CN210079733U - Glass bottle body double-cavity crusher - Google Patents

Abstract

The utility model provides a double-cavity grinder for glass bottles, which relates to the technical field of recycling of glass containers and comprises a base body, a vibration hammer, two sets of grinding assemblies and a driving assembly; the lower end of the vibration hammer is provided with a hammer handle, and the lower end of the hammer handle is hinged with the base body; two sets of crushing unit symmetries set up in vibrations hammer both sides, include fixing base, removal seat and guide rail respectively, and the fixing base encloses synthetic opening with the removal seat and upwards just is used for holding the cavity of glass bottle. The utility model provides a glass bottle two-chamber rubbing crusher, the effect of vibrations is strikeed in turn to both sides rubbing crusher subassembly is realized through the vibrations hammer that sets up between two rubbing crusher subassemblies, under drive assembly's actuating action, the vibrations hammer is strikeed and is removed the seat and make it remove to fixing base one side along the guide rail, and then make the glass bottle in the cavity broken under the vibrations extrusion of fixing base with removing the seat, be convenient for improve the crushing efficiency of glass bottle, the area of whole device has also been reduced simultaneously, and good practicality has.

Description

Glass bottle body double-cavity crusher

Technical Field

The utility model belongs to the technical field of glass container recycle, more specifically say, relate to a glass bottle two-chamber rubbing crusher.

Background

In the production process of wines and the like, for the bottle body package of wines, the mode of recycling old glass bottle bodies by crushing and grinding is often adopted, so that the production cost is reduced, and the effective utilization rate of resources is improved. The volume of the waste glass bottle bodies can be greatly reduced after the waste glass bottle bodies are crushed and processed, and the transportation amount of glass can be increased, so that the transportation efficiency is improved, and the waste glass is convenient to recycle.

The reducing mechanism of glass bottle body at present stage generally adopts following form, utilizes the cylinder that two levels set up, places the glass bottle body of treating kibbling in its middle gap department, and two cylinders rotate relatively, realize crushing rolling to the glass bottle body, but this kind of reducing mechanism generally smashes the effect relatively poor, has more the incomplete problem of smashing, and equipment volume is great simultaneously, uses inconveniently, and the life-span is lower, the batch production of being not convenient for.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a glass bottle two-chamber rubbing crusher to solve among the prior art glass bottle reducing mechanism and smash the technical problem that the effect is poor and bulky awkward.

In order to achieve the above object, the utility model adopts the following technical scheme: the glass bottle body double-cavity crusher comprises a seat body, a vibration hammer, two groups of crushing assemblies and a driving assembly; the lower end of the vibration hammer is provided with a hammer handle, the lower end of the hammer handle is hinged with the base body, and the articulated shaft is arranged along the front-back direction; the two groups of crushing assemblies are symmetrically arranged on two sides of the vibration hammer and respectively comprise a fixed seat arranged on one side far away from the vibration hammer and a movable seat arranged on one side close to the vibration hammer, a guide rail is arranged between the fixed seat and the movable seat, the movable seat can slide towards the fixed seat along the guide rail, and the fixed seat and the movable seat enclose a cavity for accommodating the glass bottle body; the driving component is arranged on the side part of the hammer handle and is used for driving the hammer handle to swing around the hinged shaft in a reciprocating mode.

As further optimization, each group of crushing assemblies is respectively provided with two guide rails, and the two guide rails are symmetrically arranged on the front side and the rear side of the cavity.

As a further optimization, the movable seat is provided with a through hole which is used for being in sliding fit with the guide rail.

As further optimization, one end of the guide rail is fixedly connected with the fixed seat, the other end of the guide rail protrudes out of the outer side face of the movable seat, and the protruding end is further provided with a limiting block which is used for being abutted against the outer side face of the movable seat.

As further optimization, crushing unit still including setting up in the fixing base and removing the elastic element between the seat, be equipped with on the inner wall of removal seat with the coaxial setting of through-hole and be used for holding elastic element's holding tank, the holding tank sets up in one side that the through-hole is close to the cavity and the holding tank internal diameter is greater than the internal diameter of through-hole.

