CN212639591U - Multifunctional ice making calandria collecting and releasing workbench - Google Patents

Abstract

The utility model discloses a multi-functional system ice calandria receive and releases workstation contains the support body, is on a parallel with last support body and is located the lower support body under the support body, rotates the stand of connecting between last support body and lower support body, can dismantle the bracing of connecting between stand and lower support body and connect in the cloth pipe and the recovery train on the axle support mechanism and the axle support mechanism of last support body one side. The upright post is respectively connected with the upper frame body and the lower frame body through rotating mechanisms, and connecting pieces are detachably connected between the upright post and the inclined struts. The utility model provides a necessary working space for the workbench for releasing and recovering the ice making calandria through the arrangement of the upper frame body and the lower frame body, and the joint of the upper frame body and the lower frame body is formed by assembling the connecting pieces, thus being easy to install and disassemble; the connection and the support are provided through the arrangement of the upright post and the inclined strut, and the upright post and the inclined strut can be connected in a rotating way, so that the integral folding and adjustment are facilitated; through the arrangement of the pipe arrangement and the recovery wheel train, the long ice-making pipe arrangement tray can be placed and pulled to be unfolded, so that the placing space and time are saved.

Description

Multifunctional ice making calandria collecting and releasing workbench

Technical Field

The utility model belongs to ice-making calandria construction field, in particular to multi-functional ice-making calandria receive and releases workstation.

Background

At present, most of ice making calandria of a temporary ice rink are mainly arranged on the upper layer of the concrete ground, the length of a full-length ice making calandria line can reach the order of magnitude of 3-4 kilometers, the construction period is long, the workload of manual pipe placing is large, and the efficiency is low; need when the ice rink is demolishd to coil the system ice calandria again and deposit, the system ice calandria efficiency is extremely low in the manpower recovery, only can singly retrieve the coil pipe, and the coil pipe elasticity is inconsistent, makes later stage storage space demand enlarge, produces a large amount of construction preparation and recovery time simultaneously, is unfavorable for a series of problems such as the state function conversion of venue in addition. Therefore, it is necessary to develop a device to overcome the above problems, ensure the efficient discharge and recovery of the ice making pipes, and achieve fast function conversion.

SUMMERY OF THE UTILITY MODEL

The utility model provides a multi-functional system ice calandria receive and releases workstation for the high-efficient recovery of solving system ice calandria with release, sparingly utilize the space and shorten the technical problem such as when the construction was used.

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

a multifunctional ice making calandria take-up and pay-off workbench comprises an upper frame body, a lower frame body, an upright post, an inclined strut, a tube distribution and recovery wheel train, wherein the lower frame body is parallel to the upper frame body and is positioned right below the upper frame body;

the stand is connected with slewing mechanism and collapsible embedding in respectively with last support body and lower support body in, can dismantle between stand and bracing and be connected with the connecting piece.

Furthermore, the upper frame body comprises an upper v-shaped frame 21274and upper reinforcing rods connected to the inside of the upper Contraband-shaped frame at intervals, the upper reinforcing rods are parallel to the upper v-shaped frame 21274, and at least one of the side edges of the upper Contraband-shaped frame is arranged; the lower frame body comprises a lower Contraband-shaped frame and lower reinforcing rods connected in the lower Contraband-shaped frame at intervals, the lower reinforcing rods are parallel to the side edges of the lower 21274, and at least one lower reinforcing rod is arranged in the lower Contraband-shaped frame.

Furthermore, the connecting piece is a fold line-shaped connecting piece, a T-shaped connecting piece or an angular connecting piece; the T-shaped connecting piece or the angular connecting piece is connected to the splicing position of the upper frame body and the lower frame body; the zigzag connecting piece is connected between the stand and the diagonal brace, one side edge of the zigzag connecting piece is vertical and can be detachably connected with the stand, the other side edge of the zigzag connecting piece is obliquely downwards connected with the diagonal brace, and the bending angle of the zigzag connecting piece is adapted to the connection angle between the stand and the diagonal brace.

