CN117445365B

CN117445365B - Assembling quick-dismantling container clamping device

Info

Publication number: CN117445365B
Application number: CN202311791777.XA
Authority: CN
Inventors: 钱志兵; 叶鹏; 吴书朋
Original assignee: Jiangsu Newamstar Packagin Machinery Co Ltd
Current assignee: Jiangsu Newamstar Packagin Machinery Co Ltd
Priority date: 2023-12-25
Filing date: 2023-12-25
Publication date: 2024-04-05
Anticipated expiration: 2043-12-25
Also published as: CN117445365A

Abstract

The invention discloses an assembling and quick-dismantling container clamping device, which comprises: the clamping device comprises a support, a pair of clamping blocks, a pair of rotating blocks and a pair of mounting blocks, wherein each mounting block is clamped in a clamping groove of the corresponding rotating block, a guide shaft on each clamping block sequentially penetrates through a corresponding guide through hole, a mounting block through hole and a guide shaft mounting hole, a connecting shaft on each clamping block sequentially penetrates through a corresponding connecting shaft through hole and a connecting shaft mounting hole, and a clamping limiting mechanism is further arranged between each mounting block and the corresponding connecting shaft; the rotating shafts on the pair of rotating blocks are respectively arranged in the rotating shaft mounting holes on the support, and under the action of the elastic parts arranged on the rotating blocks, the pair of rotating blocks always have the trend of driving the clamping parts of the pair of clamping blocks to be mutually close to be in a clamping state; a rotating gap is reserved between the mounting block positioned in the clamping groove and the inner wall of the closed end of the clamping groove. The invention has the advantages that: the structure is simple and ingenious, and the installation and the disassembly of each part are extremely convenient.

Description

Assembling quick-dismantling container clamping device

Technical Field

The invention relates to the technical field of liquid packaging equipment, in particular to a container clamping device.

Background

In order to meet the diversified demands of the market, one bottle blowing machine can blow a plurality of bottle types with different calibers, and one filling production line can fill the bottle types with different calibers. For this reason, when the bottle blowing machine is required to produce bottle types of different caliber sizes, all the clamping devices for transporting and clamping the containers are replaced with corresponding clamping caliber sizes. However, the replacement of the clamping device is time-consuming and labor-consuming, and greatly affects the production efficiency. Therefore, developing a container clamping device capable of achieving quick replacement is particularly important for liquid filling production.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the container clamping device can be quickly disassembled, so that the replacement and installation efficiency can be greatly improved.

In order to solve the problems, the invention adopts the following technical scheme: a split type container holding device comprising: the support is assembled with a pair of clamping blocks, a pair of rotating blocks and a pair of mounting blocks, and the clamping blocks, the rotating blocks and the mounting blocks are in one-to-one correspondence; the structure of each clamping block comprises: the clamping block comprises a clamping block body, wherein one end of the clamping block body is provided with a clamping block head, the inner side of the clamping block head is provided with a clamping part, and the other end of the clamping block body is provided with a guide shaft and a connecting shaft in parallel; the structure of each rotating block comprises: the clamping groove is a semi-closed structure with an opening at the inner side end, a guide shaft through hole and a connecting shaft through hole which are respectively used for penetrating a guide shaft and a connecting shaft on the corresponding clamping blocks are formed in the rotating block body at one side of the clamping groove, a guide shaft mounting hole and a connecting shaft mounting hole which are respectively used for penetrating a guide shaft and a connecting shaft on the corresponding clamping blocks are formed in the rotating block body at the other side of the clamping groove, and a rotating shaft is further arranged at the top of the rotating block at one side of the guide shaft mounting hole and the connecting shaft mounting hole; the structure of each mounting block includes: the top of the mounting block body is provided with an elastic component mounting seat, and the mounting block body is provided with a mounting block guide hole; a pair of rotating shaft mounting holes are formed in the support;

each mounting block is clamped in a clamping groove of the corresponding rotating block, a guide shaft on each clamping block sequentially penetrates through the corresponding guide shaft through hole, the mounting block through hole and the guide shaft mounting hole, a connecting shaft on each clamping block sequentially penetrates through the corresponding connecting shaft through hole and the connecting shaft mounting hole, and a clamping and blocking limiting mechanism for preventing the clamping blocks from being separated from the corresponding rotating blocks is further arranged between each mounting block and the corresponding connecting shaft;

