CN205021677U - Cutting mechanism - Google Patents
Cutting mechanism Download PDFInfo
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- CN205021677U CN205021677U CN201520746349.XU CN201520746349U CN205021677U CN 205021677 U CN205021677 U CN 205021677U CN 201520746349 U CN201520746349 U CN 201520746349U CN 205021677 U CN205021677 U CN 205021677U
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- conveyor belt
- lower conveyor
- gripper shoe
- cutting mechanism
- upper conveyor
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Abstract
The utility model provides a cutting mechanism, it includes: transport mechanism and slitting mill construct. Transport mechanism includes: lower conveyer belt rotates and drives to place around the Y direction and waits to cut the object motion to it on, go up the conveyer belt, set up in the top of conveyer belt down, around Y orientation and time reverse rotation of conveyer belt. The slitting mill structure includes: insulating hobbing cutter is right, along the setting of X orientation in last conveyer belt and the conveyer belt down low reaches of waiting to cut the position of object and adjacent with this position of nipping, wait to cut waiting between the partly process insulation hobbing cutter of the correspondence of cutting away two right insulating hobbing cutters, in order to cut away of object what correspond is partly. In the basis the utility model discloses an among the cutting mechanism, thereby based on lower conveyer belt, go up the conveyer belt and the tight and cutting of the clamp that can realize the battery is used in the right cooperation of insulating hobbing cutter, compatible strong, has improved productivity ratio greatly and lightened intensity of labour, is fit for automatic, the big production of scale.
Description
Technical field
The utility model relates generally to manufacturing technology field, particularly relates to a kind of cutting mechanism.
Background technology
Soft-packaged polymer lithium ion battery needs to trim side sealing in producing and waste battery cuts away closedtop limit; compress batch (-type) blanking mechanism or artificial scissors cutting one by one by batch (-type) in the current industry; the needs of automation, large-scale production can not be met completely; productivity ratio is extremely low, and labour intensity is very big.
Certainly, no matter being lithium ion battery industry or other industry, is the key realizing enhancing productivity and expanding the scale of production for trimming continuous production process.Continuity improvement for cutting can obtain the appreciation of some crowd.
Utility model content
In view of Problems existing in background technology, an object of the present utility model is to provide a kind of cutting mechanism, and it is compatible strong, can greatly boost productivity and reduce labor intensity, and is applicable to automation, the large production of scale.
To achieve these goals, the utility model provides a kind of cutting mechanism, and it comprises: connecting gear and rolling and cutting mechanism.Connecting gear comprises: lower conveyor belt, rotates and drive the object motion to be cut be placed on it around Y-direction; Upper conveyor belt, is arranged at the top of lower conveyor belt, and around Y-direction and lower conveyor belt backwards rotation, upper conveyor belt and lower conveyor belt in the side of X-direction are the feed zone of object to be cut and contrary opposite side is the discharge zone of object to be cut.Rolling and cutting mechanism comprises: insulation hobboing cutter pair, be arranged on upper conveyor belt and lower conveyor belt in X direction to nip the downstream of position of object to be cut adjacent with this position, a correspondence part to be cut away for object to be cut is passed through between two right insulation hobboing cutters of insulation hobboing cutter, to cut away a part for described correspondence.
The beneficial effects of the utility model are as follows:
According in cutting mechanism of the present utility model; connecting gear comprises lower conveyor belt and upper conveyor belt; rolling and cutting mechanism comprises insulation hobboing cutter pair; based on they with the use of thus clamping and the cutting of battery can be realized; compatible strong; substantially increase productivity ratio and alleviate labour intensity, being applicable to automation, the large production of scale.
Accompanying drawing explanation
Fig. 1 is the stereogram according to the utility model flexible-packed battery cutting mechanism;
Fig. 2 is the front view according to the utility model flexible-packed battery cutting mechanism;
Fig. 3 is the front view of the rolling and cutting mechanism according to the utility model flexible-packed battery cutting mechanism.
Fig. 4 is the top view according to the utility model flexible-packed battery cutting mechanism.