As a further optimization, the cavity comprises a cylindrical cavity and an inverted cone-shaped cavity positioned at the lower part of the cylindrical cavity.

As a further optimization, a plurality of bulges which are arranged at intervals are arranged on the inner walls of the fixed seat and the movable seat, and the bulges are hard alloy components.

As a further optimization, the seat body is an insulating material component, and the hammer handle is a conductive material component; the driving assembly comprises an armature, a first contact, an electromagnet, a second contact, an energizing circuit and a resetting piece; the armature is arranged on one side of the hammer handle; the first contact is arranged on the other side of the hammer handle; the electromagnet is arranged on the outer side of the armature and is used for attracting the armature when being electrified; the second contact is arranged on the outer side of the first contact and is used for being in contact with the first contact; the electrifying circuit comprises a power supply and an electric wire which is sequentially communicated with the second contact, the electromagnet and the hammer handle; one end of the reset piece is connected with the base body, and the other end of the reset piece is connected with the lower part of the hammer handle and used for pushing the hammer handle to one side of the second contact.

As a further optimization, a first extending portion extending upwards and used for mounting the second contact is arranged on the base body, a second extending portion extending upwards is arranged on the other side of the base body, and a groove used for accommodating the reset piece is arranged on the inner side surface of the second extending portion.

As a further optimization, a switch is further arranged on the electrifying circuit.

The utility model provides a glass bottle two-chamber rubbing crusher's beneficial effect lies in: the utility model provides a glass bottle two-chamber rubbing crusher, the effect of vibrations is strikeed in turn to both sides rubbing crusher subassembly is realized through the vibrations hammer that sets up between two rubbing crusher subassemblies, under drive assembly's actuating action, the vibrations hammer is strikeed and is removed the seat and make it remove to fixing base one side along the guide rail, and then make the glass bottle in the cavity broken under the vibrations extrusion of fixing base with removing the seat, be convenient for improve the crushing efficiency of glass bottle, the area of whole device has also been reduced simultaneously, and good practicality has.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic view of a partial cross-sectional structure of a glass bottle double-chamber crusher according to an embodiment of the present invention;

FIG. 2 is a top view partially in section of FIG. 1;

FIG. 3 is a schematic view of a portion I of FIG. 2;

fig. 4 is an enlarged schematic view of the seat, the hammer handle and the driving assembly in fig. 1.

In the figure: 100. vibrating a hammer; 110. a hammer handle; 200. a size reduction assembly; 210. a fixed seat; 220. a movable seat; 221. a through hole; 222. a limiting block; 230. a guide rail; 240. a cavity; 241. a cylindrical cavity; 242. a reverse tapered cavity; 250. an elastic element; 260. accommodating grooves; 270. a protrusion; 300. a drive assembly; 310. an armature; 320. a first contact; 330. an electromagnet; 340. a second contact; 350. a power-on circuit; 360. a power source; 370. an electric wire; 380. a reset member; 390. a switch; 400. a base body; 410. a first extension portion; 420. a second extension portion.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 4 together, a description will now be given of a glass bottle double-chamber crusher according to the present invention. The glass bottle double-cavity crusher comprises a seat body 400, a vibration hammer 100, two groups of crushing assemblies 200 and a driving assembly 300; the lower end of the vibration hammer 100 is provided with a hammer handle 110, the lower end of the hammer handle 110 is hinged with the base 400, and a hinged shaft is arranged along the front-back direction; the two groups of crushing assemblies 200 are symmetrically arranged at two sides of the vibration hammer 100, and respectively comprise a fixed seat 210 arranged at one side far away from the vibration hammer 100 and a movable seat 220 arranged at one side close to the vibration hammer 100, a guide rail 230 is arranged between the fixed seat 210 and the movable seat 220, the movable seat 220 can slide towards the fixed seat 210 along the guide rail 230, and a cavity 240 for accommodating the glass bottle body is enclosed by the fixed seat 210 and the movable seat 220; the driving assembly 300 is disposed at a side portion of the hammer shank 110 and serves to drive the hammer shank 110 to swing reciprocally about the hinge axis. It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or be indirectly on the other element. The terms "upper", "lower", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the present invention. In this embodiment, the upper side refers to the feeding direction of the glass bottle, and the lower side refers to the discharging direction of the broken glass bottle. The front-to-back direction refers to a direction perpendicular to a line connecting the two pulverizing assemblies 200, that is, a direction perpendicular to a moving direction of the moving base 220 along the guide rail 230.