the rotating shafts on the pair of rotating blocks are respectively arranged in a pair of rotating shaft mounting holes on the support, the elastic component is arranged on a pair of elastic mounting seats on the two rotating blocks, and under the action of the elastic component, the pair of rotating blocks always have a trend of driving the clamping parts of the pair of clamping blocks to be mutually close to be in a clamping state capable of clamping the container mouth;

a rotating gap is reserved between the mounting block which is arranged on the guide shaft in the clamping groove in a penetrating manner and the inner wall of the closed end of the clamping groove, and the width of the rotating gap is ensured: after the elastic component is dismantled, the installation block at the open end of the clamping groove can rotate upwards around the guide shaft until the installation block releases the blocking limit of the clamping block.

Further, the foregoing assembling quick-dismantling container clamping device, wherein, the block stop limit mechanism between every installation piece and the corresponding connecting shaft includes: the connecting shaft clamping and blocking grooves which are concave inwards are milled on the outer wall of the connecting shaft, connecting shaft clamping and blocking parts are respectively formed at the two ends of the connecting shaft clamping and blocking grooves, mounting block clamping grooves are formed in the bottoms of the mounting blocks, and each mounting block clamping groove is correspondingly clamped in the connecting shaft clamping and blocking groove, so that the mounting blocks are clamped and blocked between the connecting shaft clamping and blocking parts at the two ends of the connecting shaft clamping and blocking grooves.

Further, the foregoing assembling quick-dismantling container clamping device, wherein the structure of the elastic component mount pad at the top of the mounting block body includes: the column-shaped installation shaft is provided with an elastic component installation groove which is concave inwards on the outer wall of the upper end part of the column-shaped installation shaft.

Furthermore, in the above-mentioned assembled and quick-disassembled container clamping device, the elastic component is a compression spring, and two ends of the compression spring are respectively connected in the elastic component mounting grooves of the pair of column-shaped mounting shafts.

Still further, the foregoing quick detach formula container clamping device is assembled to one kind, and wherein, the draw-in groove on the rotating block body is the U style of calligraphy, and U style of calligraphy draw-in groove one end opening, the other end are the circular arc blind end, wear to establish all leave the rotation clearance between the inner wall of the draw-in groove that is located the installation piece in draw-in groove and the circular arc blind end that corresponds on the guiding axle, and the width of clearance ensures: after the elastic component is dismantled, the installation piece of draw-in groove opening one end can rotate upwards around the guiding axle until the installation piece draw-in groove of installation piece breaks away from with the connecting axle card keeps off the portion mutually to remove the card of clamp splice and keep off spacingly.

Further, the foregoing assembling quick-dismantling container clamping device, wherein, still be provided with the card between support and the pair of rotating block and keep off positioning mechanism, the structure of the card that keeps off positioning mechanism between support and the pair of rotating block includes: the inner side wall of each rotating block, which is positioned at one end of the rotating shaft, is provided with a positioning stop block protruding outwards; the bottom of the support is provided with a support stop block protruding downwards; the rotating shafts on the pair of rotating blocks are respectively arranged in a pair of rotating shaft mounting holes on the support, and meanwhile, the support stop blocks are blocked on the positioning stop blocks of the pair of rotating blocks.

Further, the foregoing assembly quick-release container clamping device, wherein the support comprises: the support body, the pivot mounting hole set up on the support body, the support dog is located the one end of support body, the other end of support body is provided with support connecting portion, has seted up a plurality of support connecting holes of usefulness of connection on the support connecting portion.

The invention has the advantages that: the assembling and quick-dismantling container clamping device has a simple and ingenious structure, and a pair of clamping blocks and a pair of rotating blocks are arranged on the support in an assembling manner, so that the assembling and disassembling are very convenient. When the clamping block needs to be replaced, the elastic component is only required to be removed, then the installation block is rotated to enable the clamping block to be separated from the rotation block, and then the quick replacement of the clamping block and the quick replacement of other parts can be realized, so that time and labor are saved.