Wherein, description of reference numerals is as follows:
B object 1,121 first to be cut safety guard
Pt closedtop limit 1,122 second safety guard
Ps side sealing 12 hobboing cutter position extends mark
T lug 13 adjustable positioning plate
11 connecting gear 14 gap adjusting mechanisms
1101 lower conveyor belt 141 frame plates
1102 lower conveyor belt gripper shoe 142 connecting plates
11021 lower opening 143 regulating handles
1103 upper conveyor belt 144 upper conveyor belt side connectors
1104 upper conveyor belt gripper shoe 145 lower conveyor belt side connectors
Hole 146 guide pillar on 11041
1105 charging power motor 147 guide pin bushings
1106 power motor sprocket wheel 15 rolling and cutting mechanisms
1107 lower conveyor belt X upstream side roller 151 insulate hobboing cutter pair
Cylinder 152 Electric machine with gear-box
1108 lower conveyor belt X are to downstream roller 153 support
Cylinder 154 slide blocks
1109 lower conveyor belt power chain 155 nut-screw rod mechanisms
1110 power chain 16 machine seat boards
1111 lower conveyor belt roller coaxial sprocket 17 upper conveyor belt strainers
1112 lower conveyor belt commutation position sprocket wheel 171 upper slides
Fixed block on 1113 lower conveyor belt chains 172
Screw rod on 1114 lower conveyor belt commutation position gears 173
Tension pole on 1115 upper conveyor belt commutation position gears 174
1116 upper conveyor belt commutation position sprocket wheel 18 lower conveyor belt strainers
1117 upper conveyor belt X are side roller 181 lower skateboard upstream
Cylinder 182 times fixed blocks
1118 upper conveyor belt X are to downstream roller 183 times screw rods
Cylinder 184 times tension poles
1119 upper conveyor belt driven sprockets
1120 upper conveyor belt chains
Detailed description of the invention
Describe in detail with reference to the accompanying drawings according to flexible-packed battery cutting mechanism of the present utility model.
Referring to figs. 1 through Fig. 4, according to cutting mechanism of the present utility model, it comprises: connecting gear 11 and rolling and cutting mechanism 15.Connecting gear 11 comprises: lower conveyor belt 1101, rotates and drive the object B motion to be cut be placed on it around Y-direction; Upper conveyor belt 1103, be arranged at the top of lower conveyor belt 1101, around Y-direction and lower conveyor belt 1101 backwards rotation, upper conveyor belt 1103 and lower conveyor belt 1101 in the side of X-direction are the feed zone of object B to be cut and contrary opposite side is the discharge zone of object B to be cut.Rolling and cutting mechanism 15 comprises: insulation hobboing cutter is to 151, be arranged on upper conveyor belt 1103 and lower conveyor belt 1101 in X direction to nip the downstream of position of object B to be cut adjacent with this position, the correspondence part to be cut away of object B to be cut through insulation hobboing cutter to 151 two insulation hobboing cutters between, to cut away a part for described correspondence.
According in cutting mechanism of the present utility model; connecting gear 11 comprises lower conveyor belt 1101 and upper conveyor belt 1103; rolling and cutting mechanism 15 comprises insulation hobboing cutter to 151; based on they with the use of thus clamping and the cutting of battery can be realized; compatible strong; substantially increase productivity ratio and alleviate labour intensity, being applicable to automation, the large production of scale.
In one embodiment, the linear velocity in X direction of upper conveyor belt 1103 is identical with the linear velocity in X direction of lower conveyor belt 1101.
In one embodiment, with reference to Fig. 1, described cutting mechanism also can comprise: hobboing cutter position extends mark 12, extends in X direction and is arranged on the outside at the edge along Y-direction of lower conveyor belt 1101.Further, with reference to Fig. 4, described cutting mechanism also comprises: adjustable positioning plate 13, be positioned to be positioned at above lower conveyor belt 1101 and along Y-direction and extend the relative side of mark 12 with hobboing cutter position, can move back and forth along Y-direction actively, this part to be cut away cutting position is in the Y direction positioned at hobboing cutter position extends mark 12 place with the side relative with part to be cut away being close to object B to be cut, this part to be cut away cutting position in the Y direction protrudes from the respective edges in the Y direction of lower conveyor belt 1101, lower conveyor belt 1101 is switched to 151 to avoid insulation hobboing cutter.
In one embodiment, with reference to Fig. 1 and Fig. 4, described cutting mechanism also can comprise: adjustable positioning plate 13, is positioned at above lower conveyor belt 1101 and also can moves back and forth along Y-direction actively, with the side relative with part to be cut away being close to object B to be cut.
