranged on the pressure-bearing bottom plate (1) along the width direction of the pressure-bearing bottom plate (1); the movable plate (3) is placed on the pressure-bearing bottom plate (1); a first motor (4) is arranged on the movable plate (3); the output end of the first motor (4) is connected with the guide rail (2) through a transmission device (5), and the movable plate (3) is movably arranged on the pressure-bearing bottom plate (1) through the matching between the transmission device (5) and the guide rail (2); a support frame (6) is arranged on the movable plate (3) along the vertical direction; a main pressure bearing platform (7) and more than two auxiliary pressure bearing platforms (8) are arranged at the upper top of the support frame (6); a second motor (9) is arranged on the main pressure bearing table (7); the output end of the second motor (9) is connected with the lifting device (11) through a transmission shaft (10); an upper bearing seat (12) matched with the transmission shaft (10) is arranged on the auxiliary bearing platform (8); the lifting device (11) is connected to the stand (13).

2. A two degree-of-freedom frame for use with a stack of compression plates as claimed in claim 1, wherein: the guide rail (2) is of a rubber rack structure, the corresponding transmission device (5) is of a transmission shaft structure with a gear matched with the guide rail, and a lower bearing seat (14) matched with the transmission shaft for use is further arranged on the upper top surface of the movable plate (3).

3. A two degree-of-freedom frame for use with a stack of compression plates as claimed in claim 1, wherein: the first motor (4) and the second motor (9) are respectively arranged on the movable plate (3) and the middle position of the support frame (6), and the lower bearing seat (14) and the upper bearing seat (12) are symmetrically arranged on two sides of the first motor (4) and the second motor (9).

4. A two degree-of-freedom frame for use with a stack of compression plates as claimed in claim 1, wherein: the pressure-bearing bottom plate (1) is of a special-shaped plate structure with a concave cross section, and the number of the guide rails (2) is two, and the guide rails are arranged at the protruding positions on the two sides of the special-shaped plate respectively.

5. A two degree-of-freedom frame for use with a stack of compression plates as claimed in claim 4, wherein: an auxiliary guide rail (15) is arranged on the concave middle plane of the pressure-bearing bottom plate (1); and the bottom of the movable plate (3) is provided with a roller matched with the auxiliary guide rail (15) for use.

6. A two degree-of-freedom frame for use with a stack of compression plates as claimed in claim 1, wherein: a reinforcing rib (16) is also arranged between the movable plate (3) and the support frame (6); the first motor (4) and the transmission device (5) are both arranged in a space enclosed by the movable plate (3), the support frame (6) and the reinforcing ribs (16).

7. A two degree-of-freedom frame for use with a stack of compression plates as claimed in claim 1, wherein: the lifting device (11) is a chain transmission mechanism, a chain wheel (11A) corresponding to the chain transmission mechanism is arranged on the transmission shaft (10), and two ends of a chain (11B) are respectively fixed at the upper end side and the lower end side of the pedestal (13).

8. A two degree-of-freedom frame for use with a stack of compression plates as claimed in claim 7, wherein: a rotary table (17) is fixed on the front end face of the movable plate (3); an auxiliary chain wheel (18) is arranged in the rotary table (17); the upper and lower parts of the chain (11B) are respectively arranged around the chain wheel (11A) and the auxiliary chain wheel (18).

9. A two degree-of-freedom frame for use with a stack of compression plates as claimed in claim 8, wherein: the auxiliary chain wheel (18) is arranged at the lower bottom of the rotary table (17), the length of the movable plate (3) is smaller than that of the pressure-bearing bottom plate (1), and an empty groove structure facing the inner side of the pressure-bearing bottom plate (1) is formed in the end face, opposite to the pedestal (13), of the pressure-bearing bottom plate (1); the size of the empty groove structure is larger than that of the rotary table (17) and the auxiliary chain wheel (18).

10. A two degree-of-freedom frame for use with a stack of compression plates as claimed in claim 1, wherein: the left side and the right side of the end surface of the support frame (6) opposite to the pedestal (13) are respectively provided with a guide slide rail (19) along the vertical direction; the pedestal (13) is movably arranged on the support frame (6) through the guide sliding rail (19).

Images