Drawings

Fig. 1 is a schematic structural view of an assembled and quick-disassembled container clamping device according to the present invention.

Fig. 2 is a schematic diagram of an assembling structure of an assembling and quick-dismantling container clamping device according to the invention.

Fig. 3 is a schematic structural view of a blocking limiting mechanism between an installation block and a corresponding connecting shaft in the assembled and quick-disassembled container clamping device.

Fig. 4 is a schematic diagram of a connection structure between a connecting shaft and a mounting block when the clamping block is blocked and limited.

Fig. 5 is a schematic diagram of a connection structure between a connection shaft and a mounting block when the clamping block is released from the blocking limit.

Detailed Description

The invention will be described in further detail with reference to the drawings and the preferred embodiments.

As shown in fig. 1, 2, 3, 4 and 5, a quick-release container clamping device includes: the support 1, a pair of clamp splice, a pair of rotating block and a pair of installation piece have been assembled on the support 1, and the clamp splice is all one-to-one with rotating block and installation piece. For convenience of description, in this embodiment, a pair of clamping blocks are a first clamping block 2 and a second clamping block 3, a pair of rotating blocks are a first rotating block 4 and a second rotating block 5, and a pair of mounting blocks are a first mounting block 6 and a second mounting block 7, respectively. The first clamping block 2 corresponds to the first rotating block 4 and the first mounting block 6, and the second clamping block 3 corresponds to the second rotating block 5 and the second mounting block 7.

The first clamping block 2 and the second clamping block 3 are symmetrically identical in structure. The structure of the first clamp block 2 includes: the first clamp splice body 21, the one end of first clamp splice body 21 sets up first clamp splice head 211, and the inboard of first clamp splice head 211 is provided with first clamping part 212, and the other end parallel arrangement of first clamp splice body 21 has first guiding axle 22 and first connecting axle 23, and first connecting axle 23 is located the inboard of first guiding axle 22. The structure of the second clamp block 3 includes: the second clamp splice body 31, the one end of second clamp splice body 31 sets up second clamp splice head 311, and the inboard of second clamp splice head 311 is provided with second clamping part 312, and the other end parallel arrangement of second clamp splice body 31 has second guiding axle 32 and second connecting axle 33, and second connecting axle 33 is located the inboard of second guiding axle 32.

The first rotating block 4 and the second rotating block 5 are symmetrically identical in structure. The structure of the first turning block 4 includes: the first rotating block body 41 is provided with a first clamping groove 42, the first clamping groove 42 is of a semi-closed structure with an opening at the inner side end, the first rotating block body 41 on one side of the first clamping groove 42 is provided with a first guide shaft through hole 43 and a first connecting shaft through hole 44 which are respectively used for penetrating the first guide shaft 22 and the first connecting shaft 23, the first rotating block body 41 on the other side of the first clamping groove 42 is provided with a first guide shaft mounting hole 45 and a first connecting shaft mounting hole 46 which are respectively used for penetrating the first guide shaft 22 and the first connecting shaft 23, and the top of the first rotating block body 41 on one side of the first guide shaft mounting hole 45 and the first connecting shaft mounting hole 46 is also provided with a first rotating shaft 47.

The structure of the second rotating block 5 includes: the second rotating block body 51 is provided with a second clamping groove 52, the second clamping groove 52 is of a semi-closed structure with an opening at the inner side end, the second rotating block body 51 on one side of the second clamping groove 52 is provided with a second guide shaft through hole 53 and a second connecting shaft through hole 54 which are respectively used for penetrating the second guide shaft 32 and the second connecting shaft 33, the second rotating block body 51 on the other side of the second clamping groove 52 is provided with a second guide shaft mounting hole 55 and a second connecting shaft mounting hole 56 which are respectively used for penetrating the second guide shaft 32 and the second connecting shaft 33, and the top of the second rotating block body 51 on one side of the second guide shaft mounting hole 55 and the second connecting shaft mounting hole 56 is also provided with a second rotating shaft 57.