The vibrations hammer 100 of this device can realize reciprocating swing's action around the articulated shaft under drive assembly 300's effect, and then through the removal seat 220 of knocking both sides, makes removal seat 220 remove to fixing base 210 one side in the twinkling of an eye, realizes the garrulous effect of vibrations to the knocking of the glass bottle in cavity 240, finally realizes the crushing of glass bottle. Compare the traditional form that utilizes two main shafts to be the cylinder that the horizontality was arranged and carry out the extrusion to the glass bottle, the device has simple structure's characteristics, and vibrations hammer 100 has realized the extruded effect of both sides vibrations in turn to two crushing unit 200's alternative strikes, makes the crushing efficiency of glass bottle obtain effectual improvement.

The utility model provides a glass bottle two-chamber rubbing crusher, compared with the prior art, the utility model provides a glass bottle two-chamber rubbing crusher, the effect of vibrations is strikeed in turn to both sides rubbing crusher 200 is realized to vibrations hammer 100 through setting up between two rubbing crusher 200, under drive assembly 300's drive action, vibrations hammer 100 hammering removes seat 220 and makes it remove to fixing base 210 one side along guide rail 230, and then make the glass bottle in the cavity 240 broken under fixing base 210 and the vibrations extrusion of removing seat 220, be convenient for improve the crushing efficiency of glass bottle, the area of whole device has also been reduced simultaneously, good practicality has.

Referring to fig. 1 to 2, as an embodiment of the dual-chamber crusher for glass bottles of the present invention, each group of crushing assemblies 200 has two guide rails 230, and the two guide rails 230 are symmetrically disposed at the front and rear sides of the chamber 240. The guide rail 230 needs to be arranged in the area avoiding the cavity 240 and the area above the cavity 240 for feeding the glass bottle body, in this embodiment, the position avoiding the cavity 240 is arranged on the front side and the rear side of the fixed seat 210 and the movable seat 220, one end of the guide rail 230 is fixed on the fixed seat 210, the other end of the guide rail is connected with the movable seat 220 in a sliding manner, when the vibration hammer 100 strikes the movable seat 220, the movable seat 220 can move towards one side close to the fixed seat 210 along the guide rail 230, vibration extrusion of the glass bottle body in the cavity 240 is realized, and the effect of breaking the glass bottle body is achieved. The guide rail 230 effectively limits the movement of the movable base 220, and the guide rail 230 can also support the movable base 220 in the vertical direction, so as to ensure that the movable base 220 and the fixed base 210 are located at the same height. Two guide rails 230 carry out the bearing to removing seat 220 from back and forth both sides, can guarantee stable bearing effect. The guide rail 230 can be arranged above the fixed seat 210 and the movable seat 220, and can also be arranged below the fixed seat 210 and the movable seat 220, the above-mentioned components are arranged outside the fixed seat 210 and the movable seat 220, the corresponding movable seat 220 is provided with a component in sliding fit with the guide rail 230, the guide rail 230 can be in a C-shaped groove section, the corresponding upper outer side of the movable seat 220 is provided with a slide block, the guide rail 230 can also be in a cylindrical shape, and the corresponding upper outer side of the movable seat 220 is provided with a lantern ring sleeved on the outer side of the guide rail 230, so that a good guiding effect can be realized.

Referring to fig. 1 to 3, in an embodiment of the dual chamber crusher for glass bottles of the present invention, a through hole 221 for slidably engaging with a guide rail 230 is formed on the movable base 220. In this embodiment, the cylindrical guide rail 230 is fixed on the side surface of the fixed seat 210 close to the movable seat 220, and the through hole 221 for accommodating the guide rail 230 is correspondingly formed in the movable seat 220, so that when the movable seat 220 moves, the guide rail 230 slides in the through hole 221, and this arrangement can effectively save space and avoid the problem of interference between the guide rail 230 and external components.