Further, slewing mechanism includes that the rotation that connects in the last rotation support between stand and last support body and correspond links the head, connects in the lower rotation support between stand and lower support body and the rotation that corresponds links the head and connect in the rotation link head and the corresponding pivot that rotates between support and lower rotation support.

Furthermore, the upper rotating support comprises an upper base plate and upper lug plates which are vertically connected to the upper base plate and are parallel to each other, and a connecting shaft hole is formed in each upper lug plate; the lower rotating support comprises a lower bottom plate and lower lug plates which are vertically connected to the lower bottom plate and are parallel to each other, and a connecting shaft hole is formed in each lower lug plate.

Furthermore, two groups of shaft supporting mechanisms are symmetrically connected to the upper surface of the opening end of the upper Contraband-shaped frame; the shaft support mechanism comprises an arc-shaped shaft support part and a support connecting part connected between the shaft support part and the upper frame body; the radian of the shaft support part is suitable for rotationally connecting the pipe arrangement and the recovery wheel train; the bracing piece is detachably connected to the side edge of the upper bracket (21274; bracket).

Further, the cloth pipe and the recovery wheel train comprise a square shaft, wheel shafts connected to two ends of the square shaft and rotatably connected to the shaft support mechanism, fixed blocks connected to the wheel shafts at one end, hoops connected to the wheel shafts at the other end, and a group of pipe winding wheels connected to the square shaft and located between the hoops and the fixed blocks.

Furthermore, the pipe winding wheel comprises a pipe winding shaft, a pipe winding wheel frame connected to one side of the pipe winding shaft, and a fixing hole connected to the pipe winding wheel frame and used for fixing the ice making calandria; and the pipe winding shaft is sleeved with the square shaft.

Furthermore, the embracing ring comprises two arc-shaped plates and a square shaft clamping block connected in the two arc-shaped plates; the square shaft clamping block is two semicircle block bodies, each semicircle is provided with a groove, and the combined shape of the grooves of the two semicircles is suitable for being connected with the square shaft.

The beneficial effects of the utility model are embodied in:

1) the utility model provides a necessary working space for the workbench for releasing and recovering the ice making calandria through the arrangement of the upper frame body and the lower frame body, and the joint of the upper frame body and the lower frame body is formed by assembling the connecting pieces, thus being easy to install and disassemble;

2) the utility model provides connection and support for the upper frame body and the lower frame body through the arrangement of the upright post and the inclined strut, and the upright post is respectively rotatably connected with the upper frame body and the lower frame body through the rotating mechanism, thereby being beneficial to the integral folding and adjustment, and reducing the space occupation;

3) the utility model can arrange and draw the long ice making calandria to be expanded through the arrangement of the pipe distribution and the recovery wheel system, which is beneficial to the construction of the ice making calandria, saves the arranging space and the construction time, and can greatly save the manpower; the whole storage or the storage after being disassembled into parts can be realized, so that the field utilization rate is effectively improved; the tube distribution and recovery wheel system can fix the ice making calandria through the fixing holes, and the rotating wheel system can simultaneously recover a plurality of groups of ice making calandria and coil the ice making calandria into a wheel shape, so that the recovery efficiency is improved in storage.

In addition, the workbench of the utility model can realize the simultaneous discharge of a plurality of ice making calandria lines, thereby improving the construction efficiency; the ice making calandria can be quickly supplemented and released again, and the release time of the ice making calandria is integrally shortened; additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention; the primary objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description.

Drawings

FIG. 1 is a schematic view of a recycling station connection;

FIG. 2 is a schematic view of the upper frame, the lower frame and their connection structure;

FIG. 3 is a schematic view of the upper frame body structure;

FIG. 4 is a schematic view of the lower frame structure;

FIG. 5 is a schematic view of the rotation mechanism and post connection;

FIG. 6 is a schematic view of the connection of the upper rotating support and the upright post;

FIG. 7 is a schematic view of the lower swivel mount and column connection;

FIG. 8 is a schematic view of a dog-leg connector configuration;

FIG. 9 is a schematic view of a T-shaped connector configuration;

FIG. 10 is a schematic view of a corner connector configuration;

FIG. 11 is a schematic view of the coupling of the axle support mechanism;

FIG. 12 is a schematic view of a tube distribution and recovery wheel system;

FIG. 13 is a schematic view of a coiler wheel;

FIG. 14 is a schematic illustration of a closure plate construction;

FIG. 15 is a schematic view of a hoop structure.