The structure of a pair of mounting blocks is symmetrically identical. The structure of the first mounting block 6 includes: the first installation piece body 61, the top of first installation piece body 61 is provided with first elastomeric element mount pad, has seted up the first installation piece guiding hole 62 that is used for wearing to establish first guiding axle 22 on the first installation piece body 61. In this embodiment, the structure of the first elastic member mount at the top of the first mount block body 61 includes: the first cylindrical mounting shaft 63 is provided with a first elastic member mounting groove 631 recessed inward on an outer wall of an upper end portion of the first cylindrical mounting shaft 63.

The structure of the second mounting block 7 includes: the second installation piece body 71, the top of second installation piece body 71 is provided with second elastomeric element mount pad, has offered the second installation piece guiding hole 72 that is used for wearing to establish second guiding axle 32 on the second installation piece body 71. In this embodiment, the structure of the second elastic member mounting seat at the top of the second mounting block body 71 includes: the second cylindrical mounting shaft 73, the outer wall of the upper end portion of the second cylindrical mounting shaft 73 is provided with a second elastic member mounting groove 731 recessed inward.

In this embodiment, the stand 1 includes: the support body 11, the support body 11 is provided with a pair of shaft mounting holes for mounting the first shaft 47 and the second shaft 57, respectively, the pair of shaft mounting holes being the first shaft mounting hole 12 and the second shaft mounting hole 13, respectively.

Still be provided with the card between support 1 and the pair of rotating block and keep off positioning mechanism, the structure of the card that keeps off positioning mechanism between support 1 and the pair of rotating block specifically includes: the inner side wall of each rotating block, which is positioned at one end of the rotating shaft, is provided with a positioning stop block protruding outwards; specifically, a first positioning stop block 48 is disposed on an inner side wall of the first rotating block 4 located at one end of the first rotating shaft 47, and a second positioning stop block 58 is disposed on an inner side wall of the second rotating block 5 located at one end of the second rotating shaft 57. The bottom of the support 1 is provided with a support stop 14 protruding downwards; the shafts on the pair of rotary blocks are respectively mounted in the pair of shaft mounting holes on the support, and at the same time the support stopper 14 is caught on the positioning stoppers of the pair of rotary blocks, i.e., the first positioning stopper 48 and the second positioning stopper 58. The support stopper 14 is located at one end of the support body 11, the other end of the support body 11 is provided with a support connecting portion 15, and a plurality of support connecting holes 151 for connection are formed in the support connecting portion 15.

Each mounting block is clamped in a clamping groove of the corresponding rotating block, and specifically: the first mounting block 6 is mounted in the first clamping groove 42 of the first rotating block 4, and the second mounting block 5 is mounted in the second clamping groove 52 of the second rotating block 5.

The two clamping blocks are oppositely arranged, the guide shaft on each clamping block sequentially penetrates through the corresponding guide shaft through hole, the corresponding mounting block guide hole and the corresponding guide shaft mounting hole, and the connecting shaft on each clamping block sequentially penetrates through the corresponding connecting shaft through hole and the corresponding connecting shaft mounting hole. Specifically, the first guide shaft 22 on the first clamping block 2 is sequentially inserted into the corresponding first guide shaft through hole 43, the first mounting block guide hole 62 and the first guide shaft mounting hole 45; the first connecting shaft 23 on the first clamping block 2 is sequentially inserted into the corresponding first connecting shaft through hole 44 and the first connecting shaft mounting hole 46. The second guide shaft 32 on the second clamping block 3 sequentially passes through the corresponding second guide shaft through hole 53, the second installation block guide hole 72 and the second guide shaft installation hole 55; the second connecting shaft 33 on the second clamping block 3 is sequentially inserted into the corresponding second connecting shaft through hole 54 and the second connecting shaft mounting hole 56.

And a blocking limiting mechanism for preventing the clamping blocks from being separated from the corresponding rotating blocks is further arranged between each mounting block and the corresponding connecting shaft. In this embodiment, the blocking limiting mechanism between the first mounting block 6 and the first connecting shaft 23 includes: the outer wall of the first connecting shaft 23 is milled with a first connecting shaft blocking groove 231 which is concave inwards, two ends of the first connecting shaft blocking groove 231 are respectively provided with a first connecting shaft blocking part 232, the bottom of the first mounting block 6 is provided with a first mounting block clamping groove 64, and the first mounting block clamping groove 64 can be blocked in the first connecting shaft blocking groove 231, so that the first mounting block 6 is blocked between the first connecting shaft blocking parts 232 at two ends of the first connecting shaft blocking groove 231.