Referring to fig. 1 to 3, as an embodiment of the dual-chamber crusher for glass bottles of the present invention, one end of the guide rail 230 is fixedly connected to the fixing base 210, and the other end thereof protrudes from the outer side of the movable base 220, and the protruding end is further provided with a stopper 222 for abutting against the outer side of the movable base 220. The setting of stopper 222 can avoid removing the seat 220 to the one side displacement amplitude of keeping away from fixing base 210 too big and cause the problem that contact length between 230 and the removal seat 220 is too little and cause unstable bearing to removing the seat 220, and the too big problem of removal seat 220 action amplitude has been avoided in the setting of stopper 222, to removing the seat 220 to the injecing of the displacement amplitude of keeping away from fixing base 210 one side, has guaranteed good spacing effect.

Referring to fig. 1 to 3, as a specific embodiment of the glass bottle dual-chamber crusher of the present invention, the crushing assembly 200 further includes an elastic element 250 disposed between the fixed seat 210 and the movable seat 220, an accommodating groove 260 disposed coaxially with the through hole 221 and used for accommodating the elastic element 250 is disposed on the inner wall of the movable seat 220, the accommodating groove 260 is disposed on one side of the through hole 221 close to the cavity 240, and the inner diameter of the accommodating groove 260 is greater than the inner diameter of the through hole 221. The elastic element 250 is arranged to realize the effect of moving the seat 220 to one side away from the fixed seat 210 when the vibration hammer 100 is separated from the moving seat 220 on the side, so that the distance between the moving seat 220 and the fixed seat 210 is increased, the vibration hammer 100 is favorable for generating a larger knocking vibration effect on the moving seat 220, the moving seat 220 is enabled to move a larger distance, the larger collision impact on the glass bottle body in the cavity 240 is realized, and the crushing efficiency is improved. Meanwhile, the glass bottle bodies with different diameters can be adjusted in size in the non-knocking state by adjusting the length of the elastic element 250, so that the crushing effect of the device on the glass bottle bodies with different specifications is facilitated.

Referring to fig. 1 to 2, as an embodiment of the dual chamber crusher for glass bottles of the present invention, the chamber 240 includes a cylindrical chamber 241 and an inverted conical chamber 242 located at a lower portion of the cylindrical chamber 241. The cavity 240 in this embodiment sets up to the form similar with the appearance of the glass bottle body of putting upside down, can restrict the effect of the size of the glass sediment after smashing effectively, the cylinder chamber 241 that is located the top can hold the glass sediment of great size, but this part glass sediment can receive the restriction of the internal diameter size of the inverted cone shape chamber 242 of below, only when the glass sediment is shaken garrulous to being less than after the internal diameter size of below inverted cone shape chamber 242 can leak from its lower lip, be convenient for guarantee that the glass sediment can smash to the effect that can only be discharged below the certain size, crushing quality has been guaranteed.

Referring to fig. 1 to 2, as a specific embodiment of the glass bottle dual-chamber crusher of the present invention, a plurality of protrusions 270 are disposed on the inner walls of the fixed seat 210 and the movable seat 220 at intervals, and the protrusions 270 are made of hard alloy. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise. When removing seat 220 and striking to fixing base 210 one side, the impact is certain, and the setting of arch 270 can effectual increase inner wall to the pressure of glass bottle striking, improves the crushing effect to the glass bottle. The outer end of the protrusion 270 is in a tip form, the protrusion 270 is made of hard alloy, the hard alloy is made of hard compounds of refractory metals and bonding metals through a powder metallurgy process, the hard alloy has the advantages of being high in hardness, wear-resistant, good in strength and toughness, and good in heat resistance and corrosion resistance, the protrusion 270 made of the hard alloy can effectively prolong the service life of equipment, reduce replacement frequency and improve the using economy of the equipment in the embodiment.