Reference numerals: 1-upper frame body, 11-upper Contraband frame body, 12-upper reinforcing rod, 2-lower frame body, 21-lower Contraband frame body, 22-lower reinforcing rod, 3-upright post, 4-diagonal support, 5-rotating mechanism, 51-upper rotating support, 511-upper base plate, 512-upper ear plate, 52-lower rotating support, 521-lower base plate, 522-lower ear plate, 53-rotating connector, 54-rotating shaft, 6-shaft support mechanism, 61-shaft support member, 62-support connector, 7-connector, 71-fold line connector, 72-T connector, 73-angle connector, 8-pipe distribution and recovery wheel train, 81-wheel shaft, 82-fixed block, 83-pipe winding wheel, 831-pipe winding wheel shaft, 832-pipe winding wheel frame, etc, 833-fixed hole, 84-embracing ring, 841-arc plate, 842-square shaft clamping block, 85-square shaft and 86-sealing plate.

Detailed Description

As shown in fig. 1 and 2, a multifunctional ice making bank pipe collecting and releasing workbench comprises an upper frame body 1, a lower frame body 2 parallel to the upper frame body 1 and located under the upper frame body 1, a stand column 3 rotatably connected between the upper frame body 1 and the lower frame body 2, an inclined strut 4 detachably connected between the stand column 3 and the lower frame body 2, and a shaft strut mechanism 6 connected to one side of the upper frame body 1 and a pipe distribution and recovery wheel train 8 connected to the shaft strut mechanism 6. In this embodiment, stand 3 is connected with slewing mechanism 5 and collapsible imbedding in respectively with last support body 1 and lower support body 2 within a definite time, can dismantle between stand 3 and bracing 4 and be connected with connecting piece 7.

As shown in fig. 3 and 4, the upper frame body 1 is made of steel and comprises an upper v-shaped frame 11 and an upper reinforcing rod 12 connected to the upper v-shaped frame 11 at intervals, wherein the upper reinforcing rod 12 is parallel to the side edge of the upper Contraband-shaped frame 11 and is arranged in the upper Contraband-shaped frame 11. The lower frame 2 comprises a lower Contraband-shaped frame 21 and lower reinforcing rods 22 connected at intervals in the lower Contraband-shaped frame 21, wherein the lower reinforcing rods 22 are parallel to the side edges of the lower Contraband-shaped frame 21 and are arranged one in the lower Contraband-shaped frame 21. The cross sections of the upper frame body 1 and the lower frame body 2 are U-shaped, and the opening side of the U-shaped is provided with a flanging. In this embodiment, the cross section of the upright column 3 is U-shaped, and the width of the upright column is smaller than the width of the U-shape of the upper frame body 1 and the lower frame body 2, and when the upright column 3 is folded, the upper frame body 1 and the lower frame body 2 are embedded in the upright column 3.

As shown in fig. 5 to 7, the rotating mechanism 5 includes an upper rotating support 51 and a corresponding rotating joint 53 connected between the upright 3 and the upper frame 1, a lower rotating support 52 and a corresponding rotating joint 53 connected between the upright 3 and the lower frame 2, and a rotating shaft 54 connected between the rotating joint 53 and the corresponding upper rotating support 51 and lower rotating support 52.