In one embodiment, the linear velocity that hobboing cutter rotates is not less than the linear velocity in X direction of upper conveyor belt 1103 and lower conveyor belt 1101.
In one embodiment, referring to figs. 1 through Fig. 4, connecting gear 11 also can comprise: lower conveyor belt gripper shoe 1102, for supporting lower conveyor belt 1101; Upper conveyor belt gripper shoe 1104, for supporting upper conveyor belt 1103; Charging power motor 1105, has the rotating output shaft being in the side identical with adjustable positioning plate 13; Power motor sprocket wheel 1106, is installed on rotating output shaft; Lower conveyor belt X is side roller 1107 upstream, is installed in lower conveyor belt gripper shoe 1102 rotatably; Lower conveyor belt X to downstream roller 1108, to be installed on rotatably in lower conveyor belt gripper shoe 1102 and with lower conveyor belt X upstream side roller 1,107 one be used from and make above lower conveyor belt 1101 is arranged on; Lower conveyor belt power chain 1109, is installed on the side that the Y-direction of lower conveyor belt X upstream side roller 1107 is identical with adjustable positioning plate 13; Power chain 1110, is installed on power motor sprocket wheel 1106 and lower conveyor belt power chain 1109; Lower conveyor belt roller coaxial sprocket 1111, is co-axially mounted on the side contrary with lower conveyor belt power chain 1109 of lower conveyor belt X upstream side roller 1107 along Y-direction and lower conveyor belt power chain 1109; Lower conveyor belt commutation position sprocket wheel 1112, be positioned at lower conveyor belt roller coaxial sprocket 1111 downstream, pivotable is installed on lower conveyor belt gripper shoe 1102; Lower conveyor belt chain 1113, is installed on lower conveyor belt roller coaxial sprocket 1111 and lower conveyor belt commutation position sprocket wheel 1112; Lower conveyor belt commutation position gear 1114, commutates together with position sprocket wheel 1112 is co-axially mounted on lower conveyor belt; Upper conveyor belt commutation position gear 1115, is positioned at lower conveyor belt commutation gear 1114 downstream, position in X direction, and pivotable is installed on lower conveyor belt gripper shoe 1102 and engages with the lower conveyor belt position gear 1114 that commutates; Upper conveyor belt commutation position sprocket wheel 1116, is coaxially installed together with the upper conveyor belt position gear 1115 that commutates; Upper conveyor belt X is side roller 1117 upstream, is installed in upper conveyor belt gripper shoe 1104 rotatably; Upper conveyor belt X to downstream roller 1118, to be installed on rotatably in upper conveyor belt gripper shoe 1104 and with upper conveyor belt X upstream side roller 1,117 one be used from and make above upper conveyor belt is arranged on; Upper conveyor belt driven sprocket 1119, can be installed on upper conveyor belt X upstream side roller 1117 rotatably; Upper conveyor belt chain 1120, is connected on upper conveyor belt commutation position sprocket wheel 1116 and upper conveyor belt driven sprocket 1119.Further, with reference to Fig. 1, connecting gear 11 also can comprise: the first safety guard 1121, hides power motor sprocket wheel 1106, lower conveyor belt power chain 1109 and power chain 1110.With reference to Fig. 1, connecting gear 11 also can comprise: the second safety guard 1122, hides lower conveyor belt roller coaxial sprocket 1111, lower conveyor belt commutation position sprocket wheel 1112, lower conveyor belt commutation position gear 1114, upper conveyor belt commutation position gear 1115 and lower conveyor belt chain 1113.