The blocking and limiting mechanism between the second mounting block 7 and the second connecting shaft 33 includes: the outer wall of the second connecting shaft 33 is milled with a second connecting shaft blocking groove 331 recessed inwards, two ends of the second connecting shaft blocking groove 331 respectively form a second connecting shaft blocking part 332, the bottom of the second installation block 7 is provided with a second installation block clamping groove 74, and the second installation block clamping groove 74 can be blocked in the second connecting shaft blocking groove 331, so that the second installation block 7 is blocked between the second connecting shaft blocking parts 332 at two ends of the second connecting shaft blocking groove 331.

The rotating shafts on the pair of rotating blocks are respectively arranged in a pair of rotating shaft mounting holes on the support. Specifically, in the present embodiment, the first rotation shaft 47 on the first rotation block 4 is installed in the first rotation shaft installation hole 12 of the holder 1, the second rotation shaft 57 on the second rotation block 5 is installed in the second rotation shaft installation hole 13 of the holder 1, and the holder stopper 14 is caught on the first positioning stopper 48 and the second positioning stopper 58.

The elastic component is installed on a pair of elastic mounting seats on two rotating blocks, and under the effect of the elastic component, the rotating blocks always have the trend of driving the clamping parts of the clamping blocks to be mutually close to be in a clamping state capable of clamping the container opening. The elastic members described in the present embodiment are compression springs 8, and both ends of the compression springs 8 are respectively connected in the first elastic member mounting grooves 631 of the first column-shaped mounting shaft 63 and the second elastic member mounting grooves 731 of the second column-shaped mounting shaft 73.

A rotating gap is reserved between the mounting block which is arranged on the guide shaft in the clamping groove in a penetrating manner and the inner wall of the closed end of the clamping groove, and the width of the rotating gap is ensured: after the elastic component is dismantled, the installation block that is located draw-in groove opening one end can rotate on the guiding axle until the installation block releases the card of clamp splice and keeps off spacingly.

In this embodiment, the first clamping groove 42 and the second clamping groove 52 are both U-shaped, one end of the U-shaped clamping groove is open, the other end of the U-shaped clamping groove is an arc closed end, a rotating gap is reserved between an installation block penetrating through the guide shaft and located in the clamping groove and the inner wall of the clamping groove corresponding to the arc closed end, and the width of the rotating gap is ensured: after the compression spring 8 is removed, the installation block at one end of the clamping groove opening can rotate upwards around the guide shaft until the installation block clamping groove of the installation block is separated from the clamping and blocking part of the connecting shaft, so that the clamping and blocking limit of the clamping block is released. Specifically, the first rotation gap 40 between the first mounting block 6 located in the first clamping groove 42 and the inner wall of the first clamping groove 42 of the circular-arc closed end, which is penetrated on the first guide shaft 22, ensures: after the compression spring 8 is removed, the first mounting block 6 located at the opening end of the first clamping groove 42 can rotate upwards around the first guide shaft 22 until the first mounting block clamping groove 64 of the first mounting block 6 is separated from the first connecting shaft clamping part 232, so that the clamping limit of the first clamping block 2 is released. Likewise, the second rotational gap 50 between the second mounting block 7 located in the second clamping groove 52 and the inner wall of the second clamping groove 52 of the circular-arc closed end, which is penetrated on the second guide shaft 32, ensures: after the compression spring 8 is removed, the second mounting block 7 located at the open end of the second clamping groove 52 can rotate upwards around the second guide shaft 32 until the second mounting block clamping groove 74 of the second mounting block 7 is separated from the second connecting shaft clamping part 332, so that the clamping limit of the second clamping block 3 is released.

From the above description, it is possible to obtain: the assembling and quick-dismantling container clamping device is simple in structure and quite ingenious, and a pair of clamping blocks and a pair of rotating blocks are arranged on the support in an assembling mode, so that the assembling and quick-dismantling container clamping device is quite convenient to install. When the clamping block needs to be replaced, the compression spring is only required to be removed, then the mounting block is rotated to enable the clamping block to be separated from the rotating block, and therefore quick replacement of the clamping block and quick replacement of other parts can be achieved, and time and labor are saved.