In this embodiment, the upper rotating support 51 includes a bottom plate and upper ear plates 512 vertically welded to the upper bottom plate 511 and parallel to each other, and a connecting shaft hole is formed in the upper ear plates 512; the upper base plate 511 and the upper ear plate 512 are made of steel plates. The lower rotating support 52 comprises a lower bottom plate 521 and lower ear plates 522 which are vertically connected to the lower bottom plate 521 and are parallel to each other, and a connecting shaft hole is formed in the lower ear plates 522; the lower plate 521 and the lower ear plate 522 are made of steel plates. The rotary joint 53 is a square pipe and is connected with the upper ear plate 512 and the lower ear plate 522 through a connecting shaft.

As shown in fig. 8 to 10, the connecting members 7 are each made of a steel plate. The connecting piece 7 is a fold line shaped connecting piece 71, a T-shaped connecting piece 72 or an angle shaped connecting piece 73. The T-shaped connecting piece 72 or the angle-shaped connecting piece 73 is bolted at the joint of the upper frame body 1 and the lower frame body 2. The zigzag connecting piece 71 is connected between the upright post 3 and the inclined strut 4 through bolts, one side of the zigzag connecting piece 71 is vertical and is detachably connected with the upright post 3, the other side of the zigzag connecting piece 71 is obliquely downwards connected with the inclined strut 4, and the bending angle of the zigzag connecting piece 71 is 135 degrees to adapt to the connection angle between the upright post 3 and the inclined strut 4.

As shown in fig. 11, the axle supporting mechanism 6 has two sets and is symmetrically connected to the upper surface of the open end of the upper Contraband-shaped frame 11. The shaft support mechanism 6 comprises an arc-shaped shaft support 61 and a support connection 62 connected between the shaft support 61 and the upper frame body 1. The shaft supporting part 61 is made of an arc-shaped steel plate, and the radian of the shaft supporting part is suitable for rotating and connecting the outer diameter of a wheel shaft 81 in the pipe arrangement and recovery wheel train 8. The bracing member 62 is a steel rod member detachably connected to the upper clip 21274via a screw and a nut, and is formed on the side of the bracket 11.

As shown in fig. 12, the tube distribution and recovery wheel train 8 includes a square shaft 85, a wheel shaft 81 connected to two ends of the square shaft 85 and rotatably connected to the shaft support mechanism 6, a fixing block 82 connected to the wheel shaft 81 at one end, a hoop 84 connected to the wheel shaft 81 at the other end, and a set of tube winding wheels 83 connected to the square shaft 85 and located between the hoop 84 and the fixing block 82. In this embodiment, the square shaft 85, the wheel shaft 81 and the fixing block 82 are all made of steel, and are integrally made or welded together. The number of the winding wheels 83 is determined according to the number of ice making calandria to be collected.

As shown in fig. 13, the bobbin winding wheel 83 includes a bobbin shaft 831, a bobbin winding wheel frame 832 connected to one side of the bobbin shaft 831, and a fixing hole 833 connected to the bobbin winding wheel frame 832 for fixing the ice-making bobbin pipes; the pipe winding shaft 831 is a hollow cylindrical plastic pipe or steel pipe and is sleeved with the wheel shaft 81. The pipe winding wheel frame 832 is made of a hexagonal steel plate, and the fixing hole 833 is provided with two homogeneous lower sides.

As shown in fig. 14, a sealing plate 86 is connected to the side of the square shaft 85 where the fixing block 82 is not installed, and the sealing plate 86 and the pipe winding wheel frame 832 are both made of hexagonal steel plates; the closing plate 86 is mounted on the outer end of the winding wheel 83 fitted around the square shaft 85.

As shown in fig. 15, the embracing ring 84 comprises two arc-shaped steel plates and a square shaft clamping block 842 connected inside the two arc-shaped steel plates; the square shaft clamp 842 is two semi-circular steel blocks, each semi-circle has a groove, and the shape of the groove formed by the two semi-circles is suitable for being connected to the square shaft 85.