In one embodiment, referring to figs. 1 through Fig. 4, described cutting mechanism also can comprise: gap adjusting mechanism 14, for adjusting the gap between upper conveyor belt 1103 and lower conveyor belt 1101 along Z-direction.Further, see figures.1.and.2, connecting gear 11 also can comprise: lower conveyor belt gripper shoe 1102, for supporting lower conveyor belt 1101; And upper conveyor belt gripper shoe 1104, for supporting upper conveyor belt 1103.With reference to Fig. 1, Fig. 2 and Fig. 4, gap adjusting mechanism 14 can comprise: frame plate 141; Connecting plate 142, is positioned at below frame plate 141 and both sides are fixedly connected on upper conveyor belt gripper shoe 1104 in the Y direction; Regulating handle 143, screw thread is arranged in frame plate 141 and contacts connecting plate 142; Upper conveyor belt side connector 144, side is fixedly connected on upper conveyor belt gripper shoe 1104; Lower conveyor belt side connector 145, be positioned at the below of upper conveyor belt side connector 144, side is fixedly connected on lower conveyor belt gripper shoe 1102; And guide pillar 146, be fixed on frame plate 141 along Z-direction one end and the other end maintains static, and be arranged in upper conveyor belt side connector 144 and lower conveyor belt side connector 145.Further, see figures.1.and.2, gap adjusting mechanism 14 also can comprise: guide pin bushing 147, is sheathed on guide pillar 146 and between upper conveyor belt side connector 144 and lower conveyor belt side connector 145.See figures.1.and.2, described cutting mechanism also can comprise: machine seat board 16, the described other end of fixed support guide pillar 146.
In one embodiment, with reference to Fig. 3, rolling and cutting mechanism 15 also can comprise: Electric machine with gear-box 152, for insulation hobboing cutter to 151 hobboing cutter rotate rotary power be provided; Support 153, installs Electric machine with gear-box 152; Slide block 154, is positioned at below support 153, is formed and forms with support 153 guide rail be slidably matched, can move along Y-direction by opposite rail to make support 153; And nut-screw rod mechanism 155, to be fixed on slide block 154 and to be positioned at guide rail outer and form nut-screw rod transmission with support 153, to move along Y-direction to drive support 153 opposite rail.
In one embodiment, insulation hobboing cutter can be ceramic hobboing cutter to 151, does not certainly limit so, also can be the hobboing cutter of other material.
In one embodiment, see figures.1.and.2, connecting gear 11 also can comprise: upper conveyor belt gripper shoe 1104, for supporting upper conveyor belt 1103, being provided with and running through and the upper hole 11041 extended in X direction along Y-direction; And upper conveyor belt X is to downstream roller 1118, to be installed on rotatably in upper conveyor belt gripper shoe 1104 and for making above upper conveyor belt 1103 is arranged on.With reference to Fig. 1, described cutting mechanism also can comprise upper conveyor belt strainer 17.Upper conveyor belt strainer 17 comprises: upper slide 171, outside the Y-direction being in upper conveyor belt gripper shoe 1104; Upper fixed block 172, is in the upstream of upper slide 171 in X direction and is fixed on outside upper conveyor belt gripper shoe 1104 along Y-direction; Upper screw rod 173, upper slide 171 is fixed on and the other end is threadably arranged in fixed block 172 in one end in X direction; And upper tension pole 174, be rotatably arranged in upper slide 171, through upper conveyor belt gripper shoe 1104 upper hole 11041 and be connected to the rotating shaft (not shown) of upper conveyor belt X to downstream roller 1118.Wherein, upper screw rod 173 threading action in X direction, and then promotion upper slide 171 moves in X direction, move in X direction in the upper hole 11041 of upper conveyor belt gripper shoe 1104 to drive upper tension pole 174 thus, thus drive upper conveyor belt X to move in X direction to the rotating shaft of downstream roller 1118 and upper conveyor belt X to downstream roller 1118, thus tensioning adjustment is carried out to upper conveyor belt 1103.
In one embodiment, see figures.1.and.2, connecting gear 11 also can comprise: lower conveyor belt gripper shoe 1102, for supporting lower conveyor belt 1101, being provided with and running through and the lower opening 11021 extended in X direction along Y-direction; And lower conveyor belt X is to downstream roller 1108, to be installed on rotatably in lower conveyor belt gripper shoe 1102 and for making above lower conveyor belt 1101 is arranged on.With reference to Fig. 1, described cutting mechanism also can comprise lower conveyor belt strainer 18.Lower conveyor belt strainer 18 comprises: lower skateboard 181, outside the Y-direction being in lower conveyor belt gripper shoe 1102; Lower fixed block 182, is in the upstream of lower skateboard 181 in X direction and is fixed on outside lower conveyor belt gripper shoe 1102 along Y-direction; Lower screw rod 183, lower skateboard 181 is fixed on and the other end is threadably arranged in lower fixed block 182 in one end in X direction; And lower tension pole 184, be rotatably arranged in lower skateboard 181, through lower conveyor belt gripper shoe 1102 lower opening 11021 and be connected to the rotating shaft (not shown) of lower conveyor belt X to downstream roller 1108.Wherein, lower screw rod 183 threading action in X direction, and then promotion lower skateboard 181 moves in X direction, move in X direction in the lower opening 11021 of lower conveyor belt gripper shoe 1102 to drive lower tension pole 184 thus, thus drive lower conveyor belt X to move in X direction to the rotating shaft of downstream roller 1108 and lower conveyor belt X to downstream roller 1108, thus tensioning adjustment is carried out to lower conveyor belt 1101.