Claims

1. An assembled quick-release container clamping device, comprising: support, its characterized in that: the support is assembled with a pair of clamping blocks, a pair of rotating blocks and a pair of mounting blocks, and the clamping blocks, the rotating blocks and the mounting blocks are in one-to-one correspondence; the structure of each clamping block comprises: the clamping block comprises a clamping block body, wherein one end of the clamping block body is provided with a clamping block head, the inner side of the clamping block head is provided with a clamping part, and the other end of the clamping block body is provided with a guide shaft and a connecting shaft in parallel; the structure of each rotating block comprises: the clamping groove is a semi-closed structure with an opening at the inner side end, a guide shaft through hole and a connecting shaft through hole which are respectively used for penetrating a guide shaft and a connecting shaft on the corresponding clamping blocks are formed in the rotating block body at one side of the clamping groove, a guide shaft mounting hole and a connecting shaft mounting hole which are respectively used for penetrating a guide shaft and a connecting shaft on the corresponding clamping blocks are formed in the rotating block body at the other side of the clamping groove, and a rotating shaft is further arranged at the top of the rotating block at one side of the guide shaft mounting hole and the connecting shaft mounting hole; the structure of each mounting block includes: the top of the mounting block body is provided with an elastic component mounting seat, and the mounting block body is provided with a mounting block guide hole; a pair of rotating shaft mounting holes are formed in the support;

2. The quick-release container holding device of claim 1, wherein: the block stop mechanism between each installation block and the corresponding connecting shaft comprises: the connecting shaft clamping and blocking grooves which are concave inwards are milled on the outer wall of the connecting shaft, connecting shaft clamping and blocking parts are respectively formed at the two ends of the connecting shaft clamping and blocking grooves, mounting block clamping grooves are formed in the bottoms of the mounting blocks, and each mounting block clamping groove is correspondingly clamped in the connecting shaft clamping and blocking groove, so that the mounting blocks are clamped and blocked between the connecting shaft clamping and blocking parts at the two ends of the connecting shaft clamping and blocking grooves.

3. The quick-release container holding device of claim 1, wherein: the structure of the elastic component mount pad at installation piece body top includes: the column-shaped installation shaft is provided with an elastic component installation groove which is concave inwards on the outer wall of the upper end part of the column-shaped installation shaft.

4. A quick release container holding apparatus as claimed in claim 3 wherein: the elastic component be compression spring, compression spring's both ends are connected respectively in the elastic component mounting groove of a pair of cylindric installation axle.

5. A quick release container holding apparatus as claimed in any one of claims 1 to 4 wherein: the draw-in groove on the rotating block body is U style of calligraphy, U style of calligraphy draw-in groove one end opening, the other end be the circular arc blind end, wears to establish and all leaves the rotation clearance between the inner wall of the draw-in groove of the installation piece that is located the draw-in groove on the guiding axle and the circular arc blind end that corresponds, and the width in clearance is ensured: after the elastic component is dismantled, the installation piece of draw-in groove opening one end can rotate upwards around the guiding axle until the installation piece draw-in groove of installation piece breaks away from with the connecting axle card keeps off the portion mutually to remove the card of clamp splice and keep off spacingly.

6. A quick release container holding apparatus as claimed in any one of claims 1 to 4 wherein: still be provided with the card between support and the pair of rotating block and keep off positioning mechanism, the structure of the card that keeps off positioning mechanism between support and the pair of rotating block includes: the inner side wall of each rotating block, which is positioned at one end of the rotating shaft, is provided with a positioning stop block protruding outwards; the bottom of the support is provided with a support stop block protruding downwards; the rotating shafts on the pair of rotating blocks are respectively arranged in a pair of rotating shaft mounting holes on the support, and meanwhile, the support stop blocks are blocked on the positioning stop blocks of the pair of rotating blocks.

7. A quick release container holding apparatus as claimed in any one of claims 1 to 4 wherein: the support includes: the support body, the pivot mounting hole set up on the support body, the support dog is located the one end of support body, the other end of support body is provided with support connecting portion, has seted up a plurality of support connecting holes of usefulness of connection on the support connecting portion.