With reference to fig. 1 to 15, a multifunctional ice making bank pipe storing and releasing workbench is further described, which comprises the following specific steps:

step one, assembling an upper frame body 1 and a lower frame body 2, wherein the upper frame body 1 and the lower frame body 2 are connected at a corner through an angular connecting piece 73, an upper V-shaped connecting piece 21274is arranged, the connecting part of a shape frame 11 and an upper reinforcing rod 12 is connected through a T-shaped connecting piece 72, and the connecting part of the shape frame 11 and the upper reinforcing rod 12 is connected through a T-shaped connecting piece 72; the length and rigidity of the upper frame body 1 and the lower frame body 2 are determined according to the weight of the ice-making calandria to be released and recovered.

Secondly, mounting upright posts 3 between the upper frame body 1 and the lower frame body 2, wherein at least four upright posts 3 are arranged in a square shape; the upright posts 3 are assembled or can be arranged in a telescopic mode, and the material selection supporting weight of the upright posts 3 is determined according to the weight of the ice making calandria to be released and recovered; the vertical column 3 and the lower frame body 2 are connected with an inclined strut 4 through a fold line shaped connecting piece 71.

Thirdly, a group of shaft support mechanisms 6 are connected to the upper surface of the opening side of the upper frame body 1, wherein the shaft support members 61 are prefabricated in advance based on the pipe arrangement and the recovery wheel train 8, and the distance between the two sides of the opening side of the upper frame body 1 is adaptive to the length of the designed pipe arrangement and recovery wheel train 8; the number of groups of the shaft support mechanisms 6 arranged on the upper frame body 1 is suitable for designing ice making calandria to be released and recovered.

Step four, assembling the pipe distribution and recovery wheel train 8, mounting a fixed block 82 on a wheel shaft 81 at one end in advance, sleeving a pipe winding wheel 83 on a square shaft 85, and fixing the pipe winding wheel by using a sealing plate 86 and a hoop 84; and after the completion, the support mechanism 6 is placed on the upper frame body 1.

Step five, during release, the tube winding wheel frame 832 is rotated, and the ice making calandria is dragged to complete the release process; during recovery, the ice-making calandria is inserted into the fixing hole 833, the pipe winding wheel frame 832 is rotated to complete the coiling of the ice-making calandria, then the sealing plate 86 is disassembled, the coiled ice-making calandria is taken out, the pipe winding wheel 83 is sequentially disassembled, and the coiled ice-making calandria is taken out to complete recovery.

Step six, during storage, the installed inclined strut 4 is removed, so that the upper frame body 1 and the lower frame body 2 are folded under the combined action of the upright posts 3 and the rotating mechanism 5 to reduce the space occupation or are disassembled into various accessories for storage according to the components; in addition, the pipe arrangement and the recovery wheel train 8 can be stored separately or can be disassembled into accessories for storage, so that the occupied space is reduced, and the pipe arrangement and the recovery wheel train can be assembled when being used again.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that may be made by those skilled in the art within the technical scope of the present invention will be covered by the scope of the present invention.

Claims (9)

1. A multifunctional ice making calandria collecting and releasing workbench is characterized by comprising an upper frame body (1), a lower frame body (2) which is parallel to the upper frame body (1) and is positioned right below the upper frame body (1), an upright post (3) which is rotatably connected between the upper frame body (1) and the lower frame body (2), an inclined strut (4) which is detachably connected between the upright post (3) and the lower frame body (2), and a shaft strut mechanism (6) connected to one side of the upper frame body (1) and a pipe distribution and recovery wheel train (8) on the shaft strut mechanism (6); at least four upright posts (3) are arranged in a square shape;

the upright post (3) is respectively connected with the upper frame body (1) and the lower frame body (2) through a rotating mechanism (5) and can be embedded into the upper frame body (1) and the lower frame body (2) in a foldable manner, and a connecting piece (7) is detachably connected between the upright post (3) and the inclined strut (4); the connecting piece (7) is a fold line-shaped connecting piece (71), a T-shaped connecting piece (72) or an angular connecting piece (73); the two groups of the shaft support mechanisms (6) are symmetrically connected to the upper surface of the opening end of the upper Contraband-shaped frame (11).