In one embodiment, object B to be cut can be flexible-packed battery, and part to be cut away is closedtop limit Pt, and the part of a part for the correspondence of closedtop limit Pt together with the lug T at Pt place, closedtop limit is cut away 151 by insulation hobboing cutter, certainly do not limit so, also can be other object to be cut.
In one embodiment, object B to be cut can be flexible-packed battery, and part to be cut away is side sealing Ps, does not certainly limit so, also can be other object to be cut.
Claims (10)
1. a cutting mechanism, is characterized in that, comprising:
Connecting gear (11), comprising:
Lower conveyor belt (1101), rotates around Y-direction and drives object to be cut (B) motion be placed on it;
Upper conveyor belt (1103), be arranged at the top of lower conveyor belt (1101), around Y-direction and lower conveyor belt (1101) backwards rotation, upper conveyor belt (1103) and lower conveyor belt (1101) in the side of X-direction are the feed zone of object to be cut (B) and contrary opposite side is the discharge zone of object to be cut (B); And
Rolling and cutting mechanism (15), comprising:
Insulation hobboing cutter is to (151), be arranged on upper conveyor belt (1103) and lower conveyor belt (1101) in X direction to nip the downstream of position of object to be cut (B) adjacent with this position, a correspondence part to be cut away for object to be cut (B) insulate between hobboing cutters, to cut away a part for described correspondence through insulation hobboing cutter to two of (151).
2. cutting mechanism according to claim 1, is characterized in that, described cutting mechanism also comprises:
Hobboing cutter position extends mark (12), extends in X direction and is arranged on the outside at the edge along Y-direction of lower conveyor belt (1101).
3. cutting mechanism according to claim 1, is characterized in that, described cutting mechanism also comprises:
Adjustable positioning plate (13), is positioned at lower conveyor belt (1101) top and can moves back and forth along Y-direction actively, to be close to the side relative with part to be cut away of object to be cut (B).
4. cutting mechanism according to claim 1, is characterized in that, described cutting mechanism also comprises:
Adjustable positioning plate (13), be positioned at lower conveyor belt (1101) top and be positioned to extend with hobboing cutter position along Y-direction and identify (12) relative side, can move back and forth along Y-direction actively, to be close to the side relative with part to be cut away of object to be cut (B) and this part to be cut away cutting position to be in the Y direction positioned at hobboing cutter position and to extend and identify (12) place, this part to be cut away cutting position in the Y direction protrudes from the respective edges in the Y direction of lower conveyor belt (1101).