Referring to fig. 1 to 4, as a specific embodiment of the glass bottle dual-chamber crusher of the present invention, the seat 400 is an insulating material member, and the hammer handle 110 is a conductive material member; the driving assembly 300 includes an armature 310, a first contact 320, an electromagnet 330, a second contact 340, an energizing circuit 350, and a reset element 380; the armature 310 is disposed on one side of the hammer shank 110; the first contact 320 is arranged at the other side of the hammer handle 110; the electromagnet 330 is disposed outside the armature 310 and is used for attracting the armature 310 when being electrified; the second contact 340 is disposed outside the first contact 320 and is used for contacting with the first contact 320; the power circuit 350 includes a power source 360 and a power line 370 that sequentially connects the second contact 340, the electromagnet 330, and the hammer shank 110; one end of the reset member 380 is connected to the base 400, and the other end is connected to the lower portion of the hammer handle 110 and is used for pushing the hammer handle 110 toward the second contact 340. The power-on circuit 350 is also provided with a switch 390. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. The driving assembly 300 of the present embodiment adopts an electromagnetic principle, and utilizes a conducting circuit to realize the adsorption of the electromagnet 330 to the armature 310 on the hammer handle 110, at this time, the first contact 320 and the second contact 340 are disconnected, and under the thrust action of the reset member 380, the vibration hammer 100 swings to one side where the first contact 320 and the second contact 340 are contacted, so as to realize the cyclic knocking of the crushing assemblies 200 on both sides. To facilitate the mounting of the armature 310 and the first contact 320, the hammer handle 110 is in the form of a plate-shaped member, and the armature 310 provided on one side plate surface of the hammer handle 110 can be attracted by the fixed electromagnet 330. When the switch 390 is opened, even if the reset element 380 pushes the hammer handle 110 to the position where the first contact 320 and the second contact 340 are contacted, the conducting circuit 350 is not conducted, when the switch 390 is closed, the first contact 320 and the second contact 340 are contacted, the conducting circuit 350 is conducted, magnetic attraction is generated between the electromagnet 330 and the armature 310, the armature 310 drives the hammer handle 110 to move to one side of the electromagnet 330, the vibration hammer 100 realizes the impact vibration on the crushing assembly 200 of the electromagnet 330, at the moment, the first contact 320 and the second contact 340 are instantly disconnected, the conducting circuit 350 is disconnected, the attraction force between the electromagnet 330 and the armature 310 disappears, the reset element 380 pushes the hammer handle 110 to the position where the first contact 320 and the second contact 340 are contacted, at the moment, the vibration hammer 100 realizes the impact on the crushing assembly 200 far from one side of the electromagnet 330, the conducting circuit 350 is conducted, and the previous cycle is repeated, the vibration hammer 100 can rapidly swing back and forth, and the driving mode has the advantages of high driving speed and high vibration efficiency, and meanwhile, the cost of the device can be reduced, and the economical efficiency is improved.

Referring to fig. 1 and 4 together, as a specific embodiment of the glass bottle dual-chamber crusher of the present invention, a first extending portion 410 extending upward and used for installing the second contact 340 is disposed on the base 400, a second extending portion 420 extending upward is disposed on the other side of the base 400, and a groove for accommodating the reset element 380 is disposed on the inner side surface of the second extending portion 420. The base 400 is hinged to the hammer handle 110 to provide a stable foundation for the hammer handle 110, and the first contact 320 and the armature 310 on the hammer handle 110 implement an electromagnetic circuit to achieve the reciprocating swing of the vibration hammer 100. The second contact 340 on the first extension part 410 is used for realizing contact with the first contact 320 on the hammer handle 110, so that the conduction of the conducting line 350 is realized, the electromagnet 330 is electrified, the attraction to the armature 310 on the other side of the hammer handle 110 is realized, the hammer handle 110 is driven to swing towards one side of the electromagnet 330, meanwhile, the first contact 320 and the second contact 340 are separated, the circuit is disconnected, and under the action of the reset piece 380, the vibration hammer 100 swings towards one side far away from the electromagnet 330, so that the knocking on the crushing assembly 200 on the other side is realized. In practical use, the vibration hammer 100 has a high vibration frequency, has a good knocking and crushing effect, and is beneficial to improving the crushing efficiency.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. Glass bottle two-chamber rubbing crusher, its characterized in that includes:

a base body (400);

the lower end of the vibration hammer (100) is provided with a hammer handle (110), the lower end of the hammer handle (110) is hinged with the base body (400), and a hinged shaft is arranged along the front-back direction;

the two groups of crushing assemblies (200) are symmetrically arranged on two sides of the vibration hammer (100) and respectively comprise a fixed seat (210) arranged on one side far away from the vibration hammer (100) and a movable seat (220) arranged on one side close to the vibration hammer (100), a guide rail (230) is arranged between the fixed seat (210) and the movable seat (220), the movable seat (220) can slide towards the fixed seat (210) along the guide rail (230), and the fixed seat (210) and the movable seat (220) enclose a cavity (240) for accommodating a glass bottle body;

the driving component (300) is arranged on the side part of the hammer handle (110) and is used for driving the hammer handle (110) to swing around the hinge shaft in a reciprocating mode.

2. The dual-chamber crusher for glass bottles as claimed in claim 1, wherein each group of said crushing assemblies (200) has two said guide rails (230), and said two guide rails (230) are symmetrically disposed at the front and rear sides of said chamber (240).

3. The dual-chamber crusher for glass bottles as claimed in claim 2, wherein said movable base (220) is provided with a through hole (221) for sliding fit with said guide rail (230).

4. The dual-chamber crusher for glass bottles as claimed in claim 3, wherein one end of the guide rail (230) is fixed to the fixed base (210), the other end of the guide rail protrudes from the outer side of the movable base (220), and the protruding end is further provided with a stopper (222) for abutting against the outer side of the movable base (220).

5. The dual-chamber pulverizer for glass bottles of claim 3, wherein the pulverizing assembly (200) further comprises an elastic member (250) disposed between the fixed seat (210) and the movable seat (220), a receiving groove (260) disposed coaxially with the through hole (221) and used for receiving the elastic member (250) is disposed on an inner wall of the movable seat (220), the receiving groove (260) is disposed on a side of the through hole (221) close to the chamber (240) and an inner diameter of the receiving groove (260) is larger than an inner diameter of the through hole (221).

6. The dual-chamber crusher for glass bottles as claimed in claim 1, wherein said chamber (240) comprises a cylindrical chamber (241) and an inverted cone-shaped chamber (242) located at the lower part of said cylindrical chamber (241).

7. The dual-chamber crusher for glass bottles as claimed in claim 6, wherein the inner walls of the fixed seat (210) and the movable seat (220) are provided with a plurality of protrusions (270) arranged at intervals, and the protrusions (270) are made of hard alloy material.

8. The dual-chamber crusher for glass bottles as claimed in claim 1, wherein said seat (400) is an insulating material member, and said hammer handle (110) is a conductive material member; the drive assembly (300) comprises:

the armature (310) is fixedly arranged on one side of the hammer handle (110);

the first contact (320) is fixedly arranged on the other side of the hammer handle (110);

the electromagnet (330) is arranged on the outer side of the armature (310) and is used for attracting the armature (310) when being electrified;

a second contact (340) disposed outside the first contact (320) and configured to contact the first contact (320);

a power line (350) including a power source (360) and a power line (370) that sequentially communicates the second contact (340), the electromagnet (330), and the hammer shank (110);

and one end of the reset piece (380) is connected with the base body (400), and the other end of the reset piece is connected with the lower part of the hammer handle (110) and is used for pushing the hammer handle (110) to one side of the second contact (340).

9. The dual-chamber crusher for glass bottles as claimed in claim 8, wherein said base (400) is provided with a first extension (410) extending upward for mounting said second contact (340), and the other side of said base (400) is provided with a second extension (420) extending upward, and the inner side of said second extension (420) is provided with a groove for receiving said reset member (380).

10. The double-chamber crusher for glass bottles as claimed in claim 8, wherein said power-on circuit (350) is further provided with a switch (390).

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