2. The multifunctional ice making calandria storage workbench according to claim 1, wherein said upper frame body (1) comprises upper Contraband-shaped frame (11) and upper reinforcing rods (12) connected in the upper Contraband-shaped frame (11) at intervals, the upper reinforcing rods (12) are parallel to the side of the upper Contraband-shaped frame (11) and at least one reinforcing rod is arranged in the upper Contraband-shaped frame (11); the lower frame body (2) comprises a lower Contraband-shaped frame (21) and lower reinforcing rods (22) connected into the lower Contraband-shaped frame (21) at intervals, and the lower reinforcing rods (22) are parallel to the side edge of the lower Contraband-shaped frame (21) and at least one lower reinforcing rod is arranged in the lower Contraband-shaped frame (21).

3. The multifunctional ice making calandria storage workbench according to claim 1, wherein the T-shaped connector (72) or the angle connector (73) is connected to the joint of the upper frame body (1) and the lower frame body (2); the zigzag connecting piece (71) is connected between the upright post (3) and the inclined strut (4), one side of the zigzag connecting piece (71) is vertical and can be detachably connected with the upright post (3), the other side of the zigzag connecting piece is obliquely downwards connected with the inclined strut (4), and the bending angle of the zigzag connecting piece (71) is adapted to the connecting angle between the upright post (3) and the inclined strut (4).

4. The multifunctional ice making bank pipe collecting and releasing workbench according to claim 1, wherein the rotating mechanism (5) comprises an upper rotating support (51) and a corresponding rotating connecting head (53) connected between the upright column (3) and the upper frame body (1), a lower rotating support (52) and a corresponding rotating connecting head (53) connected between the upright column (3) and the lower frame body (2), and a rotating shaft (54) connected between the rotating connecting head (53) and the corresponding upper rotating support (51) and lower rotating support (52).

5. The multifunctional ice making bank pipe collecting and releasing workbench according to claim 4, wherein the upper rotatable support (51) comprises an upper bottom plate (511) and upper ear plates (512) vertically connected to the upper bottom plate (511) and parallel to each other, and the upper ear plates (512) are provided with axle connecting holes therein; the lower rotating support (52) comprises a lower bottom plate (521) and lower lug plates (522) which are vertically connected to the lower bottom plate (521) and are parallel to each other, and a connecting shaft hole is formed in each lower lug plate (522).

6. The multifunctional ice making calandria retracting and releasing workbench according to claim 2, wherein the axle support mechanism (6) comprises an arc-shaped axle support member (61) and a support connecting member (62) connected between the axle support member (61) and the upper frame body (1); the radian of the shaft support part (61) is suitable for rotationally connecting the pipe arrangement and the recovery wheel train (8); the bracing piece (62) is detachably connected with the side edge of the upper Contraband-shaped frame (11).

7. The multifunctional ice making calandria storing and releasing workbench according to claim 6, wherein the tube distribution and recovery wheel system (8) comprises a square shaft (85), wheel shafts (81) connected to both ends of the square shaft (85) and rotatably connected to the shaft support mechanism (6), a fixed block (82) connected to the wheel shaft (81) at one end, a clasping ring (84) connected to the wheel shaft (81) at the other end, and a set of tube winding wheels (83) connected to the square shaft (85) and located between the clasping ring (84) and the fixed block (82).

8. The multifunctional ice making calandria take-up and pay-off table as claimed in claim 7, wherein said bobbin wheel (83) comprises a bobbin shaft (831), a bobbin wheel frame (832) connected to one side of the bobbin shaft (831), and a fixing hole (833) connected to the bobbin wheel frame (832) for fixing the ice making calandria; the pipe winding shaft (831) is sleeved with the square shaft (85).

9. The multifunctional ice making bank pipe collecting and releasing workbench according to claim 8, wherein said embracing ring (84) comprises two arc-shaped plates (841) and square shaft clamping blocks (842) connected in the two arc-shaped plates (841); the square shaft clamping block (842) is two semicircular block bodies, each semicircle is provided with a groove, and the combined shape of the grooves of the two semicircles is suitable for being connected with the square shaft (85).

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