5. the cutting mechanism according to claim 3 or 4, is characterized in that, connecting gear (11) also comprises:
Lower conveyor belt gripper shoe (1102), for supporting lower conveyor belt (1101);
Upper conveyor belt gripper shoe (1104), for supporting upper conveyor belt (1103);
Charging power motor (1105), has the rotating output shaft being in the side identical with adjustable positioning plate (13);
Power motor sprocket wheel (1106), is installed on rotating output shaft;
Lower conveyor belt X is side roller (1107) upstream, is installed in lower conveyor belt gripper shoe (1102) rotatably;
Lower conveyor belt X to downstream roller (1108), be installed on rotatably lower conveyor belt gripper shoe (1102) upper and with lower conveyor belt X upstream side roller (1107) be used from and make above lower conveyor belt (1101) is arranged on;
Lower conveyor belt power chain (1109), is installed on the side that the Y-direction of lower conveyor belt X upstream side roller (1107) is identical with adjustable positioning plate (13);
Power chain (1110), is installed on power motor sprocket wheel (1106) and lower conveyor belt power chain (1109);
Lower conveyor belt roller coaxial sprocket (1111), is co-axially mounted on the side contrary with lower conveyor belt power chain (1109) of lower conveyor belt X upstream side roller (1107) along Y-direction and lower conveyor belt power chain (1109);
Lower conveyor belt commutation position sprocket wheel (1112), be positioned at lower conveyor belt roller coaxial sprocket (1111) downstream, pivotable is installed on lower conveyor belt gripper shoe (1102);
Lower conveyor belt chain (1113), is installed on lower conveyor belt roller coaxial sprocket (1111) and lower conveyor belt commutation position sprocket wheel (1112);
Lower conveyor belt commutation position gear (1114), commutates together with position sprocket wheel (1112) is co-axially mounted on lower conveyor belt;
Upper conveyor belt commutation position gear (1115), be positioned at lower conveyor belt commutation gear (1114) downstream, position in X direction, pivotable is installed on lower conveyor belt gripper shoe (1102) and engages with the lower conveyor belt position gear (1114) that commutates;
Upper conveyor belt commutation position sprocket wheel (1116), is coaxially installed together with the upper conveyor belt position gear (1115) that commutates;
Upper conveyor belt X is side roller (1117) upstream, is installed in upper conveyor belt gripper shoe (1104) rotatably;
Upper conveyor belt X to downstream roller (1118), be installed on rotatably upper conveyor belt gripper shoe (1104) upper and with upper conveyor belt X upstream side roller (1117) be used from and make above upper conveyor belt is arranged on;
Upper conveyor belt driven sprocket (1119), can be installed on upper conveyor belt X upstream side roller (1117) rotatably; And
Upper conveyor belt chain (1120), is connected on upper conveyor belt commutation position sprocket wheel (1116) and upper conveyor belt driven sprocket (1119).
6. cutting mechanism according to claim 1, is characterized in that, described cutting mechanism also comprises:
Gap adjusting mechanism (14), for adjusting the gap between upper conveyor belt (1103) and lower conveyor belt (1101) along Z-direction.
7. cutting mechanism according to claim 6, is characterized in that,
Connecting gear (11) also comprises:
Lower conveyor belt gripper shoe (1102), for supporting lower conveyor belt (1101); And
Upper conveyor belt gripper shoe (1104), for supporting upper conveyor belt (1103);
Gap adjusting mechanism (14) comprising:
Frame plate (141);
Connecting plate (142), is positioned at frame plate (141) below and both sides are fixedly connected on upper conveyor belt gripper shoe (1104) in the Y direction;
Regulating handle (143), screw thread is arranged in frame plate (141) and contacts connecting plate (142);
Upper conveyor belt side connector (144), side is fixedly connected on upper conveyor belt gripper shoe (1104);
Lower conveyor belt side connector (145), is positioned at the below of upper conveyor belt side connector (144), and side is fixedly connected on lower conveyor belt gripper shoe (1102); And
Guide pillar (146), is fixed on frame plate (141) and the other end maintains static, and is arranged in upper conveyor belt side connector (144) and lower conveyor belt side connector (145) along Z-direction one end.
8. cutting mechanism according to claim 1, is characterized in that, rolling and cutting mechanism (15) also comprises:
Electric machine with gear-box (152), for the hobboing cutter rotation of insulation hobboing cutter to (151) provides rotary power;
Support (153), installs Electric machine with gear-box (152);
Slide block (154), is positioned at support (153) below, is formed and forms with support (153) guide rail be slidably matched, can move along Y-direction by opposite rail to make support (153); And
Nut-screw rod mechanism (155), is fixed on slide block (154) and goes up and to be positioned at guide rail outer and form nut-screw rod transmission with support (153), move to drive support (153) opposite rail along Y-direction.
9. cutting mechanism according to claim 1, is characterized in that,
Connecting gear (11) also comprises:
Upper conveyor belt gripper shoe (1104), for supporting upper conveyor belt (1103), being provided with and running through and the upper hole (11041) extended in X direction along Y-direction; And
Upper conveyor belt X, to downstream roller (1118), is installed on upper conveyor belt gripper shoe (1104) upper and for making above upper conveyor belt (1103) is arranged on rotatably;
Described cutting mechanism also comprises:
Upper conveyor belt strainer (17), comprising:
Upper slide (171), outside the Y-direction being in upper conveyor belt gripper shoe (1104);
Upper fixed block (172), is in the upstream of upper slide (171) in X direction and is fixed on upper conveyor belt gripper shoe (1104) outside along Y-direction;
Upper screw rod (173), upper slide (171) is fixed on and the other end is threadably arranged in fixed block (172) in one end in X direction; And
Upper tension pole (174), be rotatably arranged in upper slide (171), through upper conveyor belt gripper shoe (1104) upper hole (11041) and be connected to the rotating shaft of upper conveyor belt X to downstream roller (1118).
10. cutting mechanism according to claim 1, is characterized in that,
Connecting gear (11) also comprises:
Lower conveyor belt gripper shoe (1102), for supporting lower conveyor belt (1101), being provided with and running through and the lower opening (11021) extended in X direction along Y-direction; And lower conveyor belt X is to downstream roller (1108), be installed on lower conveyor belt gripper shoe (1102) rotatably upper and for making above lower conveyor belt (1101) is arranged on;
Described cutting mechanism also comprises:
Lower conveyor belt strainer (18), comprising:
Lower skateboard (181), outside the Y-direction being in lower conveyor belt gripper shoe (1102);
Lower fixed block (182), is in the upstream of lower skateboard (181) in X direction and is fixed on lower conveyor belt gripper shoe (1102) outside along Y-direction;
Lower screw rod (183), lower skateboard (181) is fixed on and the other end is threadably arranged in lower fixed block (182) in one end in X direction; And
Lower tension pole (184), be rotatably arranged in lower skateboard (181), through lower conveyor belt gripper shoe (1102) lower opening (11021) and be connected to the rotating shaft of lower conveyor belt X to downstream roller (1108).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520746349.XU CN205021677U (en) | 2015-09-24 | 2015-09-24 | Cutting mechanism |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520746349.XU CN205021677U (en) | 2015-09-24 | 2015-09-24 | Cutting mechanism |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205021677U true CN205021677U (en) | 2016-02-10 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520746349.XU Active CN205021677U (en) | 2015-09-24 | 2015-09-24 | Cutting mechanism |
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| Country | Link |
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| CN (1) | CN205021677U (en) |
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106552855A (en) * | 2017-01-17 | 2017-04-05 | 深圳市海得地实业有限公司 | A kind of pole piece formation system |
| CN108248105A (en) * | 2018-03-22 | 2018-07-06 | 济南泰德包装科技有限公司 | A kind of automatic dicer with collecting mechanism |
| CN109049860A (en) * | 2018-08-14 | 2018-12-21 | 金华市恒宇包装有限公司 | A kind of instant noodle bowl lid cutting production line |
| CN117817980A (en) * | 2024-03-06 | 2024-04-05 | 洛阳胶联减振科技有限公司 | Full-automatic trimming equipment for plastic dust cover water gap material |
| CN117817980B (en) * | 2024-03-06 | 2024-06-04 | 洛阳胶联减振科技有限公司 | Full-automatic trimming equipment for plastic dust cover water gap material |
-
2015
- 2015-09-24 CN CN201520746349.XU patent/CN205021677U/en active Active
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106552855A (en) * | 2017-01-17 | 2017-04-05 | 深圳市海得地实业有限公司 | A kind of pole piece formation system |
| CN106552855B (en) * | 2017-01-17 | 2018-03-30 | 深圳市海得地实业有限公司 | A kind of pole piece formation system |
| CN108248105A (en) * | 2018-03-22 | 2018-07-06 | 济南泰德包装科技有限公司 | A kind of automatic dicer with collecting mechanism |
| CN109049860A (en) * | 2018-08-14 | 2018-12-21 | 金华市恒宇包装有限公司 | A kind of instant noodle bowl lid cutting production line |
| CN109049860B (en) * | 2018-08-14 | 2023-11-03 | 金华市恒宇包装有限公司 | Instant noodle bowl cover cutting production line |
| CN117817980A (en) * | 2024-03-06 | 2024-04-05 | 洛阳胶联减振科技有限公司 | Full-automatic trimming equipment for plastic dust cover water gap material |
| CN117817980B (en) * | 2024-03-06 | 2024-06-04 | 洛阳胶联减振科技有限公司 | Full-automatic trimming equipment for plastic dust cover water gap material |
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